/**************************************************************************** ** ** 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. ** ** In addition, as a special exception, Digia gives you certain additional ** 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. ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifndef QT_NO_OPENGL #include #endif #include #include "../../shared/util.h" #include "../platformquirks.h" static const Qt::WindowFlags DefaultWindowFlags = Qt::SubWindow | Qt::WindowSystemMenuHint | Qt::WindowTitleHint | Qt::WindowMinMaxButtonsHint | Qt::WindowCloseButtonHint; Q_DECLARE_METATYPE(QMdiArea::WindowOrder) Q_DECLARE_METATYPE(QMdiSubWindow *) Q_DECLARE_METATYPE(QList) Q_DECLARE_METATYPE(QTabWidget::TabPosition) //TESTED_CLASS= //TESTED_FILES= static bool tabBetweenSubWindowsIn(QMdiArea *mdiArea, int tabCount = -1, bool reverse = false) { if (!mdiArea) { qWarning("Null pointer to mdi area"); return false; } QList subWindows = mdiArea->subWindowList(); const bool walkThrough = tabCount == -1; if (walkThrough) { QMdiSubWindow *active = reverse ? subWindows.front() : subWindows.back(); mdiArea->setActiveSubWindow(active); if (mdiArea->activeSubWindow() != active) { qWarning("Failed to set active sub window"); return false; } tabCount = subWindows.size(); } QWidget *focusWidget = qApp->focusWidget(); if (!focusWidget) { qWarning("No focus widget"); return false; } Qt::KeyboardModifiers modifiers = reverse ? Qt::ShiftModifier : Qt::NoModifier; Qt::Key key; #ifdef Q_WS_MAC key = Qt::Key_Meta; modifiers |= Qt::MetaModifier; #else key = Qt::Key_Control; modifiers |= Qt::ControlModifier; #endif QTest::keyPress(focusWidget, key, modifiers); for (int i = 0; i < tabCount; ++i) { QTest::keyPress(focusWidget, reverse ? Qt::Key_Backtab : Qt::Key_Tab, modifiers); if (tabCount > 1) QTest::qWait(500); if (walkThrough) { QRubberBand *rubberBand = qFindChild(mdiArea->viewport()); if (!rubberBand) { qWarning("No rubber band"); return false; } QMdiSubWindow *subWindow = subWindows.at(reverse ? subWindows.size() -1 - i : i); if (rubberBand->geometry() != subWindow->geometry()) { qWarning("Rubber band has different geometry"); return false; } } qApp->processEvents(); } QTest::keyRelease(focusWidget, key); return true; } static inline QTabBar::Shape tabBarShapeFrom(QTabWidget::TabShape shape, QTabWidget::TabPosition position) { const bool rounded = (shape == QTabWidget::Rounded); if (position == QTabWidget::North) return rounded ? QTabBar::RoundedNorth : QTabBar::TriangularNorth; if (position == QTabWidget::South) return rounded ? QTabBar::RoundedSouth : QTabBar::TriangularSouth; if (position == QTabWidget::East) return rounded ? QTabBar::RoundedEast : QTabBar::TriangularEast; if (position == QTabWidget::West) return rounded ? QTabBar::RoundedWest : QTabBar::TriangularWest; return QTabBar::RoundedNorth; } enum Arrangement { Tiled, Cascaded }; static bool verifyArrangement(QMdiArea *mdiArea, Arrangement arrangement, const QList &expectedIndices) { if (!mdiArea || expectedIndices.isEmpty() || mdiArea->subWindowList().isEmpty()) return false; const QList subWindows = mdiArea->subWindowList(); const QMdiSubWindow *const firstSubWindow = subWindows.at(0); switch (arrangement) { case Tiled: { // Calculate the number of rows and columns. const int n = subWindows.count(); const int numColumns = qMax(qCeil(qSqrt(qreal(n))), 1); const int numRows = qMax((n % numColumns) ? (n / numColumns + 1) : (n / numColumns), 1); // Ensure that the geometry of all the subwindows are as expected by using // QWidget::childAt starting from the middle of the topleft cell and subsequently // adding rowWidth and rowHeight (going from left to right). const int columnWidth = mdiArea->viewport()->width() / numColumns; const int rowHeight = mdiArea->viewport()->height() / numRows; QPoint subWindowPos(columnWidth / 2, rowHeight / 2); for (int i = 0; i < numRows; ++i) { for (int j = 0; j < numColumns; ++j) { const int index = expectedIndices.at(i * numColumns + j); QWidget *actual = mdiArea->viewport()->childAt(subWindowPos); QMdiSubWindow *expected = subWindows.at(index); if (actual != expected && !expected->isAncestorOf(actual)) return false; subWindowPos.rx() += columnWidth; } subWindowPos.rx() = columnWidth / 2; subWindowPos.ry() += rowHeight; } break; } case Cascaded: { // Calculate the delta (dx, dy) between two cascaded subwindows. QStyleOptionTitleBar options; options.initFrom(firstSubWindow); int titleBarHeight = firstSubWindow->style()->pixelMetric(QStyle::PM_TitleBarHeight, &options); #ifdef Q_WS_MAC // ### Remove this after the mac style has been fixed if (qobject_cast(firstSubWindow->style())) titleBarHeight -= 4; #endif const QFontMetrics fontMetrics = QFontMetrics(QApplication::font("QWorkspaceTitleBar")); const int dy = qMax(titleBarHeight - (titleBarHeight - fontMetrics.height()) / 2, 1); const int dx = 10; // Current activation/stacking order. const QList activationOrderList = mdiArea->subWindowList(QMdiArea::ActivationHistoryOrder); // Ensure that the geometry of all the subwindows are as expected by using // QWidget::childAt with the position of the first one and subsequently adding // dx and dy. QPoint subWindowPos(20, 5); foreach (int expectedIndex, expectedIndices) { QMdiSubWindow *expected = subWindows.at(expectedIndex); expected->raise(); if (mdiArea->viewport()->childAt(subWindowPos) != expected) return false; expected->lower(); subWindowPos.rx() += dx; subWindowPos.ry() += dy; } // Restore stacking order. foreach (QMdiSubWindow *subWindow, activationOrderList) { mdiArea->setActiveSubWindow(subWindow); qApp->processEvents(); } break; } default: return false; } return true; } class tst_QMdiArea : public QObject { Q_OBJECT public: tst_QMdiArea(); public slots: void initTestCase(); protected slots: void activeChanged(QMdiSubWindow *child); private slots: // Tests from QWorkspace void subWindowActivated_data(); void subWindowActivated(); void subWindowActivated2(); void subWindowActivatedWithMinimize(); void showWindows(); void changeWindowTitle(); void changeModified(); void childSize(); void fixedSize(); // New tests void minimumSizeHint(); void sizeHint(); void setActiveSubWindow(); void activeSubWindow(); void currentSubWindow(); void addAndRemoveWindows(); void addAndRemoveWindowsWithReparenting(); void removeSubWindow_2(); void closeWindows(); void activateNextAndPreviousWindow(); void subWindowList_data(); void subWindowList(); void setBackground(); void setViewport(); void tileSubWindows(); void cascadeAndTileSubWindows(); void resizeMaximizedChildWindows_data(); void resizeMaximizedChildWindows(); void focusWidgetAfterAddSubWindow(); void dontMaximizeSubWindowOnActivation(); void delayedPlacement(); void iconGeometryInMenuBar(); void resizeTimer(); void updateScrollBars(); void setActivationOrder_data(); void setActivationOrder(); void tabBetweenSubWindows(); void setViewMode(); void setTabsClosable(); void setTabsMovable(); void setTabShape(); void setTabPosition_data(); void setTabPosition(); #if defined(Q_WS_WIN) || defined(Q_WS_X11) void nativeSubWindows(); #endif void task_209615(); void task_236750(); private: QMdiSubWindow *activeWindow; bool accelPressed; }; tst_QMdiArea::tst_QMdiArea() : activeWindow(0) { qRegisterMetaType(); } void tst_QMdiArea::initTestCase() { #ifdef Q_OS_WINCE //disable magic for WindowsCE qApp->setAutoMaximizeThreshold(-1); #endif } // Old QWorkspace tests void tst_QMdiArea::activeChanged(QMdiSubWindow *child) { activeWindow = child; } void tst_QMdiArea::subWindowActivated_data() { // define the test elements we're going to use QTest::addColumn("count"); // create a first testdata instance and fill it with data QTest::newRow( "data0" ) << 0; QTest::newRow( "data1" ) << 1; QTest::newRow( "data2" ) << 2; } void tst_QMdiArea::subWindowActivated() { QMainWindow mw(0) ; mw.menuBar(); QMdiArea *workspace = new QMdiArea(&mw); workspace->setObjectName(QLatin1String("testWidget")); mw.setCentralWidget(workspace); QSignalSpy spy(workspace, SIGNAL(subWindowActivated(QMdiSubWindow *))); connect( workspace, SIGNAL(subWindowActivated(QMdiSubWindow *)), this, SLOT(activeChanged(QMdiSubWindow *))); mw.show(); qApp->setActiveWindow(&mw); QFETCH( int, count ); int i; for ( i = 0; i < count; ++i ) { QWidget *widget = new QWidget(workspace, 0); widget->setAttribute(Qt::WA_DeleteOnClose); workspace->addSubWindow(widget)->show(); widget->show(); qApp->processEvents(); QVERIFY( activeWindow == workspace->activeSubWindow() ); QCOMPARE(spy.count(), 1); spy.clear(); } QList windows = workspace->subWindowList(); QCOMPARE( (int)windows.count(), count ); for ( i = 0; i < count; ++i ) { QMdiSubWindow *window = windows.at(i); window->showMinimized(); qApp->processEvents(); QVERIFY( activeWindow == workspace->activeSubWindow() ); if ( i == 1 ) QVERIFY( activeWindow == window ); } for ( i = 0; i < count; ++i ) { QMdiSubWindow *window = windows.at(i); window->showNormal(); qApp->processEvents(); QVERIFY( window == activeWindow ); QVERIFY( activeWindow == workspace->activeSubWindow() ); } spy.clear(); while (workspace->activeSubWindow() ) { workspace->activeSubWindow()->close(); qApp->processEvents(); QVERIFY(activeWindow == workspace->activeSubWindow()); QCOMPARE(spy.count(), 1); spy.clear(); } QVERIFY(activeWindow == 0); QVERIFY(workspace->activeSubWindow() == 0); QCOMPARE(workspace->subWindowList().count(), 0); { workspace->hide(); QWidget *widget = new QWidget(workspace); widget->setAttribute(Qt::WA_DeleteOnClose); QMdiSubWindow *window = workspace->addSubWindow(widget); widget->show(); QCOMPARE(spy.count(), 0); workspace->show(); QCOMPARE(spy.count(), 1); spy.clear(); QVERIFY( activeWindow == window ); window->close(); qApp->processEvents(); QCOMPARE(spy.count(), 1); spy.clear(); QVERIFY( activeWindow == 0 ); } { workspace->hide(); QWidget *widget = new QWidget(workspace); widget->setAttribute(Qt::WA_DeleteOnClose); QMdiSubWindow *window = workspace->addSubWindow(widget); widget->showMaximized(); qApp->sendPostedEvents(); QCOMPARE(spy.count(), 0); spy.clear(); workspace->show(); QCOMPARE(spy.count(), 1); spy.clear(); QVERIFY( activeWindow == window ); window->close(); qApp->processEvents(); QCOMPARE(spy.count(), 1); spy.clear(); QVERIFY( activeWindow == 0 ); } { QWidget *widget = new QWidget(workspace); widget->setAttribute(Qt::WA_DeleteOnClose); QMdiSubWindow *window = workspace->addSubWindow(widget); widget->showMinimized(); QCOMPARE(spy.count(), 1); spy.clear(); QVERIFY( activeWindow == window ); QVERIFY(workspace->activeSubWindow() == window); window->close(); qApp->processEvents(); QCOMPARE(spy.count(), 1); spy.clear(); QVERIFY(workspace->activeSubWindow() == 0); QVERIFY( activeWindow == 0 ); } } #ifdef Q_WS_MAC #include bool macHasAccessToWindowsServer() { SecuritySessionId mySession; SessionAttributeBits sessionInfo; SessionGetInfo(callerSecuritySession, &mySession, &sessionInfo); return (sessionInfo & sessionHasGraphicAccess); } #endif void tst_QMdiArea::subWindowActivated2() { QMdiArea mdiArea; QSignalSpy spy(&mdiArea, SIGNAL(subWindowActivated(QMdiSubWindow *))); for (int i = 0; i < 5; ++i) mdiArea.addSubWindow(new QWidget); QCOMPARE(spy.count(), 0); mdiArea.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif QTest::qWaitForWindowShown(&mdiArea); mdiArea.activateWindow(); QTest::qWait(100); QTRY_COMPARE(spy.count(), 5); QCOMPARE(mdiArea.activeSubWindow(), mdiArea.subWindowList().back()); spy.clear(); // Just to make sure another widget is on top wrt. stacking order. // This will typically become the active window if things are broken. QMdiSubWindow *staysOnTopWindow = mdiArea.subWindowList().at(3); staysOnTopWindow->setWindowFlags(Qt::WindowStaysOnTopHint); mdiArea.setActiveSubWindow(staysOnTopWindow); QCOMPARE(spy.count(), 1); QCOMPARE(mdiArea.activeSubWindow(), staysOnTopWindow); spy.clear(); QMdiSubWindow *activeSubWindow = mdiArea.subWindowList().at(2); mdiArea.setActiveSubWindow(activeSubWindow); QCOMPARE(spy.count(), 1); QCOMPARE(mdiArea.activeSubWindow(), activeSubWindow); spy.clear(); // Check that we only emit _one_ signal and the active window // is unchanged after hide/show. mdiArea.hide(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif QTest::qWait(100); QTRY_COMPARE(spy.count(), 1); QVERIFY(!mdiArea.activeSubWindow()); QCOMPARE(mdiArea.currentSubWindow(), activeSubWindow); spy.clear(); mdiArea.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif QTest::qWait(100); QTRY_COMPARE(spy.count(), 1); QCOMPARE(mdiArea.activeSubWindow(), activeSubWindow); spy.clear(); if (PlatformQuirks::isAutoMaximizing()) QSKIP("Platform is auto maximizing, so no showMinimized()", SkipAll); // Check that we only emit _one_ signal and the active window // is unchanged after showMinimized/showNormal. mdiArea.showMinimized(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #elif defined (Q_WS_MAC) if (!macHasAccessToWindowsServer()) QEXPECT_FAIL("", "showMinimized doesn't really minimize if you don't have access to the server", Abort); #endif QTest::qWait(10); #if defined(Q_WS_QWS) QEXPECT_FAIL("", "task 168682", Abort); #endif #ifdef Q_OS_WINCE QSKIP("Not fixed yet. See Task 197453", SkipAll); #endif QTRY_COMPARE(spy.count(), 1); QVERIFY(!mdiArea.activeSubWindow()); QCOMPARE(mdiArea.currentSubWindow(), activeSubWindow); spy.clear(); mdiArea.showNormal(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif QTest::qWait(100); QTRY_COMPARE(spy.count(), 1); QCOMPARE(mdiArea.activeSubWindow(), activeSubWindow); spy.clear(); } void tst_QMdiArea::subWindowActivatedWithMinimize() { QMainWindow mw(0) ; mw.menuBar(); QMdiArea *workspace = new QMdiArea(&mw); workspace->setObjectName(QLatin1String("testWidget")); mw.setCentralWidget(workspace); QSignalSpy spy(workspace, SIGNAL(subWindowActivated(QMdiSubWindow *))); connect( workspace, SIGNAL(subWindowActivated(QMdiSubWindow *)), this, SLOT(activeChanged(QMdiSubWindow *)) ); mw.show(); qApp->setActiveWindow(&mw); QWidget *widget = new QWidget(workspace); widget->setAttribute(Qt::WA_DeleteOnClose); QMdiSubWindow *window1 = workspace->addSubWindow(widget); QWidget *widget2 = new QWidget(workspace); widget2->setAttribute(Qt::WA_DeleteOnClose); QMdiSubWindow *window2 = workspace->addSubWindow(widget2); widget->showMinimized(); QVERIFY( activeWindow == window1 ); widget2->showMinimized(); QVERIFY( activeWindow == window2 ); window2->close(); qApp->processEvents(); QVERIFY( activeWindow == window1 ); window1->close(); qApp->processEvents(); QVERIFY(workspace->activeSubWindow() == 0); QVERIFY( activeWindow == 0 ); QVERIFY( workspace->subWindowList().count() == 0 ); } void tst_QMdiArea::showWindows() { QMdiArea *ws = new QMdiArea( 0 ); QWidget *widget = 0; ws->show(); widget = new QWidget(ws); widget->show(); QVERIFY( widget->isVisible() ); widget = new QWidget(ws); widget->showMaximized(); QVERIFY( widget->isMaximized() ); widget->showNormal(); QVERIFY( !widget->isMaximized() ); widget = new QWidget(ws); widget->showMinimized(); QVERIFY( widget->isMinimized() ); widget->showNormal(); QVERIFY( !widget->isMinimized() ); ws->hide(); widget = new QWidget(ws); ws->show(); QVERIFY( widget->isVisible() ); ws->hide(); widget = new QWidget(ws); widget->showMaximized(); QVERIFY( widget->isMaximized() ); ws->show(); QVERIFY( widget->isVisible() ); QVERIFY( widget->isMaximized() ); ws->hide(); widget = new QWidget(ws); widget->showMinimized(); ws->show(); QVERIFY( widget->isMinimized() ); ws->hide(); delete ws; } //#define USE_SHOW void tst_QMdiArea::changeWindowTitle() { const QString mwc = QString::fromLatin1("MainWindow's Caption"); const QString mwc2 = QString::fromLatin1("MainWindow's New Caption"); const QString wc = QString::fromLatin1("Widget's Caption"); const QString wc2 = QString::fromLatin1("Widget's New Caption"); QMainWindow *mw = new QMainWindow; mw->setWindowTitle( mwc ); QMdiArea *ws = new QMdiArea( mw ); mw->setCentralWidget( ws ); mw->menuBar(); mw->show(); QTest::qWaitForWindowShown(mw); QWidget *widget = new QWidget( ws ); widget->setWindowTitle( wc ); ws->addSubWindow(widget); QCOMPARE( mw->windowTitle(), mwc ); #ifdef USE_SHOW widget->showMaximized(); #else widget->setWindowState(Qt::WindowMaximized); #endif #if !defined(Q_WS_MAC) && !defined(Q_OS_WINCE) && !defined(Q_OS_SYMBIAN) QTRY_COMPARE( mw->windowTitle(), QString::fromLatin1("%1 - [%2]").arg(mwc).arg(wc) ); #endif mw->hide(); qApp->processEvents(); mw->show(); qApp->processEvents(); QTest::qWaitForWindowShown(mw); #if !defined(Q_WS_MAC) && !defined(Q_OS_WINCE) && !defined(Q_OS_SYMBIAN) QTRY_COMPARE( mw->windowTitle(), QString::fromLatin1("%1 - [%2]").arg(mwc).arg(wc) ); #endif #ifdef USE_SHOW widget->showNormal(); #else widget->setWindowState(Qt::WindowNoState); #endif qApp->processEvents(); QCOMPARE( mw->windowTitle(), mwc ); #ifdef USE_SHOW widget->showMaximized(); #else widget->setWindowState(Qt::WindowMaximized); #endif qApp->processEvents(); #if !defined(Q_WS_MAC) && !defined(Q_OS_WINCE) && !defined(Q_OS_SYMBIAN) QTRY_COMPARE( mw->windowTitle(), QString::fromLatin1("%1 - [%2]").arg(mwc).arg(wc) ); widget->setWindowTitle( wc2 ); QCOMPARE( mw->windowTitle(), QString::fromLatin1("%1 - [%2]").arg(mwc).arg(wc2) ); mw->setWindowTitle( mwc2 ); QCOMPARE( mw->windowTitle(), QString::fromLatin1("%1 - [%2]").arg(mwc2).arg(wc2) ); #endif mw->show(); qApp->setActiveWindow(mw); #ifdef USE_SHOW mw->showFullScreen(); #else mw->setWindowState(Qt::WindowFullScreen); #endif qApp->processEvents(); #if !defined(Q_WS_MAC) && !defined(Q_OS_WINCE) && !defined(Q_OS_SYMBIAN) QCOMPARE( mw->windowTitle(), QString::fromLatin1("%1 - [%2]").arg(mwc2).arg(wc2) ); #endif #ifdef USE_SHOW widget->showNormal(); #else widget->setWindowState(Qt::WindowNoState); #endif qApp->processEvents(); #if defined(Q_WS_MAC) || defined(Q_OS_WINCE) || defined(Q_OS_SYMBIAN) QCOMPARE(mw->windowTitle(), mwc); #else QCOMPARE( mw->windowTitle(), mwc2 ); #endif #ifdef USE_SHOW widget->showMaximized(); #else widget->setWindowState(Qt::WindowMaximized); #endif qApp->processEvents(); #if !defined(Q_WS_MAC) && !defined(Q_OS_WINCE) && !defined(Q_OS_SYMBIAN) QCOMPARE( mw->windowTitle(), QString::fromLatin1("%1 - [%2]").arg(mwc2).arg(wc2) ); #endif #ifdef USE_SHOW mw->showNormal(); #else mw->setWindowState(Qt::WindowNoState); #endif qApp->processEvents(); #ifdef USE_SHOW widget->showNormal(); #else widget->setWindowState(Qt::WindowNoState); #endif delete mw; } void tst_QMdiArea::changeModified() { const QString mwc = QString::fromLatin1("MainWindow's Caption"); const QString wc = QString::fromLatin1("Widget's Caption[*]"); QMainWindow *mw = new QMainWindow(0); mw->setWindowTitle( mwc ); QMdiArea *ws = new QMdiArea( mw ); mw->setCentralWidget( ws ); mw->menuBar(); mw->show(); QWidget *widget = new QWidget( ws ); widget->setWindowTitle( wc ); ws->addSubWindow(widget); QCOMPARE( mw->isWindowModified(), false); QCOMPARE( widget->isWindowModified(), false); widget->setWindowState(Qt::WindowMaximized); QCOMPARE( mw->isWindowModified(), false); QCOMPARE( widget->isWindowModified(), false); widget->setWindowState(Qt::WindowNoState); QCOMPARE( mw->isWindowModified(), false); QCOMPARE( widget->isWindowModified(), false); widget->setWindowModified(true); QCOMPARE( mw->isWindowModified(), false); QCOMPARE( widget->isWindowModified(), true); widget->setWindowState(Qt::WindowMaximized); #if !defined(Q_WS_MAC) && !defined(Q_OS_WINCE) && !defined(Q_OS_SYMBIAN) QCOMPARE( mw->isWindowModified(), true); #endif QCOMPARE( widget->isWindowModified(), true); widget->setWindowState(Qt::WindowNoState); QCOMPARE( mw->isWindowModified(), false); QCOMPARE( widget->isWindowModified(), true); widget->setWindowState(Qt::WindowMaximized); #if !defined(Q_WS_MAC) && !defined(Q_OS_WINCE) && !defined(Q_OS_SYMBIAN) QCOMPARE( mw->isWindowModified(), true); #endif QCOMPARE( widget->isWindowModified(), true); widget->setWindowModified(false); QCOMPARE( mw->isWindowModified(), false); QCOMPARE( widget->isWindowModified(), false); widget->setWindowModified(true); #if !defined(Q_WS_MAC) && !defined(Q_OS_WINCE) && !defined(Q_OS_SYMBIAN) QCOMPARE( mw->isWindowModified(), true); #endif QCOMPARE( widget->isWindowModified(), true); widget->setWindowState(Qt::WindowNoState); QCOMPARE( mw->isWindowModified(), false); QCOMPARE( widget->isWindowModified(), true); delete mw; } class MyChild : public QWidget { public: MyChild(QWidget *parent = 0) : QWidget(parent) {} QSize sizeHint() const { return QSize(234, 123); } }; void tst_QMdiArea::childSize() { QMdiArea ws; MyChild *child = new MyChild(&ws); child->show(); QCOMPARE(child->size(), child->sizeHint()); delete child; child = new MyChild(&ws); child->setFixedSize(200, 200); child->show(); QCOMPARE(child->size(), child->minimumSize()); delete child; child = new MyChild(&ws); child->resize(150, 150); child->show(); QCOMPARE(child->size(), QSize(150,150)); delete child; } void tst_QMdiArea::fixedSize() { QMdiArea *ws = new QMdiArea; int i; ws->resize(500, 500); // ws->show(); QSize fixed(300, 300); for (i = 0; i < 4; ++i) { QWidget *child = new QWidget(ws); child->setFixedSize(fixed); child->show(); } QList windows = ws->subWindowList(); for (i = 0; i < (int)windows.count(); ++i) { QMdiSubWindow *child = windows.at(i); QCOMPARE(child->size(), fixed); } ws->cascadeSubWindows(); ws->resize(800, 800); for (i = 0; i < (int)windows.count(); ++i) { QMdiSubWindow *child = windows.at(i); QCOMPARE(child->size(), fixed); } ws->resize(500, 500); ws->tileSubWindows(); ws->resize(800, 800); for (i = 0; i < (int)windows.count(); ++i) { QMdiSubWindow *child = windows.at(i); QCOMPARE(child->size(), fixed); } ws->resize(500, 500); for (i = 0; i < (int)windows.count(); ++i) { QMdiSubWindow *child = windows.at(i); delete child; } delete ws; } class LargeWidget : public QWidget { public: LargeWidget(QWidget *parent = 0) : QWidget(parent) {} QSize sizeHint() const { return QSize(1280, 1024); } QSize minimumSizeHint() const { return QSize(300, 300); } }; // New tests void tst_QMdiArea::minimumSizeHint() { QMdiArea workspace; workspace.show(); QSize expectedSize(workspace.style()->pixelMetric(QStyle::PM_MDIMinimizedWidth), workspace.style()->pixelMetric(QStyle::PM_TitleBarHeight)); qApp->processEvents(); QAbstractScrollArea dummyScrollArea; dummyScrollArea.setFrameStyle(QFrame::NoFrame); expectedSize = expectedSize.expandedTo(dummyScrollArea.minimumSizeHint()); QCOMPARE(workspace.minimumSizeHint(), expectedSize.expandedTo(qApp->globalStrut())); QWidget *window = workspace.addSubWindow(new QWidget); qApp->processEvents(); window->show(); QCOMPARE(workspace.minimumSizeHint(), expectedSize.expandedTo(window->minimumSizeHint())); QMdiSubWindow *subWindow = workspace.addSubWindow(new LargeWidget); subWindow->show(); QCOMPARE(workspace.minimumSizeHint(), expectedSize.expandedTo(subWindow->minimumSizeHint())); workspace.setHorizontalScrollBarPolicy(Qt::ScrollBarAsNeeded); workspace.setVerticalScrollBarPolicy(Qt::ScrollBarAsNeeded); QCOMPARE(workspace.minimumSizeHint(), expectedSize); } void tst_QMdiArea::sizeHint() { QMdiArea workspace; workspace.show(); QSize desktopSize = QApplication::desktop()->size(); QSize expectedSize(desktopSize.width() * 2/3, desktopSize.height() * 2/3); QCOMPARE(workspace.sizeHint(), expectedSize.expandedTo(qApp->globalStrut())); QWidget *window = workspace.addSubWindow(new QWidget); qApp->processEvents(); window->show(); QCOMPARE(workspace.sizeHint(), expectedSize.expandedTo(window->sizeHint())); QMdiSubWindow *nested = workspace.addSubWindow(new QMdiArea); expectedSize = QSize(desktopSize.width() * 2/6, desktopSize.height() * 2/6); QCOMPARE(nested->widget()->sizeHint(), expectedSize); } void tst_QMdiArea::setActiveSubWindow() { QMdiArea workspace; workspace.show(); QSignalSpy spy(&workspace, SIGNAL(subWindowActivated(QMdiSubWindow *))); connect(&workspace, SIGNAL(subWindowActivated(QMdiSubWindow *)), this, SLOT(activeChanged(QMdiSubWindow *))); qApp->setActiveWindow(&workspace); // Activate hidden windows const int windowCount = 10; QMdiSubWindow *windows[windowCount]; for (int i = 0; i < windowCount; ++i) { windows[i] = qobject_cast(workspace.addSubWindow(new QWidget)); qApp->processEvents(); QVERIFY(windows[i]->isHidden()); workspace.setActiveSubWindow(windows[i]); } QCOMPARE(spy.count(), 0); QVERIFY(!activeWindow); spy.clear(); // Activate visible windows for (int i = 0; i < windowCount; ++i) { windows[i]->show(); QVERIFY(!windows[i]->isHidden()); workspace.setActiveSubWindow(windows[i]); qApp->processEvents(); QCOMPARE(spy.count(), 1); QCOMPARE(activeWindow, windows[i]); spy.clear(); } // Deactivate active window QCOMPARE(workspace.activeSubWindow(), windows[windowCount - 1]); workspace.setActiveSubWindow(0); QCOMPARE(spy.count(), 1); QVERIFY(!activeWindow); QVERIFY(!workspace.activeSubWindow()); // Activate widget which is not child of any window inside workspace QMdiSubWindow fakeWindow; QTest::ignoreMessage(QtWarningMsg, "QMdiArea::setActiveSubWindow: window is not inside workspace"); workspace.setActiveSubWindow(&fakeWindow); } void tst_QMdiArea::activeSubWindow() { QMainWindow mainWindow; QMdiArea *mdiArea = new QMdiArea; QLineEdit *subWindowLineEdit = new QLineEdit; QMdiSubWindow *subWindow = mdiArea->addSubWindow(subWindowLineEdit); mainWindow.setCentralWidget(mdiArea); QDockWidget *dockWidget = new QDockWidget(QLatin1String("Dock Widget"), &mainWindow); dockWidget->setAllowedAreas(Qt::LeftDockWidgetArea); QLineEdit *dockWidgetLineEdit = new QLineEdit; dockWidget->setWidget(dockWidgetLineEdit); mainWindow.addDockWidget(Qt::LeftDockWidgetArea, dockWidget); mainWindow.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mainWindow); #endif qApp->setActiveWindow(&mainWindow); QCOMPARE(mdiArea->activeSubWindow(), subWindow); QCOMPARE(qApp->focusWidget(), (QWidget *)subWindowLineEdit); dockWidgetLineEdit->setFocus(); QCOMPARE(qApp->focusWidget(), (QWidget *)dockWidgetLineEdit); QCOMPARE(mdiArea->activeSubWindow(), subWindow); QEvent deactivateEvent(QEvent::WindowDeactivate); qApp->sendEvent(subWindow, &deactivateEvent); QVERIFY(!mdiArea->activeSubWindow()); QCOMPARE(qApp->focusWidget(), (QWidget *)dockWidgetLineEdit); QEvent activateEvent(QEvent::WindowActivate); qApp->sendEvent(subWindow, &activateEvent); QCOMPARE(mdiArea->activeSubWindow(), subWindow); QCOMPARE(qApp->focusWidget(), (QWidget *)subWindowLineEdit); QLineEdit dummyTopLevel; dummyTopLevel.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&dummyTopLevel); #endif qApp->setActiveWindow(&dummyTopLevel); QCOMPARE(mdiArea->activeSubWindow(), subWindow); qApp->setActiveWindow(&mainWindow); QCOMPARE(mdiArea->activeSubWindow(), subWindow); #if !defined(Q_WS_MAC) && !defined(Q_WS_WIN) qApp->setActiveWindow(0); QVERIFY(!mdiArea->activeSubWindow()); #endif //task 202657 dockWidgetLineEdit->setFocus(); qApp->setActiveWindow(&mainWindow); QVERIFY(dockWidgetLineEdit->hasFocus()); } void tst_QMdiArea::currentSubWindow() { QMdiArea mdiArea; mdiArea.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif for (int i = 0; i < 5; ++i) mdiArea.addSubWindow(new QLineEdit)->show(); qApp->setActiveWindow(&mdiArea); QCOMPARE(qApp->activeWindow(), (QWidget *)&mdiArea); // Check that the last added window is the active and the current. QMdiSubWindow *active = mdiArea.activeSubWindow(); QVERIFY(active); QCOMPARE(mdiArea.subWindowList().back(), active); QCOMPARE(mdiArea.currentSubWindow(), active); QLineEdit dummyTopLevel; dummyTopLevel.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&dummyTopLevel); #endif // Move focus to another top-level and check that we still // have an active window. qApp->setActiveWindow(&dummyTopLevel); QCOMPARE(qApp->activeWindow(), (QWidget *)&dummyTopLevel); QVERIFY(mdiArea.activeSubWindow()); delete active; active = 0; // We just deleted the current sub-window -> current should then // be the next in list (which in this case is the first sub-window). QVERIFY(mdiArea.currentSubWindow()); QCOMPARE(mdiArea.currentSubWindow(), mdiArea.subWindowList().front()); // Activate mdi area and check that active == current. qApp->setActiveWindow(&mdiArea); active = mdiArea.activeSubWindow(); QVERIFY(active); QCOMPARE(mdiArea.activeSubWindow(), mdiArea.subWindowList().front()); active->hide(); QCOMPARE(mdiArea.activeSubWindow(), active); QCOMPARE(mdiArea.currentSubWindow(), active); qApp->setActiveWindow(&dummyTopLevel); QVERIFY(mdiArea.activeSubWindow()); QCOMPARE(mdiArea.currentSubWindow(), active); qApp->setActiveWindow(&mdiArea); active->show(); QCOMPARE(mdiArea.activeSubWindow(), active); mdiArea.setActiveSubWindow(0); QVERIFY(!mdiArea.activeSubWindow()); QVERIFY(!mdiArea.currentSubWindow()); mdiArea.setActiveSubWindow(active); QCOMPARE(mdiArea.activeSubWindow(), active); QEvent windowDeactivate(QEvent::WindowDeactivate); qApp->sendEvent(active, &windowDeactivate); QVERIFY(!mdiArea.activeSubWindow()); QVERIFY(!mdiArea.currentSubWindow()); QEvent windowActivate(QEvent::WindowActivate); qApp->sendEvent(active, &windowActivate); QVERIFY(mdiArea.activeSubWindow()); QVERIFY(mdiArea.currentSubWindow()); #if !defined(Q_WS_MAC) && !defined(Q_WS_WIN) qApp->setActiveWindow(0); QVERIFY(!mdiArea.activeSubWindow()); QVERIFY(mdiArea.currentSubWindow()); #endif } void tst_QMdiArea::addAndRemoveWindows() { QWidget topLevel; QMdiArea workspace(&topLevel); workspace.resize(800, 600); topLevel.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&workspace); #endif { // addSubWindow with large widget QCOMPARE(workspace.subWindowList().count(), 0); QWidget *window = workspace.addSubWindow(new LargeWidget); QVERIFY(window); qApp->processEvents(); QCOMPARE(workspace.subWindowList().count(), 1); QVERIFY(window->windowFlags() == DefaultWindowFlags); QCOMPARE(window->size(), workspace.viewport()->size()); } { // addSubWindow, minimumSize set. QMdiSubWindow *window = new QMdiSubWindow; window->setMinimumSize(900, 900); workspace.addSubWindow(window); QVERIFY(window); qApp->processEvents(); QCOMPARE(workspace.subWindowList().count(), 2); QVERIFY(window->windowFlags() == DefaultWindowFlags); QCOMPARE(window->size(), window->minimumSize()); } { // addSubWindow, resized QMdiSubWindow *window = new QMdiSubWindow; window->setWidget(new QWidget); window->resize(1500, 1500); workspace.addSubWindow(window); QVERIFY(window); qApp->processEvents(); QCOMPARE(workspace.subWindowList().count(), 3); QVERIFY(window->windowFlags() == DefaultWindowFlags); QCOMPARE(window->size(), QSize(1500, 1500)); } { // addSubWindow with 0 pointer QTest::ignoreMessage(QtWarningMsg, "QMdiArea::addSubWindow: null pointer to widget"); QWidget *window = workspace.addSubWindow(0); QVERIFY(!window); QCOMPARE(workspace.subWindowList().count(), 3); } { // addChildWindow QMdiSubWindow *window = new QMdiSubWindow; workspace.addSubWindow(window); qApp->processEvents(); QVERIFY(window->windowFlags() == DefaultWindowFlags); window->setWidget(new QWidget); QCOMPARE(workspace.subWindowList().count(), 4); QTest::ignoreMessage(QtWarningMsg, "QMdiArea::addSubWindow: window is already added"); workspace.addSubWindow(window); } { // addChildWindow with 0 pointer QTest::ignoreMessage(QtWarningMsg, "QMdiArea::addSubWindow: null pointer to widget"); workspace.addSubWindow(0); QCOMPARE(workspace.subWindowList().count(), 4); } // removeSubWindow foreach (QWidget *window, workspace.subWindowList()) { workspace.removeSubWindow(window); delete window; } QCOMPARE(workspace.subWindowList().count(), 0); // removeSubWindow with 0 pointer QTest::ignoreMessage(QtWarningMsg, "QMdiArea::removeSubWindow: null pointer to widget"); workspace.removeSubWindow(0); workspace.addSubWindow(new QPushButton(QLatin1String("Dummy to make workspace non-empty"))); qApp->processEvents(); QCOMPARE(workspace.subWindowList().count(), 1); // removeSubWindow with window not inside workspace QTest::ignoreMessage(QtWarningMsg,"QMdiArea::removeSubWindow: window is not inside workspace"); QMdiSubWindow *fakeWindow = new QMdiSubWindow; workspace.removeSubWindow(fakeWindow); delete fakeWindow; // Check that newly added windows don't occupy maximized windows' // restore space. workspace.closeAllSubWindows(); workspace.setOption(QMdiArea::DontMaximizeSubWindowOnActivation); workspace.show(); QMdiSubWindow *window1 = workspace.addSubWindow(new QWidget); window1->show(); const QRect window1RestoreGeometry = window1->geometry(); QCOMPARE(window1RestoreGeometry.topLeft(), QPoint(0, 0)); window1->showMinimized(); // Occupy space. QMdiSubWindow *window2 = workspace.addSubWindow(new QWidget); window2->show(); const QRect window2RestoreGeometry = window2->geometry(); QCOMPARE(window2RestoreGeometry.topLeft(), QPoint(0, 0)); window2->showMaximized(); // Don't occupy space. QMdiSubWindow *window3 = workspace.addSubWindow(new QWidget); window3->show(); QCOMPARE(window3->geometry().topLeft(), QPoint(window2RestoreGeometry.right() + 1, 0)); } void tst_QMdiArea::addAndRemoveWindowsWithReparenting() { QMdiArea workspace; QMdiSubWindow window(&workspace); QVERIFY(window.windowFlags() == DefaultWindowFlags); // 0 because the window list contains widgets and not actual // windows. Silly, but that's the behavior. QCOMPARE(workspace.subWindowList().count(), 0); window.setWidget(new QWidget); qApp->processEvents(); QCOMPARE(workspace.subWindowList().count(), 1); window.setParent(0); // Will also reset window flags QCOMPARE(workspace.subWindowList().count(), 0); window.setParent(&workspace); QCOMPARE(workspace.subWindowList().count(), 1); QVERIFY(window.windowFlags() == DefaultWindowFlags); QTest::ignoreMessage(QtWarningMsg, "QMdiArea::addSubWindow: window is already added"); workspace.addSubWindow(&window); QCOMPARE(workspace.subWindowList().count(), 1); } class MySubWindow : public QMdiSubWindow { public: using QObject::receivers; }; static int numberOfConnectedSignals(MySubWindow *subWindow) { if (!subWindow) return 0; int numConnectedSignals = 0; for (int i = 0; i < subWindow->metaObject()->methodCount(); ++i) { QMetaMethod method = subWindow->metaObject()->method(i); if (method.methodType() == QMetaMethod::Signal) { QString signature(QLatin1String("2")); signature += QLatin1String(method.signature()); numConnectedSignals += subWindow->receivers(signature.toLatin1()); } } return numConnectedSignals; } void tst_QMdiArea::removeSubWindow_2() { QMdiArea mdiArea; MySubWindow *subWindow = new MySubWindow; QCOMPARE(numberOfConnectedSignals(subWindow), 0); // Connected to aboutToActivate() and windowStateChanged(). mdiArea.addSubWindow(subWindow); QVERIFY(numberOfConnectedSignals(subWindow) >= 2); // Ensure we disconnect from all signals. mdiArea.removeSubWindow(subWindow); QCOMPARE(numberOfConnectedSignals(subWindow), 0); mdiArea.addSubWindow(subWindow); QVERIFY(numberOfConnectedSignals(subWindow) >= 2); subWindow->setParent(0); QCOMPARE(numberOfConnectedSignals(subWindow), 0); } void tst_QMdiArea::closeWindows() { QMdiArea workspace; workspace.show(); qApp->setActiveWindow(&workspace); // Close widget QWidget *widget = new QWidget; QMdiSubWindow *subWindow = workspace.addSubWindow(widget); qApp->processEvents(); QCOMPARE(workspace.subWindowList().count(), 1); subWindow->close(); QCOMPARE(workspace.subWindowList().count(), 0); // Close window QWidget *window = workspace.addSubWindow(new QWidget); qApp->processEvents(); QCOMPARE(workspace.subWindowList().count(), 1); window->close(); qApp->processEvents(); QCOMPARE(workspace.subWindowList().count(), 0); const int windowCount = 10; // Close active window for (int i = 0; i < windowCount; ++i) workspace.addSubWindow(new QWidget)->show(); qApp->processEvents(); QCOMPARE(workspace.subWindowList().count(), windowCount); int activeSubWindowCount = 0; while (workspace.activeSubWindow()) { workspace.activeSubWindow()->close(); qApp->processEvents(); ++activeSubWindowCount; } QCOMPARE(activeSubWindowCount, windowCount); QCOMPARE(workspace.subWindowList().count(), 0); // Close all windows for (int i = 0; i < windowCount; ++i) workspace.addSubWindow(new QWidget)->show(); qApp->processEvents(); QCOMPARE(workspace.subWindowList().count(), windowCount); QSignalSpy spy(&workspace, SIGNAL(subWindowActivated(QMdiSubWindow *))); connect(&workspace, SIGNAL(subWindowActivated(QMdiSubWindow *)), this, SLOT(activeChanged(QMdiSubWindow *))); workspace.closeAllSubWindows(); qApp->processEvents(); QCOMPARE(workspace.subWindowList().count(), 0); QCOMPARE(spy.count(), 1); QVERIFY(!activeWindow); } void tst_QMdiArea::activateNextAndPreviousWindow() { QMdiArea workspace; workspace.show(); qApp->setActiveWindow(&workspace); const int windowCount = 10; QMdiSubWindow *windows[windowCount]; for (int i = 0; i < windowCount; ++i) { windows[i] = qobject_cast(workspace.addSubWindow(new QWidget)); windows[i]->show(); qApp->processEvents(); } QSignalSpy spy(&workspace, SIGNAL(subWindowActivated(QMdiSubWindow *))); connect(&workspace, SIGNAL(subWindowActivated(QMdiSubWindow *)), this, SLOT(activeChanged(QMdiSubWindow *))); // activateNextSubWindow for (int i = 0; i < windowCount; ++i) { workspace.activateNextSubWindow(); qApp->processEvents(); QCOMPARE(workspace.activeSubWindow(), windows[i]); QCOMPARE(spy.count(), 1); spy.clear(); } QVERIFY(activeWindow); QCOMPARE(workspace.activeSubWindow(), windows[windowCount - 1]); QCOMPARE(workspace.activeSubWindow(), activeWindow); // activatePreviousSubWindow for (int i = windowCount - 2; i >= 0; --i) { workspace.activatePreviousSubWindow(); qApp->processEvents(); QCOMPARE(workspace.activeSubWindow(), windows[i]); QCOMPARE(spy.count(), 1); spy.clear(); if (i % 2 == 0) windows[i]->hide(); // 10, 8, 6, 4, 2, 0 } QVERIFY(activeWindow); QCOMPARE(workspace.activeSubWindow(), windows[0]); QCOMPARE(workspace.activeSubWindow(), activeWindow); // activateNextSubWindow with every 2nd window hidden for (int i = 0; i < windowCount / 2; ++i) { workspace.activateNextSubWindow(); // 1, 3, 5, 7, 9 QCOMPARE(spy.count(), 1); spy.clear(); } QCOMPARE(workspace.activeSubWindow(), windows[windowCount - 1]); // activatePreviousSubWindow with every 2nd window hidden for (int i = 0; i < windowCount / 2; ++i) { workspace.activatePreviousSubWindow(); // 7, 5, 3, 1, 9 QCOMPARE(spy.count(), 1); spy.clear(); } QCOMPARE(workspace.activeSubWindow(), windows[windowCount - 1]); workspace.setActiveSubWindow(0); QVERIFY(!activeWindow); } void tst_QMdiArea::subWindowList_data() { QTest::addColumn("windowOrder"); QTest::addColumn("windowCount"); QTest::addColumn("activeSubWindow"); QTest::addColumn("staysOnTop1"); QTest::addColumn("staysOnTop2"); QTest::newRow("CreationOrder") << QMdiArea::CreationOrder << 10 << 4 << 8 << 5; QTest::newRow("StackingOrder") << QMdiArea::StackingOrder << 10 << 6 << 3 << 9; QTest::newRow("ActivationHistoryOrder") << QMdiArea::ActivationHistoryOrder << 10 << 7 << 2 << 1; } void tst_QMdiArea::subWindowList() { QFETCH(QMdiArea::WindowOrder, windowOrder); QFETCH(int, windowCount); QFETCH(int, activeSubWindow); QFETCH(int, staysOnTop1); QFETCH(int, staysOnTop2); QMdiArea workspace; workspace.show(); qApp->setActiveWindow(&workspace); QList activationOrder; QVector windows; for (int i = 0; i < windowCount; ++i) { windows.append(qobject_cast(workspace.addSubWindow(new QWidget))); windows[i]->show(); activationOrder.append(windows[i]); } { QList widgets = workspace.subWindowList(windowOrder); QCOMPARE(widgets.count(), windowCount); for (int i = 0; i < widgets.count(); ++i) QCOMPARE(widgets.at(i), windows[i]); } windows[staysOnTop1]->setWindowFlags(windows[staysOnTop1]->windowFlags() | Qt::WindowStaysOnTopHint); workspace.setActiveSubWindow(windows[activeSubWindow]); qApp->processEvents(); QCOMPARE(workspace.activeSubWindow(), windows[activeSubWindow]); activationOrder.move(activationOrder.indexOf(windows[activeSubWindow]), windowCount - 1); QList subWindows = workspace.subWindowList(windowOrder); if (windowOrder == QMdiArea::CreationOrder) { QCOMPARE(subWindows.at(activeSubWindow), windows[activeSubWindow]); QCOMPARE(subWindows.at(staysOnTop1), windows[staysOnTop1]); for (int i = 0; i < windowCount; ++i) QCOMPARE(subWindows.at(i), windows[i]); return; } if (windowOrder == QMdiArea::StackingOrder) { QCOMPARE(subWindows.at(subWindows.count() - 1), windows[staysOnTop1]); QCOMPARE(subWindows.at(subWindows.count() - 2), windows[activeSubWindow]); QCOMPARE(subWindows.count(), windowCount); } else { // ActivationHistoryOrder QCOMPARE(subWindows, activationOrder); } windows[staysOnTop2]->setWindowFlags(windows[staysOnTop2]->windowFlags() | Qt::WindowStaysOnTopHint); workspace.setActiveSubWindow(windows[staysOnTop2]); qApp->processEvents(); QCOMPARE(workspace.activeSubWindow(), windows[staysOnTop2]); activationOrder.move(activationOrder.indexOf(windows[staysOnTop2]), windowCount - 1); workspace.setActiveSubWindow(windows[activeSubWindow]); qApp->processEvents(); QCOMPARE(workspace.activeSubWindow(), windows[activeSubWindow]); activationOrder.move(activationOrder.indexOf(windows[activeSubWindow]), windowCount - 1); QList widgets = workspace.subWindowList(windowOrder); QCOMPARE(widgets.count(), windowCount); if (windowOrder == QMdiArea::StackingOrder) { QCOMPARE(widgets.at(widgets.count() - 1), windows[staysOnTop2]); QCOMPARE(widgets.at(widgets.count() - 2), windows[staysOnTop1]); QCOMPARE(widgets.at(widgets.count() - 3), windows[activeSubWindow]); } else { // ActivationHistory QCOMPARE(widgets, activationOrder); } windows[activeSubWindow]->raise(); windows[staysOnTop2]->lower(); widgets = workspace.subWindowList(windowOrder); if (windowOrder == QMdiArea::StackingOrder) { QCOMPARE(widgets.at(widgets.count() - 1), windows[activeSubWindow]); QCOMPARE(widgets.at(widgets.count() - 2), windows[staysOnTop1]); QCOMPARE(widgets.at(0), windows[staysOnTop2]); } else { // ActivationHistoryOrder QCOMPARE(widgets, activationOrder); } windows[activeSubWindow]->stackUnder(windows[staysOnTop1]); windows[staysOnTop2]->raise(); widgets = workspace.subWindowList(windowOrder); if (windowOrder == QMdiArea::StackingOrder) { QCOMPARE(widgets.at(widgets.count() - 1), windows[staysOnTop2]); QCOMPARE(widgets.at(widgets.count() - 2), windows[staysOnTop1]); QCOMPARE(widgets.at(widgets.count() - 3), windows[activeSubWindow]); } else { // ActivationHistoryOrder QCOMPARE(widgets, activationOrder); } workspace.setActiveSubWindow(windows[staysOnTop1]); activationOrder.move(activationOrder.indexOf(windows[staysOnTop1]), windowCount - 1); widgets = workspace.subWindowList(windowOrder); if (windowOrder == QMdiArea::StackingOrder) { QCOMPARE(widgets.at(widgets.count() - 1), windows[staysOnTop1]); QCOMPARE(widgets.at(widgets.count() - 2), windows[staysOnTop2]); QCOMPARE(widgets.at(widgets.count() - 3), windows[activeSubWindow]); } else { // ActivationHistoryOrder QCOMPARE(widgets, activationOrder); } } void tst_QMdiArea::setBackground() { QMdiArea workspace; QCOMPARE(workspace.background(), workspace.palette().brush(QPalette::Dark)); workspace.setBackground(QBrush(Qt::green)); QCOMPARE(workspace.background(), QBrush(Qt::green)); } void tst_QMdiArea::setViewport() { QMdiArea workspace; workspace.show(); QWidget *firstViewport = workspace.viewport(); QVERIFY(firstViewport); const int windowCount = 10; for (int i = 0; i < windowCount; ++i) { QMdiSubWindow *window = workspace.addSubWindow(new QWidget); window->show(); if (i % 2 == 0) { window->showMinimized(); QVERIFY(window->isMinimized()); } else { window->showMaximized(); QVERIFY(window->isMaximized()); } } qApp->processEvents(); QList windowsBeforeViewportChange = workspace.subWindowList(); QCOMPARE(windowsBeforeViewportChange.count(), windowCount); workspace.setViewport(new QWidget); qApp->processEvents(); QVERIFY(workspace.viewport() != firstViewport); QList windowsAfterViewportChange = workspace.subWindowList(); QCOMPARE(windowsAfterViewportChange.count(), windowCount); QCOMPARE(windowsAfterViewportChange, windowsBeforeViewportChange); // for (int i = 0; i < windowCount; ++i) { // QMdiSubWindow *window = windowsAfterViewportChange.at(i); // if (i % 2 == 0) // QVERIFY(!window->isMinimized()); //else // QVERIFY(!window->isMaximized()); // } QTest::ignoreMessage(QtWarningMsg, "QMdiArea: Deleting the view port is undefined, " "use setViewport instead."); delete workspace.viewport(); qApp->processEvents(); QCOMPARE(workspace.subWindowList().count(), 0); QVERIFY(!workspace.activeSubWindow()); } void tst_QMdiArea::tileSubWindows() { QMdiArea workspace; workspace.resize(600,480); if (PlatformQuirks::isAutoMaximizing()) workspace.setWindowFlags(workspace.windowFlags() | Qt::X11BypassWindowManagerHint); workspace.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&workspace); #endif const int windowCount = 10; for (int i = 0; i < windowCount; ++i) { QMdiSubWindow *subWindow = workspace.addSubWindow(new QWidget); subWindow->setMinimumSize(50, 30); subWindow->show(); } workspace.tileSubWindows(); workspace.setActiveSubWindow(0); QCOMPARE(workspace.viewport()->childrenRect(), workspace.viewport()->rect()); QList windows = workspace.subWindowList(); for (int i = 0; i < windowCount; ++i) { QMdiSubWindow *window = windows.at(i); for (int j = 0; j < windowCount; ++j) { if (i == j) continue; QVERIFY(!window->geometry().intersects(windows.at(j)->geometry())); } } // Keep the views tiled through any subsequent resize events. for (int i = 0; i < 5; ++i) { workspace.resize(workspace.size() - QSize(10, 10)); qApp->processEvents(); } workspace.setActiveSubWindow(0); #ifndef Q_OS_WINCE //See Task 197453 ToDo QCOMPARE(workspace.viewport()->childrenRect(), workspace.viewport()->rect()); #endif QMdiSubWindow *window = windows.at(0); // Change the geometry of one of the children and verify // that the views are not tiled anymore. window->move(window->x() + 1, window->y()); workspace.resize(workspace.size() - QSize(10, 10)); workspace.setActiveSubWindow(0); QVERIFY(workspace.viewport()->childrenRect() != workspace.viewport()->rect()); qApp->processEvents(); // Re-tile. workspace.tileSubWindows(); workspace.setActiveSubWindow(0); QCOMPARE(workspace.viewport()->childrenRect(), workspace.viewport()->rect()); // Close one of the children and verify that the views // are not tiled anymore. window->close(); workspace.resize(workspace.size() - QSize(10, 10)); workspace.setActiveSubWindow(0); QVERIFY(workspace.viewport()->childrenRect() != workspace.viewport()->rect()); qApp->processEvents(); // Re-tile. workspace.tileSubWindows(); workspace.setActiveSubWindow(0); QCOMPARE(workspace.viewport()->childrenRect(), workspace.viewport()->rect()); window = windows.at(1); // Maximize one of the children and verify that the views // are not tiled anymore. workspace.tileSubWindows(); window->showMaximized(); workspace.resize(workspace.size() - QSize(10, 10)); workspace.setActiveSubWindow(0); QVERIFY(workspace.viewport()->childrenRect() != workspace.viewport()->rect()); qApp->processEvents(); // Re-tile. workspace.tileSubWindows(); workspace.setActiveSubWindow(0); QCOMPARE(workspace.viewport()->childrenRect(), workspace.viewport()->rect()); // Minimize one of the children and verify that the views // are not tiled anymore. workspace.tileSubWindows(); window->showMinimized(); workspace.resize(workspace.size() - QSize(10, 10)); workspace.setActiveSubWindow(0); QVERIFY(workspace.viewport()->childrenRect() != workspace.viewport()->rect()); qApp->processEvents(); // Re-tile. workspace.tileSubWindows(); workspace.setActiveSubWindow(0); QCOMPARE(workspace.viewport()->childrenRect(), workspace.viewport()->rect()); // Active/deactivate windows and verify that the views are tiled. workspace.setActiveSubWindow(windows.at(5)); workspace.resize(workspace.size() - QSize(10, 10)); workspace.setActiveSubWindow(0); QTest::qWait(250); // delayed re-arrange of minimized windows QTRY_COMPARE(workspace.viewport()->childrenRect(), workspace.viewport()->rect()); // Add another window and verify that the views are not tiled anymore. workspace.addSubWindow(new QPushButton(QLatin1String("I'd like to mess up tiled views")))->show(); workspace.resize(workspace.size() - QSize(10, 10)); workspace.setActiveSubWindow(0); QVERIFY(workspace.viewport()->childrenRect() != workspace.viewport()->rect()); // Re-tile. workspace.tileSubWindows(); workspace.setActiveSubWindow(0); QCOMPARE(workspace.viewport()->childrenRect(), workspace.viewport()->rect()); // Cascade and verify that the views are not tiled anymore. workspace.cascadeSubWindows(); workspace.resize(workspace.size() - QSize(10, 10)); workspace.setActiveSubWindow(0); QVERIFY(workspace.viewport()->childrenRect() != workspace.viewport()->rect()); // Make sure the active window is placed in top left corner regardless // of whether we have any windows with staysOnTopHint or not. windows.at(3)->setWindowFlags(windows.at(3)->windowFlags() | Qt::WindowStaysOnTopHint); QMdiSubWindow *activeSubWindow = windows.at(6); workspace.setActiveSubWindow(activeSubWindow); QCOMPARE(workspace.activeSubWindow(), activeSubWindow); workspace.tileSubWindows(); QCOMPARE(activeSubWindow->geometry().topLeft(), QPoint(0, 0)); // Verify that we try to resize the area such that all sub-windows are visible. // It's important that tiled windows are NOT overlapping. workspace.resize(350, 150); qApp->processEvents(); QTRY_COMPARE(workspace.size(), QSize(350, 150)); const QSize minSize(300, 100); foreach (QMdiSubWindow *subWindow, workspace.subWindowList()) subWindow->setMinimumSize(minSize); QCOMPARE(workspace.size(), QSize(350, 150)); workspace.tileSubWindows(); // The sub-windows are now tiled like this: // | win 1 || win 2 || win 3 | // +-------++-------++-------+ // +-------++-------++-------+ // | win 4 || win 5 || win 6 | // +-------++-------++-------+ // +-------++-------++-------+ // | win 7 || win 8 || win 9 | workspace.setActiveSubWindow(0); int frameWidth = 0; if (workspace.style()->styleHint(QStyle::SH_ScrollView_FrameOnlyAroundContents, 0, &workspace)) frameWidth = workspace.style()->pixelMetric(QStyle::PM_DefaultFrameWidth); const int spacing = 2 * frameWidth + 2; const QSize expectedViewportSize(3 * minSize.width() + spacing, 3 * minSize.height() + spacing); #ifdef Q_OS_WINCE QSKIP("Not fixed yet! See task 197453", SkipAll); #endif QTRY_COMPARE(workspace.viewport()->rect().size(), expectedViewportSize); // Not enough space for all sub-windows to be visible -> provide scroll bars. workspace.resize(160, 150); qApp->processEvents(); QTRY_COMPARE(workspace.size(), QSize(160, 150)); // Horizontal scroll bar. QScrollBar *hBar = workspace.horizontalScrollBar(); QCOMPARE(workspace.horizontalScrollBarPolicy(), Qt::ScrollBarAsNeeded); QTRY_VERIFY(hBar->isVisible()); QCOMPARE(hBar->value(), 0); QCOMPARE(hBar->minimum(), 0); // Vertical scroll bar. QScrollBar *vBar = workspace.verticalScrollBar(); QCOMPARE(workspace.verticalScrollBarPolicy(), Qt::ScrollBarAsNeeded); QVERIFY(vBar->isVisible()); QCOMPARE(vBar->value(), 0); QCOMPARE(vBar->minimum(), 0); workspace.tileSubWindows(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&workspace); #endif qApp->processEvents(); QTRY_VERIFY(workspace.size() != QSize(150, 150)); QTRY_VERIFY(!vBar->isVisible()); #if defined(UBUNTU_LUCID) && !defined(Q_WS_QWS) QEXPECT_FAIL("", "QTBUG-26726", Abort); #endif QTRY_VERIFY(!hBar->isVisible()); } void tst_QMdiArea::cascadeAndTileSubWindows() { QMdiArea workspace; workspace.resize(400, 400); workspace.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&workspace); #endif const int windowCount = 10; QList windows; for (int i = 0; i < windowCount; ++i) { QMdiSubWindow *window = workspace.addSubWindow(new MyChild); if (i % 3 == 0) { window->showMinimized(); QVERIFY(window->isMinimized()); } else { window->showMaximized(); QVERIFY(window->isMaximized()); } windows.append(window); } // cascadeSubWindows qApp->processEvents(); workspace.cascadeSubWindows(); qApp->processEvents(); // Check dy between two cascaded windows QStyleOptionTitleBar options; options.initFrom(windows.at(1)); int titleBarHeight = windows.at(1)->style()->pixelMetric(QStyle::PM_TitleBarHeight, &options); // ### Remove this after the mac style has been fixed if (windows.at(1)->style()->inherits("QMacStyle")) titleBarHeight -= 4; const QFontMetrics fontMetrics = QFontMetrics(QApplication::font("QWorkspaceTitleBar")); const int dy = qMax(titleBarHeight - (titleBarHeight - fontMetrics.height()) / 2, 1); QCOMPARE(windows.at(2)->geometry().top() - windows.at(1)->geometry().top(), dy); for (int i = 0; i < windows.count(); ++i) { QMdiSubWindow *window = windows.at(i); if (i % 3 == 0) { QVERIFY(window->isMinimized()); } else { QVERIFY(!window->isMaximized()); QCOMPARE(window->size(), window->sizeHint()); window->showMaximized(); QVERIFY(window->isMaximized()); } } } void tst_QMdiArea::resizeMaximizedChildWindows_data() { QTest::addColumn("startSize"); QTest::addColumn("increment"); QTest::addColumn("windowCount"); QTest::newRow("multiple children") << 400 << 20 << 10; } void tst_QMdiArea::resizeMaximizedChildWindows() { QFETCH(int, startSize); QFETCH(int, increment); QFETCH(int, windowCount); QWidget topLevel; QMdiArea workspace(&topLevel); topLevel.show(); #if defined(Q_WS_X11) qt_x11_wait_for_window_manager(&workspace); #endif QTest::qWait(100); workspace.resize(startSize, startSize); workspace.setOption(QMdiArea::DontMaximizeSubWindowOnActivation); QSize workspaceSize = workspace.size(); QVERIFY(workspaceSize.isValid()); QCOMPARE(workspaceSize, QSize(startSize, startSize)); QList windows; for (int i = 0; i < windowCount; ++i) { QMdiSubWindow *window = workspace.addSubWindow(new QWidget); windows.append(window); qApp->processEvents(); window->showMaximized(); QTest::qWait(100); QVERIFY(window->isMaximized()); QSize windowSize = window->size(); QVERIFY(windowSize.isValid()); QCOMPARE(window->rect(), workspace.contentsRect()); workspace.resize(workspaceSize + QSize(increment, increment)); QTest::qWait(100); qApp->processEvents(); QTRY_COMPARE(workspace.size(), workspaceSize + QSize(increment, increment)); QTRY_COMPARE(window->size(), windowSize + QSize(increment, increment)); workspaceSize = workspace.size(); } int newSize = startSize + increment * windowCount; QCOMPARE(workspaceSize, QSize(newSize, newSize)); foreach (QWidget *window, windows) QCOMPARE(window->rect(), workspace.contentsRect()); } // QWidget::setParent clears focusWidget so make sure // we restore it after QMdiArea::addSubWindow. void tst_QMdiArea::focusWidgetAfterAddSubWindow() { QWidget *view = new QWidget; view->setLayout(new QVBoxLayout); QLineEdit *lineEdit1 = new QLineEdit; QLineEdit *lineEdit2 = new QLineEdit; view->layout()->addWidget(lineEdit1); view->layout()->addWidget(lineEdit2); lineEdit2->setFocus(); QCOMPARE(view->focusWidget(), static_cast(lineEdit2)); QMdiArea mdiArea; mdiArea.addSubWindow(view); QCOMPARE(view->focusWidget(), static_cast(lineEdit2)); mdiArea.show(); view->show(); qApp->setActiveWindow(&mdiArea); QCOMPARE(qApp->focusWidget(), static_cast(lineEdit2)); } void tst_QMdiArea::dontMaximizeSubWindowOnActivation() { QMdiArea mdiArea; mdiArea.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif qApp->setActiveWindow(&mdiArea); // Add one maximized window. mdiArea.addSubWindow(new QWidget)->showMaximized(); QVERIFY(mdiArea.activeSubWindow()); QVERIFY(mdiArea.activeSubWindow()->isMaximized()); // Add few more windows and verify that they are maximized. for (int i = 0; i < 5; ++i) { QMdiSubWindow *window = mdiArea.addSubWindow(new QWidget); window->show(); QVERIFY(window->isMaximized()); qApp->processEvents(); } // Verify that activated windows still are maximized on activation. QList subWindows = mdiArea.subWindowList(); for (int i = 0; i < subWindows.count(); ++i) { mdiArea.activateNextSubWindow(); QMdiSubWindow *window = subWindows.at(i); QCOMPARE(mdiArea.activeSubWindow(), window); QVERIFY(window->isMaximized()); qApp->processEvents(); } // Restore active window and verify that other windows aren't // maximized on activation. mdiArea.activeSubWindow()->showNormal(); for (int i = 0; i < subWindows.count(); ++i) { mdiArea.activateNextSubWindow(); QMdiSubWindow *window = subWindows.at(i); QCOMPARE(mdiArea.activeSubWindow(), window); QVERIFY(!window->isMaximized()); qApp->processEvents(); } // Enable 'DontMaximizedSubWindowOnActivation' and maximize the active window. mdiArea.setOption(QMdiArea::DontMaximizeSubWindowOnActivation); mdiArea.activeSubWindow()->showMaximized(); int indexOfMaximized = subWindows.indexOf(mdiArea.activeSubWindow()); // Verify that windows are not maximized on activation. for (int i = 0; i < subWindows.count(); ++i) { mdiArea.activateNextSubWindow(); QMdiSubWindow *window = subWindows.at(i); QCOMPARE(mdiArea.activeSubWindow(), window); if (indexOfMaximized != i) QVERIFY(!window->isMaximized()); qApp->processEvents(); } QVERIFY(mdiArea.activeSubWindow()->isMaximized()); // Minimize all windows. foreach (QMdiSubWindow *window, subWindows) { window->showMinimized(); QVERIFY(window->isMinimized()); qApp->processEvents(); } // Disable 'DontMaximizedSubWindowOnActivation' and maximize the active window. mdiArea.setOption(QMdiArea::DontMaximizeSubWindowOnActivation, false); mdiArea.activeSubWindow()->showMaximized(); // Verify that minimized windows are maximized on activation. for (int i = 0; i < subWindows.count(); ++i) { mdiArea.activateNextSubWindow(); QMdiSubWindow *window = subWindows.at(i); QCOMPARE(mdiArea.activeSubWindow(), window); QVERIFY(window->isMaximized()); qApp->processEvents(); } // Verify that activated windows are maximized after closing // the active window for (int i = 0; i < subWindows.count(); ++i) { QVERIFY(mdiArea.activeSubWindow()); QVERIFY(mdiArea.activeSubWindow()->isMaximized()); mdiArea.activeSubWindow()->close(); qApp->processEvents(); } QVERIFY(!mdiArea.activeSubWindow()); QCOMPARE(mdiArea.subWindowList().size(), 0); // Verify that new windows are not maximized. mdiArea.addSubWindow(new QWidget)->show(); QVERIFY(mdiArea.activeSubWindow()); QVERIFY(!mdiArea.activeSubWindow()->isMaximized()); } void tst_QMdiArea::delayedPlacement() { QMdiArea mdiArea; QMdiSubWindow *window1 = mdiArea.addSubWindow(new QWidget); QCOMPARE(window1->geometry().topLeft(), QPoint(0, 0)); QMdiSubWindow *window2 = mdiArea.addSubWindow(new QWidget); QCOMPARE(window2->geometry().topLeft(), QPoint(0, 0)); QMdiSubWindow *window3 = mdiArea.addSubWindow(new QWidget); QCOMPARE(window3->geometry().topLeft(), QPoint(0, 0)); mdiArea.resize(window3->minimumSizeHint().width() * 3, 400); mdiArea.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif QCOMPARE(window1->geometry().topLeft(), QPoint(0, 0)); QCOMPARE(window2->geometry().topLeft(), window1->geometry().topRight() + QPoint(1, 0)); QCOMPARE(window3->geometry().topLeft(), window2->geometry().topRight() + QPoint(1, 0)); } void tst_QMdiArea::iconGeometryInMenuBar() { #if !defined (Q_WS_MAC) && !defined(Q_OS_WINCE) && !defined(Q_OS_SYMBIAN) QMainWindow mainWindow; QMenuBar *menuBar = mainWindow.menuBar(); QMdiArea *mdiArea = new QMdiArea; QMdiSubWindow *subWindow = mdiArea->addSubWindow(new QWidget); mainWindow.setCentralWidget(mdiArea); mainWindow.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mainWindow); #endif subWindow->showMaximized(); QVERIFY(subWindow->isMaximized()); QWidget *leftCornerWidget = menuBar->cornerWidget(Qt::TopLeftCorner); QVERIFY(leftCornerWidget); int topMargin = (menuBar->height() - leftCornerWidget->height()) / 2; int leftMargin = qApp->style()->pixelMetric(QStyle::PM_MenuBarHMargin) + qApp->style()->pixelMetric(QStyle::PM_MenuBarPanelWidth); QPoint pos(leftMargin, topMargin); QRect geometry = QStyle::visualRect(qApp->layoutDirection(), menuBar->rect(), QRect(pos, leftCornerWidget->size())); QCOMPARE(leftCornerWidget->geometry(), geometry); #endif } class EventSpy : public QObject { public: EventSpy(QObject *object, QEvent::Type event) : eventToSpy(event), _count(0) { if (object) object->installEventFilter(this); } int count() const { return _count; } void clear() { _count = 0; } protected: bool eventFilter(QObject *object, QEvent *event) { if (event->type() == eventToSpy) ++_count; return QObject::eventFilter(object, event); } private: QEvent::Type eventToSpy; int _count; }; void tst_QMdiArea::resizeTimer() { QMdiArea mdiArea; QMdiSubWindow *subWindow = mdiArea.addSubWindow(new QWidget); mdiArea.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif QTest::qWaitForWindowShown(&mdiArea); #ifndef Q_OS_WINCE int time = 250; #else int time = 1000; #endif QTest::qWait(time); EventSpy timerEventSpy(subWindow, QEvent::Timer); QCOMPARE(timerEventSpy.count(), 0); mdiArea.tileSubWindows(); QTest::qWait(time); // Wait for timer events to occur. QCOMPARE(timerEventSpy.count(), 1); timerEventSpy.clear(); mdiArea.resize(mdiArea.size() + QSize(2, 2)); QTest::qWait(time); // Wait for timer events to occur. QCOMPARE(timerEventSpy.count(), 1); timerEventSpy.clear(); // Check that timers are killed. QTest::qWait(time); // Wait for timer events to occur. QCOMPARE(timerEventSpy.count(), 0); } void tst_QMdiArea::updateScrollBars() { QMdiArea mdiArea; mdiArea.setHorizontalScrollBarPolicy(Qt::ScrollBarAsNeeded); mdiArea.setVerticalScrollBarPolicy(Qt::ScrollBarAsNeeded); QMdiSubWindow *subWindow1 = mdiArea.addSubWindow(new QWidget); QMdiSubWindow *subWindow2 = mdiArea.addSubWindow(new QWidget); mdiArea.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif qApp->processEvents(); QScrollBar *hbar = mdiArea.horizontalScrollBar(); QVERIFY(hbar); QVERIFY(!hbar->isVisible()); QScrollBar *vbar = mdiArea.verticalScrollBar(); QVERIFY(vbar); QVERIFY(!vbar->isVisible()); // Move sub-window 2 away. subWindow2->move(10000, 10000); qApp->processEvents(); QVERIFY(hbar->isVisible()); QVERIFY(vbar->isVisible()); for (int i = 0; i < 2; ++i) { // Maximize sub-window 1 and make sure we don't have any scroll bars. subWindow1->showMaximized(); qApp->processEvents(); QVERIFY(subWindow1->isMaximized()); QVERIFY(!hbar->isVisible()); QVERIFY(!vbar->isVisible()); // We still shouldn't get any scroll bars. mdiArea.resize(mdiArea.size() - QSize(20, 20)); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif qApp->processEvents(); QVERIFY(subWindow1->isMaximized()); QVERIFY(!hbar->isVisible()); QVERIFY(!vbar->isVisible()); // Restore sub-window 1 and make sure we have scroll bars again. subWindow1->showNormal(); qApp->processEvents(); QVERIFY(!subWindow1->isMaximized()); QVERIFY(hbar->isVisible()); QVERIFY(vbar->isVisible()); if (i == 0) { // Now, do the same when the viewport is scrolled. hbar->setValue(1000); vbar->setValue(1000); } } } void tst_QMdiArea::setActivationOrder_data() { QTest::addColumn("activationOrder"); QTest::addColumn("subWindowCount"); QTest::addColumn("staysOnTopIndex"); QTest::addColumn("firstActiveIndex"); QTest::addColumn >("expectedActivationIndices"); // The order of expectedCascadeIndices: // window 1 -> (index 0) // window 2 -> (index 1) // window 3 -> (index 2) // .... QTest::addColumn >("expectedCascadeIndices"); // The order of expectedTileIndices (the same as reading a book LTR). // +--------------------+--------------------+--------------------+ // | window 1 (index 0) | window 2 (index 1) | window 3 (index 2) | // | +--------------------+--------------------+ // | (index 3) | window 4 (index 4) | window 5 (index 5) | // +--------------------------------------------------------------+ QTest::addColumn >("expectedTileIndices"); QList list; QList list2; QList list3; list << 2 << 1 << 0 << 1 << 2 << 3 << 4; list2 << 0 << 1 << 2 << 3 << 4; list3 << 1 << 4 << 3 << 1 << 2 << 0; QTest::newRow("CreationOrder") << QMdiArea::CreationOrder << 5 << 3 << 1 << list << list2 << list3; list = QList(); list << 3 << 1 << 4 << 3 << 1 << 2 << 0; list2 = QList(); list2 << 0 << 2 << 4 << 1 << 3; list3 = QList(); list3 << 1 << 3 << 4 << 1 << 2 << 0; QTest::newRow("StackingOrder") << QMdiArea::StackingOrder << 5 << 3 << 1 << list << list2 << list3; list = QList(); list << 0 << 1 << 0 << 1 << 4 << 3 << 2; list2 = QList(); list2 << 0 << 2 << 3 << 4 << 1; list3 = QList(); list3 << 1 << 4 << 3 << 1 << 2 << 0; QTest::newRow("ActivationHistoryOrder") << QMdiArea::ActivationHistoryOrder << 5 << 3 << 1 << list << list2 << list3; } void tst_QMdiArea::setActivationOrder() { QFETCH(QMdiArea::WindowOrder, activationOrder); QFETCH(int, subWindowCount); QFETCH(int, staysOnTopIndex); QFETCH(int, firstActiveIndex); QFETCH(QList, expectedActivationIndices); QFETCH(QList, expectedCascadeIndices); QFETCH(QList, expectedTileIndices); // Default order. QMdiArea mdiArea; QCOMPARE(mdiArea.activationOrder(), QMdiArea::CreationOrder); // New order. mdiArea.setActivationOrder(activationOrder); QCOMPARE(mdiArea.activationOrder(), activationOrder); QList subWindows; for (int i = 0; i < subWindowCount; ++i) subWindows << mdiArea.addSubWindow(new QPushButton(tr("%1").arg(i))); QCOMPARE(mdiArea.subWindowList(activationOrder), subWindows); mdiArea.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif for (int i = 0; i < subWindows.count(); ++i) { mdiArea.activateNextSubWindow(); QCOMPARE(mdiArea.activeSubWindow(), subWindows.at(i)); qApp->processEvents(); } QMdiSubWindow *staysOnTop = subWindows.at(staysOnTopIndex); staysOnTop->setWindowFlags(staysOnTop->windowFlags() | Qt::WindowStaysOnTopHint); staysOnTop->raise(); mdiArea.setActiveSubWindow(subWindows.at(firstActiveIndex)); QCOMPARE(mdiArea.activeSubWindow(), subWindows.at(firstActiveIndex)); // Verify the actual arrangement/geometry. mdiArea.tileSubWindows(); QTest::qWait(100); QVERIFY(verifyArrangement(&mdiArea, Tiled, expectedTileIndices)); mdiArea.cascadeSubWindows(); QVERIFY(verifyArrangement(&mdiArea, Cascaded, expectedCascadeIndices)); QTest::qWait(100); mdiArea.activateNextSubWindow(); QCOMPARE(mdiArea.activeSubWindow(), subWindows.at(expectedActivationIndices.takeFirst())); mdiArea.activatePreviousSubWindow(); QCOMPARE(mdiArea.activeSubWindow(), subWindows.at(expectedActivationIndices.takeFirst())); mdiArea.activatePreviousSubWindow(); QCOMPARE(mdiArea.activeSubWindow(), subWindows.at(expectedActivationIndices.takeFirst())); for (int i = 0; i < subWindowCount; ++i) { mdiArea.closeActiveSubWindow(); qApp->processEvents(); if (i == subWindowCount - 1) { // Last window closed. QVERIFY(!mdiArea.activeSubWindow()); break; } QVERIFY(mdiArea.activeSubWindow()); QCOMPARE(mdiArea.activeSubWindow(), subWindows.at(expectedActivationIndices.takeFirst())); } QVERIFY(mdiArea.subWindowList(activationOrder).isEmpty()); QVERIFY(expectedActivationIndices.isEmpty()); } void tst_QMdiArea::tabBetweenSubWindows() { QMdiArea mdiArea; QList subWindows; for (int i = 0; i < 5; ++i) subWindows << mdiArea.addSubWindow(new QLineEdit); mdiArea.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif qApp->setActiveWindow(&mdiArea); QWidget *focusWidget = subWindows.back()->widget(); QCOMPARE(qApp->focusWidget(), focusWidget); QSignalSpy spy(&mdiArea, SIGNAL(subWindowActivated(QMdiSubWindow *))); QCOMPARE(spy.count(), 0); // Walk through the entire list of sub windows. QVERIFY(tabBetweenSubWindowsIn(&mdiArea)); QCOMPARE(mdiArea.activeSubWindow(), subWindows.back()); QCOMPARE(spy.count(), 0); mdiArea.setActiveSubWindow(subWindows.front()); QCOMPARE(mdiArea.activeSubWindow(), subWindows.front()); spy.clear(); // Walk through the entire list of sub windows in the opposite direction (Ctrl-Shift-Tab). QVERIFY(tabBetweenSubWindowsIn(&mdiArea, -1, true)); QCOMPARE(mdiArea.activeSubWindow(), subWindows.front()); QCOMPARE(spy.count(), 0); // Ctrl-Tab-Tab-Tab QVERIFY(tabBetweenSubWindowsIn(&mdiArea, 3)); QCOMPARE(mdiArea.activeSubWindow(), subWindows.at(3)); QCOMPARE(spy.count(), 1); mdiArea.setActiveSubWindow(subWindows.at(1)); QCOMPARE(mdiArea.activeSubWindow(), subWindows.at(1)); spy.clear(); // Quick switch (Ctrl-Tab once) -> switch back to the previously active sub-window. QVERIFY(tabBetweenSubWindowsIn(&mdiArea, 1)); QCOMPARE(mdiArea.activeSubWindow(), subWindows.at(3)); QCOMPARE(spy.count(), 1); } void tst_QMdiArea::setViewMode() { QMdiArea mdiArea; QPixmap iconPixmap(16, 16); iconPixmap.fill(Qt::red); for (int i = 0; i < 5; ++i) { QMdiSubWindow *subWindow = mdiArea.addSubWindow(new QWidget); subWindow->setWindowTitle(QString(QLatin1String("Title %1")).arg(i)); subWindow->setWindowIcon(iconPixmap); } mdiArea.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif QMdiSubWindow *activeSubWindow = mdiArea.activeSubWindow(); const QList subWindows = mdiArea.subWindowList(); // Default. QVERIFY(!activeSubWindow->isMaximized()); QTabBar *tabBar = qFindChild(&mdiArea); QVERIFY(!tabBar); QCOMPARE(mdiArea.viewMode(), QMdiArea::SubWindowView); // Tabbed view. mdiArea.setViewMode(QMdiArea::TabbedView); QCOMPARE(mdiArea.viewMode(), QMdiArea::TabbedView); tabBar = qFindChild(&mdiArea); QVERIFY(tabBar); QVERIFY(tabBar->isVisible()); QCOMPARE(tabBar->count(), subWindows.count()); QVERIFY(activeSubWindow->isMaximized()); QCOMPARE(tabBar->currentIndex(), subWindows.indexOf(activeSubWindow)); // Check that tabIcon and tabText are set properly. for (int i = 0; i < subWindows.size(); ++i) { QMdiSubWindow *subWindow = subWindows.at(i); QCOMPARE(tabBar->tabText(i), subWindow->windowTitle()); QCOMPARE(tabBar->tabIcon(i), subWindow->windowIcon()); } // Check that tabText and tabIcon are updated. activeSubWindow->setWindowTitle(QLatin1String("Dude, I want another window title")); QCOMPARE(tabBar->tabText(tabBar->currentIndex()), activeSubWindow->windowTitle()); iconPixmap.fill(Qt::green); activeSubWindow->setWindowIcon(iconPixmap); QCOMPARE(tabBar->tabIcon(tabBar->currentIndex()), activeSubWindow->windowIcon()); // If there's an empty window title, tabText should return "(Untitled)" (as in firefox). activeSubWindow->setWindowTitle(QString()); QCOMPARE(tabBar->tabText(tabBar->currentIndex()), QLatin1String("(Untitled)")); // If there's no window icon, tabIcon should return ... an empty icon :) activeSubWindow->setWindowIcon(QIcon()); QCOMPARE(tabBar->tabIcon(tabBar->currentIndex()), QIcon()); // Check that the current tab changes when activating another sub-window. for (int i = 0; i < subWindows.size(); ++i) { mdiArea.activateNextSubWindow(); activeSubWindow = mdiArea.activeSubWindow(); QCOMPARE(tabBar->currentIndex(), subWindows.indexOf(activeSubWindow)); } activeSubWindow = mdiArea.activeSubWindow(); const int tabIndex = tabBar->currentIndex(); // The current tab should not change when the sub-window is hidden. activeSubWindow->hide(); QCOMPARE(tabBar->currentIndex(), tabIndex); activeSubWindow->show(); QCOMPARE(tabBar->currentIndex(), tabIndex); // Disable the tab when the sub-window is hidden and another sub-window is activated. activeSubWindow->hide(); mdiArea.activateNextSubWindow(); QVERIFY(tabBar->currentIndex() != tabIndex); QVERIFY(!tabBar->isTabEnabled(tabIndex)); // Enable it again. activeSubWindow->show(); QCOMPARE(tabBar->currentIndex(), tabIndex); QVERIFY(tabBar->isTabEnabled(tabIndex)); // Remove sub-windows and make sure the tab is removed. foreach (QMdiSubWindow *subWindow, subWindows) { if (subWindow != activeSubWindow) mdiArea.removeSubWindow(subWindow); } QCOMPARE(tabBar->count(), 1); // Go back to default (QMdiArea::SubWindowView). mdiArea.setViewMode(QMdiArea::SubWindowView); QVERIFY(!activeSubWindow->isMaximized()); tabBar = qFindChild(&mdiArea); QVERIFY(!tabBar); QCOMPARE(mdiArea.viewMode(), QMdiArea::SubWindowView); } void tst_QMdiArea::setTabsClosable() { QMdiArea mdiArea; mdiArea.addSubWindow(new QWidget); // test default QCOMPARE(mdiArea.tabsClosable(), false); // change value before tab bar exists QTabBar *tabBar = qFindChild(&mdiArea); QVERIFY(!tabBar); mdiArea.setTabsClosable(true); QCOMPARE(mdiArea.tabsClosable(), true); // force tab bar creation mdiArea.setViewMode(QMdiArea::TabbedView); tabBar = qFindChild(&mdiArea); QVERIFY(tabBar); // value must've been propagated QCOMPARE(tabBar->tabsClosable(), true); // change value when tab bar exists mdiArea.setTabsClosable(false); QCOMPARE(mdiArea.tabsClosable(), false); QCOMPARE(tabBar->tabsClosable(), false); } void tst_QMdiArea::setTabsMovable() { QMdiArea mdiArea; QMdiSubWindow *subWindow1 = mdiArea.addSubWindow(new QWidget); QMdiSubWindow *subWindow2 = mdiArea.addSubWindow(new QWidget); QMdiSubWindow *subWindow3 = mdiArea.addSubWindow(new QWidget); // test default QCOMPARE(mdiArea.tabsMovable(), false); // change value before tab bar exists QTabBar *tabBar = qFindChild(&mdiArea); QVERIFY(!tabBar); mdiArea.setTabsMovable(true); QCOMPARE(mdiArea.tabsMovable(), true); // force tab bar creation mdiArea.setViewMode(QMdiArea::TabbedView); tabBar = qFindChild(&mdiArea); QVERIFY(tabBar); // value must've been propagated QCOMPARE(tabBar->isMovable(), true); // test tab moving QList subWindows; subWindows << subWindow1 << subWindow2 << subWindow3; QCOMPARE(mdiArea.subWindowList(QMdiArea::CreationOrder), subWindows); tabBar->moveTab(1, 2); // 1,3,2 subWindows.clear(); subWindows << subWindow1 << subWindow3 << subWindow2; QCOMPARE(mdiArea.subWindowList(QMdiArea::CreationOrder), subWindows); tabBar->moveTab(0, 2); // 3,2,1 subWindows.clear(); subWindows << subWindow3 << subWindow2 << subWindow1; QCOMPARE(mdiArea.subWindowList(QMdiArea::CreationOrder), subWindows); // change value when tab bar exists mdiArea.setTabsMovable(false); QCOMPARE(mdiArea.tabsMovable(), false); QCOMPARE(tabBar->isMovable(), false); } void tst_QMdiArea::setTabShape() { QMdiArea mdiArea; mdiArea.addSubWindow(new QWidget); mdiArea.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif // Default. QCOMPARE(mdiArea.tabShape(), QTabWidget::Rounded); // Triangular. mdiArea.setTabShape(QTabWidget::Triangular); QCOMPARE(mdiArea.tabShape(), QTabWidget::Triangular); mdiArea.setViewMode(QMdiArea::TabbedView); QTabBar *tabBar = qFindChild(&mdiArea); QVERIFY(tabBar); QCOMPARE(tabBar->shape(), QTabBar::TriangularNorth); // Back to default (Rounded). mdiArea.setTabShape(QTabWidget::Rounded); QCOMPARE(mdiArea.tabShape(), QTabWidget::Rounded); QCOMPARE(tabBar->shape(), QTabBar::RoundedNorth); } void tst_QMdiArea::setTabPosition_data() { QTest::addColumn("tabPosition"); QTest::addColumn("hasLeftMargin"); QTest::addColumn("hasTopMargin"); QTest::addColumn("hasRightMargin"); QTest::addColumn("hasBottomMargin"); QTest::newRow("North") << QTabWidget::North << false << true << false << false; QTest::newRow("South") << QTabWidget::South << false << false << false << true; QTest::newRow("East") << QTabWidget::East << false << false << true << false; QTest::newRow("West") << QTabWidget::West << true << false << false << false; } void tst_QMdiArea::setTabPosition() { QFETCH(QTabWidget::TabPosition, tabPosition); QFETCH(bool, hasLeftMargin); QFETCH(bool, hasTopMargin); QFETCH(bool, hasRightMargin); QFETCH(bool, hasBottomMargin); QMdiArea mdiArea; mdiArea.addSubWindow(new QWidget); mdiArea.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif // Make sure there are no margins. mdiArea.setContentsMargins(0, 0, 0, 0); // Default. QCOMPARE(mdiArea.tabPosition(), QTabWidget::North); mdiArea.setViewMode(QMdiArea::TabbedView); QTabBar *tabBar = qFindChild(&mdiArea); QVERIFY(tabBar); QCOMPARE(tabBar->shape(), QTabBar::RoundedNorth); // New position. mdiArea.setTabPosition(tabPosition); QCOMPARE(mdiArea.tabPosition(), tabPosition); QCOMPARE(tabBar->shape(), tabBarShapeFrom(QTabWidget::Rounded, tabPosition)); const Qt::LayoutDirection originalLayoutDirection = qApp->layoutDirection(); // Check that we have correct geometry in both RightToLeft and LeftToRight. for (int i = 0; i < 2; ++i) { // Check viewportMargins. const QRect viewportGeometry = mdiArea.viewport()->geometry(); const int left = viewportGeometry.left(); const int top = viewportGeometry.y(); const int right = mdiArea.width() - viewportGeometry.width(); const int bottom = mdiArea.height() - viewportGeometry.height(); const QSize sizeHint = tabBar->sizeHint(); if (hasLeftMargin) QCOMPARE(qApp->isLeftToRight() ? left : right, sizeHint.width()); if (hasRightMargin) QCOMPARE(qApp->isLeftToRight() ? right : left, sizeHint.width()); if (hasTopMargin || hasBottomMargin) QCOMPARE(hasTopMargin ? top : bottom, sizeHint.height()); // Check actual tab bar geometry. const QRegion expectedTabBarGeometry = QRegion(mdiArea.rect()).subtracted(viewportGeometry); QVERIFY(!expectedTabBarGeometry.isEmpty()); QCOMPARE(QRegion(tabBar->geometry()), expectedTabBarGeometry); if (i == 0) qApp->setLayoutDirection(originalLayoutDirection == Qt::LeftToRight ? Qt::RightToLeft : Qt::LeftToRight); qApp->processEvents(); } qApp->setLayoutDirection(originalLayoutDirection); } #if defined(Q_WS_WIN) || defined(Q_WS_X11) void tst_QMdiArea::nativeSubWindows() { { // Add native widgets after show. QMdiArea mdiArea; mdiArea.addSubWindow(new QWidget); mdiArea.addSubWindow(new QWidget); mdiArea.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif // No native widgets. QVERIFY(!mdiArea.viewport()->internalWinId()); foreach (QMdiSubWindow *subWindow, mdiArea.subWindowList()) QVERIFY(!subWindow->internalWinId()); QWidget *nativeWidget = new QWidget; QVERIFY(nativeWidget->winId()); // enforce native window. mdiArea.addSubWindow(nativeWidget); // The viewport and all the sub-windows must be native. QVERIFY(mdiArea.viewport()->internalWinId()); foreach (QMdiSubWindow *subWindow, mdiArea.subWindowList()) QVERIFY(subWindow->internalWinId()); // Add a non-native widget. This should become native. QMdiSubWindow *subWindow = new QMdiSubWindow; subWindow->setWidget(new QWidget); QVERIFY(!subWindow->internalWinId()); mdiArea.addSubWindow(subWindow); QVERIFY(subWindow->internalWinId()); } { // Add native widgets before show. QMdiArea mdiArea; mdiArea.addSubWindow(new QWidget); QWidget *nativeWidget = new QWidget; (void)nativeWidget->winId(); mdiArea.addSubWindow(nativeWidget); mdiArea.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif // The viewport and all the sub-windows must be native. QVERIFY(mdiArea.viewport()->internalWinId()); foreach (QMdiSubWindow *subWindow, mdiArea.subWindowList()) QVERIFY(subWindow->internalWinId()); } { // Make a sub-window native *after* it's added to the area. QMdiArea mdiArea; mdiArea.addSubWindow(new QWidget); mdiArea.addSubWindow(new QWidget); mdiArea.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif QMdiSubWindow *nativeSubWindow = mdiArea.subWindowList().last(); QVERIFY(!nativeSubWindow->internalWinId()); (void)nativeSubWindow->winId(); // All the sub-windows should be native at this point QVERIFY(mdiArea.viewport()->internalWinId()); foreach (QMdiSubWindow *subWindow, mdiArea.subWindowList()) QVERIFY(subWindow->internalWinId()); } #ifndef QT_NO_OPENGL { if (!QGLFormat::hasOpenGL()) QSKIP("QGL not supported on this platform", SkipAll); QMdiArea mdiArea; QGLWidget *glViewport = new QGLWidget; mdiArea.setViewport(glViewport); mdiArea.addSubWindow(new QWidget); mdiArea.addSubWindow(new QWidget); mdiArea.show(); #ifdef Q_WS_X11 qt_x11_wait_for_window_manager(&mdiArea); #endif const QGLContext *context = glViewport->context(); if (!context || !context->isValid()) QSKIP("QGL is broken, cannot continue test", SkipAll); // The viewport and all the sub-windows must be native. QVERIFY(mdiArea.viewport()->internalWinId()); foreach (QMdiSubWindow *subWindow, mdiArea.subWindowList()) QVERIFY(subWindow->internalWinId()); } #endif } #endif void tst_QMdiArea::task_209615() { QTabWidget tabWidget; QMdiArea *mdiArea1 = new QMdiArea; QMdiArea *mdiArea2 = new QMdiArea; QMdiSubWindow *subWindow = mdiArea1->addSubWindow(new QLineEdit); tabWidget.addTab(mdiArea1, QLatin1String("1")); tabWidget.addTab(mdiArea2, QLatin1String("2")); tabWidget.show(); mdiArea1->removeSubWindow(subWindow); mdiArea2->addSubWindow(subWindow); // Please do not assert/crash. tabWidget.setCurrentIndex(1); } void tst_QMdiArea::task_236750() { QMdiArea mdiArea; QMdiSubWindow *subWindow = mdiArea.addSubWindow(new QTextEdit); mdiArea.show(); subWindow->setWindowFlags(subWindow->windowFlags() | Qt::FramelessWindowHint); // Please do not crash (floating point exception). subWindow->showMinimized(); } QTEST_MAIN(tst_QMdiArea) #include "tst_qmdiarea.moc"