// Copyright (C) 2016 The Qt Company Ltd. // SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only WITH Qt-GPL-exception-1.0 #include #include #include #include #include #include #include #include #include #include #include #if defined(Q_OS_QNX) #include #elif defined(Q_OS_WIN) # include #endif Q_LOGGING_CATEGORY(lcTests, "qt.gui.tests") class tst_QWindow: public QObject { Q_OBJECT private slots: void create(); void setParent(); void setVisible(); void setVisibleFalseDoesNotCreateWindow(); void eventOrderOnShow(); void paintEvent(); void resizeEventAfterResize(); void exposeEventOnShrink_QTBUG54040(); void mapGlobal(); void positioning_data(); void positioning(); void positioningDuringMinimized(); void childWindowPositioning_data(); void childWindowPositioning(); void childWindowLevel(); void platformSurface(); void isExposed(); void isActive(); void testInputEvents(); void touchToMouseTranslation(); void touchToMouseTranslationForDevices(); void mouseToTouchTranslation(); void mouseToTouchLoop(); void touchCancel(); void touchCancelWithTouchToMouse(); void touchInterruptedByPopup(); void orientation(); void sizes(); void close(); void activateAndClose(); void mouseEventSequence(); void windowModality(); void inputReentrancy(); void tabletEvents(); void windowModality_QTBUG27039(); void visibility(); void mask(); void initialSize(); void modalDialog(); void modalDialogClosingOneOfTwoModal(); void modalWithChildWindow(); void modalWindowModallity(); void modalWindowPosition(); void modalCloseWhileBlocked(); #ifndef QT_NO_CURSOR void modalWindowEnterEventOnHide_QTBUG35109(); void spuriousMouseMove(); #endif void windowsTransientChildren(); void requestUpdate(); void initTestCase(); void stateChange_data(); void stateChange(); void flags(); void cleanup(); void testBlockingWindowShownAfterModalDialog(); void generatedMouseMove(); void keepPendingUpdateRequests(); void activateDeactivateEvent(); void qobject_castOnDestruction(); void touchToMouseTranslationByPopup(); void stateChangeSignal(); private: QPoint m_availableTopLeft; QSize m_testWindowSize; QPointingDevice *touchDevice = QTest::createTouchDevice(); QPointingDevice *touchDeviceWithMouseEmulation = QTest::createTouchDevice(QInputDevice::DeviceType::TouchScreen, QInputDevice::Capability::Position | QInputDevice::Capability::MouseEmulation); }; static bool isPlatformWayland() { return QGuiApplication::platformName().startsWith(QLatin1String("wayland"), Qt::CaseInsensitive); } void tst_QWindow::initTestCase() { // Size of reference window, 200 for < 2000, scale up for larger screens // to avoid Windows warnings about minimum size for decorated windows. int width = 200; const QScreen *screen = QGuiApplication::primaryScreen(); m_availableTopLeft = screen->availableGeometry().topLeft(); const int screenWidth = screen->geometry().width(); if (screenWidth > 2000) width = 100 * ((screenWidth + 500) / 1000); m_testWindowSize = QSize(width, width); // Make sure test runs consistently on all compositors by force-disabling window decorations if (isPlatformWayland()) qputenv("QT_WAYLAND_DISABLE_WINDOWDECORATION", "1"); } void tst_QWindow::cleanup() { QVERIFY(QGuiApplication::allWindows().isEmpty()); } void tst_QWindow::create() { QWindow a; QVERIFY2(!a.handle(), "QWindow should lazy init the platform window"); a.create(); QVERIFY2(a.handle(), "Explicitly creating a platform window should never fail"); QWindow b; QWindow c(&b); b.create(); QVERIFY(b.handle()); QVERIFY2(!c.handle(), "Creating a parent window should not automatically create children"); QWindow d; QWindow e(&d); e.create(); QVERIFY(e.handle()); QVERIFY2(d.handle(), "Creating a child window should automatically create parents"); QWindow f; QWindow g(&f); f.create(); QVERIFY(f.handle()); QPlatformWindow *platformWindow = f.handle(); g.create(); QVERIFY(g.handle()); QVERIFY2(f.handle() == platformWindow, "Creating a child window should not affect parent if already created"); } void tst_QWindow::setParent() { QWindow a; QWindow b(&a); QVERIFY2(b.parent() == &a, "Setting parent at construction time should work"); QVERIFY2(a.children().contains(&b), "Parent should have child in list of children"); QWindow c; QWindow d; d.setParent(&c); QVERIFY2(d.parent() == &c, "Setting parent after construction should work"); QVERIFY2(c.children().contains(&d), "Parent should have child in list of children"); a.create(); b.setParent(nullptr); QVERIFY2(!b.handle(), "Making window top level shouild not automatically create it"); QWindow e; c.create(); e.setParent(&c); QVERIFY2(!e.handle(), "Making window a child of a created window should not automatically create it"); QWindow f; QWindow g; g.create(); QVERIFY(g.handle()); g.setParent(&f); QVERIFY2(f.handle(), "Making a created window a child of a non-created window should automatically create it"); } void tst_QWindow::setVisible() { QWindow a; QWindow b(&a); a.setVisible(true); QVERIFY2(!b.handle(), "Making a top level window visible doesn't create its children"); QVERIFY2(!b.isVisible(), "Making a top level window visible doesn't make its children visible"); QVERIFY(QTest::qWaitForWindowExposed(&a)); QWindow c; QWindow d(&c); d.setVisible(true); QVERIFY2(!c.handle(), "Making a child window visible doesn't create parent window if parent is hidden"); QVERIFY2(!c.isVisible(), "Making a child window visible doesn't make its parent visible"); QVERIFY2(!d.handle(), "Making a child window visible doesn't create platform window if parent is hidden"); c.create(); QVERIFY(c.handle()); QVERIFY2(d.handle(), "Creating a parent window should automatically create children if they are visible"); QVERIFY2(!c.isVisible(), "Creating a parent window should not make it visible just because it has visible children"); QWindow e; QWindow f(&e); f.setVisible(true); QVERIFY(!f.handle()); QVERIFY(!e.handle()); f.setParent(nullptr); QVERIFY2(f.handle(), "Making a visible but not created child window top level should create it"); QVERIFY(QTest::qWaitForWindowExposed(&f)); QWindow g; QWindow h; QWindow i(&g); i.setVisible(true); h.setVisible(true); QVERIFY(QTest::qWaitForWindowExposed(&h)); QVERIFY(!i.handle()); QVERIFY(!g.handle()); QVERIFY(h.handle()); i.setParent(&h); QVERIFY2(i.handle(), "Making a visible but not created child window child of a created window should create it"); QVERIFY(QTest::qWaitForWindowExposed(&i)); } void tst_QWindow::setVisibleFalseDoesNotCreateWindow() { QWindow w; QVERIFY(!w.handle()); w.setVisible(false); QVERIFY2(!w.handle(), "Hiding a non-created window doesn't create it"); w.setVisible(true); QVERIFY2(w.handle(), "Showing a non-created window creates it"); } void tst_QWindow::mapGlobal() { QWindow a; QWindow b(&a); QWindow c(&b); a.setGeometry(10, 10, 300, 300); b.setGeometry(20, 20, 200, 200); c.setGeometry(40, 40, 100, 100); QCOMPARE(a.mapToGlobal(QPoint(100, 100)), QPoint(110, 110)); auto delta = a.mapToGlobal(QPointF(100.5, 100.5)) - QPointF(110.5, 110.5); QVERIFY(qFuzzyIsNull(delta.manhattanLength())); QCOMPARE(b.mapToGlobal(QPoint(100, 100)), QPoint(130, 130)); QCOMPARE(c.mapToGlobal(QPoint(100, 100)), QPoint(170, 170)); QCOMPARE(a.mapFromGlobal(QPoint(100, 100)), QPoint(90, 90)); delta = a.mapFromGlobal(QPointF(100.5, 100.5)) - QPointF(90.5, 90.5); QVERIFY(qFuzzyIsNull(delta.manhattanLength())); QCOMPARE(b.mapFromGlobal(QPoint(100, 100)), QPoint(70, 70)); QCOMPARE(c.mapFromGlobal(QPoint(100, 100)), QPoint(30, 30)); } class Window : public QWindow { public: Window(const Qt::WindowFlags flags = Qt::Window | Qt::WindowTitleHint | Qt::WindowMinMaxButtonsHint | Qt::WindowCloseButtonHint) : QWindow(), lastReceivedWindowState(windowState()) { reset(); setFlags(flags); #if defined(Q_OS_QNX) setSurfaceType(QSurface::OpenGLSurface); #endif #if !defined(Q_OS_MACOS) // FIXME: All platforms should send window-state change events, regardless // of the sync/async nature of the the underlying platform, but they don't. connect(this, &QWindow::windowStateChanged, [this]() { lastReceivedWindowState = windowState(); }); #endif } void reset() { m_received.clear(); m_framePositionsOnMove.clear(); } bool event(QEvent *event) override { m_received[event->type()]++; m_order << event->type(); switch (event->type()) { case QEvent::PlatformSurface: m_surfaceventType = static_cast(event)->surfaceEventType(); break; case QEvent::Move: m_framePositionsOnMove << framePosition(); break; case QEvent::WindowStateChange: lastReceivedWindowState = windowState(); break; default: break; } return QWindow::event(event); } int received(QEvent::Type type) { return m_received.value(type, 0); } int eventIndex(QEvent::Type type) { return m_order.indexOf(type); } QPlatformSurfaceEvent::SurfaceEventType surfaceEventType() const { return m_surfaceventType; } QList m_framePositionsOnMove; Qt::WindowStates lastReceivedWindowState; private: QHash m_received; QList m_order; QPlatformSurfaceEvent::SurfaceEventType m_surfaceventType; }; class ColoredWindow : public QRasterWindow { public: explicit ColoredWindow(const QColor &color, QWindow *parent = nullptr) : QRasterWindow(parent), m_color(color) {} void paintEvent(QPaintEvent *) override { QPainter p(this); p.fillRect(QRect(QPoint(0, 0), size()), m_color); } private: const QColor m_color; }; void tst_QWindow::eventOrderOnShow() { // Some platforms enforce minimum widths for windows, which can cause extra resize // events, so set the width to suitably large value to avoid those. QRect geometry(m_availableTopLeft + QPoint(80, 80), m_testWindowSize); Window window; window.setTitle(QLatin1String(QTest::currentTestFunction())); window.setGeometry(geometry); window.show(); QCoreApplication::processEvents(); QTRY_COMPARE(window.received(QEvent::Show), 1); QTRY_COMPARE(window.received(QEvent::Resize), 1); QTRY_VERIFY(window.isExposed()); QVERIFY(window.eventIndex(QEvent::Show) < window.eventIndex(QEvent::Resize)); QVERIFY(window.eventIndex(QEvent::Resize) < window.eventIndex(QEvent::Expose)); } class PaintWindow : public Window { public: using Window::Window; protected: void paintEvent(QPaintEvent *) override { // Handled, not calling base class } }; void tst_QWindow::paintEvent() { PaintWindow window; window.setTitle(QLatin1String(QTest::currentTestFunction())); window.setGeometry(QRect(m_availableTopLeft, m_testWindowSize)); window.show(); QTRY_VERIFY(window.received(QEvent::Expose)); QTRY_VERIFY(window.received(QEvent::Paint)); QVERIFY(window.isExposed()); // There is no defined order between paint and expose, so we don't test that window.reset(); window.resize(m_testWindowSize * 2); QTRY_VERIFY(window.received(QEvent::Paint)); QVERIFY(!window.received(QEvent::Expose)); window.reset(); window.hide(); QTRY_VERIFY(window.received(QEvent::Expose)); QVERIFY(!window.received(QEvent::Paint)); QVERIFY(!window.isExposed()); } void tst_QWindow::resizeEventAfterResize() { // Some platforms enforce minimum widths for windows, which can cause extra resize // events, so set the width to suitably large value to avoid those. QRect geometry(m_availableTopLeft + QPoint(80, 80), m_testWindowSize * 2); Window window; window.setGeometry(geometry); window.showNormal(); QTRY_COMPARE(window.received(QEvent::Resize), 1); // QTBUG-32706 // Make sure we get a resizeEvent after calling resize window.resize(m_testWindowSize); QTRY_COMPARE(window.received(QEvent::Resize), 2); } void tst_QWindow::exposeEventOnShrink_QTBUG54040() { Window window; window.setGeometry(QRect(m_availableTopLeft + QPoint(80, 80), m_testWindowSize)); window.setTitle(QTest::currentTestFunction()); window.showNormal(); QVERIFY(QTest::qWaitForWindowExposed(&window)); int exposeCount = window.received(QEvent::Expose); window.resize(window.width(), window.height() - 5); QTRY_VERIFY(window.received(QEvent::Expose) > exposeCount); exposeCount = window.received(QEvent::Expose); window.resize(window.width() - 5, window.height()); QTRY_VERIFY(window.received(QEvent::Expose) > exposeCount); exposeCount = window.received(QEvent::Expose); window.resize(window.width() - 5, window.height() - 5); QTRY_VERIFY(window.received(QEvent::Expose) > exposeCount); } void tst_QWindow::positioning_data() { QTest::addColumn("windowflags"); QTest::newRow("default") << (Qt::Window | Qt::WindowTitleHint | Qt::WindowMinMaxButtonsHint | Qt::WindowCloseButtonHint | Qt::WindowFullscreenButtonHint); #ifdef Q_OS_MACOS QTest::newRow("fake") << (Qt::Window | Qt::WindowTitleHint | Qt::WindowMinMaxButtonsHint | Qt::WindowCloseButtonHint); #endif } // Compare a window position that may go through scaling in the platform plugin with fuzz. static inline bool qFuzzyCompareWindowPosition(const QPoint &p1, const QPoint p2, int fuzz) { return (p1 - p2).manhattanLength() <= fuzz; } static inline bool qFuzzyCompareWindowSize(const QSize &s1, const QSize &s2, int fuzz) { const int manhattanLength = qAbs(s1.width() - s2.width()) + qAbs(s1.height() - s2.height()); return manhattanLength <= fuzz; } static inline bool qFuzzyCompareWindowGeometry(const QRect &r1, const QRect &r2, int fuzz) { return qFuzzyCompareWindowPosition(r1.topLeft(), r2.topLeft(), fuzz) && qFuzzyCompareWindowSize(r1.size(), r2.size(), fuzz); } static QString msgPointMismatch(const QPoint &p1, const QPoint p2) { QString result; QDebug(&result) << p1 << "!=" << p2 << ", manhattanLength=" << (p1 - p2).manhattanLength(); return result; } static QString msgRectMismatch(const QRect &r1, const QRect &r2) { QString result; QDebug(&result) << r1 << "!=" << r2; return result; } void tst_QWindow::positioning() { #ifdef Q_OS_ANDROID QSKIP("Fails on Android. QTBUG-105201"); #endif if (!QGuiApplicationPrivate::platformIntegration()->hasCapability( QPlatformIntegration::NonFullScreenWindows)) { QSKIP("This platform does not support non-fullscreen windows"); } if (isPlatformWayland()) QSKIP("Wayland: This fails. See QTBUG-68660."); // Some platforms enforce minimum widths for windows, which can cause extra resize // events, so set the width to suitably large value to avoid those. const QRect geometry(m_availableTopLeft + QPoint(80, 80), m_testWindowSize); QFETCH(Qt::WindowFlags, windowflags); Window window(windowflags); window.setGeometry(QRect(m_availableTopLeft + QPoint(20, 20), m_testWindowSize)); window.setFramePosition(m_availableTopLeft + QPoint(40, 40)); // Move window around before show, size must not change. QCOMPARE(window.geometry().size(), m_testWindowSize); window.setGeometry(geometry); QCOMPARE(window.geometry(), geometry); // explicitly use non-fullscreen show. show() can be fullscreen on some platforms window.showNormal(); QVERIFY(QTest::qWaitForWindowActive(&window)); QMargins originalMargins = window.frameMargins(); QCOMPARE(window.position(), window.framePosition() + QPoint(originalMargins.left(), originalMargins.top())); QVERIFY(window.frameGeometry().contains(window.geometry())); QPoint originalPos = window.position(); QPoint originalFramePos = window.framePosition(); window.reset(); window.setWindowState(Qt::WindowFullScreen); QTRY_COMPARE(window.lastReceivedWindowState, Qt::WindowFullScreen); QTRY_VERIFY(window.received(QEvent::Resize) > 0); window.reset(); window.setWindowState(Qt::WindowNoState); QTRY_COMPARE(window.lastReceivedWindowState, Qt::WindowNoState); QTRY_VERIFY(window.received(QEvent::Resize) > 0); QTRY_COMPARE(originalPos, window.position()); QTRY_COMPARE(originalFramePos, window.framePosition()); QTRY_COMPARE(originalMargins, window.frameMargins()); // if our positioning is actually fully respected by the window manager // test whether it correctly handles frame positioning as well if (originalPos == geometry.topLeft() && (originalMargins.top() != 0 || originalMargins.left() != 0)) { const QScreen *screen = window.screen(); const QRect availableGeometry = screen->availableGeometry(); const QPoint framePos = availableGeometry.center(); window.reset(); const QPoint oldFramePos = window.framePosition(); window.setFramePosition(framePos); QTRY_VERIFY(window.received(QEvent::Move)); const int fuzz = int(QHighDpiScaling::factor(&window)); if (!qFuzzyCompareWindowPosition(window.framePosition(), framePos, fuzz)) { qDebug() << "About to fail auto-test. Here is some additional information:"; qDebug() << "window.framePosition() == " << window.framePosition(); qDebug() << "old frame position == " << oldFramePos; qDebug() << "We received " << window.received(QEvent::Move) << " move events"; qDebug() << "frame positions after each move event:" << window.m_framePositionsOnMove; } QTRY_VERIFY2(qFuzzyCompareWindowPosition(window.framePosition(), framePos, fuzz), qPrintable(msgPointMismatch(window.framePosition(), framePos))); QTRY_COMPARE(originalMargins, window.frameMargins()); QCOMPARE(window.position(), window.framePosition() + QPoint(originalMargins.left(), originalMargins.top())); // and back to regular positioning window.reset(); window.setPosition(originalPos); QTRY_VERIFY(window.received(QEvent::Move)); QTRY_COMPARE(originalPos, window.position()); } } void tst_QWindow::positioningDuringMinimized() { // QTBUG-39544, setting a geometry in minimized state should work as well. if (QGuiApplication::platformName().compare("windows", Qt::CaseInsensitive) != 0 && QGuiApplication::platformName().compare("cocoa", Qt::CaseInsensitive) != 0) QSKIP("Not supported on this platform"); Window window; window.setTitle(QStringLiteral("positioningDuringMinimized")); const QRect initialGeometry(m_availableTopLeft + QPoint(100, 100), m_testWindowSize); window.setGeometry(initialGeometry); window.showNormal(); QVERIFY(QTest::qWaitForWindowExposed(&window)); QCOMPARE(window.geometry(), initialGeometry); window.setWindowState(Qt::WindowMinimized); QCOMPARE(window.geometry(), initialGeometry); const QRect newGeometry(initialGeometry.topLeft() + QPoint(50, 50), initialGeometry.size() + QSize(50, 50)); window.setGeometry(newGeometry); QTRY_COMPARE(window.geometry(), newGeometry); window.setWindowState(Qt::WindowNoState); QTRY_COMPARE(window.geometry(), newGeometry); } void tst_QWindow::childWindowPositioning_data() { QTest::addColumn("showInsteadOfCreate"); QTest::newRow("create") << false; QTest::newRow("show") << true; } void tst_QWindow::childWindowPositioning() { const QPoint topLeftOrigin(0, 0); ColoredWindow topLevelWindowFirst(Qt::green); topLevelWindowFirst.setObjectName("topLevelWindowFirst"); ColoredWindow childWindowAfter(Qt::yellow, &topLevelWindowFirst); childWindowAfter.setObjectName("childWindowAfter"); topLevelWindowFirst.setFramePosition(m_availableTopLeft); childWindowAfter.setFramePosition(topLeftOrigin); ColoredWindow topLevelWindowAfter(Qt::green); topLevelWindowAfter.setObjectName("topLevelWindowAfter"); ColoredWindow childWindowFirst(Qt::yellow, &topLevelWindowAfter); childWindowFirst.setObjectName("childWindowFirst"); topLevelWindowAfter.setFramePosition(m_availableTopLeft); childWindowFirst.setFramePosition(topLeftOrigin); QFETCH(bool, showInsteadOfCreate); QWindow *windows[] = {&topLevelWindowFirst, &childWindowAfter, &childWindowFirst, &topLevelWindowAfter}; for (QWindow *window : windows) { if (showInsteadOfCreate) window->showNormal(); else window->create(); } if (showInsteadOfCreate) { QVERIFY(QTest::qWaitForWindowExposed(&topLevelWindowFirst)); QVERIFY(QTest::qWaitForWindowExposed(&topLevelWindowAfter)); } // Creation order shouldn't affect the geometry // Use try compare since on X11 the window manager may still re-position the window after expose QTRY_COMPARE(topLevelWindowFirst.geometry(), topLevelWindowAfter.geometry()); QTRY_COMPARE(childWindowAfter.geometry(), childWindowFirst.geometry()); // Creation order shouldn't affect the child ending up at 0,0 QCOMPARE(childWindowFirst.framePosition(), topLeftOrigin); QCOMPARE(childWindowAfter.framePosition(), topLeftOrigin); } void tst_QWindow::childWindowLevel() { ColoredWindow topLevel(Qt::green); topLevel.setObjectName("topLevel"); ColoredWindow yellowChild(Qt::yellow, &topLevel); yellowChild.setObjectName("yellowChild"); ColoredWindow redChild(Qt::red, &topLevel); redChild.setObjectName("redChild"); ColoredWindow blueChild(Qt::blue, &topLevel); blueChild.setObjectName("blueChild"); const QObjectList &siblings = topLevel.children(); QCOMPARE(siblings.constFirst(), &yellowChild); QCOMPARE(siblings.constLast(), &blueChild); yellowChild.raise(); QCOMPARE(siblings.constLast(), &yellowChild); blueChild.lower(); QCOMPARE(siblings.constFirst(), &blueChild); } // QTBUG-49709: Verify that the normal geometry is correctly restored // when executing a sequence of window state changes. So far, Windows // only where state changes have immediate effect. typedef QList WindowStateList; Q_DECLARE_METATYPE(WindowStateList) void tst_QWindow::stateChange_data() { QTest::addColumn("stateSequence"); QTest::newRow("normal->min->normal") << (WindowStateList() << Qt::WindowMinimized << Qt::WindowNoState); QTest::newRow("normal->maximized->normal") << (WindowStateList() << Qt::WindowMaximized << Qt::WindowNoState); QTest::newRow("normal->fullscreen->normal") << (WindowStateList() << Qt::WindowFullScreen << Qt::WindowNoState); QTest::newRow("normal->maximized->fullscreen->normal") << (WindowStateList() << Qt::WindowMaximized << Qt::WindowFullScreen << Qt::WindowNoState); } void tst_QWindow::stateChange() { QFETCH(WindowStateList, stateSequence); if (QGuiApplication::platformName().compare(QLatin1String("windows"), Qt::CaseInsensitive)) QSKIP("Windows-only test"); Window window; window.setTitle(QLatin1String(QTest::currentTestFunction()) + QLatin1Char(' ') + QLatin1String(QTest::currentDataTag())); const QRect normalGeometry(m_availableTopLeft + QPoint(40, 40), m_testWindowSize); window.setGeometry(normalGeometry); // explicitly use non-fullscreen show. show() can be fullscreen on some platforms window.showNormal(); QVERIFY(QTest::qWaitForWindowExposed(&window)); for (Qt::WindowState state : std::as_const(stateSequence)) { window.setWindowState(state); QCoreApplication::processEvents(); } const QRect geometry = window.geometry(); const int fuzz = int(QHighDpiScaling::factor(&window)); QVERIFY2(qFuzzyCompareWindowGeometry(geometry, normalGeometry, fuzz), qPrintable(msgRectMismatch(geometry, normalGeometry))); } class PlatformWindowFilter : public QObject { Q_OBJECT public: explicit PlatformWindowFilter(Window *window) : m_window(window) {} bool eventFilter(QObject *o, QEvent *e) override { // Check that the platform surface events are delivered synchronously. // If they are, the native platform surface should always exist when we // receive a QPlatformSurfaceEvent if (e->type() == QEvent::PlatformSurface && o == m_window) { m_alwaysExisted &= (m_window->handle() != nullptr); } return false; } bool surfaceExisted() const { return m_alwaysExisted; } private: Window *m_window; bool m_alwaysExisted = true; }; void tst_QWindow::platformSurface() { QRect geometry(m_availableTopLeft + QPoint(80, 80), m_testWindowSize); Window window; PlatformWindowFilter filter(&window); window.installEventFilter(&filter); window.setGeometry(geometry); QCOMPARE(window.geometry(), geometry); window.create(); QTRY_COMPARE(window.received(QEvent::PlatformSurface), 1); QTRY_COMPARE(window.surfaceEventType(), QPlatformSurfaceEvent::SurfaceCreated); QTRY_VERIFY(window.handle() != nullptr); window.destroy(); QTRY_COMPARE(window.received(QEvent::PlatformSurface), 2); QTRY_COMPARE(window.surfaceEventType(), QPlatformSurfaceEvent::SurfaceAboutToBeDestroyed); QTRY_VERIFY(!window.handle()); // Check for synchronous delivery of platform surface events and that the platform // surface always existed upon event delivery QTRY_VERIFY(filter.surfaceExisted()); } void tst_QWindow::isExposed() { QRect geometry(m_availableTopLeft + QPoint(80, 80), m_testWindowSize); Window window; window.setTitle(QLatin1String(QTest::currentTestFunction())); window.setGeometry(geometry); QCOMPARE(window.geometry(), geometry); window.show(); QCoreApplication::processEvents(); QTRY_VERIFY(window.received(QEvent::Expose) > 0); QTRY_VERIFY(window.isExposed()); window.hide(); QCoreApplication::processEvents(); QTRY_VERIFY(window.received(QEvent::Expose) > 1); QTRY_VERIFY(!window.isExposed()); } void tst_QWindow::isActive() { if (!QGuiApplicationPrivate::platformIntegration()->hasCapability(QPlatformIntegration::WindowActivation)) QSKIP("QWindow::requestActivate() is not supported."); Window window; window.setTitle(QLatin1String(QTest::currentTestFunction())); // Some platforms enforce minimum widths for windows, which can cause extra resize // events, so set the width to suitably large value to avoid those. window.setGeometry(QRect(m_availableTopLeft + QPoint(80, 80), m_testWindowSize)); window.show(); QCoreApplication::processEvents(); QTRY_VERIFY(window.isExposed()); #if defined(Q_OS_QNX) // We either need to create a eglSurface or a create a backing store // and then post the window in order for screen to show the window QOpenGLContext context; context.create(); context.makeCurrent(&window); context.swapBuffers(&window); #endif QTRY_COMPARE(window.received(QEvent::Resize), 1); QTRY_COMPARE(QGuiApplication::focusWindow(), &window); QVERIFY(window.isActive()); Window child; child.setParent(&window); child.setGeometry(10, 10, 20, 20); child.show(); QTRY_VERIFY(child.isExposed()); child.requestActivate(); QTRY_COMPARE(QGuiApplication::focusWindow(), &child); QVERIFY(child.isActive()); // parent shouldn't receive new resize events from child being shown QCoreApplication::processEvents(); QTRY_COMPARE(window.received(QEvent::Resize), 1); QTRY_COMPARE(window.received(QEvent::FocusIn), 1); QTRY_COMPARE(window.received(QEvent::FocusOut), 1); QTRY_COMPARE(child.received(QEvent::FocusIn), 1); // child has focus QVERIFY(window.isActive()); // test focus back to parent and then back to child (QTBUG-39362) // also verify the cumulative FocusOut and FocusIn counts // activate parent window.requestActivate(); QTRY_COMPARE(QGuiApplication::focusWindow(), &window); QVERIFY(window.isActive()); QCoreApplication::processEvents(); QTRY_COMPARE(child.received(QEvent::FocusOut), 1); QTRY_COMPARE(window.received(QEvent::FocusIn), 2); // activate child again child.requestActivate(); QTRY_COMPARE(QGuiApplication::focusWindow(), &child); QVERIFY(child.isActive()); QCoreApplication::processEvents(); QTRY_COMPARE(window.received(QEvent::FocusOut), 2); QTRY_COMPARE(child.received(QEvent::FocusIn), 2); Window dialog; dialog.setTransientParent(&window); dialog.setGeometry(QRect(m_availableTopLeft + QPoint(110, 100), m_testWindowSize)); dialog.show(); dialog.requestActivate(); QTRY_VERIFY(dialog.isExposed()); QCoreApplication::processEvents(); QTRY_COMPARE(dialog.received(QEvent::Resize), 1); QTRY_COMPARE(QGuiApplication::focusWindow(), &dialog); QVERIFY(dialog.isActive()); // transient child has focus QVERIFY(window.isActive()); // parent is active QVERIFY(child.isActive()); window.requestActivate(); QTRY_COMPARE(QGuiApplication::focusWindow(), &window); QCoreApplication::processEvents(); QTRY_COMPARE(dialog.received(QEvent::FocusOut), 1); // We should be checking for exactly three, but since this is a try-compare _loop_, we might // loose and regain focus multiple times in the event of a system popup. This has been observed // to fail on Windows, see QTBUG-77769. QTRY_VERIFY2(window.received(QEvent::FocusIn) >= 3, qPrintable( QStringLiteral("Expected more than three focus in events, received: %1") .arg(window.received(QEvent::FocusIn)))); QVERIFY(window.isActive()); // transient parent has focus QVERIFY(dialog.isActive()); // parent has focus QVERIFY(child.isActive()); } class InputTestWindow : public ColoredWindow { public: void keyPressEvent(QKeyEvent *event) override { keyPressCode = event->key(); } void keyReleaseEvent(QKeyEvent *event) override { keyReleaseCode = event->key(); } void mousePressEvent(QMouseEvent *event) override { qCDebug(lcTests) << event; mouseDevice = event->pointingDevice(); if (ignoreMouse) { event->ignore(); } else { QCOMPARE(event->isBeginEvent(), true); QCOMPARE(event->isUpdateEvent(), false); QCOMPARE(event->isEndEvent(), false); QCOMPARE(event->points().first().state(), QEventPoint::State::Pressed); ++mousePressedCount; mouseSequenceSignature += 'p'; mousePressButton = event->button(); mousePressScreenPos = event->globalPosition(); mousePressLocalPos = event->position(); if (spinLoopWhenPressed) QCoreApplication::processEvents(); } if (closeOnTap) this->close(); } void mouseReleaseEvent(QMouseEvent *event) override { qCDebug(lcTests) << event; if (ignoreMouse) { event->ignore(); } else { QCOMPARE(event->isBeginEvent(), false); QCOMPARE(event->isUpdateEvent(), false); QCOMPARE(event->isEndEvent(), true); QCOMPARE(event->points().first().state(), QEventPoint::State::Released); ++mouseReleasedCount; mouseSequenceSignature += 'r'; mouseReleaseButton = event->button(); } } void mouseMoveEvent(QMouseEvent *event) override { qCDebug(lcTests) << event; buttonStateInGeneratedMove = event->buttons(); if (ignoreMouse) { event->ignore(); } else { QCOMPARE(event->isBeginEvent(), false); QCOMPARE(event->isUpdateEvent(), true); QCOMPARE(event->isEndEvent(), false); QCOMPARE(event->points().first().state(), QEventPoint::State::Updated); ++mouseMovedCount; mouseMoveButton = event->button(); mouseMoveScreenPos = event->globalPosition(); } } void mouseDoubleClickEvent(QMouseEvent *event) override { qCDebug(lcTests) << event; if (ignoreMouse) { event->ignore(); } else { QCOMPARE(event->isBeginEvent(), false); QCOMPARE(event->isUpdateEvent(), true); QCOMPARE(event->isEndEvent(), false); QCOMPARE(event->points().first().state(), QEventPoint::State::Stationary); ++mouseDoubleClickedCount; mouseSequenceSignature += 'd'; } } void touchEvent(QTouchEvent *event) override { qCDebug(lcTests) << event; touchDevice = event->pointingDevice(); if (ignoreTouch) { event->ignore(); return; } touchEventType = event->type(); QList points = event->points(); for (int i = 0; i < points.size(); ++i) { const auto &point = points.at(i); switch (point.state()) { case QEventPoint::State::Pressed: ++touchPressedCount; if (spinLoopWhenPressed) QCoreApplication::processEvents(); if (i == 0) { touchPressLocalPos = point.position(); touchPressGlobalPos = point.globalPosition(); } if (closeOnTap) this->close(); break; case QEventPoint::State::Released: ++touchReleasedCount; break; case QEventPoint::State::Updated: ++touchMovedCount; break; default: break; } } } bool event(QEvent *e) override { switch (e->type()) { case QEvent::Enter: qCDebug(lcTests) << e; ++enterEventCount; break; case QEvent::Leave: qCDebug(lcTests) << e; ++leaveEventCount; break; default: break; } return ColoredWindow::event(e); } void resetCounters() { mousePressedCount = mouseReleasedCount = mouseMovedCount = mouseDoubleClickedCount = 0; mouseSequenceSignature.clear(); touchPressedCount = touchReleasedCount = touchMovedCount = 0; enterEventCount = leaveEventCount = 0; } explicit InputTestWindow(const QColor &color = Qt::white, QWindow *parent = nullptr) : ColoredWindow(color, parent) {} int keyPressCode = 0, keyReleaseCode = 0; int mousePressButton = 0, mouseReleaseButton = 0, mouseMoveButton = 0; int mousePressedCount = 0, mouseReleasedCount = 0, mouseMovedCount = 0, mouseDoubleClickedCount = 0; QString mouseSequenceSignature; QPointF mousePressScreenPos, mouseMoveScreenPos, mousePressLocalPos; QPointF touchPressGlobalPos, touchPressLocalPos; int touchPressedCount = 0, touchReleasedCount = 0, touchMovedCount = 0; QEvent::Type touchEventType = QEvent::None; int enterEventCount = 0, leaveEventCount = 0; bool ignoreMouse = false, ignoreTouch = false; bool spinLoopWhenPressed = false; Qt::MouseButtons buttonStateInGeneratedMove; const QPointingDevice *mouseDevice = nullptr; const QPointingDevice *touchDevice = nullptr; bool closeOnTap = false; }; static void simulateMouseClick(QWindow *target, const QPointF &local, const QPointF &global) { QWindowSystemInterface::handleMouseEvent(target, local, global, Qt::LeftButton, Qt::LeftButton, QEvent::MouseButtonPress); QWindowSystemInterface::handleMouseEvent(target, local, global, {}, Qt::LeftButton, QEvent::MouseButtonRelease); } static void simulateMouseClick(QWindow *target, ulong &timeStamp, const QPointF &local, const QPointF &global) { QWindowSystemInterface::handleMouseEvent(target, timeStamp++, local, global, Qt::LeftButton, Qt::LeftButton, QEvent::MouseButtonPress); QWindowSystemInterface::handleMouseEvent(target, timeStamp++, local, global, {}, Qt::LeftButton, QEvent::MouseButtonRelease); } void tst_QWindow::testInputEvents() { InputTestWindow window; window.setGeometry(QRect(m_availableTopLeft + QPoint(80, 80), m_testWindowSize)); window.showNormal(); QVERIFY(QTest::qWaitForWindowExposed(&window)); QTest::keyClick(&window, Qt::Key_A, Qt::NoModifier); QCoreApplication::processEvents(); QCOMPARE(window.keyPressCode, int(Qt::Key_A)); QCOMPARE(window.keyReleaseCode, int(Qt::Key_A)); QPointF local(12, 34); QTest::mouseClick(&window, Qt::LeftButton, Qt::NoModifier, local.toPoint()); QCoreApplication::processEvents(); QCOMPARE(window.mousePressButton, int(Qt::LeftButton)); QCOMPARE(window.mouseReleaseButton, int(Qt::LeftButton)); QCOMPARE(window.mousePressLocalPos, local); QList points; QWindowSystemInterface::TouchPoint tp1, tp2; tp1.id = 1; tp1.state = QEventPoint::State::Pressed; tp1.area = QRect(10, 10, 4, 4); tp2.id = 2; tp2.state = QEventPoint::State::Pressed; tp2.area = QRect(20, 20, 4, 4); points << tp1 << tp2; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); points[0].state = QEventPoint::State::Released; points[1].state = QEventPoint::State::Released; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); QTRY_COMPARE(window.touchPressedCount, 2); QTRY_COMPARE(window.touchReleasedCount, 2); // Now with null pointer as window. local param should not be utilized: // handleMouseEvent() with tlw == 0 means the event is in global coords only. window.mousePressButton = window.mouseReleaseButton = 0; const QPointF nonWindowGlobal(window.geometry().topRight() + QPoint(200, 50)); // not inside the window const QPointF deviceNonWindowGlobal = QHighDpi::toNativePixels(nonWindowGlobal, window.screen()); simulateMouseClick(nullptr, deviceNonWindowGlobal, deviceNonWindowGlobal); QCoreApplication::processEvents(); QCOMPARE(window.mousePressButton, 0); QCOMPARE(window.mouseReleaseButton, 0); const QPointF windowGlobal = window.mapToGlobal(local.toPoint()); const QPointF deviceWindowGlobal = QHighDpi::toNativePixels(windowGlobal, window.screen()); simulateMouseClick(nullptr, deviceWindowGlobal, deviceWindowGlobal); QCoreApplication::processEvents(); QCOMPARE(window.mousePressButton, int(Qt::LeftButton)); QCOMPARE(window.mouseReleaseButton, int(Qt::LeftButton)); QCOMPARE(window.mousePressScreenPos, windowGlobal); QCOMPARE(window.mousePressLocalPos, local); // the local we passed was bogus, verify that qGuiApp calculated the proper one } void tst_QWindow::touchToMouseTranslation() { InputTestWindow window; window.setTitle(QLatin1String(QTest::currentTestFunction())); window.ignoreTouch = true; window.setGeometry(QRect(m_availableTopLeft + QPoint(80, 80), m_testWindowSize)); window.show(); QVERIFY(QTest::qWaitForWindowExposed(&window)); QList points; QWindowSystemInterface::TouchPoint tp1, tp2; const QRectF pressArea(101, 102, 4, 4); const QRectF moveArea(105, 108, 4, 4); tp1.id = 1; tp1.state = QEventPoint::State::Pressed; tp1.area = QHighDpi::toNativePixels(pressArea, &window); tp2.id = 2; tp2.state = QEventPoint::State::Pressed; points << tp1 << tp2; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); // Now an update but with changed list order. The mouse event should still // be generated from the point with id 1. tp1.id = 2; tp1.state = QEventPoint::State::Stationary; tp2.id = 1; tp2.state = QEventPoint::State::Updated; tp2.area = QHighDpi::toNativePixels(moveArea, &window); points.clear(); points << tp1 << tp2; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); points[0].state = QEventPoint::State::Released; points[1].state = QEventPoint::State::Released; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); QTRY_COMPARE(window.mousePressButton, int(Qt::LeftButton)); QTRY_COMPARE(window.mouseReleaseButton, int(Qt::LeftButton)); QTRY_COMPARE(window.mousePressScreenPos, pressArea.center()); QTRY_COMPARE(window.mouseMoveScreenPos, moveArea.center()); QCOMPARE(window.mouseDevice, window.touchDevice); QCOMPARE(window.mouseDevice->type(), QInputDevice::DeviceType::TouchScreen); window.mousePressButton = 0; window.mouseReleaseButton = 0; window.ignoreTouch = false; points[0].state = QEventPoint::State::Pressed; points[1].state = QEventPoint::State::Pressed; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); points[0].state = QEventPoint::State::Released; points[1].state = QEventPoint::State::Released; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); // no new mouse events should be generated since the input window handles the touch events QTRY_COMPARE(window.mousePressButton, 0); QTRY_COMPARE(window.mouseReleaseButton, 0); QCoreApplication::setAttribute(Qt::AA_SynthesizeMouseForUnhandledTouchEvents, false); window.ignoreTouch = true; points[0].state = QEventPoint::State::Pressed; points[1].state = QEventPoint::State::Pressed; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); points[0].state = QEventPoint::State::Released; points[1].state = QEventPoint::State::Released; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); QCoreApplication::setAttribute(Qt::AA_SynthesizeMouseForUnhandledTouchEvents, true); // mouse event synthesizing disabled QTRY_COMPARE(window.mousePressButton, 0); QTRY_COMPARE(window.mouseReleaseButton, 0); points.clear(); points.append(tp2); points[0].state = QEventPoint::State::Pressed; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); points.clear(); points.append(tp1); points[0].state = QEventPoint::State::Pressed; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); QTRY_COMPARE(window.mousePressButton, 1); points.clear(); points.append(tp2); points[0].state = QEventPoint::State::Released; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); points.clear(); points.append(tp1); points[0].state = QEventPoint::State::Released; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); QTRY_COMPARE(window.mouseReleaseButton, 1); } void tst_QWindow::touchToMouseTranslationForDevices() { InputTestWindow window; window.setTitle(QLatin1String(QTest::currentTestFunction())); window.ignoreTouch = true; window.setGeometry(QRect(m_availableTopLeft + QPoint(80, 80), m_testWindowSize)); window.show(); QVERIFY(QTest::qWaitForWindowExposed(&window)); QPoint touchPoint(10, 10); QTest::touchEvent(&window, touchDevice).press(0, touchPoint, &window); QTest::touchEvent(&window, touchDevice).release(0, touchPoint, &window); QCoreApplication::processEvents(); QCOMPARE(window.mousePressedCount, 1); QCOMPARE(window.mouseReleasedCount, 1); window.resetCounters(); QTest::touchEvent(&window, touchDeviceWithMouseEmulation).press(0, touchPoint, &window); QTest::touchEvent(&window, touchDeviceWithMouseEmulation).release(0, touchPoint, &window); QCoreApplication::processEvents(); QCOMPARE(window.mousePressedCount, 0); QCOMPARE(window.mouseReleasedCount, 0); } void tst_QWindow::mouseToTouchTranslation() { QCoreApplication::setAttribute(Qt::AA_SynthesizeTouchForUnhandledMouseEvents, true); InputTestWindow window; window.setTitle(QLatin1String(QTest::currentTestFunction())); window.ignoreMouse = true; window.setGeometry(QRect(m_availableTopLeft + QPoint(80, 80), m_testWindowSize)); window.show(); QVERIFY(QTest::qWaitForWindowExposed(&window)); const QPoint localPos(10, 10); QTest::mouseClick(&window, Qt::LeftButton, {}, localPos); QCoreApplication::processEvents(); QCoreApplication::setAttribute(Qt::AA_SynthesizeTouchForUnhandledMouseEvents, false); QTRY_COMPARE(window.touchPressedCount, 1); QTRY_COMPARE(window.touchReleasedCount, 1); QCOMPARE(window.mouseDevice, window.touchDevice); if (isPlatformWayland()) QEXPECT_FAIL("", "Wayland: This fails. See QTBUG-100887.", Abort); QCOMPARE(window.touchDevice->type(), QInputDevice::DeviceType::Mouse); QCOMPARE(window.touchPressLocalPos.toPoint(), localPos); QCOMPARE(window.touchPressGlobalPos.toPoint(), window.mapToGlobal(localPos)); QCoreApplication::setAttribute(Qt::AA_SynthesizeTouchForUnhandledMouseEvents, true); window.ignoreMouse = false; QTest::mouseClick(&window, Qt::LeftButton, {}, localPos); QCoreApplication::processEvents(); QCoreApplication::setAttribute(Qt::AA_SynthesizeTouchForUnhandledMouseEvents, false); // no new touch events should be generated since the input window handles the mouse events QTRY_COMPARE(window.touchPressedCount, 1); QTRY_COMPARE(window.touchReleasedCount, 1); window.ignoreMouse = true; QTest::mouseClick(&window, Qt::LeftButton, {}, localPos); QCoreApplication::processEvents(); // touch event synthesis disabled QTRY_COMPARE(window.touchPressedCount, 1); QTRY_COMPARE(window.touchReleasedCount, 1); } void tst_QWindow::mouseToTouchLoop() { // make sure there's no infinite loop when synthesizing both ways QCoreApplication::setAttribute(Qt::AA_SynthesizeTouchForUnhandledMouseEvents, true); QCoreApplication::setAttribute(Qt::AA_SynthesizeMouseForUnhandledTouchEvents, true); InputTestWindow window; window.setTitle(QLatin1String(QTest::currentTestFunction())); window.ignoreMouse = true; window.ignoreTouch = true; window.setGeometry(QRect(m_availableTopLeft + QPoint(80, 80), m_testWindowSize)); window.show(); QVERIFY(QTest::qWaitForWindowExposed(&window)); QTest::mouseClick(&window, Qt::LeftButton, {}, QPoint(10, 10)); QCoreApplication::processEvents(); QCoreApplication::setAttribute(Qt::AA_SynthesizeTouchForUnhandledMouseEvents, false); QCoreApplication::setAttribute(Qt::AA_SynthesizeMouseForUnhandledTouchEvents, true); } void tst_QWindow::touchCancel() { InputTestWindow window; window.setTitle(QLatin1String(QTest::currentTestFunction())); window.setGeometry(QRect(m_availableTopLeft + QPoint(80, 80), m_testWindowSize)); window.show(); QVERIFY(QTest::qWaitForWindowExposed(&window)); QList points; QWindowSystemInterface::TouchPoint tp1; tp1.id = 1; // Start a touch. tp1.state = QEventPoint::State::Pressed; tp1.area = QRect(10, 10, 4, 4); points << tp1; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); QTRY_COMPARE(window.touchEventType, QEvent::TouchBegin); QTRY_COMPARE(window.touchPressedCount, 1); // Cancel the active touch sequence. QWindowSystemInterface::handleTouchCancelEvent(&window, touchDevice); QCoreApplication::processEvents(); QTRY_COMPARE(window.touchEventType, QEvent::TouchCancel); // Send a move -> will not be delivered due to the cancellation. QTRY_COMPARE(window.touchMovedCount, 0); points[0].state = QEventPoint::State::Updated; tp1.area.adjust(2, 2, 2, 2); QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); QTRY_COMPARE(window.touchMovedCount, 0); // Likewise. The only allowed transition is TouchCancel -> TouchBegin. QTRY_COMPARE(window.touchReleasedCount, 0); points[0].state = QEventPoint::State::Released; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); QTRY_COMPARE(window.touchReleasedCount, 0); // Start a new sequence -> from this point on everything should go through normally. points[0].state = QEventPoint::State::Pressed; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); QTRY_COMPARE(window.touchEventType, QEvent::TouchBegin); QTRY_COMPARE(window.touchPressedCount, 2); points[0].state = QEventPoint::State::Updated; tp1.area.adjust(2, 2, 2, 2); QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); QTRY_COMPARE(window.touchMovedCount, 1); points[0].state = QEventPoint::State::Released; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); QTRY_COMPARE(window.touchReleasedCount, 1); } void tst_QWindow::touchCancelWithTouchToMouse() { InputTestWindow window; window.setTitle(QLatin1String(QTest::currentTestFunction())); window.ignoreTouch = true; window.setGeometry(QRect(m_availableTopLeft + QPoint(80, 80), m_testWindowSize)); window.show(); QVERIFY(QTest::qWaitForWindowExposed(&window)); QList points; QWindowSystemInterface::TouchPoint tp1; tp1.id = 1; tp1.state = QEventPoint::State::Pressed; const QRect area(100, 100, 4, 4); tp1.area = QHighDpi::toNativePixels(area, &window); points << tp1; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); QTRY_COMPARE(window.mousePressButton, int(Qt::LeftButton)); const int fuzz = 2 * int(QHighDpiScaling::factor(&window)); QTRY_VERIFY2(qFuzzyCompareWindowPosition(window.mousePressScreenPos.toPoint(), area.center(), fuzz), qPrintable(msgPointMismatch(window.mousePressScreenPos.toPoint(), area.center()))); // Cancel the touch. Should result in a mouse release for windows that have // have an active touch-to-mouse sequence. QWindowSystemInterface::handleTouchCancelEvent(nullptr, touchDevice); QCoreApplication::processEvents(); QTRY_COMPARE(window.mouseReleaseButton, int(Qt::LeftButton)); // Now change the window to accept touches. window.mousePressButton = window.mouseReleaseButton = 0; window.ignoreTouch = false; // Send a touch, there will be no mouse event generated. QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); QTRY_COMPARE(window.mousePressButton, 0); // Cancel the touch. It should not result in a mouse release with this window. QWindowSystemInterface::handleTouchCancelEvent(nullptr, touchDevice); QCoreApplication::processEvents(); QTRY_COMPARE(window.mouseReleaseButton, 0); } void tst_QWindow::touchInterruptedByPopup() { InputTestWindow window; window.setTitle(QLatin1String(QTest::currentTestFunction())); window.setGeometry(QRect(m_availableTopLeft + QPoint(80, 80), m_testWindowSize)); window.show(); QVERIFY(QTest::qWaitForWindowExposed(&window)); QList points; QWindowSystemInterface::TouchPoint tp1; tp1.id = 1; // Start a touch. tp1.state = QEventPoint::State::Pressed; tp1.area = QRect(10, 10, 4, 4); points << tp1; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); QTRY_COMPARE(window.touchEventType, QEvent::TouchBegin); QTRY_COMPARE(window.touchPressedCount, 1); // Launch a popup window InputTestWindow popup; popup.setFlags(Qt::Popup); popup.setModality(Qt::WindowModal); popup.resize(m_testWindowSize / 2); popup.setTransientParent(&window); popup.show(); QVERIFY(QTest::qWaitForWindowExposed(&popup)); // Send a move -> will not be delivered to the original window // (TODO verify where it is forwarded, after we've defined that) QTRY_COMPARE(window.touchMovedCount, 0); points[0].state = QEventPoint::State::Updated; tp1.area.adjust(2, 2, 2, 2); QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); QTRY_COMPARE(window.touchMovedCount, 0); // Send a touch end -> will not be delivered to the original window QTRY_COMPARE(window.touchReleasedCount, 0); points[0].state = QEventPoint::State::Released; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); QTRY_COMPARE(window.touchReleasedCount, 0); // Due to temporary fix for QTBUG-37371: the original window should receive a TouchCancel QTRY_COMPARE(window.touchEventType, QEvent::TouchCancel); } void tst_QWindow::orientation() { qRegisterMetaType("Qt::ScreenOrientation"); QWindow window; window.setGeometry(QRect(m_availableTopLeft + QPoint(80, 80), m_testWindowSize)); window.create(); window.reportContentOrientationChange(Qt::PortraitOrientation); QCOMPARE(window.contentOrientation(), Qt::PortraitOrientation); window.reportContentOrientationChange(Qt::PrimaryOrientation); QCOMPARE(window.contentOrientation(), Qt::PrimaryOrientation); QSignalSpy spy(&window, SIGNAL(contentOrientationChanged(Qt::ScreenOrientation))); window.reportContentOrientationChange(Qt::LandscapeOrientation); QCOMPARE(spy.size(), 1); } void tst_QWindow::sizes() { QWindow window; QSignalSpy minimumWidthSpy(&window, SIGNAL(minimumWidthChanged(int))); QSignalSpy minimumHeightSpy(&window, SIGNAL(minimumHeightChanged(int))); QSignalSpy maximumWidthSpy(&window, SIGNAL(maximumWidthChanged(int))); QSignalSpy maximumHeightSpy(&window, SIGNAL(maximumHeightChanged(int))); QSize oldMaximum = window.maximumSize(); window.setMinimumWidth(10); QCOMPARE(window.minimumWidth(), 10); QCOMPARE(window.minimumHeight(), 0); QCOMPARE(window.minimumSize(), QSize(10, 0)); QCOMPARE(window.maximumSize(), oldMaximum); QCOMPARE(minimumWidthSpy.size(), 1); QCOMPARE(minimumHeightSpy.size(), 0); QCOMPARE(maximumWidthSpy.size(), 0); QCOMPARE(maximumHeightSpy.size(), 0); window.setMinimumHeight(10); QCOMPARE(window.minimumWidth(), 10); QCOMPARE(window.minimumHeight(), 10); QCOMPARE(window.minimumSize(), QSize(10, 10)); QCOMPARE(window.maximumSize(), oldMaximum); QCOMPARE(minimumWidthSpy.size(), 1); QCOMPARE(minimumHeightSpy.size(), 1); QCOMPARE(maximumWidthSpy.size(), 0); QCOMPARE(maximumHeightSpy.size(), 0); window.setMaximumWidth(100); QCOMPARE(window.maximumWidth(), 100); QCOMPARE(window.maximumHeight(), oldMaximum.height()); QCOMPARE(window.minimumSize(), QSize(10, 10)); QCOMPARE(window.maximumSize(), QSize(100, oldMaximum.height())); QCOMPARE(minimumWidthSpy.size(), 1); QCOMPARE(minimumHeightSpy.size(), 1); QCOMPARE(maximumWidthSpy.size(), 1); QCOMPARE(maximumHeightSpy.size(), 0); window.setMaximumHeight(100); QCOMPARE(window.maximumWidth(), 100); QCOMPARE(window.maximumHeight(), 100); QCOMPARE(window.minimumSize(), QSize(10, 10)); QCOMPARE(window.maximumSize(), QSize(100, 100)); QCOMPARE(minimumWidthSpy.size(), 1); QCOMPARE(minimumHeightSpy.size(), 1); QCOMPARE(maximumWidthSpy.size(), 1); QCOMPARE(maximumHeightSpy.size(), 1); // test if min and max limits will change the size QVERIFY(window.minimumWidth() < 50 && window.maximumWidth() > 80); QVERIFY(window.minimumHeight() < 50 && window.maximumHeight() > 80); window.resize(50, 50); QCOMPARE(window.size(), QSize(50, 50)); window.setMinimumSize(QSize(60, 60)); QCOMPARE(window.size(), QSize(60, 60)); window.resize(80, 80); window.setMaximumSize(QSize(70, 70)); QCOMPARE(window.size(), QSize(70, 70)); // QTBUG-113233 // test for an invalid min/max pair window.setMinimumSize(QSize(80, 80)); // current maximumSize = QSize(70, 70) QCOMPARE(window.size(), QSize(70, 70)); window.setMaximumSize(QSize(90, 90)); QCOMPARE(window.size(), QSize(80, 80)); } class CloseOnCloseEventWindow : public QWindow { public: inline static int closeEvents; CloseOnCloseEventWindow() { closeEvents = 0; } protected: void closeEvent(QCloseEvent *e) override { if (++closeEvents > 1) return; close(); e->accept(); } }; void tst_QWindow::close() { { QWindow a; QWindow b; QWindow c(&a); a.show(); b.show(); // we can not close a non top level window QVERIFY(!c.close()); QVERIFY(a.close()); QVERIFY(b.close()); } // Verify that closing a QWindow deletes its platform window, // independent of API used to close the window. { // Close with QWindow::close { QWindow w; w.create(); QVERIFY(w.handle()); w.close(); QVERIFY(!w.handle()); } // Close with QWindowSystemInterface::handleCloseEvent(); { QWindow w; w.create(); QVERIFY(w.handle()); QWindowSystemInterface::handleCloseEvent(&w); QCoreApplication::processEvents(); QVERIFY(!w.handle()); } } // Verify that closing a QWindow deletes the platform window for // child windows { QWindow w; QWindow c(&w); w.create(); c.create(); QVERIFY(w.handle()); QVERIFY(c.handle()); w.close(); QVERIFY(!w.handle()); QVERIFY(!c.handle()); } // Verify that re-creating closed windows is possble. { // Re-create top-level window { QWindow w; w.create(); QVERIFY(w.handle()); w.close(); QVERIFY(!w.handle()); w.create(); QVERIFY(w.handle()); } // Re-create top-level window with child window { QWindow w; QWindow c(&w); c.create(); QVERIFY(w.handle()); QVERIFY(c.handle()); w.close(); QVERIFY(!w.handle()); QVERIFY(!c.handle()); c.create(); QVERIFY(w.handle()); QVERIFY(c.handle()); } } { // A QWidget will call close() from the destructor, and // we allow widgets deleting itself in the closeEvent, // so we need to guard against close being called recursively. CloseOnCloseEventWindow w; w.create(); w.close(); QCOMPARE(CloseOnCloseEventWindow::closeEvents, 1); } } void tst_QWindow::activateAndClose() { if (!QGuiApplicationPrivate::platformIntegration()->hasCapability(QPlatformIntegration::WindowActivation)) QSKIP("QWindow::requestActivate() is not supported."); for (int i = 0; i < 10; ++i) { QWindow window; window.setTitle(QLatin1String(QTest::currentTestFunction()) + QString::number(i)); #if defined(Q_OS_QNX) window.setSurfaceType(QSurface::OpenGLSurface); #endif // qWaitForWindowActive will block for the duration of // of the timeout if the window is at 0,0 window.setGeometry(QGuiApplication::primaryScreen()->availableGeometry().adjusted(1, 1, -1, -1)); window.showNormal(); #if defined(Q_OS_QNX) // We either need to create a eglSurface or a create a backing store // and then post the window in order for screen to show the window QVERIFY(QTest::qWaitForWindowExposed(&window)); QOpenGLContext context; context.create(); context.makeCurrent(&window); context.swapBuffers(&window); #endif window.requestActivate(); QVERIFY(QTest::qWaitForWindowActive(&window)); QCOMPARE(QGuiApplication::focusWindow(), &window); } } void tst_QWindow::mouseEventSequence() { const auto doubleClickInterval = ulong(QGuiApplication::styleHints()->mouseDoubleClickInterval()); InputTestWindow window; window.setTitle(QLatin1String(QTest::currentTestFunction())); window.setGeometry(QRect(m_availableTopLeft + QPoint(80, 80), m_testWindowSize)); window.show(); QVERIFY(QTest::qWaitForWindowExposed(&window)); ulong timestamp = 0; QPointF local(12, 34); const QPointF deviceLocal = QHighDpi::toNativePixels(local, &window); simulateMouseClick(&window, timestamp, deviceLocal, deviceLocal); QCoreApplication::processEvents(); QCOMPARE(window.mousePressedCount, 1); QCOMPARE(window.mouseReleasedCount, 1); QCOMPARE(window.mouseDoubleClickedCount, 0); QCOMPARE(window.mouseSequenceSignature, QLatin1String("pr")); window.resetCounters(); timestamp += doubleClickInterval; // A double click must result in press, release, press, doubleclick, release. // Check that no unexpected event suppression occurs and that the order is correct. simulateMouseClick(&window, timestamp, local, local); simulateMouseClick(&window, timestamp, local, local); QCoreApplication::processEvents(); QCOMPARE(window.mousePressedCount, 2); QCOMPARE(window.mouseReleasedCount, 2); QCOMPARE(window.mouseDoubleClickedCount, 1); QCOMPARE(window.mouseSequenceSignature, QLatin1String("prpdr")); timestamp += doubleClickInterval; window.resetCounters(); // Triple click = double + single click simulateMouseClick(&window, timestamp, local, local); simulateMouseClick(&window, timestamp, local, local); simulateMouseClick(&window, timestamp, local, local); QCoreApplication::processEvents(); QCOMPARE(window.mousePressedCount, 3); QCOMPARE(window.mouseReleasedCount, 3); QCOMPARE(window.mouseDoubleClickedCount, 1); QCOMPARE(window.mouseSequenceSignature, QLatin1String("prpdrpr")); timestamp += doubleClickInterval; window.resetCounters(); // Two double clicks. simulateMouseClick(&window, timestamp, local, local); simulateMouseClick(&window, timestamp, local, local); simulateMouseClick(&window, timestamp, local, local); simulateMouseClick(&window, timestamp, local, local); QCoreApplication::processEvents(); QCOMPARE(window.mousePressedCount, 4); QCOMPARE(window.mouseReleasedCount, 4); QCOMPARE(window.mouseDoubleClickedCount, 2); QCOMPARE(window.mouseSequenceSignature, QLatin1String("prpdrprpdr")); timestamp += doubleClickInterval; window.resetCounters(); // Four clicks, none of which qualifies as a double click. simulateMouseClick(&window, timestamp, local, local); timestamp += doubleClickInterval; simulateMouseClick(&window, timestamp, local, local); timestamp += doubleClickInterval; simulateMouseClick(&window, timestamp, local, local); timestamp += doubleClickInterval; simulateMouseClick(&window, timestamp, local, local); timestamp += doubleClickInterval; QCoreApplication::processEvents(); QCOMPARE(window.mousePressedCount, 4); QCOMPARE(window.mouseReleasedCount, 4); QCOMPARE(window.mouseDoubleClickedCount, 0); QCOMPARE(window.mouseSequenceSignature, QLatin1String("prprprpr")); } void tst_QWindow::windowModality() { qRegisterMetaType("Qt::WindowModality"); QWindow window; QSignalSpy spy(&window, SIGNAL(modalityChanged(Qt::WindowModality))); QCOMPARE(window.modality(), Qt::NonModal); window.setModality(Qt::NonModal); QCOMPARE(window.modality(), Qt::NonModal); QCOMPARE(spy.size(), 0); window.setModality(Qt::WindowModal); QCOMPARE(window.modality(), Qt::WindowModal); QCOMPARE(spy.size(), 1); window.setModality(Qt::WindowModal); QCOMPARE(window.modality(), Qt::WindowModal); QCOMPARE(spy.size(), 1); window.setModality(Qt::ApplicationModal); QCOMPARE(window.modality(), Qt::ApplicationModal); QCOMPARE(spy.size(), 2); window.setModality(Qt::ApplicationModal); QCOMPARE(window.modality(), Qt::ApplicationModal); QCOMPARE(spy.size(), 2); window.setModality(Qt::NonModal); QCOMPARE(window.modality(), Qt::NonModal); QCOMPARE(spy.size(), 3); } void tst_QWindow::inputReentrancy() { InputTestWindow window; window.setTitle(QLatin1String(QTest::currentTestFunction())); window.spinLoopWhenPressed = true; window.setGeometry(QRect(m_availableTopLeft + QPoint(80, 80), m_testWindowSize)); window.show(); QVERIFY(QTest::qWaitForWindowExposed(&window)); // Queue three events. QPointF local(12, 34); QWindowSystemInterface::handleMouseEvent(&window, local, local, Qt::LeftButton, Qt::LeftButton, QEvent::MouseButtonPress); local += QPointF(2, 2); QWindowSystemInterface::handleMouseEvent(&window, local, local, Qt::LeftButton, {}, QEvent::MouseMove); QWindowSystemInterface::handleMouseEvent(&window, local, local, {}, Qt::LeftButton, QEvent::MouseButtonRelease); // Process them. However, the event handler for the press will also call // processEvents() so the move and release will be delivered before returning // from mousePressEvent(). The point is that no events should get lost. QCoreApplication::processEvents(); QCOMPARE(window.mousePressButton, int(Qt::LeftButton)); QCOMPARE(window.mouseReleaseButton, int(Qt::LeftButton)); QCOMPARE(window.mousePressedCount, 1); // The mouse press may have generated a synthetic move in QGuiApplicationPrivate::processMouseEvent() QVERIFY(window.mouseMovedCount == 1 || window.mouseMovedCount == 2); QCOMPARE(window.mouseReleasedCount, 1); // Now the same for touch. QList points; QWindowSystemInterface::TouchPoint tp1; tp1.id = 1; tp1.state = QEventPoint::State::Pressed; tp1.area = QRectF(10, 10, 4, 4); points << tp1; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); points[0].state = QEventPoint::State::Updated; points[0].area = QRectF(20, 20, 8, 8); QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); points[0].state = QEventPoint::State::Released; QWindowSystemInterface::handleTouchEvent(&window, touchDevice, points); QCoreApplication::processEvents(); QCOMPARE(window.touchPressedCount, 1); QCOMPARE(window.touchMovedCount, 1); QCOMPARE(window.touchReleasedCount, 1); } #if QT_CONFIG(tabletevent) class TabletTestWindow : public QWindow { public: void tabletEvent(QTabletEvent *ev) override { eventType = ev->type(); eventGlobal = ev->globalPosition(); eventLocal = ev->position(); eventDevice = ev->deviceType(); } QEvent::Type eventType = QEvent::None; QPointF eventGlobal, eventLocal; QInputDevice::DeviceType eventDevice = QInputDevice::DeviceType::Unknown; QPointingDevice::PointerType eventPointerType = QPointingDevice::PointerType::Unknown; bool eventFilter(QObject *obj, QEvent *ev) override { if (ev->type() == QEvent::TabletEnterProximity || ev->type() == QEvent::TabletLeaveProximity) { eventType = ev->type(); QTabletEvent *te = static_cast(ev); eventDevice = te->deviceType(); eventPointerType = te->pointerType(); } return QWindow::eventFilter(obj, ev); } }; #endif void tst_QWindow::tabletEvents() { #if QT_CONFIG(tabletevent) // the fake USB tablet device is "plugged in" QPointingDevice tabletDevice("macow", 0xbeef, QInputDevice::DeviceType::Unknown, QPointingDevice::PointerType::Generic, QInputDevice::Capability::Position, 1, 0); QWindowSystemInterface::registerInputDevice(&tabletDevice); TabletTestWindow window; window.setGeometry(QRect(m_availableTopLeft + QPoint(10, 10), m_testWindowSize)); qGuiApp->installEventFilter(&window); const QPoint local(10, 10); const QPoint global = window.mapToGlobal(local); const QPoint deviceLocal = QHighDpi::toNativeLocalPosition(local, &window); const QPoint deviceGlobal = QHighDpi::toNativePixels(global, window.screen()); ulong timestamp = 1234; // the stylus is just now seen for the first time, as it comes into proximity // its QObject-parent will be the tablet device QPointingDevice tabletStylus("macow stylus eraser", 0xe6a5e6, QInputDevice::DeviceType::Stylus, QPointingDevice::PointerType::Eraser, QInputDevice::Capability::Position | QInputDevice::Capability::Pressure, 1, 3, QString(), QPointingDeviceUniqueId::fromNumericId(42), &tabletDevice); QWindowSystemInterface::registerInputDevice(&tabletStylus); QWindowSystemInterface::handleTabletEnterLeaveProximityEvent(&window, timestamp++, &tabletStylus, true); QCoreApplication::processEvents(); QTRY_COMPARE(window.eventType, QEvent::TabletEnterProximity); QCOMPARE(window.eventDevice, QInputDevice::DeviceType::Stylus); QCOMPARE(window.eventPointerType, QPointingDevice::PointerType::Eraser); // the eraser is pressed into contact with the tablet surface QWindowSystemInterface::handleTabletEvent(&window, timestamp++, &tabletStylus, deviceLocal, deviceGlobal, Qt::LeftButton, 0.5, 1, 2, 0.1, 0, 0, {}); QCoreApplication::processEvents(); QTRY_VERIFY(window.eventType == QEvent::TabletPress); QTRY_COMPARE(window.eventGlobal.toPoint(), global); QTRY_COMPARE(window.eventLocal.toPoint(), local); // now it's lifted QWindowSystemInterface::handleTabletEvent(&window, timestamp++, &tabletStylus, deviceLocal, deviceGlobal, Qt::NoButton, 0, 3, 4, 0.11, 2, 1, {}); QCoreApplication::processEvents(); QTRY_COMPARE(window.eventType, QEvent::TabletRelease); // and is taken away (goes out of proxmity) QWindowSystemInterface::handleTabletEnterLeaveProximityEvent(&window, timestamp, &tabletStylus, false); QCoreApplication::processEvents(); QTRY_COMPARE(window.eventType, QEvent::TabletLeaveProximity); QCOMPARE(window.eventDevice, QInputDevice::DeviceType::Stylus); QCOMPARE(window.eventPointerType, QPointingDevice::PointerType::Eraser); #endif } void tst_QWindow::windowModality_QTBUG27039() { QWindow parent; parent.setTitle(QLatin1String(QTest::currentTestFunction())); parent.setGeometry(QRect(m_availableTopLeft + QPoint(10, 10), m_testWindowSize)); parent.show(); InputTestWindow modalA; modalA.setTransientParent(&parent); modalA.setGeometry(QRect(m_availableTopLeft + QPoint(20, 10), m_testWindowSize)); modalA.setModality(Qt::ApplicationModal); modalA.show(); InputTestWindow modalB; modalB.setTransientParent(&parent); modalA.setGeometry(QRect(m_availableTopLeft + QPoint(30, 10), m_testWindowSize)); modalB.setModality(Qt::ApplicationModal); modalB.show(); QPoint local(5, 5); QTest::mouseClick(&modalA, Qt::LeftButton, {}, local); QTest::mouseClick(&modalB, Qt::LeftButton, {}, local); QCoreApplication::processEvents(); // modal A should be blocked since it was shown first, but modal B should not be blocked QCOMPARE(modalB.mousePressedCount, 1); QCOMPARE(modalA.mousePressedCount, 0); modalB.hide(); QTest::mouseClick(&modalA, Qt::LeftButton, {}, local); QCoreApplication::processEvents(); // modal B has been hidden, modal A should be unblocked again QCOMPARE(modalA.mousePressedCount, 1); } void tst_QWindow::visibility() { qRegisterMetaType("QWindow::Visibility"); Window window; QSignalSpy spy(&window, SIGNAL(visibilityChanged(QWindow::Visibility))); window.setVisibility(QWindow::AutomaticVisibility); QVERIFY(window.isVisible()); QVERIFY(window.visibility() != QWindow::Hidden); QVERIFY(window.visibility() != QWindow::AutomaticVisibility); QCOMPARE(spy.size(), 1); spy.clear(); window.setVisibility(QWindow::Hidden); QVERIFY(!window.isVisible()); QCOMPARE(window.visibility(), QWindow::Hidden); QCOMPARE(spy.size(), 1); spy.clear(); window.setVisibility(QWindow::FullScreen); QVERIFY(window.isVisible()); QCOMPARE(window.windowState(), Qt::WindowFullScreen); QCOMPARE(window.visibility(), QWindow::FullScreen); QCOMPARE(spy.size(), 1); QTRY_COMPARE(window.lastReceivedWindowState, Qt::WindowFullScreen); spy.clear(); window.setWindowState(Qt::WindowNoState); QCOMPARE(window.visibility(), QWindow::Windowed); QCOMPARE(spy.size(), 1); QTRY_COMPARE(window.lastReceivedWindowState, Qt::WindowNoState); spy.clear(); window.setVisible(false); QCOMPARE(window.visibility(), QWindow::Hidden); QCOMPARE(spy.size(), 1); spy.clear(); } void tst_QWindow::mask() { QRegion mask = QRect(10, 10, 800 - 20, 600 - 20); { QWindow window; window.resize(800, 600); QCOMPARE(window.mask(), QRegion()); window.create(); window.setMask(mask); QCOMPARE(window.mask(), mask); } { QWindow window; window.resize(800, 600); QCOMPARE(window.mask(), QRegion()); window.setMask(mask); QCOMPARE(window.mask(), mask); window.create(); QCOMPARE(window.mask(), mask); } } void tst_QWindow::initialSize() { QSize defaultSize(0,0); { Window w; w.setTitle(QLatin1String(QTest::currentTestFunction())); w.showNormal(); QTRY_VERIFY(w.width() > 0); QTRY_VERIFY(w.height() > 0); defaultSize = QSize(w.width(), w.height()); } { Window w; w.setTitle(QLatin1String(QTest::currentTestFunction())); w.setWidth(m_testWindowSize.width()); w.showNormal(); QTRY_COMPARE(w.width(), m_testWindowSize.width()); QTRY_VERIFY(w.height() > 0); } { Window w; w.setTitle(QLatin1String(QTest::currentTestFunction())); const QSize testSize(m_testWindowSize.width(), 42); w.resize(testSize); w.showNormal(); const QSize expectedSize = testSize; QTRY_COMPARE(w.size(), expectedSize); } } static bool isPlatformOffscreenOrMinimal() { return ((QGuiApplication::platformName() == QLatin1String("offscreen")) || (QGuiApplication::platformName() == QLatin1String("minimal"))); } void tst_QWindow::modalDialog() { if (!QGuiApplicationPrivate::platformIntegration()->hasCapability(QPlatformIntegration::WindowActivation)) QSKIP("QWindow::requestActivate() is not supported."); if (QGuiApplication::platformName() == QLatin1String("cocoa")) QSKIP("Test fails due to QTBUG-61965, and is slow due to QTBUG-61964"); QWindow normalWindow; normalWindow.setTitle(QLatin1String(QTest::currentTestFunction())); normalWindow.setFramePosition(m_availableTopLeft + QPoint(80, 80)); normalWindow.resize(m_testWindowSize); normalWindow.show(); QVERIFY(QTest::qWaitForWindowExposed(&normalWindow)); QWindow dialog; dialog.setFramePosition(m_availableTopLeft + QPoint(200, 200)); dialog.resize(m_testWindowSize); dialog.setModality(Qt::ApplicationModal); dialog.setFlags(Qt::Dialog); dialog.show(); QVERIFY(QTest::qWaitForWindowExposed(&dialog)); normalWindow.requestActivate(); QGuiApplication::sync(); QGuiApplication::processEvents(); if (isPlatformOffscreenOrMinimal()) { qWarning("Focus stays in normalWindow on offscreen/minimal platforms"); QTRY_COMPARE(QGuiApplication::focusWindow(), &normalWindow); return; } QTRY_COMPARE(QGuiApplication::focusWindow(), &dialog); } void tst_QWindow::modalDialogClosingOneOfTwoModal() { if (!QGuiApplicationPrivate::platformIntegration()->hasCapability(QPlatformIntegration::WindowActivation)) QSKIP("QWindow::requestActivate() is not supported."); QWindow normalWindow; normalWindow.setTitle(QLatin1String(QTest::currentTestFunction())); normalWindow.setFramePosition(m_availableTopLeft + QPoint(80, 80)); normalWindow.resize(m_testWindowSize); normalWindow.show(); QVERIFY(QTest::qWaitForWindowExposed(&normalWindow)); QWindow first_dialog; first_dialog.setFramePosition(m_availableTopLeft + QPoint(200, 200)); first_dialog.resize(m_testWindowSize); first_dialog.setModality(Qt::ApplicationModal); first_dialog.setFlags(Qt::Dialog); first_dialog.show(); QVERIFY(QTest::qWaitForWindowExposed(&first_dialog)); { QWindow second_dialog; second_dialog.setFramePosition(m_availableTopLeft + QPoint(300, 300)); second_dialog.resize(m_testWindowSize); second_dialog.setModality(Qt::ApplicationModal); second_dialog.setFlags(Qt::Dialog); second_dialog.show(); QVERIFY(QTest::qWaitForWindowExposed(&second_dialog)); QTRY_COMPARE(QGuiApplication::focusWindow(), &second_dialog); second_dialog.close(); } QGuiApplication::sync(); QGuiApplication::processEvents(); if (isPlatformOffscreenOrMinimal()) { qWarning("Focus is lost when closing modal dialog on offscreen/minimal platforms"); QTRY_COMPARE(QGuiApplication::focusWindow(), nullptr); return; } QTRY_COMPARE(QGuiApplication::focusWindow(), &first_dialog); } void tst_QWindow::modalWithChildWindow() { if (!QGuiApplicationPrivate::platformIntegration()->hasCapability(QPlatformIntegration::WindowActivation)) QSKIP("QWindow::requestActivate() is not supported."); QWindow normalWindow; normalWindow.setTitle(QLatin1String(QTest::currentTestFunction())); normalWindow.setFramePosition(m_availableTopLeft + QPoint(80, 80)); normalWindow.resize(m_testWindowSize); normalWindow.show(); QVERIFY(QTest::qWaitForWindowExposed(&normalWindow)); QWindow tlw_dialog; tlw_dialog.setFramePosition(m_availableTopLeft + QPoint(200, 200)); tlw_dialog.resize(m_testWindowSize); tlw_dialog.setModality(Qt::ApplicationModal); tlw_dialog.setFlags(Qt::Dialog); tlw_dialog.create(); QWindow sub_window(&tlw_dialog); sub_window.resize(200,300); sub_window.show(); tlw_dialog.show(); QVERIFY(QTest::qWaitForWindowExposed(&tlw_dialog)); QVERIFY(QTest::qWaitForWindowExposed(&sub_window)); QTRY_COMPARE(QGuiApplication::focusWindow(), &tlw_dialog); sub_window.requestActivate(); QGuiApplication::sync(); QGuiApplication::processEvents(); QTRY_COMPARE(QGuiApplication::focusWindow(), &sub_window); } void tst_QWindow::modalWindowModallity() { if (!QGuiApplicationPrivate::platformIntegration()->hasCapability(QPlatformIntegration::WindowActivation)) QSKIP("QWindow::requestActivate() is not supported."); QWindow normal_window; normal_window.setTitle(QLatin1String(QTest::currentTestFunction())); normal_window.setFramePosition(m_availableTopLeft + QPoint(80, 80)); normal_window.resize(m_testWindowSize); normal_window.show(); QVERIFY(QTest::qWaitForWindowExposed(&normal_window)); QWindow parent_to_modal; parent_to_modal.setFramePosition(normal_window.geometry().topRight() + QPoint(100, 0)); parent_to_modal.resize(m_testWindowSize); parent_to_modal.show(); QVERIFY(QTest::qWaitForWindowExposed(&parent_to_modal)); QTRY_COMPARE(QGuiApplication::focusWindow(), &parent_to_modal); QWindow modal_dialog; modal_dialog.resize(m_testWindowSize); modal_dialog.setFramePosition(normal_window.geometry().bottomLeft() + QPoint(0, 100)); modal_dialog.setModality(Qt::WindowModal); modal_dialog.setFlags(Qt::Dialog); modal_dialog.setTransientParent(&parent_to_modal); modal_dialog.show(); QVERIFY(QTest::qWaitForWindowExposed(&modal_dialog)); QTRY_COMPARE(QGuiApplication::focusWindow(), &modal_dialog); normal_window.requestActivate(); QTRY_COMPARE(QGuiApplication::focusWindow(), &normal_window); } void tst_QWindow::modalWindowPosition() { if (isPlatformWayland()) QSKIP("Window position not queryable on Wayland"); QWindow window; window.setTitle(QLatin1String(QTest::currentTestFunction())); window.setGeometry(QRect(m_availableTopLeft + QPoint(100, 100), m_testWindowSize)); // Allow for any potential resizing due to constraints QRect origGeo = window.geometry(); window.setModality(Qt::WindowModal); window.show(); QVERIFY(QTest::qWaitForWindowExposed(&window)); QCOMPARE(window.geometry(), origGeo); } void tst_QWindow::modalCloseWhileBlocked() { QWindow first; first.setModality(Qt::ApplicationModal); first.show(); QVERIFY(QTest::qWaitForWindowExposed(&first)); QWindow second; second.setModality(Qt::ApplicationModal); second.show(); QVERIFY(QTest::qWaitForWindowExposed(&first)); first.close(); QTRY_VERIFY(!first.isVisible()); } #ifndef QT_NO_CURSOR void tst_QWindow::modalWindowEnterEventOnHide_QTBUG35109() { if (!QGuiApplicationPrivate::platformIntegration()->hasCapability(QPlatformIntegration::WindowActivation)) QSKIP("QWindow::requestActivate() is not supported."); if (isPlatformOffscreenOrMinimal()) QSKIP("Can't test window focusing on offscreen/minimal"); const QPoint center = QGuiApplication::primaryScreen()->availableGeometry().center(); const int childOffset = 16; const QPoint rootPos = center - QPoint(m_testWindowSize.width(), m_testWindowSize.height())/2; const QPoint modalPos = rootPos + QPoint(childOffset * 5, childOffset * 5); const QPoint cursorPos = rootPos - QPoint(80, 80); // Test whether tlw can receive the enter event { QCursor::setPos(cursorPos); QCoreApplication::processEvents(); InputTestWindow root; root.setTitle(__FUNCTION__); root.setGeometry(QRect(rootPos, m_testWindowSize)); root.show(); QVERIFY(QTest::qWaitForWindowExposed(&root)); root.requestActivate(); QVERIFY(QTest::qWaitForWindowActive(&root)); // Move the mouse over the root window, but not over the modal window. QCursor::setPos(rootPos + QPoint(childOffset * 5 / 2, childOffset * 5 / 2)); // Wait for the enter event. It must be delivered here, otherwise second // compare can PASS because of this event even after "resetCounters()". QTRY_COMPARE(root.enterEventCount, 1); QTRY_COMPARE(root.leaveEventCount, 0); QWindow modal; modal.setTitle(QLatin1String("Modal - ") + __FUNCTION__); modal.setTransientParent(&root); modal.resize(m_testWindowSize/2); modal.setFramePosition(modalPos); modal.setModality(Qt::ApplicationModal); modal.show(); QVERIFY(QTest::qWaitForWindowExposed(&modal)); modal.requestActivate(); QVERIFY(QTest::qWaitForWindowActive(&modal)); QCoreApplication::processEvents(); QTRY_COMPARE(root.leaveEventCount, 1); root.resetCounters(); modal.close(); // Check for the enter event QTRY_COMPARE(root.enterEventCount, 1); } // Test whether child window can receive the enter event { QCursor::setPos(cursorPos); QCoreApplication::processEvents(); QWindow root; root.setTitle(__FUNCTION__); root.setGeometry(QRect(rootPos, m_testWindowSize)); QWindow childLvl1; childLvl1.setParent(&root); childLvl1.setGeometry(childOffset, childOffset, m_testWindowSize.width() - childOffset, m_testWindowSize.height() - childOffset); InputTestWindow childLvl2; childLvl2.setParent(&childLvl1); childLvl2.setGeometry(childOffset, childOffset, childLvl1.width() - childOffset, childLvl1.height() - childOffset); root.show(); childLvl1.show(); childLvl2.show(); QVERIFY(QTest::qWaitForWindowExposed(&root)); root.requestActivate(); QVERIFY(QTest::qWaitForWindowActive(&root)); QVERIFY(childLvl1.isVisible()); QVERIFY(childLvl2.isVisible()); // Move the mouse over the child window, but not over the modal window. // Be sure that the value is almost left-top of second child window for // checking proper position mapping. QCursor::setPos(rootPos + QPoint(childOffset * 5 / 2, childOffset * 5 / 2)); // Wait for the enter event. It must be delivered here, otherwise second // compare can PASS because of this event even after "resetCounters()". QTRY_COMPARE(childLvl2.enterEventCount, 1); QTRY_COMPARE(childLvl2.leaveEventCount, 0); QWindow modal; modal.setTitle(QLatin1String("Modal - ") + __FUNCTION__); modal.setTransientParent(&root); modal.resize(m_testWindowSize/2); modal.setFramePosition(modalPos); modal.setModality(Qt::ApplicationModal); modal.show(); QVERIFY(QTest::qWaitForWindowExposed(&modal)); modal.requestActivate(); QVERIFY(QTest::qWaitForWindowActive(&modal)); QCoreApplication::processEvents(); QTRY_COMPARE(childLvl2.leaveEventCount, 1); childLvl2.resetCounters(); modal.close(); // Check for the enter event QTRY_COMPARE(childLvl2.enterEventCount, 1); } // Test whether tlw can receive the enter event if mouse is over the invisible child windnow { QCursor::setPos(cursorPos); QCoreApplication::processEvents(); InputTestWindow root; root.setTitle(__FUNCTION__); root.setGeometry(QRect(rootPos, m_testWindowSize)); QWindow child; child.setParent(&root); child.setGeometry(QRect(QPoint(), m_testWindowSize)); root.show(); QVERIFY(QTest::qWaitForWindowExposed(&root)); root.requestActivate(); QVERIFY(QTest::qWaitForWindowActive(&root)); QVERIFY(!child.isVisible()); // Move the mouse over the child window, but not over the modal window. QCursor::setPos(rootPos + QPoint(childOffset * 5 / 2, childOffset * 5 / 2)); // Wait for the enter event. It must be delivered here, otherwise second // compare can PASS because of this event even after "resetCounters()". QTRY_COMPARE(root.enterEventCount, 1); QTRY_COMPARE(root.leaveEventCount, 0); QWindow modal; modal.setTitle(QLatin1String("Modal - ") + __FUNCTION__); modal.setTransientParent(&root); modal.resize(m_testWindowSize/2); modal.setFramePosition(modalPos); modal.setModality(Qt::ApplicationModal); modal.show(); QVERIFY(QTest::qWaitForWindowExposed(&modal)); modal.requestActivate(); QVERIFY(QTest::qWaitForWindowActive(&modal)); QCoreApplication::processEvents(); QTRY_COMPARE(root.leaveEventCount, 1); root.resetCounters(); modal.close(); // Check for the enter event QTRY_COMPARE(root.enterEventCount, 1); } } // Verify that no spurious mouse move events are received. On Windows, there is // no enter event, the OS sends mouse move events instead. Test that the QPA // plugin properly suppresses those since they can interfere with tests. // Simulate a main window setup with a modal dialog on top, keep the cursor // in the center and check that no mouse events are recorded. void tst_QWindow::spuriousMouseMove() { const QString &platformName = QGuiApplication::platformName(); if (platformName == QLatin1String("offscreen") || platformName == QLatin1String("cocoa")) QSKIP("No enter events sent"); if (platformName == QLatin1String("wayland")) QSKIP("Setting mouse cursor position is not possible on Wayland"); const QRect screenGeometry = QGuiApplication::primaryScreen()->geometry(); const QPoint center = screenGeometry.center(); QCursor::setPos(center); QRect windowGeometry(QPoint(), 2 * m_testWindowSize); windowGeometry.moveCenter(center); QTRY_COMPARE(QCursor::pos(), center); InputTestWindow topLevel; topLevel.setTitle(QTest::currentTestFunction()); topLevel.setGeometry(windowGeometry); topLevel.show(); QVERIFY(QTest::qWaitForWindowExposed(&topLevel)); QTRY_VERIFY(topLevel.enterEventCount > 0); InputTestWindow dialog(Qt::yellow); dialog.setTransientParent(&topLevel); dialog.setTitle("Dialog " + topLevel.title()); dialog.setModality(Qt::ApplicationModal); windowGeometry.setSize(m_testWindowSize); windowGeometry.moveCenter(center); dialog.setGeometry(windowGeometry); dialog.show(); QVERIFY(QTest::qWaitForWindowExposed(&dialog)); QTRY_VERIFY(dialog.enterEventCount > 0); dialog.setVisible(false); QCOMPARE(dialog.mousePressedCount, 0); QCOMPARE(dialog.mouseReleasedCount, 0); QCOMPARE(dialog.mouseMovedCount, 0); QCOMPARE(dialog.mouseDoubleClickedCount, 0); topLevel.setVisible(false); QCOMPARE(topLevel.mousePressedCount, 0); QCOMPARE(topLevel.mouseReleasedCount, 0); QCOMPARE(topLevel.mouseMovedCount, 0); QCOMPARE(topLevel.mouseDoubleClickedCount, 0); } #endif // !QT_NO_CURSOR static bool isNativeWindowVisible(const QWindow *window) { #if defined(Q_OS_WIN) return IsWindowVisible(reinterpret_cast(window->winId())); #else Q_UNIMPLEMENTED(); return window->isVisible(); #endif } void tst_QWindow::windowsTransientChildren() { if (QGuiApplication::platformName().compare(QStringLiteral("windows"), Qt::CaseInsensitive)) QSKIP("Windows only test"); ColoredWindow mainWindow(Qt::yellow); mainWindow.setGeometry(QRect(m_availableTopLeft + QPoint(100, 100), m_testWindowSize)); mainWindow.setTitle(QStringLiteral("Main")); ColoredWindow child(Qt::blue, &mainWindow); child.setGeometry(QRect(QPoint(0, 0), m_testWindowSize / 2)); ColoredWindow dialog(Qt::red); dialog.setGeometry(QRect(m_availableTopLeft + QPoint(200, 200), m_testWindowSize)); dialog.setTitle(QStringLiteral("Dialog")); dialog.setTransientParent(&mainWindow); mainWindow.show(); child.show(); dialog.show(); QVERIFY(QTest::qWaitForWindowExposed(&dialog)); mainWindow.setWindowState(Qt::WindowMinimized); QVERIFY(!isNativeWindowVisible(&dialog)); dialog.hide(); mainWindow.setWindowState(Qt::WindowNoState); // QTBUG-40696, transient children hidden by Qt should not be re-shown by Windows. QVERIFY(!isNativeWindowVisible(&dialog)); QVERIFY(isNativeWindowVisible(&child)); // Real children should be visible. } void tst_QWindow::requestUpdate() { QRect geometry(m_availableTopLeft + QPoint(80, 80), m_testWindowSize); Window window; window.setTitle(QLatin1String(QTest::currentTestFunction())); window.setGeometry(geometry); window.show(); QCoreApplication::processEvents(); QTRY_VERIFY(window.isExposed()); QCOMPARE(window.received(QEvent::UpdateRequest), 0); window.requestUpdate(); QTRY_COMPARE(window.received(QEvent::UpdateRequest), 1); window.requestUpdate(); QTRY_COMPARE(window.received(QEvent::UpdateRequest), 2); } void tst_QWindow::flags() { Window window; const auto baseFlags = window.flags(); window.setFlags(window.flags() | Qt::FramelessWindowHint); QCOMPARE(window.flags(), baseFlags | Qt::FramelessWindowHint); window.setFlag(Qt::WindowStaysOnTopHint, true); QCOMPARE(window.flags(), baseFlags | Qt::FramelessWindowHint | Qt::WindowStaysOnTopHint); window.setFlag(Qt::FramelessWindowHint, false); QCOMPARE(window.flags(), baseFlags | Qt::WindowStaysOnTopHint); } class EventWindow : public QWindow { public: bool gotBlocked = false; protected: bool event(QEvent *e) override { if (e->type() == QEvent::WindowBlocked) gotBlocked = true; return QWindow::event(e); } }; void tst_QWindow::testBlockingWindowShownAfterModalDialog() { EventWindow normalWindow; normalWindow.setTitle(QLatin1String(QTest::currentTestFunction())); normalWindow.setFramePosition(m_availableTopLeft + QPoint(80, 80)); normalWindow.resize(m_testWindowSize); normalWindow.show(); QVERIFY(QTest::qWaitForWindowExposed(&normalWindow)); QVERIFY(!normalWindow.gotBlocked); QWindow dialog; dialog.setFramePosition(m_availableTopLeft + QPoint(200, 200)); dialog.resize(m_testWindowSize); dialog.setModality(Qt::ApplicationModal); dialog.setFlags(Qt::Dialog); dialog.show(); QVERIFY(QTest::qWaitForWindowExposed(&dialog)); QVERIFY(normalWindow.gotBlocked); EventWindow normalWindowAfter; normalWindowAfter.setFramePosition(m_availableTopLeft + QPoint(80, 80)); normalWindowAfter.resize(m_testWindowSize); QVERIFY(!normalWindowAfter.gotBlocked); normalWindowAfter.show(); QVERIFY(QTest::qWaitForWindowExposed(&normalWindowAfter)); QVERIFY(normalWindowAfter.gotBlocked); } void tst_QWindow::generatedMouseMove() { InputTestWindow w; w.setTitle(QLatin1String(QTest::currentTestFunction())); w.setGeometry(QRect(m_availableTopLeft + QPoint(100, 100), m_testWindowSize)); w.setFlags(w.flags() | Qt::FramelessWindowHint); // ### FIXME: QTBUG-63542 w.show(); QVERIFY(QTest::qWaitForWindowExposed(&w)); QPoint point(10, 10); QPoint step(2, 2); QVERIFY(w.mouseMovedCount == 0); QTest::mouseMove(&w, point); QVERIFY(w.mouseMovedCount == 1); // A press event that does not change position should not generate mouse move QTest::mousePress(&w, Qt::LeftButton, Qt::KeyboardModifiers(), point); QTest::mousePress(&w, Qt::RightButton, Qt::KeyboardModifiers(), point); QVERIFY(w.mouseMovedCount == 1); // Verify that a move event is generated for a mouse release event that changes position point += step; QTest::mouseRelease(&w, Qt::LeftButton,Qt::KeyboardModifiers(), point); QVERIFY(w.mouseMovedCount == 2); QVERIFY(w.buttonStateInGeneratedMove == (Qt::LeftButton | Qt::RightButton)); point += step; QTest::mouseRelease(&w, Qt::RightButton, Qt::KeyboardModifiers(), point); QVERIFY(w.mouseMovedCount == 3); QVERIFY(w.buttonStateInGeneratedMove == Qt::RightButton); // Verify that a move event is generated for a mouse press event that changes position point += step; QTest::mousePress(&w, Qt::LeftButton, Qt::KeyboardModifiers(), point); QVERIFY(w.mouseMovedCount == 4); QVERIFY(w.buttonStateInGeneratedMove == Qt::NoButton); point += step; QTest::mousePress(&w, Qt::RightButton, Qt::KeyboardModifiers(), point); QVERIFY(w.mouseMovedCount == 5); QVERIFY(w.buttonStateInGeneratedMove == Qt::LeftButton); // A release event that does not change position should not generate mouse move QTest::mouseRelease(&w, Qt::RightButton, Qt::KeyboardModifiers(), point); QTest::mouseRelease(&w, Qt::LeftButton, Qt::KeyboardModifiers(), point); QVERIFY(w.mouseMovedCount == 5); } void tst_QWindow::keepPendingUpdateRequests() { QRect geometry(m_availableTopLeft + QPoint(80, 80), m_testWindowSize); Window window; window.setTitle(QLatin1String(QTest::currentTestFunction())); window.setGeometry(geometry); window.show(); QCoreApplication::processEvents(); QTRY_VERIFY(window.isExposed()); window.requestUpdate(); window.close(); window.setVisible(true); QPlatformWindow *platformWindow = window.handle(); QVERIFY(platformWindow); QVERIFY(platformWindow->hasPendingUpdateRequest()); QTRY_VERIFY(!platformWindow->hasPendingUpdateRequest()); } void tst_QWindow::activateDeactivateEvent() { if (!QGuiApplicationPrivate::platformIntegration()->hasCapability(QPlatformIntegration::WindowActivation)) QSKIP("QWindow::requestActivate() is not supported."); class Window : public QWindow { public: using QWindow::QWindow; int activateCount = 0; int deactivateCount = 0; protected: bool event(QEvent *e) override { switch (e->type()) { case QEvent::WindowActivate: ++activateCount; break; case QEvent::WindowDeactivate: ++deactivateCount; break; default: break; } return QWindow::event(e); } }; Window w1; Window w2; w1.show(); w1.requestActivate(); QVERIFY(QTest::qWaitForWindowActive(&w1)); QCOMPARE(w1.activateCount, 1); QCOMPARE(w1.deactivateCount, 0); w2.show(); w2.requestActivate(); QVERIFY(QTest::qWaitForWindowActive(&w2)); QCOMPARE(w1.deactivateCount, 1); QCOMPARE(w2.activateCount, 1); } // Test that in a slot connected to destroyed() the emitter is // is no longer a QWindow. void tst_QWindow::qobject_castOnDestruction() { QWindow window; QObject::connect(&window, &QObject::destroyed, [](QObject *object) { QVERIFY(!qobject_cast(object)); QVERIFY(!dynamic_cast(object)); QVERIFY(!object->isWindowType()); }); } void tst_QWindow::touchToMouseTranslationByPopup() { InputTestWindow window; window.setTitle(QLatin1String(QTest::currentTestFunction())); window.ignoreTouch = true; window.setGeometry(QRect(m_availableTopLeft, m_testWindowSize)); window.show(); QVERIFY(QTest::qWaitForWindowExposed(&window)); InputTestWindow popupWindow; popupWindow.setGeometry(QRect(m_availableTopLeft + QPoint(20, 20), QSize(m_testWindowSize.width(), m_testWindowSize.height() / 2))); popupWindow.setFlag(Qt::Popup); popupWindow.setTransientParent(&window); popupWindow.ignoreTouch = true; popupWindow.closeOnTap = true; popupWindow.show(); QVERIFY(QTest::qWaitForWindowExposed(&popupWindow)); QTest::touchEvent(&popupWindow, touchDevice).press(0, {1, 1}, &window); QVERIFY(!popupWindow.isVisible()); // Omit touchpoint 0: because the popup was closed, touchpoint0.release is not sent. const QPoint tp1(50, 1); QTest::touchEvent(&window, touchDevice).press(1, tp1, &window); QTRY_COMPARE(window.mousePressButton, int(Qt::LeftButton)); QTest::touchEvent(&window, touchDevice).release(1, tp1, &window); QTRY_COMPARE(window.mouseReleaseButton, int(Qt::LeftButton)); } // Test that windowStateChanged is not emitted on noop change (QTBUG-102478) void tst_QWindow::stateChangeSignal() { // Test only for Windows, Linux and macOS #if !defined(Q_OS_LINUX) && !defined(Q_OS_WINDOWS) && !defined(Q_OS_DARWIN) QSKIP("Singular windowStateChanged signal emission is guaranteed for Linux, Windows and macOS only.\n" "On other operating systems, the signal may be emitted twice."); #endif QWindow w; Q_ASSUME(connect (&w, &QWindow::windowStateChanged, [](Qt::WindowState s){qCDebug(lcTests) << "State change to" << s;})); QSignalSpy spy(&w, SIGNAL(windowStateChanged(Qt::WindowState))); unsigned short signalCount = 0; QList effectiveStates; Q_ASSUME(connect(&w, &QWindow::windowStateChanged, [&effectiveStates](Qt::WindowState state) { effectiveStates.append(state); })); // Part 1: // => test signal emission on programmatic state changes QCOMPARE(w.windowState(), Qt::WindowNoState); // - wait for target state to be set // - wait for signal spy to have reached target count // - extract state from signal and compare to target #define CHECK_STATE(State)\ QTRY_VERIFY(QTest::qWaitFor([&w](){return (w.windowState() == State); }));\ CHECK_SIGNAL(State) #define CHECK_SIGNAL(State)\ QTRY_COMPARE(spy.count(), signalCount);\ if (signalCount > 0) {\ QVariantList list = spy.at(signalCount - 1).toList();\ QCOMPARE(list.count(), 1);\ bool ok;\ const int stateInt = list.at(0).toInt(&ok);\ QVERIFY(ok);\ const Qt::WindowState newState = static_cast(stateInt);\ QCOMPARE(newState, State);\ } // Check initialization CHECK_STATE(Qt::WindowNoState); // showMaximized after init // expected behavior: signal emitted once with state == WindowMaximized ++signalCount; w.showMaximized(); CHECK_STATE(Qt::WindowMaximized); // setWindowState to normal // expected behavior: signal emitted once with state == WindowNoState ++signalCount; w.setWindowState(Qt::WindowNoState); CHECK_STATE(Qt::WindowNoState); // redundant setWindowState to normal - except windows, where the no-op is counted // expected behavior: No emits. // On Windows, a no-op state change causes a no-op resize and repaint, leading to a // no-op state change and singal emission. #ifdef Q_OS_WINDOWS ++signalCount; ++signalCount; #endif w.setWindowState(Qt::WindowNoState); CHECK_STATE(Qt::WindowNoState); // setWindowState to minimized // expected behavior: signal emitted once with state == WindowMinimized ++signalCount; w.showMinimized(); CHECK_STATE(Qt::WindowMinimized); // setWindowState to Normal // expected behavior: signal emitted once with state == WindowNoState ++signalCount; w.showNormal(); CHECK_STATE(Qt::WindowNoState); /* - Testcase showFullScreen is omitted: Depending on window manager, WindowFullScreen can be mapped to WindowMaximized - Transition from WindowMinimized to WindowMaximized is omitted: WindowNoState to WindowMaximized */ // Part 2: // => test signal emission on simulated user interaction // To test the code path, inject state change events into the QPA event queue. // Test the signal emission only, not the window's actual visible state. // Flush pending events and clear QCoreApplication::processEvents(); spy.clear(); effectiveStates.clear(); signalCount = 0; // Maximize window QWindowSystemInterface::handleWindowStateChanged(&w, Qt::WindowMaximized, w.windowState()); ++signalCount; CHECK_SIGNAL(Qt::WindowMaximized); // Normalize window QWindowSystemInterface::handleWindowStateChanged(&w, Qt::WindowNoState, w.windowState()); ++signalCount; CHECK_SIGNAL(Qt::WindowNoState); // Minimize window QWindowSystemInterface::handleWindowStateChanged(&w, Qt::WindowMinimized, w.windowState()); ++signalCount; CHECK_SIGNAL(Qt::WindowMinimized); } #include QTEST_MAIN(tst_QWindow)