/**************************************************************************** ** ** Copyright (C) 2020 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the QtWidgets module 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 The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/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 3 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL3 included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 3 requirements ** will be met: https://www.gnu.org/licenses/lgpl-3.0.html. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 2.0 or (at your option) the GNU General ** Public license version 3 or any later version approved by the KDE Free ** Qt Foundation. The licenses are as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-2.0.html and ** https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "private/qwindow_p.h" #include "qwidgetwindow_p.h" #include "qlayout.h" #include "private/qwidget_p.h" #include "private/qapplication_p.h" #ifndef QT_NO_ACCESSIBILITY #include #endif #include #include #include #include #include #include QT_BEGIN_NAMESPACE Q_WIDGETS_EXPORT extern bool qt_tab_all_widgets(); Q_WIDGETS_EXPORT QWidget *qt_button_down = nullptr; // widget got last button-down // popup control QWidget *qt_popup_down = nullptr; // popup that contains the pressed widget extern int openPopupCount; bool qt_popup_down_closed = false; // qt_popup_down has been closed bool qt_replay_popup_mouse_event = false; extern bool qt_try_modal(QWidget *widget, QEvent::Type type); class QWidgetWindowPrivate : public QWindowPrivate { Q_DECLARE_PUBLIC(QWidgetWindow) public: void setVisible(bool visible) override { Q_Q(QWidgetWindow); if (QWidget *widget = q->widget()) { // Check if the widget was already hidden, as this indicates it was done // explicitly and not because the parent window in this case made it hidden. // In which case do not automatically show the widget when the parent // window is shown. const bool wasHidden = widget->testAttribute(Qt::WA_WState_Hidden); QWidgetPrivate::get(widget)->setVisible(visible); if (!wasHidden) widget->setAttribute(Qt::WA_WState_ExplicitShowHide, false); } else { QWindowPrivate::setVisible(visible); } } QWindow *eventReceiver() override { Q_Q(QWidgetWindow); QWindow *w = q; while (w->parent() && qobject_cast(w) && qobject_cast(w->parent())) { w = w->parent(); } return w; } void clearFocusObject() override { Q_Q(QWidgetWindow); QWidget *widget = q->widget(); if (widget && widget->focusWidget()) widget->focusWidget()->clearFocus(); } QRectF closestAcceptableGeometry(const QRectF &rect) const override; #if QT_CONFIG(opengl) QOpenGLContext *shareContext() const override; #endif void processSafeAreaMarginsChanged() override { Q_Q(QWidgetWindow); if (QWidget *widget = q->widget()) QWidgetPrivate::get(widget)->updateContentsRect(); } }; QRectF QWidgetWindowPrivate::closestAcceptableGeometry(const QRectF &rect) const { Q_Q(const QWidgetWindow); const QWidget *widget = q->widget(); if (!widget || !widget->isWindow() || !widget->hasHeightForWidth()) return QRect(); const QSize oldSize = rect.size().toSize(); const QSize newSize = QLayout::closestAcceptableSize(widget, oldSize); if (newSize == oldSize) return QRectF(); const int dw = newSize.width() - oldSize.width(); const int dh = newSize.height() - oldSize.height(); QRectF result = rect; const QRectF currentGeometry(widget->geometry()); const qreal topOffset = result.top() - currentGeometry.top(); const qreal bottomOffset = result.bottom() - currentGeometry.bottom(); if (qAbs(topOffset) > qAbs(bottomOffset)) result.setTop(result.top() - dh); // top edge drag else result.setBottom(result.bottom() + dh); // bottom edge drag const qreal leftOffset = result.left() - currentGeometry.left(); const qreal rightOffset = result.right() - currentGeometry.right(); if (qAbs(leftOffset) > qAbs(rightOffset)) result.setLeft(result.left() - dw); // left edge drag else result.setRight(result.right() + dw); // right edge drag return result; } #if QT_CONFIG(opengl) QOpenGLContext *QWidgetWindowPrivate::shareContext() const { Q_Q(const QWidgetWindow); const QWidgetPrivate *widgetPrivate = QWidgetPrivate::get(q->widget()); return widgetPrivate->shareContext(); } #endif // opengl QWidgetWindow::QWidgetWindow(QWidget *widget) : QWindow(*new QWidgetWindowPrivate(), nullptr) , m_widget(widget) { updateObjectName(); // Enable QOpenGLWidget/QQuickWidget children if the platform plugin supports it, // and the application developer has not explicitly disabled it. if (QGuiApplicationPrivate::platformIntegration()->hasCapability(QPlatformIntegration::RasterGLSurface) && !QCoreApplication::testAttribute(Qt::AA_ForceRasterWidgets)) { setSurfaceType(QSurface::RasterGLSurface); } connect(widget, &QObject::objectNameChanged, this, &QWidgetWindow::updateObjectName); connect(this, SIGNAL(screenChanged(QScreen*)), this, SLOT(handleScreenChange())); } QWidgetWindow::~QWidgetWindow() { } #ifndef QT_NO_ACCESSIBILITY QAccessibleInterface *QWidgetWindow::accessibleRoot() const { if (m_widget) return QAccessible::queryAccessibleInterface(m_widget); return nullptr; } #endif QObject *QWidgetWindow::focusObject() const { QWidget *windowWidget = m_widget; if (!windowWidget) return nullptr; // A window can't have a focus object if it's being destroyed. if (QWidgetPrivate::get(windowWidget)->data.in_destructor) return nullptr; QWidget *widget = windowWidget->focusWidget(); if (!widget) widget = windowWidget; QObject *focusObj = QWidgetPrivate::get(widget)->focusObject(); if (focusObj) return focusObj; return widget; } void QWidgetWindow::setNativeWindowVisibility(bool visible) { Q_D(QWidgetWindow); // Call base class setVisible() implementation to run the QWindow // visibility logic. Don't call QWidgetWindowPrivate::setVisible() // since that will recurse back into QWidget code. d->QWindowPrivate::setVisible(visible); } static inline bool shouldBePropagatedToWidget(QEvent *event) { switch (event->type()) { // Handing show events to widgets would cause them to be triggered twice case QEvent::Show: case QEvent::Hide: case QEvent::Timer: case QEvent::DynamicPropertyChange: case QEvent::ChildAdded: case QEvent::ChildRemoved: case QEvent::Paint: return false; default: return true; } } bool QWidgetWindow::event(QEvent *event) { if (!m_widget) return QWindow::event(event); if (m_widget->testAttribute(Qt::WA_DontShowOnScreen)) { // \a event is uninteresting for QWidgetWindow, the event was probably // generated before WA_DontShowOnScreen was set if (!shouldBePropagatedToWidget(event)) return true; return QCoreApplication::forwardEvent(m_widget, event); } switch (event->type()) { case QEvent::Close: { // The widget might be deleted in the close event handler. QPointer guard = this; handleCloseEvent(static_cast(event)); if (guard) QWindow::event(event); return true; } case QEvent::Enter: case QEvent::Leave: handleEnterLeaveEvent(event); return true; // these should not be sent to QWidget, the corresponding events // are sent by QApplicationPrivate::notifyActiveWindowChange() case QEvent::FocusIn: handleFocusInEvent(static_cast(event)); Q_FALLTHROUGH(); case QEvent::FocusOut: { #ifndef QT_NO_ACCESSIBILITY QAccessible::State state; state.active = true; QAccessibleStateChangeEvent ev(m_widget, state); QAccessible::updateAccessibility(&ev); #endif return false; } case QEvent::FocusAboutToChange: if (QApplicationPrivate::focus_widget) { if (QApplicationPrivate::focus_widget->testAttribute(Qt::WA_InputMethodEnabled)) QGuiApplication::inputMethod()->commit(); QGuiApplication::forwardEvent(QApplicationPrivate::focus_widget, event); } return true; case QEvent::KeyPress: case QEvent::KeyRelease: case QEvent::ShortcutOverride: handleKeyEvent(static_cast(event)); return true; case QEvent::MouseMove: case QEvent::MouseButtonPress: case QEvent::MouseButtonRelease: case QEvent::MouseButtonDblClick: handleMouseEvent(static_cast(event)); return true; case QEvent::NonClientAreaMouseMove: case QEvent::NonClientAreaMouseButtonPress: case QEvent::NonClientAreaMouseButtonRelease: case QEvent::NonClientAreaMouseButtonDblClick: handleNonClientAreaMouseEvent(static_cast(event)); return true; case QEvent::TouchBegin: case QEvent::TouchUpdate: case QEvent::TouchEnd: case QEvent::TouchCancel: handleTouchEvent(static_cast(event)); return true; case QEvent::Move: handleMoveEvent(static_cast(event)); return true; case QEvent::Resize: handleResizeEvent(static_cast(event)); return true; #if QT_CONFIG(wheelevent) case QEvent::Wheel: handleWheelEvent(static_cast(event)); return true; #endif #if QT_CONFIG(draganddrop) case QEvent::DragEnter: handleDragEnterEvent(static_cast(event)); return true; case QEvent::DragMove: handleDragMoveEvent(static_cast(event)); return true; case QEvent::DragLeave: handleDragLeaveEvent(static_cast(event)); return true; case QEvent::Drop: handleDropEvent(static_cast(event)); return true; #endif case QEvent::Expose: handleExposeEvent(static_cast(event)); return true; case QEvent::WindowStateChange: QWindow::event(event); // Update QWindow::Visibility and emit signals. handleWindowStateChangedEvent(static_cast(event)); return true; case QEvent::ThemeChange: { QEvent widgetEvent(QEvent::ThemeChange); QCoreApplication::forwardEvent(m_widget, &widgetEvent, event); } return true; #if QT_CONFIG(tabletevent) case QEvent::TabletPress: case QEvent::TabletMove: case QEvent::TabletRelease: handleTabletEvent(static_cast(event)); return true; #endif #ifndef QT_NO_GESTURES case QEvent::NativeGesture: handleGestureEvent(static_cast(event)); return true; #endif #ifndef QT_NO_CONTEXTMENU case QEvent::ContextMenu: handleContextMenuEvent(static_cast(event)); return true; #endif // QT_NO_CONTEXTMENU case QEvent::WindowBlocked: qt_button_down = nullptr; break; case QEvent::UpdateRequest: // This is not the same as an UpdateRequest for a QWidget. That just // syncs the backing store while here we also must mark as dirty. m_widget->repaint(); return true; default: break; } if (shouldBePropagatedToWidget(event) && QCoreApplication::forwardEvent(m_widget, event)) return true; return QWindow::event(event); } QPointer qt_last_mouse_receiver = nullptr; void QWidgetWindow::handleEnterLeaveEvent(QEvent *event) { #if !defined(Q_OS_MACOS) && !defined(Q_OS_IOS) // Cocoa tracks popups // Ignore all enter/leave events from QPA if we are not on the first-level context menu. // This prevents duplicated events on most platforms. Fake events will be delivered in // QWidgetWindow::handleMouseEvent(QMouseEvent *). Make an exception whether the widget // is already under mouse - let the mouse leave. if (QApplicationPrivate::inPopupMode() && m_widget != QApplication::activePopupWidget() && !m_widget->underMouse()) return; #endif if (event->type() == QEvent::Leave) { QWidget *enter = nullptr; // Check from window system event queue if the next queued enter targets a window // in the same window hierarchy (e.g. enter a child of this window). If so, // remove the enter event from queue and handle both in single dispatch. QWindowSystemInterfacePrivate::EnterEvent *systemEvent = static_cast (QWindowSystemInterfacePrivate::peekWindowSystemEvent(QWindowSystemInterfacePrivate::Enter)); const QPointF globalPosF = systemEvent ? systemEvent->globalPos : QGuiApplicationPrivate::lastCursorPosition; if (systemEvent) { if (QWidgetWindow *enterWindow = qobject_cast(systemEvent->enter)) { QWindow *thisParent = this; QWindow *enterParent = enterWindow; while (thisParent->parent()) thisParent = thisParent->parent(); while (enterParent->parent()) enterParent = enterParent->parent(); if (thisParent == enterParent) { QGuiApplicationPrivate::currentMouseWindow = enterWindow; enter = enterWindow->widget(); QWindowSystemInterfacePrivate::removeWindowSystemEvent(systemEvent); } } } // Enter-leave between sibling widgets is ignored when there is a mousegrabber - this makes // both native and non-native widgets work similarly. // When mousegrabbing, leaves are only generated if leaving the parent window. if (!enter || !QWidget::mouseGrabber()) { // Preferred leave target is the last mouse receiver, unless it has native window, // in which case it is assumed to receive it's own leave event when relevant. QWidget *leave = m_widget; if (qt_last_mouse_receiver && !qt_last_mouse_receiver->internalWinId()) leave = qt_last_mouse_receiver.data(); QApplicationPrivate::dispatchEnterLeave(enter, leave, globalPosF); qt_last_mouse_receiver = enter; } } else { const QEnterEvent *ee = static_cast(event); QWidget *child = m_widget->childAt(ee->position().toPoint()); QWidget *receiver = child ? child : m_widget.data(); QWidget *leave = nullptr; if (QApplicationPrivate::inPopupMode() && receiver == m_widget && qt_last_mouse_receiver != m_widget) { // This allows to deliver the leave event to the native widget // action on first-level menu. leave = qt_last_mouse_receiver; } QApplicationPrivate::dispatchEnterLeave(receiver, leave, ee->globalPosition()); qt_last_mouse_receiver = receiver; } } QWidget *QWidgetWindow::getFocusWidget(FocusWidgets fw) { QWidget *tlw = m_widget; QWidget *w = tlw->nextInFocusChain(); QWidget *last = tlw; uint focus_flag = qt_tab_all_widgets() ? Qt::TabFocus : Qt::StrongFocus; while (w != tlw) { if (((w->focusPolicy() & focus_flag) == focus_flag) && w->isVisibleTo(m_widget) && w->isEnabled()) { last = w; if (fw == FirstFocusWidget) break; } w = w->nextInFocusChain(); } return last; } void QWidgetWindow::handleFocusInEvent(QFocusEvent *e) { QWidget *focusWidget = nullptr; if (e->reason() == Qt::BacktabFocusReason) focusWidget = getFocusWidget(LastFocusWidget); else if (e->reason() == Qt::TabFocusReason) focusWidget = getFocusWidget(FirstFocusWidget); if (focusWidget != nullptr) focusWidget->setFocus(); } void QWidgetWindow::handleNonClientAreaMouseEvent(QMouseEvent *e) { QApplication::forwardEvent(m_widget, e); } void QWidgetWindow::handleMouseEvent(QMouseEvent *event) { static const QEvent::Type contextMenuTrigger = QGuiApplicationPrivate::platformTheme()->themeHint(QPlatformTheme::ContextMenuOnMouseRelease).toBool() ? QEvent::MouseButtonRelease : QEvent::MouseButtonPress; if (QApplicationPrivate::inPopupMode()) { QPointer activePopupWidget = QApplication::activePopupWidget(); QPoint mapped = event->position().toPoint(); if (activePopupWidget != m_widget) mapped = activePopupWidget->mapFromGlobal(event->globalPosition().toPoint()); bool releaseAfter = false; QWidget *popupChild = activePopupWidget->childAt(mapped); if (activePopupWidget != qt_popup_down) { qt_button_down = nullptr; qt_popup_down = nullptr; } switch (event->type()) { case QEvent::MouseButtonPress: case QEvent::MouseButtonDblClick: qt_button_down = popupChild; qt_popup_down = activePopupWidget; qt_popup_down_closed = false; break; case QEvent::MouseButtonRelease: releaseAfter = true; break; default: break; // nothing for mouse move } int oldOpenPopupCount = openPopupCount; if (activePopupWidget->isEnabled()) { // deliver event qt_replay_popup_mouse_event = false; QPointer receiver = activePopupWidget; QPoint widgetPos = mapped; if (qt_button_down) receiver = qt_button_down; else if (popupChild) receiver = popupChild; if (receiver != activePopupWidget) widgetPos = receiver->mapFromGlobal(event->globalPosition().toPoint()); #if !defined(Q_OS_MACOS) && !defined(Q_OS_IOS) // Cocoa tracks popups const bool reallyUnderMouse = activePopupWidget->rect().contains(mapped); const bool underMouse = activePopupWidget->underMouse(); if (underMouse != reallyUnderMouse) { if (reallyUnderMouse) { const QPoint receiverMapped = receiver->mapFromGlobal(event->globalPosition().toPoint()); // Prevent negative mouse position on enter event - this event // should be properly handled in "handleEnterLeaveEvent()". if (receiverMapped.x() >= 0 && receiverMapped.y() >= 0) { QApplicationPrivate::dispatchEnterLeave(receiver, nullptr, event->globalPosition()); qt_last_mouse_receiver = receiver; } } else { QApplicationPrivate::dispatchEnterLeave(nullptr, qt_last_mouse_receiver, event->globalPosition()); qt_last_mouse_receiver = receiver; receiver = activePopupWidget; } } #endif if ((event->type() != QEvent::MouseButtonPress) || !(QMutableSinglePointEvent::from(event)->isDoubleClick())) { // if the widget that was pressed is gone, then deliver move events without buttons const auto buttons = event->type() == QEvent::MouseMove && qt_popup_down_closed ? Qt::NoButton : event->buttons(); QMouseEvent e(event->type(), widgetPos, event->scenePosition(), event->globalPosition(), event->button(), buttons, event->modifiers(), event->source(), event->pointingDevice()); e.setTimestamp(event->timestamp()); QApplicationPrivate::sendMouseEvent(receiver, &e, receiver, receiver->window(), &qt_button_down, qt_last_mouse_receiver); qt_last_mouse_receiver = receiver; } } else { // close disabled popups when a mouse button is pressed or released switch (event->type()) { case QEvent::MouseButtonPress: case QEvent::MouseButtonDblClick: case QEvent::MouseButtonRelease: activePopupWidget->close(); break; default: break; } } if (QApplication::activePopupWidget() != activePopupWidget && qt_replay_popup_mouse_event && QGuiApplicationPrivate::platformIntegration()->styleHint(QPlatformIntegration::ReplayMousePressOutsidePopup).toBool()) { if (m_widget->windowType() != Qt::Popup) qt_button_down = nullptr; if (event->type() == QEvent::MouseButtonPress) { // the popup disappeared, replay the mouse press event QWidget *w = QApplication::widgetAt(event->globalPosition().toPoint()); if (w && !QApplicationPrivate::isBlockedByModal(w)) { // activate window of the widget under mouse pointer if (!w->isActiveWindow()) { w->activateWindow(); w->window()->raise(); } if (auto win = qt_widget_private(w)->windowHandle(QWidgetPrivate::WindowHandleMode::Closest)) { const QRect globalGeometry = win->isTopLevel() ? win->geometry() : QRect(win->mapToGlobal(QPoint(0, 0)), win->size()); if (globalGeometry.contains(event->globalPosition().toPoint())) { // Use postEvent() to ensure the local QEventLoop terminates when called from QMenu::exec() const QPoint localPos = win->mapFromGlobal(event->globalPosition().toPoint()); QMouseEvent *e = new QMouseEvent(QEvent::MouseButtonPress, localPos, localPos, event->globalPosition().toPoint(), event->button(), event->buttons(), event->modifiers(), event->source()); QCoreApplicationPrivate::setEventSpontaneous(e, true); e->setTimestamp(event->timestamp()); QCoreApplication::postEvent(win, e); } } } } qt_replay_popup_mouse_event = false; #ifndef QT_NO_CONTEXTMENU } else if (event->type() == contextMenuTrigger && event->button() == Qt::RightButton && (openPopupCount == oldOpenPopupCount)) { QWidget *receiver = activePopupWidget; if (qt_button_down) receiver = qt_button_down; else if (popupChild) receiver = popupChild; QContextMenuEvent e(QContextMenuEvent::Mouse, mapped, event->globalPosition().toPoint(), event->modifiers()); QApplication::forwardEvent(receiver, &e, event); } #else Q_UNUSED(contextMenuTrigger); Q_UNUSED(oldOpenPopupCount); } #endif if (releaseAfter) { qt_button_down = nullptr; qt_popup_down_closed = false; qt_popup_down = nullptr; } return; } qt_popup_down_closed = false; // modal event handling if (QApplicationPrivate::instance()->modalState() && !qt_try_modal(m_widget, event->type())) return; // which child should have it? QWidget *widget = m_widget->childAt(event->position().toPoint()); QPoint mapped = event->position().toPoint(); if (!widget) widget = m_widget; const bool initialPress = event->buttons() == event->button(); if (event->type() == QEvent::MouseButtonPress && initialPress) qt_button_down = widget; QWidget *receiver = QApplicationPrivate::pickMouseReceiver(m_widget, event->scenePosition().toPoint(), &mapped, event->type(), event->buttons(), qt_button_down, widget); if (!receiver) return; if ((event->type() != QEvent::MouseButtonPress) || !QMutableSinglePointEvent::from(event)->isDoubleClick()) { // The preceding statement excludes MouseButtonPress events which caused // creation of a MouseButtonDblClick event. QTBUG-25831 QMouseEvent translated(event->type(), mapped, event->scenePosition(), event->globalPosition(), event->button(), event->buttons(), event->modifiers(), event->source(), event->pointingDevice()); translated.setTimestamp(event->timestamp()); QApplicationPrivate::sendMouseEvent(receiver, &translated, widget, m_widget, &qt_button_down, qt_last_mouse_receiver); event->setAccepted(translated.isAccepted()); } #ifndef QT_NO_CONTEXTMENU if (event->type() == contextMenuTrigger && event->button() == Qt::RightButton && m_widget->rect().contains(event->position().toPoint())) { QContextMenuEvent e(QContextMenuEvent::Mouse, mapped, event->globalPosition().toPoint(), event->modifiers()); QGuiApplication::forwardEvent(receiver, &e, event); } #endif } void QWidgetWindow::handleTouchEvent(QTouchEvent *event) { if (event->type() == QEvent::TouchCancel) { QApplicationPrivate::translateTouchCancel(event->pointingDevice(), event->timestamp()); event->accept(); } else if (QApplicationPrivate::inPopupMode()) { // Ignore touch events for popups. This will cause QGuiApplication to synthesise mouse // events instead, which QWidgetWindow::handleMouseEvent will forward correctly: event->ignore(); } else { event->setAccepted(QApplicationPrivate::translateRawTouchEvent(m_widget, event->pointingDevice(), const_cast &>(event->points()), event->timestamp())); } } void QWidgetWindow::handleKeyEvent(QKeyEvent *event) { if (QApplicationPrivate::instance()->modalState() && !qt_try_modal(m_widget, event->type())) return; QObject *receiver = QWidget::keyboardGrabber(); if (!receiver && QApplicationPrivate::inPopupMode()) { QWidget *popup = QApplication::activePopupWidget(); QWidget *popupFocusWidget = popup->focusWidget(); receiver = popupFocusWidget ? popupFocusWidget : popup; } if (!receiver) receiver = focusObject(); QGuiApplication::forwardEvent(receiver, event); } bool QWidgetWindow::updateSize() { bool changed = false; if (m_widget->testAttribute(Qt::WA_OutsideWSRange)) return changed; if (m_widget->data->crect.size() != geometry().size()) { changed = true; m_widget->data->crect.setSize(geometry().size()); } updateMargins(); return changed; } void QWidgetWindow::updateMargins() { // QTBUG-79147 (Windows): Bail out on resize events after closing a dialog // and destroying the platform window which would clear the margins. QTLWExtra *te = m_widget->d_func()->topData(); if (te->window == nullptr || te->window->handle() == nullptr) return; const QMargins margins = frameMargins(); te->posIncludesFrame= false; te->frameStrut.setCoords(margins.left(), margins.top(), margins.right(), margins.bottom()); m_widget->data->fstrut_dirty = false; } static void sendScreenChangeRecursively(QWidget *widget) { QEvent e(QEvent::ScreenChangeInternal); QCoreApplication::sendEvent(widget, &e); QWidgetPrivate *d = QWidgetPrivate::get(widget); for (int i = 0; i < d->children.size(); ++i) { QWidget *w = qobject_cast(d->children.at(i)); if (w) sendScreenChangeRecursively(w); } } void QWidgetWindow::handleScreenChange() { // Send an event recursively to the widget and its children. sendScreenChangeRecursively(m_widget); // Invalidate the backing store buffer and repaint immediately. if (screen()) repaintWindow(); } void QWidgetWindow::repaintWindow() { if (!m_widget->isVisible() || !m_widget->updatesEnabled() || !m_widget->rect().isValid()) return; QTLWExtra *tlwExtra = m_widget->window()->d_func()->maybeTopData(); if (tlwExtra && tlwExtra->backingStore) tlwExtra->repaintManager->markDirty(m_widget->rect(), m_widget, QWidgetRepaintManager::UpdateNow, QWidgetRepaintManager::BufferInvalid); } // Store normal geometry used for saving application settings. void QWidgetWindow::updateNormalGeometry() { QTLWExtra *tle = m_widget->d_func()->maybeTopData(); if (!tle) return; // Ask platform window, default to widget geometry. QRect normalGeometry; if (const QPlatformWindow *pw = handle()) normalGeometry = QHighDpi::fromNativePixels(pw->normalGeometry(), this); if (!normalGeometry.isValid() && !(m_widget->windowState() & ~Qt::WindowActive)) normalGeometry = m_widget->geometry(); if (normalGeometry.isValid()) tle->normalGeometry = normalGeometry; } void QWidgetWindow::handleMoveEvent(QMoveEvent *event) { if (m_widget->testAttribute(Qt::WA_OutsideWSRange)) return; auto oldPosition = m_widget->data->crect.topLeft(); auto newPosition = geometry().topLeft(); if (!m_widget->isWindow()) { if (auto *nativeParent = m_widget->nativeParentWidget()) newPosition = m_widget->parentWidget()->mapFrom(nativeParent, newPosition); } bool changed = newPosition != oldPosition; if (changed) m_widget->data->crect.moveTopLeft(newPosition); updateMargins(); // FIXME: Only do when changed? if (changed) { QMoveEvent widgetEvent(newPosition, oldPosition); QGuiApplication::forwardEvent(m_widget, &widgetEvent, event); } } void QWidgetWindow::handleResizeEvent(QResizeEvent *event) { auto oldRect = m_widget->rect(); if (updateSize()) { QGuiApplication::forwardEvent(m_widget, event); if (m_widget->d_func()->shouldPaintOnScreen()) { QRegion dirtyRegion = m_widget->rect(); if (m_widget->testAttribute(Qt::WA_StaticContents)) dirtyRegion -= oldRect; m_widget->d_func()->syncBackingStore(dirtyRegion); } else { m_widget->d_func()->syncBackingStore(); } } } void QWidgetWindow::handleCloseEvent(QCloseEvent *event) { bool is_closing = m_widget->d_func()->close_helper(QWidgetPrivate::CloseWithSpontaneousEvent); event->setAccepted(is_closing); } #if QT_CONFIG(wheelevent) void QWidgetWindow::handleWheelEvent(QWheelEvent *event) { if (QApplicationPrivate::instance()->modalState() && !qt_try_modal(m_widget, event->type())) return; QWidget *rootWidget = m_widget; QPointF pos = event->position(); // Use proper popup window for wheel event. Some QPA sends the wheel // event to the root menu, so redirect it to the proper popup window. QWidget *activePopupWidget = QApplication::activePopupWidget(); if (activePopupWidget && activePopupWidget != m_widget) { rootWidget = activePopupWidget; pos = rootWidget->mapFromGlobal(event->globalPosition()); } // which child should have it? QWidget *widget = rootWidget->childAt(pos.toPoint()); if (!widget) widget = rootWidget; QPointF mapped = widget->mapFrom(rootWidget, pos); QWheelEvent translated(mapped, event->globalPosition(), event->pixelDelta(), event->angleDelta(), event->buttons(), event->modifiers(), event->phase(), event->inverted(), event->source(), event->pointingDevice()); translated.setTimestamp(event->timestamp()); QGuiApplication::forwardEvent(widget, &translated, event); } #endif // QT_CONFIG(wheelevent) #if QT_CONFIG(draganddrop) static QWidget *findDnDTarget(QWidget *parent, const QPoint &pos) { // Find a target widget under mouse that accepts drops (QTBUG-22987). QWidget *widget = parent->childAt(pos); if (!widget) widget = parent; for ( ; widget && !widget->isWindow() && !widget->acceptDrops(); widget = widget->parentWidget()) ; if (widget && !widget->acceptDrops()) widget = nullptr; return widget; } void QWidgetWindow::handleDragEnterEvent(QDragEnterEvent *event, QWidget *widget) { Q_ASSERT(m_dragTarget == nullptr); if (!widget) widget = findDnDTarget(m_widget, event->position().toPoint()); if (!widget) { event->ignore(); return; } m_dragTarget = widget; const QPoint mapped = widget->mapFromGlobal(m_widget->mapToGlobal(event->position().toPoint())); QDragEnterEvent translated(mapped, event->possibleActions(), event->mimeData(), event->buttons(), event->modifiers()); QGuiApplication::forwardEvent(m_dragTarget, &translated, event); event->setAccepted(translated.isAccepted()); event->setDropAction(translated.dropAction()); } void QWidgetWindow::handleDragMoveEvent(QDragMoveEvent *event) { QPointer widget = findDnDTarget(m_widget, event->position().toPoint()); if (!widget) { event->ignore(); if (m_dragTarget) { // Send DragLeave to previous QDragLeaveEvent leaveEvent; QGuiApplication::forwardEvent(m_dragTarget, &leaveEvent, event); m_dragTarget = nullptr; } } else { const QPoint mapped = widget->mapFromGlobal(m_widget->mapToGlobal(event->position().toPoint())); QDragMoveEvent translated(mapped, event->possibleActions(), event->mimeData(), event->buttons(), event->modifiers()); if (widget == m_dragTarget) { // Target widget unchanged: Send DragMove translated.setDropAction(event->dropAction()); translated.setAccepted(event->isAccepted()); QGuiApplication::forwardEvent(m_dragTarget, &translated, event); } else { if (m_dragTarget) { // Send DragLeave to previous QDragLeaveEvent leaveEvent; QGuiApplication::forwardEvent(m_dragTarget, &leaveEvent, event); m_dragTarget = nullptr; } // widget might have been deleted when handling the leaveEvent if (widget) { // Send DragEnter to new widget. handleDragEnterEvent(static_cast(event), widget); // Handling 'DragEnter' should suffice for the application. translated.setDropAction(event->dropAction()); translated.setAccepted(event->isAccepted()); // The drag enter event is always immediately followed by a drag move event, // see QDragEnterEvent documentation. if (m_dragTarget) QGuiApplication::forwardEvent(m_dragTarget, &translated, event); } } event->setAccepted(translated.isAccepted()); event->setDropAction(translated.dropAction()); } } void QWidgetWindow::handleDragLeaveEvent(QDragLeaveEvent *event) { if (m_dragTarget) QGuiApplication::forwardEvent(m_dragTarget, event); m_dragTarget = nullptr; } void QWidgetWindow::handleDropEvent(QDropEvent *event) { if (Q_UNLIKELY(m_dragTarget.isNull())) { qWarning() << m_widget << ": No drag target set."; event->ignore(); return; } const QPoint mapped = m_dragTarget->mapFromGlobal(m_widget->mapToGlobal(event->position().toPoint())); QDropEvent translated(mapped, event->possibleActions(), event->mimeData(), event->buttons(), event->modifiers()); QGuiApplication::forwardEvent(m_dragTarget, &translated, event); event->setAccepted(translated.isAccepted()); event->setDropAction(translated.dropAction()); m_dragTarget = nullptr; } #endif // QT_CONFIG(draganddrop) void QWidgetWindow::handleExposeEvent(QExposeEvent *event) { QWidgetPrivate *wPriv = m_widget->d_func(); const bool exposed = isExposed(); if (wPriv->childrenHiddenByWState) { // If widgets has been previously hidden by window state change event // and they aren't yet shown... if (exposed) { // If the window becomes exposed... if (!wPriv->childrenShownByExpose) { // ... and they haven't been shown by this function yet - show it. wPriv->showChildren(true); QShowEvent showEvent; QCoreApplication::forwardEvent(m_widget, &showEvent, event); wPriv->childrenShownByExpose = true; } } else { // If the window becomes not exposed... if (wPriv->childrenShownByExpose) { // ... and child widgets was previously shown by the expose event - hide widgets again. // This is a workaround, because sometimes when window is minimized programatically, // the QPA can notify that the window is exposed after changing window state to minimized // and then, the QPA can send next expose event with null exposed region (not exposed). wPriv->hideChildren(true); QHideEvent hideEvent; QCoreApplication::forwardEvent(m_widget, &hideEvent, event); wPriv->childrenShownByExpose = false; } } } if (exposed) { // QTBUG-39220, QTBUG-58575: set all (potentially fully obscured parent widgets) mapped. m_widget->setAttribute(Qt::WA_Mapped); for (QWidget *p = m_widget->parentWidget(); p && !p->testAttribute(Qt::WA_Mapped); p = p->parentWidget()) p->setAttribute(Qt::WA_Mapped); QT_WARNING_PUSH QT_WARNING_DISABLE_DEPRECATED if (!event->region().isNull()) wPriv->syncBackingStore(event->region()); QT_WARNING_POP } else { m_widget->setAttribute(Qt::WA_Mapped, false); } } void QWidgetWindow::handleWindowStateChangedEvent(QWindowStateChangeEvent *event) { // QWindow does currently not know 'active'. Qt::WindowStates eventState = event->oldState(); Qt::WindowStates widgetState = m_widget->windowState(); Qt::WindowStates windowState = windowStates(); if (widgetState & Qt::WindowActive) eventState |= Qt::WindowActive; // Determine the new widget state, remember maximized/full screen // during minimized. if (windowState & Qt::WindowMinimized) { widgetState |= Qt::WindowMinimized; } else { widgetState = windowState | (widgetState & Qt::WindowActive); if (windowState) // Maximized or FullScreen updateNormalGeometry(); } // Sent event if the state changed (that is, it is not triggered by // QWidget::setWindowState(), which also sends an event to the widget). if (widgetState != Qt::WindowStates::Int(m_widget->data->window_state)) { m_widget->data->window_state = uint(widgetState); QWindowStateChangeEvent widgetEvent(eventState); QGuiApplication::forwardEvent(m_widget, &widgetEvent, event); } } bool QWidgetWindow::nativeEvent(const QByteArray &eventType, void *message, qintptr *result) { return m_widget->nativeEvent(eventType, message, result); } #if QT_CONFIG(tabletevent) void QWidgetWindow::handleTabletEvent(QTabletEvent *event) { static QPointer qt_tablet_target = nullptr; QWidget *widget = qt_tablet_target; if (!widget) { widget = m_widget->childAt(event->position().toPoint()); if (event->type() == QEvent::TabletPress) { if (!widget) widget = m_widget; qt_tablet_target = widget; } } if (widget) { QPointF delta = event->globalPosition() - event->globalPosition().toPoint(); QPointF mapped = widget->mapFromGlobal(event->globalPosition().toPoint()) + delta; QTabletEvent ev(event->type(), event->pointingDevice(), mapped, event->globalPosition(), event->pressure(), event->xTilt(), event->yTilt(), event->tangentialPressure(), event->rotation(), event->z(), event->modifiers(), event->button(), event->buttons()); ev.setTimestamp(event->timestamp()); ev.setAccepted(false); QGuiApplication::forwardEvent(widget, &ev, event); event->setAccepted(ev.isAccepted()); } if (event->type() == QEvent::TabletRelease && event->buttons() == Qt::NoButton) qt_tablet_target = nullptr; } #endif // QT_CONFIG(tabletevent) #ifndef QT_NO_GESTURES void QWidgetWindow::handleGestureEvent(QNativeGestureEvent *e) { // copy-pasted code to find correct widget follows: QObject *receiver = nullptr; if (QApplicationPrivate::inPopupMode()) { QWidget *popup = QApplication::activePopupWidget(); QWidget *popupFocusWidget = popup->focusWidget(); receiver = popupFocusWidget ? popupFocusWidget : popup; } if (!receiver) receiver = QApplication::widgetAt(e->globalPosition().toPoint()); if (!receiver) receiver = m_widget; // last resort QApplication::forwardEvent(receiver, e); } #endif // QT_NO_GESTURES #ifndef QT_NO_CONTEXTMENU void QWidgetWindow::handleContextMenuEvent(QContextMenuEvent *e) { // We are only interested in keyboard originating context menu events here, // mouse originated context menu events for widgets are generated in mouse handling methods. if (e->reason() != QContextMenuEvent::Keyboard) return; QWidget *fw = QWidget::keyboardGrabber(); if (!fw) { if (QApplication::activePopupWidget()) { fw = (QApplication::activePopupWidget()->focusWidget() ? QApplication::activePopupWidget()->focusWidget() : QApplication::activePopupWidget()); } else if (QApplication::focusWidget()) { fw = QApplication::focusWidget(); } else { fw = m_widget; } } if (fw && fw->isEnabled()) { QPoint pos = fw->inputMethodQuery(Qt::ImCursorRectangle).toRect().center(); QContextMenuEvent widgetEvent(QContextMenuEvent::Keyboard, pos, fw->mapToGlobal(pos), e->modifiers()); QGuiApplication::forwardEvent(fw, &widgetEvent, e); } } #endif // QT_NO_CONTEXTMENU void QWidgetWindow::updateObjectName() { QString name = m_widget->objectName(); if (name.isEmpty()) name = QString::fromUtf8(m_widget->metaObject()->className()) + QLatin1String("Class"); name += QLatin1String("Window"); setObjectName(name); } QT_END_NAMESPACE #include "moc_qwidgetwindow_p.cpp"