/* KWin - the KDE window manager This file is part of the KDE project. SPDX-FileCopyrightText: 2015 Martin Gräßlin SPDX-FileCopyrightText: 2018 David Edmundson SPDX-FileCopyrightText: 2019 Vlad Zahorodnii SPDX-License-Identifier: GPL-2.0-or-later */ #include "xdgshellwindow.h" #include "output.h" #if KWIN_BUILD_ACTIVITIES #include "activities.h" #endif #include "decorations/decorationbridge.h" #include "deleted.h" #include "platform.h" #include "screenedge.h" #include "touch_input.h" #include "utils/subsurfacemonitor.h" #include "virtualdesktops.h" #include "wayland/appmenu_interface.h" #include "wayland/output_interface.h" #include "wayland/plasmashell_interface.h" #include "wayland/seat_interface.h" #include "wayland/server_decoration_interface.h" #include "wayland/server_decoration_palette_interface.h" #include "wayland/surface_interface.h" #include "wayland/xdgdecoration_v1_interface.h" #include "wayland_server.h" #include "workspace.h" #include #include using namespace KWaylandServer; namespace KWin { XdgSurfaceWindow::XdgSurfaceWindow(XdgSurfaceInterface *shellSurface) : WaylandWindow(shellSurface->surface()) , m_shellSurface(shellSurface) , m_configureTimer(new QTimer(this)) { setupPlasmaShellIntegration(); connect(shellSurface, &XdgSurfaceInterface::configureAcknowledged, this, &XdgSurfaceWindow::handleConfigureAcknowledged); connect(shellSurface, &XdgSurfaceInterface::resetOccurred, this, &XdgSurfaceWindow::destroyWindow); connect(shellSurface->surface(), &SurfaceInterface::committed, this, &XdgSurfaceWindow::handleCommit); #if 0 // TODO: Refactor kwin core in order to uncomment this code. connect(shellSurface->surface(), &SurfaceInterface::mapped, this, &XdgSurfaceWindow::setReadyForPainting); #endif connect(shellSurface, &XdgSurfaceInterface::aboutToBeDestroyed, this, &XdgSurfaceWindow::destroyWindow); connect(shellSurface->surface(), &SurfaceInterface::aboutToBeDestroyed, this, &XdgSurfaceWindow::destroyWindow); // The effective window geometry is determined by two things: (a) the rectangle that bounds // the main surface and all of its sub-surfaces, (b) the client-specified window geometry, if // any. If the client hasn't provided the window geometry, we fallback to the bounding sub- // surface rectangle. If the client has provided the window geometry, we intersect it with // the bounding rectangle and that will be the effective window geometry. It's worth to point // out that geometry updates do not occur that frequently, so we don't need to recompute the // bounding geometry every time the client commits the surface. SubSurfaceMonitor *treeMonitor = new SubSurfaceMonitor(surface(), this); connect(treeMonitor, &SubSurfaceMonitor::subSurfaceAdded, this, &XdgSurfaceWindow::setHaveNextWindowGeometry); connect(treeMonitor, &SubSurfaceMonitor::subSurfaceRemoved, this, &XdgSurfaceWindow::setHaveNextWindowGeometry); connect(treeMonitor, &SubSurfaceMonitor::subSurfaceMoved, this, &XdgSurfaceWindow::setHaveNextWindowGeometry); connect(treeMonitor, &SubSurfaceMonitor::subSurfaceResized, this, &XdgSurfaceWindow::setHaveNextWindowGeometry); connect(shellSurface, &XdgSurfaceInterface::windowGeometryChanged, this, &XdgSurfaceWindow::setHaveNextWindowGeometry); connect(surface(), &SurfaceInterface::sizeChanged, this, &XdgSurfaceWindow::setHaveNextWindowGeometry); // Configure events are not sent immediately, but rather scheduled to be sent when the event // loop is about to be idle. By doing this, we can avoid sending configure events that do // nothing, and implementation-wise, it's simpler. m_configureTimer->setSingleShot(true); connect(m_configureTimer, &QTimer::timeout, this, &XdgSurfaceWindow::sendConfigure); } XdgSurfaceWindow::~XdgSurfaceWindow() { qDeleteAll(m_configureEvents); } NET::WindowType XdgSurfaceWindow::windowType(bool direct, int supported_types) const { Q_UNUSED(direct) Q_UNUSED(supported_types) return m_windowType; } QRectF XdgSurfaceWindow::inputGeometry() const { return isDecorated() ? Window::inputGeometry() : bufferGeometry(); } QMatrix4x4 XdgSurfaceWindow::inputTransformation() const { QMatrix4x4 transformation; transformation.translate(-bufferGeometry().x(), -bufferGeometry().y()); return transformation; } XdgSurfaceConfigure *XdgSurfaceWindow::lastAcknowledgedConfigure() const { return m_lastAcknowledgedConfigure.data(); } void XdgSurfaceWindow::scheduleConfigure() { if (!isZombie()) { m_configureTimer->start(); } } void XdgSurfaceWindow::sendConfigure() { XdgSurfaceConfigure *configureEvent = sendRoleConfigure(); // The configure event inherits configure flags from the previous event. if (!m_configureEvents.isEmpty()) { const XdgSurfaceConfigure *previousEvent = m_configureEvents.constLast(); configureEvent->flags = previousEvent->flags; } configureEvent->gravity = m_nextGravity; configureEvent->flags |= m_configureFlags; m_configureFlags = {}; m_configureEvents.append(configureEvent); } void XdgSurfaceWindow::handleConfigureAcknowledged(quint32 serial) { m_lastAcknowledgedConfigureSerial = serial; } void XdgSurfaceWindow::handleCommit() { if (!surface()->buffer()) { return; } if (m_lastAcknowledgedConfigureSerial.has_value()) { const quint32 serial = m_lastAcknowledgedConfigureSerial.value(); while (!m_configureEvents.isEmpty()) { if (serial < m_configureEvents.constFirst()->serial) { break; } m_lastAcknowledgedConfigure.reset(m_configureEvents.takeFirst()); } } handleRolePrecommit(); if (haveNextWindowGeometry()) { handleNextWindowGeometry(); resetHaveNextWindowGeometry(); } handleRoleCommit(); m_lastAcknowledgedConfigure.reset(); m_lastAcknowledgedConfigureSerial.reset(); setReadyForPainting(); updateDepth(); } void XdgSurfaceWindow::handleRolePrecommit() { } void XdgSurfaceWindow::handleRoleCommit() { } void XdgSurfaceWindow::maybeUpdateMoveResizeGeometry(const QRectF &rect) { // We are about to send a configure event, ignore the committed window geometry. if (m_configureTimer->isActive()) { return; } // If there are unacknowledged configure events that change the geometry, don't sync // the move resize geometry in order to avoid rolling back to old state. When the last // configure event is acknowledged, the move resize geometry will be synchronized. for (int i = m_configureEvents.count() - 1; i >= 0; --i) { if (m_configureEvents[i]->flags & XdgSurfaceConfigure::ConfigurePosition) { return; } } setMoveResizeGeometry(rect); } static QRectF gravitateGeometry(const QRectF &rect, const QRectF &bounds, Gravity gravity) { QRectF geometry = rect; switch (gravity) { case Gravity::TopLeft: geometry.moveRight(bounds.right()); geometry.moveBottom(bounds.bottom()); break; case Gravity::Top: case Gravity::TopRight: geometry.moveLeft(bounds.left()); geometry.moveBottom(bounds.bottom()); break; case Gravity::Right: case Gravity::BottomRight: case Gravity::Bottom: case Gravity::None: geometry.moveLeft(bounds.left()); geometry.moveTop(bounds.top()); break; case Gravity::BottomLeft: case Gravity::Left: geometry.moveRight(bounds.right()); geometry.moveTop(bounds.top()); break; } return geometry; } void XdgSurfaceWindow::handleNextWindowGeometry() { const QRectF boundingGeometry = surface()->boundingRect(); // The effective window geometry is defined as the intersection of the window geometry // and the rectangle that bounds the main surface and all of its sub-surfaces. If the // client hasn't specified the window geometry, we must fallback to the bounding geometry. // Note that the xdg-shell spec is not clear about when exactly we have to clamp the // window geometry. m_windowGeometry = m_shellSurface->windowGeometry(); if (m_windowGeometry.isValid()) { m_windowGeometry &= boundingGeometry; } else { m_windowGeometry = boundingGeometry; } if (m_windowGeometry.isEmpty()) { qCWarning(KWIN_CORE) << "Committed empty window geometry, dealing with a buggy client!"; } QRectF frameGeometry(pos(), clientSizeToFrameSize(m_windowGeometry.size())); if (const XdgSurfaceConfigure *configureEvent = lastAcknowledgedConfigure()) { if (configureEvent->flags & XdgSurfaceConfigure::ConfigurePosition) { frameGeometry = gravitateGeometry(frameGeometry, configureEvent->bounds, configureEvent->gravity); } } if (!isInteractiveMoveResize()) { // Both the compositor and the client can change the window geometry. If the client // sets a new window geometry, the compositor's move-resize geometry will be invalid. maybeUpdateMoveResizeGeometry(frameGeometry); } updateGeometry(frameGeometry); } bool XdgSurfaceWindow::haveNextWindowGeometry() const { return m_haveNextWindowGeometry || m_lastAcknowledgedConfigure; } void XdgSurfaceWindow::setHaveNextWindowGeometry() { m_haveNextWindowGeometry = true; } void XdgSurfaceWindow::resetHaveNextWindowGeometry() { m_haveNextWindowGeometry = false; } void XdgSurfaceWindow::moveResizeInternal(const QRectF &rect, MoveResizeMode mode) { if (areGeometryUpdatesBlocked()) { setPendingMoveResizeMode(mode); return; } if (mode != MoveResizeMode::Move) { const QSizeF requestedClientSize = frameSizeToClientSize(rect.size()); if (requestedClientSize == clientSize()) { updateGeometry(rect); } else { m_configureFlags |= XdgSurfaceConfigure::ConfigurePosition; scheduleConfigure(); } } else { // If the window is moved, cancel any queued window position updates. for (XdgSurfaceConfigure *configureEvent : qAsConst(m_configureEvents)) { configureEvent->flags.setFlag(XdgSurfaceConfigure::ConfigurePosition, false); } m_configureFlags.setFlag(XdgSurfaceConfigure::ConfigurePosition, false); updateGeometry(QRectF(rect.topLeft(), size())); } } QRectF XdgSurfaceWindow::frameRectToBufferRect(const QRectF &rect) const { const qreal left = rect.left() + borderLeft() - m_windowGeometry.left(); const qreal top = rect.top() + borderTop() - m_windowGeometry.top(); return QRectF(QPoint(left, top), surface()->size()); } void XdgSurfaceWindow::destroyWindow() { markAsZombie(); if (isInteractiveMoveResize()) { leaveInteractiveMoveResize(); Q_EMIT clientFinishUserMovedResized(this); } m_configureTimer->stop(); cleanTabBox(); Deleted *deleted = Deleted::create(this); Q_EMIT windowClosed(this, deleted); StackingUpdatesBlocker blocker(workspace()); RuleBook::self()->discardUsed(this, true); setDecoration(nullptr); cleanGrouping(); waylandServer()->removeWindow(this); deleted->unrefWindow(); delete this; } void XdgSurfaceWindow::updateClientArea() { if (hasStrut()) { workspace()->updateClientArea(); } } void XdgSurfaceWindow::updateShowOnScreenEdge() { if (!ScreenEdges::self()) { return; } if (!readyForPainting() || !m_plasmaShellSurface || m_plasmaShellSurface->role() != PlasmaShellSurfaceInterface::Role::Panel) { ScreenEdges::self()->reserve(this, ElectricNone); return; } const PlasmaShellSurfaceInterface::PanelBehavior panelBehavior = m_plasmaShellSurface->panelBehavior(); if ((panelBehavior == PlasmaShellSurfaceInterface::PanelBehavior::AutoHide && isHidden()) || panelBehavior == PlasmaShellSurfaceInterface::PanelBehavior::WindowsCanCover) { // Screen edge API requires an edge, thus we need to figure out which edge the window borders. const QRect clientGeometry = frameGeometry().toRect(); // converted here to match output checks Qt::Edges edges; const auto outputs = kwinApp()->platform()->enabledOutputs(); for (const Output *output : outputs) { const QRect screenGeometry = output->geometry(); if (screenGeometry.left() == clientGeometry.left()) { edges |= Qt::LeftEdge; } if (screenGeometry.right() == clientGeometry.right()) { edges |= Qt::RightEdge; } if (screenGeometry.top() == clientGeometry.top()) { edges |= Qt::TopEdge; } if (screenGeometry.bottom() == clientGeometry.bottom()) { edges |= Qt::BottomEdge; } } // A panel might border multiple screen edges. E.g. a horizontal panel at the bottom will // also border the left and right edge. Let's remove such cases. if (edges & Qt::LeftEdge && edges & Qt::RightEdge) { edges = edges & (~(Qt::LeftEdge | Qt::RightEdge)); } if (edges & Qt::TopEdge && edges & Qt::BottomEdge) { edges = edges & (~(Qt::TopEdge | Qt::BottomEdge)); } // It's still possible that a panel borders two edges, e.g. bottom and left // in that case the one which is sharing more with the edge wins. auto check = [clientGeometry](Qt::Edges edges, Qt::Edge horizontal, Qt::Edge vertical) { if (edges & horizontal && edges & vertical) { if (clientGeometry.width() >= clientGeometry.height()) { return edges & ~horizontal; } else { return edges & ~vertical; } } return edges; }; edges = check(edges, Qt::LeftEdge, Qt::TopEdge); edges = check(edges, Qt::LeftEdge, Qt::BottomEdge); edges = check(edges, Qt::RightEdge, Qt::TopEdge); edges = check(edges, Qt::RightEdge, Qt::BottomEdge); ElectricBorder border = ElectricNone; if (edges & Qt::LeftEdge) { border = ElectricLeft; } if (edges & Qt::RightEdge) { border = ElectricRight; } if (edges & Qt::TopEdge) { border = ElectricTop; } if (edges & Qt::BottomEdge) { border = ElectricBottom; } ScreenEdges::self()->reserve(this, border); } else { ScreenEdges::self()->reserve(this, ElectricNone); } } /** * \todo This whole plasma shell surface thing doesn't seem right. It turns xdg-toplevel into * something completely different! Perhaps plasmashell surfaces need to be implemented via a * proprietary protocol that doesn't piggyback on existing shell surface protocols. It'll lead * to cleaner code and will be technically correct, but I'm not sure whether this is do-able. */ void XdgSurfaceWindow::installPlasmaShellSurface(PlasmaShellSurfaceInterface *shellSurface) { m_plasmaShellSurface = shellSurface; auto updatePosition = [this, shellSurface] { move(shellSurface->position()); }; auto moveUnderCursor = [this] { // Wait for the first commit auto connection = new QMetaObject::Connection; *connection = connect(this, &Window::windowShown, [this, connection] () { disconnect(*connection); if (input()->hasPointer()) { move(input()->globalPointer()); keepInArea(workspace()->clientArea(PlacementArea, this)); } }); }; auto updateRole = [this, shellSurface] { NET::WindowType type = NET::Unknown; switch (shellSurface->role()) { case PlasmaShellSurfaceInterface::Role::Desktop: type = NET::Desktop; break; case PlasmaShellSurfaceInterface::Role::Panel: type = NET::Dock; break; case PlasmaShellSurfaceInterface::Role::OnScreenDisplay: type = NET::OnScreenDisplay; break; case PlasmaShellSurfaceInterface::Role::Notification: type = NET::Notification; break; case PlasmaShellSurfaceInterface::Role::ToolTip: type = NET::Tooltip; break; case PlasmaShellSurfaceInterface::Role::CriticalNotification: type = NET::CriticalNotification; break; case PlasmaShellSurfaceInterface::Role::AppletPopup: type = NET::AppletPopup; break; case PlasmaShellSurfaceInterface::Role::Normal: default: type = NET::Normal; break; } if (m_windowType == type) { return; } m_windowType = type; switch (m_windowType) { case NET::Desktop: case NET::Dock: case NET::OnScreenDisplay: case NET::Notification: case NET::CriticalNotification: case NET::Tooltip: case NET::AppletPopup: setOnAllDesktops(true); #if KWIN_BUILD_ACTIVITIES setOnAllActivities(true); #endif break; default: break; } workspace()->updateClientArea(); }; connect(shellSurface, &PlasmaShellSurfaceInterface::positionChanged, this, updatePosition); connect(shellSurface, &PlasmaShellSurfaceInterface::openUnderCursorRequested, this, moveUnderCursor); connect(shellSurface, &PlasmaShellSurfaceInterface::roleChanged, this, updateRole); connect(shellSurface, &PlasmaShellSurfaceInterface::panelBehaviorChanged, this, [this] { updateShowOnScreenEdge(); workspace()->updateClientArea(); }); connect(shellSurface, &PlasmaShellSurfaceInterface::panelAutoHideHideRequested, this, [this] { if (m_plasmaShellSurface->panelBehavior() == PlasmaShellSurfaceInterface::PanelBehavior::AutoHide) { hideClient(); m_plasmaShellSurface->hideAutoHidingPanel(); } updateShowOnScreenEdge(); }); connect(shellSurface, &PlasmaShellSurfaceInterface::panelAutoHideShowRequested, this, [this] { showClient(); ScreenEdges::self()->reserve(this, ElectricNone); m_plasmaShellSurface->showAutoHidingPanel(); }); connect(shellSurface, &PlasmaShellSurfaceInterface::panelTakesFocusChanged, this, [this] { if (m_plasmaShellSurface->panelTakesFocus()) { workspace()->activateWindow(this); } }); if (shellSurface->isPositionSet()) { updatePosition(); } if (shellSurface->wantsOpenUnderCursor()) { moveUnderCursor(); } updateRole(); updateShowOnScreenEdge(); connect(this, &XdgSurfaceWindow::frameGeometryChanged, this, &XdgSurfaceWindow::updateShowOnScreenEdge); connect(this, &XdgSurfaceWindow::windowShown, this, &XdgSurfaceWindow::updateShowOnScreenEdge); setSkipTaskbar(shellSurface->skipTaskbar()); connect(shellSurface, &PlasmaShellSurfaceInterface::skipTaskbarChanged, this, [this] { setSkipTaskbar(m_plasmaShellSurface->skipTaskbar()); }); setSkipSwitcher(shellSurface->skipSwitcher()); connect(shellSurface, &PlasmaShellSurfaceInterface::skipSwitcherChanged, this, [this] { setSkipSwitcher(m_plasmaShellSurface->skipSwitcher()); }); } void XdgSurfaceWindow::setupPlasmaShellIntegration() { connect(surface(), &SurfaceInterface::mapped, this, &XdgSurfaceWindow::updateShowOnScreenEdge); connect(this, &XdgSurfaceWindow::frameGeometryChanged, this, &XdgSurfaceWindow::updateClientArea); } XdgToplevelWindow::XdgToplevelWindow(XdgToplevelInterface *shellSurface) : XdgSurfaceWindow(shellSurface->xdgSurface()) , m_shellSurface(shellSurface) { setDesktops({VirtualDesktopManager::self()->currentDesktop()}); #if KWIN_BUILD_ACTIVITIES if (auto a = Activities::self()) { setOnActivities({a->current()}); } #endif move(workspace()->activeOutput()->geometry().center()); connect(shellSurface, &XdgToplevelInterface::windowTitleChanged, this, &XdgToplevelWindow::handleWindowTitleChanged); connect(shellSurface, &XdgToplevelInterface::windowClassChanged, this, &XdgToplevelWindow::handleWindowClassChanged); connect(shellSurface, &XdgToplevelInterface::windowMenuRequested, this, &XdgToplevelWindow::handleWindowMenuRequested); connect(shellSurface, &XdgToplevelInterface::moveRequested, this, &XdgToplevelWindow::handleMoveRequested); connect(shellSurface, &XdgToplevelInterface::resizeRequested, this, &XdgToplevelWindow::handleResizeRequested); connect(shellSurface, &XdgToplevelInterface::maximizeRequested, this, &XdgToplevelWindow::handleMaximizeRequested); connect(shellSurface, &XdgToplevelInterface::unmaximizeRequested, this, &XdgToplevelWindow::handleUnmaximizeRequested); connect(shellSurface, &XdgToplevelInterface::fullscreenRequested, this, &XdgToplevelWindow::handleFullscreenRequested); connect(shellSurface, &XdgToplevelInterface::unfullscreenRequested, this, &XdgToplevelWindow::handleUnfullscreenRequested); connect(shellSurface, &XdgToplevelInterface::minimizeRequested, this, &XdgToplevelWindow::handleMinimizeRequested); connect(shellSurface, &XdgToplevelInterface::parentXdgToplevelChanged, this, &XdgToplevelWindow::handleTransientForChanged); connect(shellSurface, &XdgToplevelInterface::initializeRequested, this, &XdgToplevelWindow::initialize); connect(shellSurface, &XdgToplevelInterface::aboutToBeDestroyed, this, &XdgToplevelWindow::destroyWindow); connect(shellSurface, &XdgToplevelInterface::maximumSizeChanged, this, &XdgToplevelWindow::handleMaximumSizeChanged); connect(shellSurface, &XdgToplevelInterface::minimumSizeChanged, this, &XdgToplevelWindow::handleMinimumSizeChanged); connect(shellSurface->shell(), &XdgShellInterface::pingTimeout, this, &XdgToplevelWindow::handlePingTimeout); connect(shellSurface->shell(), &XdgShellInterface::pingDelayed, this, &XdgToplevelWindow::handlePingDelayed); connect(shellSurface->shell(), &XdgShellInterface::pongReceived, this, &XdgToplevelWindow::handlePongReceived); connect(waylandServer(), &WaylandServer::foreignTransientChanged, this, &XdgToplevelWindow::handleForeignTransientForChanged); } XdgToplevelWindow::~XdgToplevelWindow() { } XdgToplevelInterface *XdgToplevelWindow::shellSurface() const { return m_shellSurface; } MaximizeMode XdgToplevelWindow::maximizeMode() const { return m_maximizeMode; } MaximizeMode XdgToplevelWindow::requestedMaximizeMode() const { return m_requestedMaximizeMode; } QSizeF XdgToplevelWindow::minSize() const { return rules()->checkMinSize(m_shellSurface->minimumSize()); } QSizeF XdgToplevelWindow::maxSize() const { return rules()->checkMaxSize(m_shellSurface->maximumSize()); } bool XdgToplevelWindow::isFullScreen() const { return m_isFullScreen; } bool XdgToplevelWindow::isRequestedFullScreen() const { return m_isRequestedFullScreen; } bool XdgToplevelWindow::isMovable() const { if (isRequestedFullScreen()) { return false; } if ((isSpecialWindow() && !isSplash() && !isToolbar()) || isAppletPopup()) { return false; } if (rules()->checkPosition(invalidPoint) != invalidPoint) { return false; } return true; } bool XdgToplevelWindow::isMovableAcrossScreens() const { if (isSpecialWindow() && !isSplash() && !isToolbar()) { return false; } if (rules()->checkPosition(invalidPoint) != invalidPoint) { return false; } return true; } bool XdgToplevelWindow::isResizable() const { if (isRequestedFullScreen()) { return false; } if (isSpecialWindow() || isSplash() || isToolbar()) { return false; } if (rules()->checkSize(QSize()).isValid()) { return false; } const QSizeF min = minSize(); const QSizeF max = maxSize(); return min.width() < max.width() || min.height() < max.height(); } bool XdgToplevelWindow::isCloseable() const { return !isDesktop() && !isDock(); } bool XdgToplevelWindow::isFullScreenable() const { if (!rules()->checkFullScreen(true)) { return false; } return !isSpecialWindow(); } bool XdgToplevelWindow::isMaximizable() const { if (!isResizable()) { return false; } if (rules()->checkMaximize(MaximizeRestore) != MaximizeRestore || rules()->checkMaximize(MaximizeFull) != MaximizeFull) { return false; } return true; } bool XdgToplevelWindow::isMinimizable() const { if (isSpecialWindow() && !isTransient()) { return false; } if (!rules()->checkMinimize(true)) { return false; } return true; } bool XdgToplevelWindow::isPlaceable() const { if (m_plasmaShellSurface) { return !m_plasmaShellSurface->isPositionSet() && !m_plasmaShellSurface->wantsOpenUnderCursor(); } return true; } bool XdgToplevelWindow::isTransient() const { return m_isTransient; } bool XdgToplevelWindow::userCanSetFullScreen() const { return true; } bool XdgToplevelWindow::userCanSetNoBorder() const { return (m_serverDecoration || m_xdgDecoration) && !isFullScreen() && !isShade(); } bool XdgToplevelWindow::noBorder() const { return m_userNoBorder; } void XdgToplevelWindow::setNoBorder(bool set) { set = rules()->checkNoBorder(set); if (m_userNoBorder == set) { return; } m_userNoBorder = set; configureDecoration(); updateWindowRules(Rules::NoBorder); } void XdgToplevelWindow::invalidateDecoration() { clearDecoration(); configureDecoration(); } bool XdgToplevelWindow::supportsWindowRules() const { return true; } StrutRect XdgToplevelWindow::strutRect(StrutArea area) const { if (!hasStrut()) { return StrutRect(); } const QRect windowRect = frameGeometry().toRect(); const QRect outputRect = output()->geometry(); const bool left = windowRect.left() == outputRect.left(); const bool right = windowRect.right() == outputRect.right(); const bool top = windowRect.top() == outputRect.top(); const bool bottom = windowRect.bottom() == outputRect.bottom(); const bool horizontal = width() >= height(); switch (area) { case StrutAreaTop: if (top && ((!left && !right) || horizontal)) { return StrutRect(windowRect, StrutAreaTop); } return StrutRect(); case StrutAreaRight: if (right && ((!top && !bottom) || !horizontal)) { return StrutRect(windowRect, StrutAreaRight); } return StrutRect(); case StrutAreaBottom: if (bottom && ((!left && !right) || horizontal)) { return StrutRect(windowRect, StrutAreaBottom); } return StrutRect(); case StrutAreaLeft: if (left && ((!top && !bottom) || !horizontal)) { return StrutRect(windowRect, StrutAreaLeft); } return StrutRect(); default: return StrutRect(); } } bool XdgToplevelWindow::hasStrut() const { if (!isShown()) { return false; } if (!m_plasmaShellSurface) { return false; } if (m_plasmaShellSurface->role() != PlasmaShellSurfaceInterface::Role::Panel) { return false; } return m_plasmaShellSurface->panelBehavior() == PlasmaShellSurfaceInterface::PanelBehavior::AlwaysVisible; } void XdgToplevelWindow::showOnScreenEdge() { // ShowOnScreenEdge can be called by an Edge, and hideClient could destroy the Edge // Use the singleshot to avoid use-after-free QTimer::singleShot(0, this, [this]() { showClient(); workspace()->raiseWindow(this); if (m_plasmaShellSurface && m_plasmaShellSurface->panelBehavior() == PlasmaShellSurfaceInterface::PanelBehavior::AutoHide) { m_plasmaShellSurface->showAutoHidingPanel(); } }); } void XdgToplevelWindow::closeWindow() { if (isCloseable()) { sendPing(PingReason::CloseWindow); m_shellSurface->sendClose(); } } XdgSurfaceConfigure *XdgToplevelWindow::sendRoleConfigure() const { QSize framePadding(0, 0); if (m_nextDecoration) { framePadding.setWidth(m_nextDecoration->borderLeft() + m_nextDecoration->borderRight()); framePadding.setHeight(m_nextDecoration->borderTop() + m_nextDecoration->borderBottom()); } QSizeF nextClientSize = moveResizeGeometry().size(); if (!nextClientSize.isEmpty()) { nextClientSize.rwidth() -= framePadding.width(); nextClientSize.rheight() -= framePadding.height(); } if (nextClientSize.isEmpty()) { QSizeF bounds = workspace()->clientArea(PlacementArea, this, output()).size(); bounds.rwidth() -= framePadding.width(); bounds.rheight() -= framePadding.height(); m_shellSurface->sendConfigureBounds(bounds.toSize()); } const quint32 serial = m_shellSurface->sendConfigure(nextClientSize.toSize(), m_nextStates); XdgToplevelConfigure *configureEvent = new XdgToplevelConfigure(); configureEvent->bounds = moveResizeGeometry(); configureEvent->states = m_nextStates; configureEvent->decoration = m_nextDecoration; configureEvent->serial = serial; return configureEvent; } void XdgToplevelWindow::handleRolePrecommit() { auto configureEvent = static_cast(lastAcknowledgedConfigure()); if (configureEvent && decoration() != configureEvent->decoration.get()) { setDecoration(configureEvent->decoration); updateShadow(); } } void XdgToplevelWindow::handleRoleCommit() { auto configureEvent = static_cast(lastAcknowledgedConfigure()); if (configureEvent) { handleStatesAcknowledged(configureEvent->states); } } void XdgToplevelWindow::doMinimize() { if (isMinimized()) { workspace()->windowHidden(this); } else { Q_EMIT windowShown(this); } workspace()->updateMinimizedOfTransients(this); } void XdgToplevelWindow::doInteractiveResizeSync() { moveResizeInternal(moveResizeGeometry(), MoveResizeMode::Resize); } void XdgToplevelWindow::doSetActive() { WaylandWindow::doSetActive(); if (isActive()) { m_nextStates |= XdgToplevelInterface::State::Activated; } else { m_nextStates &= ~XdgToplevelInterface::State::Activated; } scheduleConfigure(); } void XdgToplevelWindow::doSetFullScreen() { if (isRequestedFullScreen()) { m_nextStates |= XdgToplevelInterface::State::FullScreen; } else { m_nextStates &= ~XdgToplevelInterface::State::FullScreen; } scheduleConfigure(); } void XdgToplevelWindow::doSetMaximized() { if (requestedMaximizeMode() & MaximizeHorizontal) { m_nextStates |= XdgToplevelInterface::State::MaximizedHorizontal; } else { m_nextStates &= ~XdgToplevelInterface::State::MaximizedHorizontal; } if (requestedMaximizeMode() & MaximizeVertical) { m_nextStates |= XdgToplevelInterface::State::MaximizedVertical; } else { m_nextStates &= ~XdgToplevelInterface::State::MaximizedVertical; } scheduleConfigure(); } static Qt::Edges anchorsForQuickTileMode(QuickTileMode mode) { if (mode == QuickTileMode(QuickTileFlag::None)) { return Qt::Edges(); } Qt::Edges anchors = Qt::LeftEdge | Qt::TopEdge | Qt::RightEdge | Qt::BottomEdge; if ((mode & QuickTileFlag::Left) && !(mode & QuickTileFlag::Right)) { anchors &= ~Qt::RightEdge; } if ((mode & QuickTileFlag::Right) && !(mode & QuickTileFlag::Left)) { anchors &= ~Qt::LeftEdge; } if ((mode & QuickTileFlag::Top) && !(mode & QuickTileFlag::Bottom)) { anchors &= ~Qt::BottomEdge; } if ((mode & QuickTileFlag::Bottom) && !(mode & QuickTileFlag::Top)) { anchors &= ~Qt::TopEdge; } return anchors; } void XdgToplevelWindow::doSetQuickTileMode() { const Qt::Edges anchors = anchorsForQuickTileMode(quickTileMode()); if (anchors & Qt::LeftEdge) { m_nextStates |= XdgToplevelInterface::State::TiledLeft; } else { m_nextStates &= ~XdgToplevelInterface::State::TiledLeft; } if (anchors & Qt::RightEdge) { m_nextStates |= XdgToplevelInterface::State::TiledRight; } else { m_nextStates &= ~XdgToplevelInterface::State::TiledRight; } if (anchors & Qt::TopEdge) { m_nextStates |= XdgToplevelInterface::State::TiledTop; } else { m_nextStates &= ~XdgToplevelInterface::State::TiledTop; } if (anchors & Qt::BottomEdge) { m_nextStates |= XdgToplevelInterface::State::TiledBottom; } else { m_nextStates &= ~XdgToplevelInterface::State::TiledBottom; } scheduleConfigure(); } bool XdgToplevelWindow::doStartInteractiveMoveResize() { if (interactiveMoveResizeGravity() != Gravity::None) { m_nextGravity = interactiveMoveResizeGravity(); m_nextStates |= XdgToplevelInterface::State::Resizing; scheduleConfigure(); } return true; } void XdgToplevelWindow::doFinishInteractiveMoveResize() { if (m_nextStates & XdgToplevelInterface::State::Resizing) { m_nextStates &= ~XdgToplevelInterface::State::Resizing; scheduleConfigure(); } } bool XdgToplevelWindow::takeFocus() { if (wantsInput()) { sendPing(PingReason::FocusWindow); setActive(true); } if (!keepAbove() && !isOnScreenDisplay() && !belongsToDesktop()) { workspace()->setShowingDesktop(false); } return true; } bool XdgToplevelWindow::wantsInput() const { return rules()->checkAcceptFocus(acceptsFocus()); } bool XdgToplevelWindow::dockWantsInput() const { if (m_plasmaShellSurface) { if (m_plasmaShellSurface->role() == PlasmaShellSurfaceInterface::Role::Panel) { return m_plasmaShellSurface->panelTakesFocus(); } } return false; } bool XdgToplevelWindow::acceptsFocus() const { if (m_plasmaShellSurface) { if (m_plasmaShellSurface->role() == PlasmaShellSurfaceInterface::Role::OnScreenDisplay || m_plasmaShellSurface->role() == PlasmaShellSurfaceInterface::Role::ToolTip) { return false; } switch (m_plasmaShellSurface->role()) { case PlasmaShellSurfaceInterface::Role::Notification: case PlasmaShellSurfaceInterface::Role::CriticalNotification: return m_plasmaShellSurface->panelTakesFocus(); default: break; } } return !isZombie() && readyForPainting(); } Layer XdgToplevelWindow::layerForDock() const { if (m_plasmaShellSurface) { switch (m_plasmaShellSurface->panelBehavior()) { case PlasmaShellSurfaceInterface::PanelBehavior::WindowsCanCover: return NormalLayer; case PlasmaShellSurfaceInterface::PanelBehavior::AutoHide: case PlasmaShellSurfaceInterface::PanelBehavior::WindowsGoBelow: return AboveLayer; case PlasmaShellSurfaceInterface::PanelBehavior::AlwaysVisible: return DockLayer; default: Q_UNREACHABLE(); break; } } return Window::layerForDock(); } void XdgToplevelWindow::handleWindowTitleChanged() { setCaption(m_shellSurface->windowTitle()); } void XdgToplevelWindow::handleWindowClassChanged() { const QByteArray applicationId = m_shellSurface->windowClass().toUtf8(); setResourceClass(resourceName(), applicationId); if (shellSurface()->isConfigured()) { evaluateWindowRules(); } setDesktopFileName(applicationId); } void XdgToplevelWindow::handleWindowMenuRequested(SeatInterface *seat, const QPoint &surfacePos, quint32 serial) { Q_UNUSED(seat) Q_UNUSED(serial) performMouseCommand(Options::MouseOperationsMenu, pos() + surfacePos); } void XdgToplevelWindow::handleMoveRequested(SeatInterface *seat, quint32 serial) { if (!seat->hasImplicitPointerGrab(serial) && !seat->hasImplicitTouchGrab(serial)) { return; } if (isMovable()) { QPointF cursorPos; if (seat->hasImplicitPointerGrab(serial)) { cursorPos = Cursors::self()->mouse()->pos(); } else { cursorPos = input()->touch()->position(); } performMouseCommand(Options::MouseMove, cursorPos); } else { qCDebug(KWIN_CORE) << this << "is immovable, ignoring the move request"; } } void XdgToplevelWindow::handleResizeRequested(SeatInterface *seat, XdgToplevelInterface::ResizeAnchor anchor, quint32 serial) { if (!seat->hasImplicitPointerGrab(serial) && !seat->hasImplicitTouchGrab(serial)) { return; } if (!isResizable() || isShade()) { return; } if (isInteractiveMoveResize()) { finishInteractiveMoveResize(false); } setInteractiveMoveResizePointerButtonDown(true); QPointF cursorPos; if (seat->hasImplicitPointerGrab(serial)) { cursorPos = Cursors::self()->mouse()->pos(); } else { cursorPos = input()->touch()->position(); } setInteractiveMoveOffset(cursorPos - pos()); // map from global setInvertedInteractiveMoveOffset(rect().bottomRight() - interactiveMoveOffset()); setUnrestrictedInteractiveMoveResize(false); Gravity gravity; switch (anchor) { case XdgToplevelInterface::ResizeAnchor::TopLeft: gravity = Gravity::TopLeft; break; case XdgToplevelInterface::ResizeAnchor::Top: gravity = Gravity::Top; break; case XdgToplevelInterface::ResizeAnchor::TopRight: gravity = Gravity::TopRight; break; case XdgToplevelInterface::ResizeAnchor::Right: gravity = Gravity::Right; break; case XdgToplevelInterface::ResizeAnchor::BottomRight: gravity = Gravity::BottomRight; break; case XdgToplevelInterface::ResizeAnchor::Bottom: gravity = Gravity::Bottom; break; case XdgToplevelInterface::ResizeAnchor::BottomLeft: gravity = Gravity::BottomLeft; break; case XdgToplevelInterface::ResizeAnchor::Left: gravity = Gravity::Left; break; default: gravity = Gravity::None; break; } setInteractiveMoveResizeGravity(gravity); if (!startInteractiveMoveResize()) { setInteractiveMoveResizePointerButtonDown(false); } updateCursor(); } void XdgToplevelWindow::handleStatesAcknowledged(const XdgToplevelInterface::States &states) { const XdgToplevelInterface::States delta = m_acknowledgedStates ^ states; if (delta & XdgToplevelInterface::State::Maximized) { MaximizeMode maximizeMode = MaximizeRestore; if (states & XdgToplevelInterface::State::MaximizedHorizontal) { maximizeMode = MaximizeMode(maximizeMode | MaximizeHorizontal); } if (states & XdgToplevelInterface::State::MaximizedVertical) { maximizeMode = MaximizeMode(maximizeMode | MaximizeVertical); } updateMaximizeMode(maximizeMode); } if (delta & XdgToplevelInterface::State::FullScreen) { updateFullScreenMode(states & XdgToplevelInterface::State::FullScreen); } m_acknowledgedStates = states; } void XdgToplevelWindow::handleMaximizeRequested() { if (m_isInitialized) { maximize(MaximizeFull); scheduleConfigure(); } else { m_initialStates |= XdgToplevelInterface::State::Maximized; } } void XdgToplevelWindow::handleUnmaximizeRequested() { if (m_isInitialized) { maximize(MaximizeRestore); scheduleConfigure(); } else { m_initialStates &= ~XdgToplevelInterface::State::Maximized; } } void XdgToplevelWindow::handleFullscreenRequested(OutputInterface *output) { m_fullScreenRequestedOutput = waylandServer()->findOutput(output); if (m_isInitialized) { setFullScreen(/* set */ true, /* user */ false); scheduleConfigure(); } else { m_initialStates |= XdgToplevelInterface::State::FullScreen; } } void XdgToplevelWindow::handleUnfullscreenRequested() { m_fullScreenRequestedOutput.clear(); if (m_isInitialized) { setFullScreen(/* set */ false, /* user */ false); scheduleConfigure(); } else { m_initialStates &= ~XdgToplevelInterface::State::FullScreen; } } void XdgToplevelWindow::handleMinimizeRequested() { performMouseCommand(Options::MouseMinimize, Cursors::self()->mouse()->pos()); } void XdgToplevelWindow::handleTransientForChanged() { SurfaceInterface *transientForSurface = nullptr; if (XdgToplevelInterface *parentToplevel = m_shellSurface->parentXdgToplevel()) { transientForSurface = parentToplevel->surface(); } if (!transientForSurface) { transientForSurface = waylandServer()->findForeignTransientForSurface(surface()); } Window *transientForWindow = waylandServer()->findWindow(transientForSurface); if (transientForWindow != transientFor()) { if (transientFor()) { transientFor()->removeTransient(this); } if (transientForWindow) { transientForWindow->addTransient(this); } setTransientFor(transientForWindow); } m_isTransient = transientForWindow; } void XdgToplevelWindow::handleForeignTransientForChanged(SurfaceInterface *child) { if (surface() == child) { handleTransientForChanged(); } } void XdgToplevelWindow::handlePingTimeout(quint32 serial) { auto pingIt = m_pings.find(serial); if (pingIt == m_pings.end()) { return; } if (pingIt.value() == PingReason::CloseWindow) { qCDebug(KWIN_CORE) << "Final ping timeout on a close attempt, asking to kill:" << caption(); // for internal windows, killing the window will delete this QPointer guard(this); killWindow(); if (!guard) { return; } } m_pings.erase(pingIt); } void XdgToplevelWindow::handlePingDelayed(quint32 serial) { auto it = m_pings.find(serial); if (it != m_pings.end()) { qCDebug(KWIN_CORE) << "First ping timeout:" << caption(); setUnresponsive(true); } } void XdgToplevelWindow::handlePongReceived(quint32 serial) { m_pings.remove(serial); setUnresponsive(false); } void XdgToplevelWindow::handleMaximumSizeChanged() { Q_EMIT maximizeableChanged(isMaximizable()); } void XdgToplevelWindow::handleMinimumSizeChanged() { Q_EMIT maximizeableChanged(isMaximizable()); } void XdgToplevelWindow::sendPing(PingReason reason) { XdgShellInterface *shell = m_shellSurface->shell(); XdgSurfaceInterface *surface = m_shellSurface->xdgSurface(); const quint32 serial = shell->ping(surface); m_pings.insert(serial, reason); } MaximizeMode XdgToplevelWindow::initialMaximizeMode() const { MaximizeMode maximizeMode = MaximizeRestore; if (m_initialStates & XdgToplevelInterface::State::MaximizedHorizontal) { maximizeMode = MaximizeMode(maximizeMode | MaximizeHorizontal); } if (m_initialStates & XdgToplevelInterface::State::MaximizedVertical) { maximizeMode = MaximizeMode(maximizeMode | MaximizeVertical); } return maximizeMode; } bool XdgToplevelWindow::initialFullScreenMode() const { return m_initialStates & XdgToplevelInterface::State::FullScreen; } void XdgToplevelWindow::initialize() { bool needsPlacement = isPlaceable(); setupWindowRules(false); // Move or resize the window only if enforced by a window rule. const QPointF forcedPosition = rules()->checkPosition(invalidPoint, true); if (forcedPosition != invalidPoint) { move(forcedPosition); } const QSizeF forcedSize = rules()->checkSize(QSize(), true); if (forcedSize.isValid()) { resize(forcedSize); } maximize(rules()->checkMaximize(initialMaximizeMode(), true)); setFullScreen(rules()->checkFullScreen(initialFullScreenMode(), true), false); setOnActivities(rules()->checkActivity(activities(), true)); setDesktops(rules()->checkDesktops(desktops(), true)); setDesktopFileName(rules()->checkDesktopFile(desktopFileName(), true).toUtf8()); if (rules()->checkMinimize(isMinimized(), true)) { minimize(true); // No animation. } setSkipTaskbar(rules()->checkSkipTaskbar(skipTaskbar(), true)); setSkipPager(rules()->checkSkipPager(skipPager(), true)); setSkipSwitcher(rules()->checkSkipSwitcher(skipSwitcher(), true)); setKeepAbove(rules()->checkKeepAbove(keepAbove(), true)); setKeepBelow(rules()->checkKeepBelow(keepBelow(), true)); setShortcut(rules()->checkShortcut(shortcut().toString(), true)); setNoBorder(rules()->checkNoBorder(noBorder(), true)); // Don't place the client if its position is set by a rule. if (rules()->checkPosition(invalidPoint, true) != invalidPoint) { needsPlacement = false; } // Don't place the client if the maximize state is set by a rule. if (requestedMaximizeMode() != MaximizeRestore) { needsPlacement = false; } discardTemporaryRules(); RuleBook::self()->discardUsed(this, false); // Remove Apply Now rules. updateWindowRules(Rules::All); if (isRequestedFullScreen()) { needsPlacement = false; } if (needsPlacement) { const QRectF area = workspace()->clientArea(PlacementArea, this, workspace()->activeOutput()); Placement::self()->place(this, area); } configureDecoration(); scheduleConfigure(); updateColorScheme(); setupWindowManagementInterface(); m_isInitialized = true; } void XdgToplevelWindow::updateMaximizeMode(MaximizeMode maximizeMode) { if (m_maximizeMode == maximizeMode) { return; } m_maximizeMode = maximizeMode; updateWindowRules(Rules::MaximizeVert | Rules::MaximizeHoriz); Q_EMIT clientMaximizedStateChanged(this, maximizeMode); Q_EMIT clientMaximizedStateChanged(this, maximizeMode & MaximizeHorizontal, maximizeMode & MaximizeVertical); } void XdgToplevelWindow::updateFullScreenMode(bool set) { if (m_isFullScreen == set) { return; } StackingUpdatesBlocker blocker1(workspace()); m_isFullScreen = set; updateLayer(); updateWindowRules(Rules::Fullscreen); Q_EMIT fullScreenChanged(); } QString XdgToplevelWindow::preferredColorScheme() const { if (m_paletteInterface) { return rules()->checkDecoColor(m_paletteInterface->palette()); } return rules()->checkDecoColor(QString()); } void XdgToplevelWindow::installAppMenu(AppMenuInterface *appMenu) { m_appMenuInterface = appMenu; auto updateMenu = [this](const AppMenuInterface::InterfaceAddress &address) { updateApplicationMenuServiceName(address.serviceName); updateApplicationMenuObjectPath(address.objectPath); }; connect(m_appMenuInterface, &AppMenuInterface::addressChanged, this, updateMenu); updateMenu(appMenu->address()); } XdgToplevelWindow::DecorationMode XdgToplevelWindow::preferredDecorationMode() const { if (!Decoration::DecorationBridge::hasPlugin()) { return DecorationMode::Client; } else if (m_userNoBorder || isRequestedFullScreen()) { return DecorationMode::None; } if (m_xdgDecoration) { switch (m_xdgDecoration->preferredMode()) { case XdgToplevelDecorationV1Interface::Mode::Undefined: return DecorationMode::Server; case XdgToplevelDecorationV1Interface::Mode::None: return DecorationMode::None; case XdgToplevelDecorationV1Interface::Mode::Client: return DecorationMode::Client; case XdgToplevelDecorationV1Interface::Mode::Server: return DecorationMode::Server; } } if (m_serverDecoration) { switch (m_serverDecoration->preferredMode()) { case ServerSideDecorationManagerInterface::Mode::None: return DecorationMode::None; case ServerSideDecorationManagerInterface::Mode::Client: return DecorationMode::Client; case ServerSideDecorationManagerInterface::Mode::Server: return DecorationMode::Server; } } return DecorationMode::Client; } void XdgToplevelWindow::clearDecoration() { m_nextDecoration = nullptr; } void XdgToplevelWindow::configureDecoration() { const DecorationMode decorationMode = preferredDecorationMode(); switch (decorationMode) { case DecorationMode::None: case DecorationMode::Client: clearDecoration(); break; case DecorationMode::Server: if (!m_nextDecoration) { m_nextDecoration.reset(Decoration::DecorationBridge::self()->createDecoration(this)); } break; } // All decoration updates are synchronized to toplevel configure events. if (m_xdgDecoration) { configureXdgDecoration(decorationMode); } else if (m_serverDecoration) { configureServerDecoration(decorationMode); } } void XdgToplevelWindow::configureXdgDecoration(DecorationMode decorationMode) { switch (decorationMode) { case DecorationMode::None: // Faked as server side mode under the hood. m_xdgDecoration->sendConfigure(XdgToplevelDecorationV1Interface::Mode::None); break; case DecorationMode::Client: m_xdgDecoration->sendConfigure(XdgToplevelDecorationV1Interface::Mode::Client); break; case DecorationMode::Server: m_xdgDecoration->sendConfigure(XdgToplevelDecorationV1Interface::Mode::Server); break; } scheduleConfigure(); } void XdgToplevelWindow::configureServerDecoration(DecorationMode decorationMode) { switch (decorationMode) { case DecorationMode::None: m_serverDecoration->setMode(ServerSideDecorationManagerInterface::Mode::None); break; case DecorationMode::Client: m_serverDecoration->setMode(ServerSideDecorationManagerInterface::Mode::Client); break; case DecorationMode::Server: m_serverDecoration->setMode(ServerSideDecorationManagerInterface::Mode::Server); break; } scheduleConfigure(); } void XdgToplevelWindow::installXdgDecoration(XdgToplevelDecorationV1Interface *decoration) { m_xdgDecoration = decoration; connect(m_xdgDecoration, &XdgToplevelDecorationV1Interface::destroyed, this, &XdgToplevelWindow::clearDecoration); connect(m_xdgDecoration, &XdgToplevelDecorationV1Interface::preferredModeChanged, this, [this] { if (m_isInitialized) { configureDecoration(); } }); } void XdgToplevelWindow::installServerDecoration(ServerSideDecorationInterface *decoration) { m_serverDecoration = decoration; if (m_isInitialized) { configureDecoration(); } connect(m_serverDecoration, &ServerSideDecorationInterface::destroyed, this, &XdgToplevelWindow::clearDecoration); connect(m_serverDecoration, &ServerSideDecorationInterface::preferredModeChanged, this, [this]() { if (m_isInitialized) { configureDecoration(); } }); } void XdgToplevelWindow::installPalette(ServerSideDecorationPaletteInterface *palette) { m_paletteInterface = palette; connect(m_paletteInterface, &ServerSideDecorationPaletteInterface::paletteChanged, this, &XdgToplevelWindow::updateColorScheme); connect(m_paletteInterface, &QObject::destroyed, this, &XdgToplevelWindow::updateColorScheme); updateColorScheme(); } void XdgToplevelWindow::setFullScreen(bool set, bool user) { set = rules()->checkFullScreen(set); if (m_isRequestedFullScreen == set) { return; } if (isSpecialWindow()) { return; } if (user && !userCanSetFullScreen()) { return; } m_isRequestedFullScreen = set; configureDecoration(); if (set) { const Output *output = m_fullScreenRequestedOutput ? m_fullScreenRequestedOutput.data() : kwinApp()->platform()->outputAt(moveResizeGeometry().center()); setFullscreenGeometryRestore(moveResizeGeometry()); moveResize(workspace()->clientArea(FullScreenArea, this, output)); } else { m_fullScreenRequestedOutput.clear(); if (fullscreenGeometryRestore().isValid()) { Output *currentOutput = output(); moveResize(QRectF(fullscreenGeometryRestore().topLeft(), constrainFrameSize(fullscreenGeometryRestore().size()))); if (currentOutput != output()) { workspace()->sendWindowToOutput(this, currentOutput); } } else { // this can happen when the window was first shown already fullscreen, // so let the client set the size by itself moveResize(QRectF(workspace()->clientArea(PlacementArea, this).topLeft(), QSize(0, 0))); } } doSetFullScreen(); } /** * \todo Move to Window. */ static bool changeMaximizeRecursion = false; void XdgToplevelWindow::changeMaximize(bool horizontal, bool vertical, bool adjust) { if (changeMaximizeRecursion) { return; } if (!isResizable()) { return; } const QRectF clientArea = isElectricBorderMaximizing() ? workspace()->clientArea(MaximizeArea, this, Cursors::self()->mouse()->pos()) : workspace()->clientArea(MaximizeArea, this, moveResizeGeometry().center()); const MaximizeMode oldMode = m_requestedMaximizeMode; const QRectF oldGeometry = moveResizeGeometry(); // 'adjust == true' means to update the size only, e.g. after changing workspace size if (!adjust) { if (vertical) { m_requestedMaximizeMode = MaximizeMode(m_requestedMaximizeMode ^ MaximizeVertical); } if (horizontal) { m_requestedMaximizeMode = MaximizeMode(m_requestedMaximizeMode ^ MaximizeHorizontal); } } m_requestedMaximizeMode = rules()->checkMaximize(m_requestedMaximizeMode); if (!adjust && m_requestedMaximizeMode == oldMode) { return; } // call into decoration update borders if (m_nextDecoration && !(options->borderlessMaximizedWindows() && m_requestedMaximizeMode == KWin::MaximizeFull)) { changeMaximizeRecursion = true; const auto c = m_nextDecoration->client().toStrongRef(); if ((m_requestedMaximizeMode & MaximizeVertical) != (oldMode & MaximizeVertical)) { Q_EMIT c->maximizedVerticallyChanged(m_requestedMaximizeMode & MaximizeVertical); } if ((m_requestedMaximizeMode & MaximizeHorizontal) != (oldMode & MaximizeHorizontal)) { Q_EMIT c->maximizedHorizontallyChanged(m_requestedMaximizeMode & MaximizeHorizontal); } if ((m_requestedMaximizeMode == MaximizeFull) != (oldMode == MaximizeFull)) { Q_EMIT c->maximizedChanged(m_requestedMaximizeMode == MaximizeFull); } changeMaximizeRecursion = false; } if (options->borderlessMaximizedWindows()) { setNoBorder(m_requestedMaximizeMode == MaximizeFull); } if (quickTileMode() == QuickTileMode(QuickTileFlag::None)) { QRectF savedGeometry = geometryRestore(); if (!adjust && !(oldMode & MaximizeVertical)) { savedGeometry.setTop(oldGeometry.top()); savedGeometry.setBottom(oldGeometry.bottom()); } if (!adjust && !(oldMode & MaximizeHorizontal)) { savedGeometry.setLeft(oldGeometry.left()); savedGeometry.setRight(oldGeometry.right()); } setGeometryRestore(savedGeometry); } const MaximizeMode delta = m_requestedMaximizeMode ^ oldMode; QRectF geometry = oldGeometry; if (adjust || (delta & MaximizeHorizontal)) { if (m_requestedMaximizeMode & MaximizeHorizontal) { // Stretch the window vertically to fit the size of the maximize area. geometry.setX(clientArea.x()); geometry.setWidth(clientArea.width()); } else if (geometryRestore().isValid()) { // The window is no longer maximized horizontally and the saved geometry is valid. geometry.setX(geometryRestore().x()); geometry.setWidth(geometryRestore().width()); } else { // The window is no longer maximized horizontally and the saved geometry is // invalid. This would happen if the window had been mapped in the maximized state. // We ask the client to resize the window horizontally to its preferred size. geometry.setX(clientArea.x()); geometry.setWidth(0); } } if (adjust || (delta & MaximizeVertical)) { if (m_requestedMaximizeMode & MaximizeVertical) { // Stretch the window horizontally to fit the size of the maximize area. geometry.setY(clientArea.y()); geometry.setHeight(clientArea.height()); } else if (geometryRestore().isValid()) { // The window is no longer maximized vertically and the saved geometry is valid. geometry.setY(geometryRestore().y()); geometry.setHeight(geometryRestore().height()); } else { // The window is no longer maximized vertically and the saved geometry is // invalid. This would happen if the window had been mapped in the maximized state. // We ask the client to resize the window vertically to its preferred size. geometry.setY(clientArea.y()); geometry.setHeight(0); } } const auto oldQuickTileMode = quickTileMode(); if (m_requestedMaximizeMode == MaximizeFull) { if (options->electricBorderMaximize()) { updateQuickTileMode(QuickTileFlag::Maximize); } else { updateQuickTileMode(QuickTileFlag::None); } } else { updateQuickTileMode(QuickTileFlag::None); } moveResize(geometry); if (oldQuickTileMode != quickTileMode()) { doSetQuickTileMode(); Q_EMIT quickTileModeChanged(); } doSetMaximized(); } XdgPopupWindow::XdgPopupWindow(XdgPopupInterface *shellSurface) : XdgSurfaceWindow(shellSurface->xdgSurface()) , m_shellSurface(shellSurface) { m_windowType = NET::Unknown; setDesktops({VirtualDesktopManager::self()->currentDesktop()}); #if KWIN_BUILD_ACTIVITIES if (auto a = Activities::self()) { setOnActivities({a->current()}); } #endif connect(shellSurface, &XdgPopupInterface::grabRequested, this, &XdgPopupWindow::handleGrabRequested); connect(shellSurface, &XdgPopupInterface::initializeRequested, this, &XdgPopupWindow::initialize); connect(shellSurface, &XdgPopupInterface::repositionRequested, this, &XdgPopupWindow::handleRepositionRequested); connect(shellSurface, &XdgPopupInterface::aboutToBeDestroyed, this, &XdgPopupWindow::destroyWindow); } void XdgPopupWindow::updateReactive() { if (m_shellSurface->positioner().isReactive()) { connect(transientFor(), &Window::frameGeometryChanged, this, &XdgPopupWindow::relayout, Qt::UniqueConnection); } else { disconnect(transientFor(), &Window::frameGeometryChanged, this, &XdgPopupWindow::relayout); } } void XdgPopupWindow::handleRepositionRequested(quint32 token) { updateReactive(); m_shellSurface->sendRepositioned(token); relayout(); } void XdgPopupWindow::relayout() { Placement::self()->place(this, QRect()); scheduleConfigure(); } XdgPopupWindow::~XdgPopupWindow() { } bool XdgPopupWindow::hasPopupGrab() const { return m_haveExplicitGrab; } void XdgPopupWindow::popupDone() { m_shellSurface->sendPopupDone(); } bool XdgPopupWindow::isPopupWindow() const { return true; } bool XdgPopupWindow::isTransient() const { return true; } bool XdgPopupWindow::isResizable() const { return false; } bool XdgPopupWindow::isMovable() const { return false; } bool XdgPopupWindow::isMovableAcrossScreens() const { return false; } bool XdgPopupWindow::hasTransientPlacementHint() const { return true; } QRectF XdgPopupWindow::transientPlacement(const QRectF &bounds) const { const XdgPositioner positioner = m_shellSurface->positioner(); const QSize desiredSize = positioner.size(); const QPointF parentPosition = transientFor()->framePosToClientPos(transientFor()->pos()); // returns if a target is within the supplied bounds, optional edges argument states which side to check auto inBounds = [bounds](const QRectF &target, Qt::Edges edges = Qt::LeftEdge | Qt::RightEdge | Qt::TopEdge | Qt::BottomEdge) -> bool { if (edges & Qt::LeftEdge && target.left() < bounds.left()) { return false; } if (edges & Qt::TopEdge && target.top() < bounds.top()) { return false; } if (edges & Qt::RightEdge && target.right() > bounds.right()) { // normal QRect::right issue cancels out return false; } if (edges & Qt::BottomEdge && target.bottom() > bounds.bottom()) { return false; } return true; }; QRectF popupRect(popupOffset(positioner.anchorRect(), positioner.anchorEdges(), positioner.gravityEdges(), desiredSize) + positioner.offset() + parentPosition, desiredSize); // if that fits, we don't need to do anything if (inBounds(popupRect)) { return popupRect; } // otherwise apply constraint adjustment per axis in order XDG Shell Popup states if (positioner.flipConstraintAdjustments() & Qt::Horizontal) { if (!inBounds(popupRect, Qt::LeftEdge | Qt::RightEdge)) { // flip both edges (if either bit is set, XOR both) auto flippedAnchorEdge = positioner.anchorEdges(); if (flippedAnchorEdge & (Qt::LeftEdge | Qt::RightEdge)) { flippedAnchorEdge ^= (Qt::LeftEdge | Qt::RightEdge); } auto flippedGravity = positioner.gravityEdges(); if (flippedGravity & (Qt::LeftEdge | Qt::RightEdge)) { flippedGravity ^= (Qt::LeftEdge | Qt::RightEdge); } auto flippedPopupRect = QRectF(popupOffset(positioner.anchorRect(), flippedAnchorEdge, flippedGravity, desiredSize) + positioner.offset() + parentPosition, desiredSize); // if it still doesn't fit we should continue with the unflipped version if (inBounds(flippedPopupRect, Qt::LeftEdge | Qt::RightEdge)) { popupRect.moveLeft(flippedPopupRect.left()); } } } if (positioner.slideConstraintAdjustments() & Qt::Horizontal) { if (!inBounds(popupRect, Qt::LeftEdge)) { popupRect.moveLeft(bounds.left()); } if (!inBounds(popupRect, Qt::RightEdge)) { popupRect.moveRight(bounds.right()); } } if (positioner.resizeConstraintAdjustments() & Qt::Horizontal) { QRectF unconstrainedRect = popupRect; if (!inBounds(unconstrainedRect, Qt::LeftEdge)) { unconstrainedRect.setLeft(bounds.left()); } if (!inBounds(unconstrainedRect, Qt::RightEdge)) { unconstrainedRect.setRight(bounds.right()); } if (unconstrainedRect.isValid()) { popupRect = unconstrainedRect; } } if (positioner.flipConstraintAdjustments() & Qt::Vertical) { if (!inBounds(popupRect, Qt::TopEdge | Qt::BottomEdge)) { // flip both edges (if either bit is set, XOR both) auto flippedAnchorEdge = positioner.anchorEdges(); if (flippedAnchorEdge & (Qt::TopEdge | Qt::BottomEdge)) { flippedAnchorEdge ^= (Qt::TopEdge | Qt::BottomEdge); } auto flippedGravity = positioner.gravityEdges(); if (flippedGravity & (Qt::TopEdge | Qt::BottomEdge)) { flippedGravity ^= (Qt::TopEdge | Qt::BottomEdge); } auto flippedPopupRect = QRectF(popupOffset(positioner.anchorRect(), flippedAnchorEdge, flippedGravity, desiredSize) + positioner.offset() + parentPosition, desiredSize); // if it still doesn't fit we should continue with the unflipped version if (inBounds(flippedPopupRect, Qt::TopEdge | Qt::BottomEdge)) { popupRect.moveTop(flippedPopupRect.top()); } } } if (positioner.slideConstraintAdjustments() & Qt::Vertical) { if (!inBounds(popupRect, Qt::TopEdge)) { popupRect.moveTop(bounds.top()); } if (!inBounds(popupRect, Qt::BottomEdge)) { popupRect.moveBottom(bounds.bottom()); } } if (positioner.resizeConstraintAdjustments() & Qt::Vertical) { QRectF unconstrainedRect = popupRect; if (!inBounds(unconstrainedRect, Qt::TopEdge)) { unconstrainedRect.setTop(bounds.top()); } if (!inBounds(unconstrainedRect, Qt::BottomEdge)) { unconstrainedRect.setBottom(bounds.bottom()); } if (unconstrainedRect.isValid()) { popupRect = unconstrainedRect; } } return popupRect; } bool XdgPopupWindow::isCloseable() const { return false; } void XdgPopupWindow::closeWindow() { } bool XdgPopupWindow::wantsInput() const { return false; } bool XdgPopupWindow::takeFocus() { return false; } bool XdgPopupWindow::acceptsFocus() const { return false; } XdgSurfaceConfigure *XdgPopupWindow::sendRoleConfigure() const { const QPointF parentPosition = transientFor()->framePosToClientPos(transientFor()->pos()); const QPointF popupPosition = moveResizeGeometry().topLeft() - parentPosition; const quint32 serial = m_shellSurface->sendConfigure(QRect(popupPosition.toPoint(), moveResizeGeometry().size().toSize())); XdgSurfaceConfigure *configureEvent = new XdgSurfaceConfigure(); configureEvent->bounds = moveResizeGeometry(); configureEvent->serial = serial; return configureEvent; } void XdgPopupWindow::handleGrabRequested(SeatInterface *seat, quint32 serial) { Q_UNUSED(seat) Q_UNUSED(serial) m_haveExplicitGrab = true; } void XdgPopupWindow::initialize() { Window *parent = waylandServer()->findWindow(m_shellSurface->parentSurface()); parent->addTransient(this); setTransientFor(parent); updateReactive(); const QRectF area = workspace()->clientArea(PlacementArea, this, workspace()->activeOutput()); Placement::self()->place(this, area); scheduleConfigure(); } } // namespace KWin