diff --git a/abstract_client.cpp b/abstract_client.cpp index ef810406a..b4ab1f49b 100644 --- a/abstract_client.cpp +++ b/abstract_client.cpp @@ -1,3415 +1,3421 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2015 Martin Gräßlin Copyright (C) 2019 Vlad Zahorodnii This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ #include "abstract_client.h" #include "appmenu.h" #include "decorations/decoratedclient.h" #include "decorations/decorationpalette.h" #include "decorations/decorationbridge.h" #include "cursor.h" #include "effects.h" #include "focuschain.h" #include "outline.h" #include "screens.h" #ifdef KWIN_BUILD_TABBOX #include "tabbox.h" #endif #include "screenedge.h" #include "useractions.h" #include "workspace.h" #include "wayland_server.h" #include #include #include #include #include #include namespace KWin { static inline int sign(int v) { return (v > 0) - (v < 0); } QHash> AbstractClient::s_palettes; std::shared_ptr AbstractClient::s_defaultPalette; AbstractClient::AbstractClient() : Toplevel() #ifdef KWIN_BUILD_TABBOX , m_tabBoxClient(QSharedPointer(new TabBox::TabBoxClientImpl(this))) #endif , m_colorScheme(QStringLiteral("kdeglobals")) { connect(this, &AbstractClient::clientStartUserMovedResized, this, &AbstractClient::moveResizedChanged); connect(this, &AbstractClient::clientFinishUserMovedResized, this, &AbstractClient::moveResizedChanged); connect(this, &AbstractClient::clientStartUserMovedResized, this, &AbstractClient::removeCheckScreenConnection); connect(this, &AbstractClient::clientFinishUserMovedResized, this, &AbstractClient::setupCheckScreenConnection); connect(this, &AbstractClient::paletteChanged, this, &AbstractClient::triggerDecorationRepaint); connect(Decoration::DecorationBridge::self(), &QObject::destroyed, this, &AbstractClient::destroyDecoration); // If the user manually moved the window, don't restore it after the keyboard closes connect(this, &AbstractClient::clientFinishUserMovedResized, this, [this] () { m_keyboardGeometryRestore = QRect(); }); connect(this, qOverload(&AbstractClient::clientMaximizedStateChanged), this, [this] () { m_keyboardGeometryRestore = QRect(); }); connect(this, &AbstractClient::fullScreenChanged, this, [this] () { m_keyboardGeometryRestore = QRect(); }); // replace on-screen-display on size changes connect(this, &AbstractClient::frameGeometryChanged, this, [this] (Toplevel *c, const QRect &old) { Q_UNUSED(c) if (isOnScreenDisplay() && !frameGeometry().isEmpty() && old.size() != frameGeometry().size() && !isInitialPositionSet()) { GeometryUpdatesBlocker blocker(this); const QRect area = workspace()->clientArea(PlacementArea, Screens::self()->current(), desktop()); Placement::self()->place(this, area); setGeometryRestore(frameGeometry()); } } ); connect(this, &AbstractClient::paddingChanged, this, [this]() { m_visibleRectBeforeGeometryUpdate = visibleRect(); }); connect(ApplicationMenu::self(), &ApplicationMenu::applicationMenuEnabledChanged, this, [this] { emit hasApplicationMenuChanged(hasApplicationMenu()); }); } AbstractClient::~AbstractClient() { Q_ASSERT(m_blockGeometryUpdates == 0); Q_ASSERT(m_decoration.decoration == nullptr); } void AbstractClient::updateMouseGrab() { } bool AbstractClient::belongToSameApplication(const AbstractClient *c1, const AbstractClient *c2, SameApplicationChecks checks) { return c1->belongsToSameApplication(c2, checks); } bool AbstractClient::isTransient() const { return false; } void AbstractClient::setClientShown(bool shown) { Q_UNUSED(shown) } xcb_timestamp_t AbstractClient::userTime() const { return XCB_TIME_CURRENT_TIME; } void AbstractClient::setSkipSwitcher(bool set) { set = rules()->checkSkipSwitcher(set); if (set == skipSwitcher()) return; m_skipSwitcher = set; doSetSkipSwitcher(); updateWindowRules(Rules::SkipSwitcher); emit skipSwitcherChanged(); } void AbstractClient::setSkipPager(bool b) { b = rules()->checkSkipPager(b); if (b == skipPager()) return; m_skipPager = b; doSetSkipPager(); updateWindowRules(Rules::SkipPager); emit skipPagerChanged(); } void AbstractClient::doSetSkipPager() { } void AbstractClient::setSkipTaskbar(bool b) { int was_wants_tab_focus = wantsTabFocus(); if (b == skipTaskbar()) return; m_skipTaskbar = b; doSetSkipTaskbar(); updateWindowRules(Rules::SkipTaskbar); if (was_wants_tab_focus != wantsTabFocus()) { FocusChain::self()->update(this, isActive() ? FocusChain::MakeFirst : FocusChain::Update); } emit skipTaskbarChanged(); } void AbstractClient::setOriginalSkipTaskbar(bool b) { m_originalSkipTaskbar = rules()->checkSkipTaskbar(b); setSkipTaskbar(m_originalSkipTaskbar); } void AbstractClient::doSetSkipTaskbar() { } void AbstractClient::doSetSkipSwitcher() { } void AbstractClient::setIcon(const QIcon &icon) { m_icon = icon; emit iconChanged(); } void AbstractClient::setActive(bool act) { if (m_active == act) { return; } m_active = act; const int ruledOpacity = m_active ? rules()->checkOpacityActive(qRound(opacity() * 100.0)) : rules()->checkOpacityInactive(qRound(opacity() * 100.0)); setOpacity(ruledOpacity / 100.0); workspace()->setActiveClient(act ? this : nullptr); if (!m_active) cancelAutoRaise(); if (!m_active && shadeMode() == ShadeActivated) setShade(ShadeNormal); StackingUpdatesBlocker blocker(workspace()); workspace()->updateClientLayer(this); // active windows may get different layer auto mainclients = mainClients(); for (auto it = mainclients.constBegin(); it != mainclients.constEnd(); ++it) if ((*it)->isFullScreen()) // fullscreens go high even if their transient is active workspace()->updateClientLayer(*it); doSetActive(); emit activeChanged(); updateMouseGrab(); } void AbstractClient::doSetActive() { } Layer AbstractClient::layer() const { if (m_layer == UnknownLayer) const_cast< AbstractClient* >(this)->m_layer = belongsToLayer(); return m_layer; } void AbstractClient::updateLayer() { if (layer() == belongsToLayer()) return; StackingUpdatesBlocker blocker(workspace()); invalidateLayer(); // invalidate, will be updated when doing restacking for (auto it = transients().constBegin(), end = transients().constEnd(); it != end; ++it) (*it)->updateLayer(); } void AbstractClient::placeIn(const QRect &area) { // TODO: Get rid of this method eventually. We need to call setGeometryRestore() because // checkWorkspacePosition() operates on geometryRestore() and because of quick tiling. Placement::self()->place(this, area); setGeometryRestore(frameGeometry()); } void AbstractClient::invalidateLayer() { m_layer = UnknownLayer; } Layer AbstractClient::belongsToLayer() const { // NOTICE while showingDesktop, desktops move to the AboveLayer // (interchangeable w/ eg. yakuake etc. which will at first remain visible) // and the docks move into the NotificationLayer (which is between Above- and // ActiveLayer, so that active fullscreen windows will still cover everything) // Since the desktop is also activated, nothing should be in the ActiveLayer, though if (isInternal()) return UnmanagedLayer; if (isLockScreen()) return UnmanagedLayer; if (isDesktop()) return workspace()->showingDesktop() ? AboveLayer : DesktopLayer; if (isSplash()) // no damn annoying splashscreens return NormalLayer; // getting in the way of everything else if (isDock()) { if (workspace()->showingDesktop()) return NotificationLayer; return layerForDock(); } if (isOnScreenDisplay()) return OnScreenDisplayLayer; if (isNotification()) return NotificationLayer; if (isCriticalNotification()) return CriticalNotificationLayer; if (workspace()->showingDesktop() && belongsToDesktop()) { return AboveLayer; } if (keepBelow()) return BelowLayer; if (isActiveFullScreen()) return ActiveLayer; if (keepAbove()) return AboveLayer; return NormalLayer; } bool AbstractClient::belongsToDesktop() const { return false; } Layer AbstractClient::layerForDock() const { // slight hack for the 'allow window to cover panel' Kicker setting // don't move keepbelow docks below normal window, but only to the same // layer, so that both may be raised to cover the other if (keepBelow()) return NormalLayer; if (keepAbove()) // slight hack for the autohiding panels return AboveLayer; return DockLayer; } void AbstractClient::setKeepAbove(bool b) { b = rules()->checkKeepAbove(b); if (b && !rules()->checkKeepBelow(false)) setKeepBelow(false); if (b == keepAbove()) { return; } m_keepAbove = b; doSetKeepAbove(); workspace()->updateClientLayer(this); updateWindowRules(Rules::Above); emit keepAboveChanged(m_keepAbove); } void AbstractClient::doSetKeepAbove() { } void AbstractClient::setKeepBelow(bool b) { b = rules()->checkKeepBelow(b); if (b && !rules()->checkKeepAbove(false)) setKeepAbove(false); if (b == keepBelow()) { return; } m_keepBelow = b; doSetKeepBelow(); workspace()->updateClientLayer(this); updateWindowRules(Rules::Below); emit keepBelowChanged(m_keepBelow); } void AbstractClient::doSetKeepBelow() { } void AbstractClient::startAutoRaise() { delete m_autoRaiseTimer; m_autoRaiseTimer = new QTimer(this); connect(m_autoRaiseTimer, &QTimer::timeout, this, &AbstractClient::autoRaise); m_autoRaiseTimer->setSingleShot(true); m_autoRaiseTimer->start(options->autoRaiseInterval()); } void AbstractClient::cancelAutoRaise() { delete m_autoRaiseTimer; m_autoRaiseTimer = nullptr; } void AbstractClient::autoRaise() { workspace()->raiseClient(this); cancelAutoRaise(); } bool AbstractClient::wantsTabFocus() const { return (isNormalWindow() || isDialog()) && wantsInput(); } bool AbstractClient::isSpecialWindow() const { // TODO return isDesktop() || isDock() || isSplash() || isToolbar() || isNotification() || isOnScreenDisplay() || isCriticalNotification(); } void AbstractClient::demandAttention(bool set) { if (isActive()) set = false; if (m_demandsAttention == set) return; m_demandsAttention = set; doSetDemandsAttention(); workspace()->clientAttentionChanged(this, set); emit demandsAttentionChanged(); } void AbstractClient::doSetDemandsAttention() { } void AbstractClient::setDesktop(int desktop) { const int numberOfDesktops = VirtualDesktopManager::self()->count(); if (desktop != NET::OnAllDesktops) // Do range check desktop = qMax(1, qMin(numberOfDesktops, desktop)); desktop = qMin(numberOfDesktops, rules()->checkDesktop(desktop)); QVector desktops; if (desktop != NET::OnAllDesktops) { desktops << VirtualDesktopManager::self()->desktopForX11Id(desktop); } setDesktops(desktops); } void AbstractClient::setDesktops(QVector desktops) { //on x11 we can have only one desktop at a time if (kwinApp()->operationMode() == Application::OperationModeX11 && desktops.size() > 1) { desktops = QVector({desktops.last()}); } if (desktops == m_desktops) { return; } int was_desk = AbstractClient::desktop(); const bool wasOnCurrentDesktop = isOnCurrentDesktop() && was_desk >= 0; m_desktops = desktops; if (windowManagementInterface()) { if (m_desktops.isEmpty()) { windowManagementInterface()->setOnAllDesktops(true); } else { windowManagementInterface()->setOnAllDesktops(false); auto currentDesktops = windowManagementInterface()->plasmaVirtualDesktops(); for (auto desktop: m_desktops) { if (!currentDesktops.contains(desktop->id())) { windowManagementInterface()->addPlasmaVirtualDesktop(desktop->id()); } else { currentDesktops.removeOne(desktop->id()); } } for (auto desktopId: currentDesktops) { windowManagementInterface()->removePlasmaVirtualDesktop(desktopId); } } } if (info) { info->setDesktop(desktop()); } if ((was_desk == NET::OnAllDesktops) != (desktop() == NET::OnAllDesktops)) { // onAllDesktops changed workspace()->updateOnAllDesktopsOfTransients(this); } auto transients_stacking_order = workspace()->ensureStackingOrder(transients()); for (auto it = transients_stacking_order.constBegin(); it != transients_stacking_order.constEnd(); ++it) (*it)->setDesktops(desktops); if (isModal()) // if a modal dialog is moved, move the mainwindow with it as otherwise // the (just moved) modal dialog will confusingly return to the mainwindow with // the next desktop change { foreach (AbstractClient * c2, mainClients()) c2->setDesktops(desktops); } doSetDesktop(); FocusChain::self()->update(this, FocusChain::MakeFirst); updateWindowRules(Rules::Desktop); emit desktopChanged(); if (wasOnCurrentDesktop != isOnCurrentDesktop()) emit desktopPresenceChanged(this, was_desk); emit x11DesktopIdsChanged(); } void AbstractClient::doSetDesktop() { } void AbstractClient::enterDesktop(VirtualDesktop *virtualDesktop) { if (m_desktops.contains(virtualDesktop)) { return; } auto desktops = m_desktops; desktops.append(virtualDesktop); setDesktops(desktops); } void AbstractClient::leaveDesktop(VirtualDesktop *virtualDesktop) { QVector currentDesktops; if (m_desktops.isEmpty()) { currentDesktops = VirtualDesktopManager::self()->desktops(); } else { currentDesktops = m_desktops; } if (!currentDesktops.contains(virtualDesktop)) { return; } auto desktops = currentDesktops; desktops.removeOne(virtualDesktop); setDesktops(desktops); } void AbstractClient::setOnAllDesktops(bool b) { if ((b && isOnAllDesktops()) || (!b && !isOnAllDesktops())) return; if (b) setDesktop(NET::OnAllDesktops); else setDesktop(VirtualDesktopManager::self()->current()); } QVector AbstractClient::x11DesktopIds() const { const auto desks = desktops(); QVector x11Ids; x11Ids.reserve(desks.count()); std::transform(desks.constBegin(), desks.constEnd(), std::back_inserter(x11Ids), [] (const VirtualDesktop *vd) { return vd->x11DesktopNumber(); } ); return x11Ids; } ShadeMode AbstractClient::shadeMode() const { return m_shadeMode; } bool AbstractClient::isShadeable() const { return false; } void AbstractClient::setShade(bool set) { set ? setShade(ShadeNormal) : setShade(ShadeNone); } void AbstractClient::setShade(ShadeMode mode) { if (!isShadeable()) return; if (mode == ShadeHover && isMove()) return; // causes geometry breaks and is probably nasty if (isSpecialWindow() || noBorder()) mode = ShadeNone; mode = rules()->checkShade(mode); if (m_shadeMode == mode) return; const bool wasShade = isShade(); const ShadeMode previousShadeMode = shadeMode(); m_shadeMode = mode; if (wasShade == isShade()) { // Decoration may want to update after e.g. hover-shade changes emit shadeChanged(); return; // No real change in shaded state } Q_ASSERT(isDecorated()); GeometryUpdatesBlocker blocker(this); doSetShade(previousShadeMode); discardWindowPixmap(); updateWindowRules(Rules::Shade); emit shadeChanged(); } void AbstractClient::doSetShade(ShadeMode previousShadeMode) { Q_UNUSED(previousShadeMode) } void AbstractClient::shadeHover() { setShade(ShadeHover); cancelShadeHoverTimer(); } void AbstractClient::shadeUnhover() { setShade(ShadeNormal); cancelShadeHoverTimer(); } void AbstractClient::startShadeHoverTimer() { if (!isShade()) return; m_shadeHoverTimer = new QTimer(this); connect(m_shadeHoverTimer, &QTimer::timeout, this, &AbstractClient::shadeHover); m_shadeHoverTimer->setSingleShot(true); m_shadeHoverTimer->start(options->shadeHoverInterval()); } void AbstractClient::startShadeUnhoverTimer() { if (m_shadeMode == ShadeHover && !isMoveResize() && !isMoveResizePointerButtonDown()) { m_shadeHoverTimer = new QTimer(this); connect(m_shadeHoverTimer, &QTimer::timeout, this, &AbstractClient::shadeUnhover); m_shadeHoverTimer->setSingleShot(true); m_shadeHoverTimer->start(options->shadeHoverInterval()); } } void AbstractClient::cancelShadeHoverTimer() { delete m_shadeHoverTimer; m_shadeHoverTimer = nullptr; } void AbstractClient::toggleShade() { // If the mode is ShadeHover or ShadeActive, cancel shade too. setShade(shadeMode() == ShadeNone ? ShadeNormal : ShadeNone); } AbstractClient::Position AbstractClient::titlebarPosition() const { // TODO: still needed, remove? return PositionTop; } bool AbstractClient::titlebarPositionUnderMouse() const { if (!isDecorated()) { return false; } const auto sectionUnderMouse = decoration()->sectionUnderMouse(); if (sectionUnderMouse == Qt::TitleBarArea) { return true; } // check other sections based on titlebarPosition switch (titlebarPosition()) { case AbstractClient::PositionTop: return (sectionUnderMouse == Qt::TopLeftSection || sectionUnderMouse == Qt::TopSection || sectionUnderMouse == Qt::TopRightSection); case AbstractClient::PositionLeft: return (sectionUnderMouse == Qt::TopLeftSection || sectionUnderMouse == Qt::LeftSection || sectionUnderMouse == Qt::BottomLeftSection); case AbstractClient::PositionRight: return (sectionUnderMouse == Qt::BottomRightSection || sectionUnderMouse == Qt::RightSection || sectionUnderMouse == Qt::TopRightSection); case AbstractClient::PositionBottom: return (sectionUnderMouse == Qt::BottomLeftSection || sectionUnderMouse == Qt::BottomSection || sectionUnderMouse == Qt::BottomRightSection); default: // nothing return false; } } void AbstractClient::setMinimized(bool set) { set ? minimize() : unminimize(); } void AbstractClient::minimize(bool avoid_animation) { if (!isMinimizable() || isMinimized()) return; m_minimized = true; doMinimize(); updateWindowRules(Rules::Minimize); FocusChain::self()->update(this, FocusChain::MakeFirstMinimized); // TODO: merge signal with s_minimized addWorkspaceRepaint(visibleRect()); emit clientMinimized(this, !avoid_animation); emit minimizedChanged(); } void AbstractClient::unminimize(bool avoid_animation) { if (!isMinimized()) return; if (rules()->checkMinimize(false)) { return; } m_minimized = false; doMinimize(); updateWindowRules(Rules::Minimize); emit clientUnminimized(this, !avoid_animation); emit minimizedChanged(); } void AbstractClient::doMinimize() { } QPalette AbstractClient::palette() const { if (!m_palette) { return QPalette(); } return m_palette->palette(); } const Decoration::DecorationPalette *AbstractClient::decorationPalette() const { return m_palette.get(); } void AbstractClient::updateColorScheme(QString path) { if (path.isEmpty()) { path = QStringLiteral("kdeglobals"); } if (!m_palette || m_colorScheme != path) { m_colorScheme = path; if (m_palette) { disconnect(m_palette.get(), &Decoration::DecorationPalette::changed, this, &AbstractClient::handlePaletteChange); } auto it = s_palettes.find(m_colorScheme); if (it == s_palettes.end() || it->expired()) { m_palette = std::make_shared(m_colorScheme); if (m_palette->isValid()) { s_palettes[m_colorScheme] = m_palette; } else { if (!s_defaultPalette) { s_defaultPalette = std::make_shared(QStringLiteral("kdeglobals")); s_palettes[QStringLiteral("kdeglobals")] = s_defaultPalette; } m_palette = s_defaultPalette; } if (m_colorScheme == QStringLiteral("kdeglobals")) { s_defaultPalette = m_palette; } } else { m_palette = it->lock(); } connect(m_palette.get(), &Decoration::DecorationPalette::changed, this, &AbstractClient::handlePaletteChange); emit paletteChanged(palette()); emit colorSchemeChanged(); } } void AbstractClient::handlePaletteChange() { emit paletteChanged(palette()); } void AbstractClient::keepInArea(QRect area, bool partial) { if (partial) { // increase the area so that can have only 100 pixels in the area area.setLeft(qMin(area.left() - width() + 100, area.left())); area.setTop(qMin(area.top() - height() + 100, area.top())); area.setRight(qMax(area.right() + width() - 100, area.right())); area.setBottom(qMax(area.bottom() + height() - 100, area.bottom())); } if (!partial) { // resize to fit into area if (area.width() < width() || area.height() < height()) resizeWithChecks(size().boundedTo(area.size())); } int tx = x(), ty = y(); if (frameGeometry().right() > area.right() && width() <= area.width()) tx = area.right() - width() + 1; if (frameGeometry().bottom() > area.bottom() && height() <= area.height()) ty = area.bottom() - height() + 1; if (!area.contains(frameGeometry().topLeft())) { if (tx < area.x()) tx = area.x(); if (ty < area.y()) ty = area.y(); } if (tx != x() || ty != y()) move(tx, ty); } /** * Returns the maximum client size, not the maximum frame size. */ QSize AbstractClient::maxSize() const { return rules()->checkMaxSize(QSize(INT_MAX, INT_MAX)); } /** * Returns the minimum client size, not the minimum frame size. */ QSize AbstractClient::minSize() const { return rules()->checkMinSize(QSize(0, 0)); } void AbstractClient::blockGeometryUpdates(bool block) { if (block) { if (m_blockGeometryUpdates == 0) m_pendingGeometryUpdate = PendingGeometryNone; ++m_blockGeometryUpdates; } else { if (--m_blockGeometryUpdates == 0) { if (m_pendingGeometryUpdate != PendingGeometryNone) { if (isShade()) setFrameGeometry(QRect(pos(), adjustedSize()), NormalGeometrySet); else setFrameGeometry(frameGeometry(), NormalGeometrySet); m_pendingGeometryUpdate = PendingGeometryNone; } } } } void AbstractClient::maximize(MaximizeMode m) { setMaximize(m & MaximizeVertical, m & MaximizeHorizontal); } void AbstractClient::setMaximize(bool vertically, bool horizontally) { // changeMaximize() flips the state, so change from set->flip const MaximizeMode oldMode = maximizeMode(); changeMaximize( oldMode & MaximizeHorizontal ? !horizontally : horizontally, oldMode & MaximizeVertical ? !vertically : vertically, false); const MaximizeMode newMode = maximizeMode(); if (oldMode != newMode) { emit clientMaximizedStateChanged(this, newMode); emit clientMaximizedStateChanged(this, vertically, horizontally); } } void AbstractClient::move(int x, int y, ForceGeometry_t force) { // resuming geometry updates is handled only in setGeometry() Q_ASSERT(pendingGeometryUpdate() == PendingGeometryNone || areGeometryUpdatesBlocked()); QPoint p(x, y); if (!areGeometryUpdatesBlocked() && p != rules()->checkPosition(p)) { qCDebug(KWIN_CORE) << "forced position fail:" << p << ":" << rules()->checkPosition(p); } if (force == NormalGeometrySet && m_frameGeometry.topLeft() == p) return; m_frameGeometry.moveTopLeft(p); if (areGeometryUpdatesBlocked()) { if (pendingGeometryUpdate() == PendingGeometryForced) {} // maximum, nothing needed else if (force == ForceGeometrySet) setPendingGeometryUpdate(PendingGeometryForced); else setPendingGeometryUpdate(PendingGeometryNormal); return; } doMove(x, y); updateWindowRules(Rules::Position); screens()->setCurrent(this); workspace()->updateStackingOrder(); // client itself is not damaged emit frameGeometryChanged(this, frameGeometryBeforeUpdateBlocking()); addRepaintDuringGeometryUpdates(); updateGeometryBeforeUpdateBlocking(); } bool AbstractClient::startMoveResize() { Q_ASSERT(!isMoveResize()); Q_ASSERT(QWidget::keyboardGrabber() == nullptr); Q_ASSERT(QWidget::mouseGrabber() == nullptr); stopDelayedMoveResize(); if (QApplication::activePopupWidget() != nullptr) return false; // popups have grab if (isFullScreen() && (screens()->count() < 2 || !isMovableAcrossScreens())) return false; if (!doStartMoveResize()) { return false; } invalidateDecorationDoubleClickTimer(); setMoveResize(true); workspace()->setMoveResizeClient(this); const Position mode = moveResizePointerMode(); if (mode != PositionCenter) { // means "isResize()" but moveResizeMode = true is set below if (maximizeMode() == MaximizeFull) { // partial is cond. reset in finishMoveResize setGeometryRestore(frameGeometry()); // "restore" to current geometry setMaximize(false, false); } } if (quickTileMode() != QuickTileMode(QuickTileFlag::None) && mode != PositionCenter) { // Cannot use isResize() yet // Exit quick tile mode when the user attempts to resize a tiled window updateQuickTileMode(QuickTileFlag::None); // Do so without restoring original geometry setGeometryRestore(frameGeometry()); emit quickTileModeChanged(); } updateHaveResizeEffect(); updateInitialMoveResizeGeometry(); checkUnrestrictedMoveResize(); emit clientStartUserMovedResized(this); if (ScreenEdges::self()->isDesktopSwitchingMovingClients()) ScreenEdges::self()->reserveDesktopSwitching(true, Qt::Vertical|Qt::Horizontal); return true; } void AbstractClient::finishMoveResize(bool cancel) { GeometryUpdatesBlocker blocker(this); const bool wasResize = isResize(); // store across leaveMoveResize leaveMoveResize(); doFinishMoveResize(); if (cancel) setFrameGeometry(initialMoveResizeGeometry()); else { const QRect &moveResizeGeom = moveResizeGeometry(); if (wasResize) { const bool restoreH = maximizeMode() == MaximizeHorizontal && moveResizeGeom.width() != initialMoveResizeGeometry().width(); const bool restoreV = maximizeMode() == MaximizeVertical && moveResizeGeom.height() != initialMoveResizeGeometry().height(); if (restoreH || restoreV) { changeMaximize(restoreH, restoreV, false); } } setFrameGeometry(moveResizeGeom); } checkScreen(); // needs to be done because clientFinishUserMovedResized has not yet re-activated online alignment if (screen() != moveResizeStartScreen()) { workspace()->sendClientToScreen(this, screen()); // checks rule validity if (maximizeMode() != MaximizeRestore) checkWorkspacePosition(); } if (isElectricBorderMaximizing()) { setQuickTileMode(electricBorderMode()); setElectricBorderMaximizing(false); } else if (!cancel) { QRect geom_restore = geometryRestore(); if (!(maximizeMode() & MaximizeHorizontal)) { geom_restore.setX(frameGeometry().x()); geom_restore.setWidth(frameGeometry().width()); } if (!(maximizeMode() & MaximizeVertical)) { geom_restore.setY(frameGeometry().y()); geom_restore.setHeight(frameGeometry().height()); } setGeometryRestore(geom_restore); } // FRAME update(); emit clientFinishUserMovedResized(this); } // This function checks if it actually makes sense to perform a restricted move/resize. // If e.g. the titlebar is already outside of the workarea, there's no point in performing // a restricted move resize, because then e.g. resize would also move the window (#74555). // NOTE: Most of it is duplicated from handleMoveResize(). void AbstractClient::checkUnrestrictedMoveResize() { if (isUnrestrictedMoveResize()) return; const QRect &moveResizeGeom = moveResizeGeometry(); QRect desktopArea = workspace()->clientArea(WorkArea, moveResizeGeom.center(), desktop()); int left_marge, right_marge, top_marge, bottom_marge, titlebar_marge; // restricted move/resize - keep at least part of the titlebar always visible // how much must remain visible when moved away in that direction left_marge = qMin(100 + borderRight(), moveResizeGeom.width()); right_marge = qMin(100 + borderLeft(), moveResizeGeom.width()); // width/height change with opaque resizing, use the initial ones titlebar_marge = initialMoveResizeGeometry().height(); top_marge = borderBottom(); bottom_marge = borderTop(); if (isResize()) { if (moveResizeGeom.bottom() < desktopArea.top() + top_marge) setUnrestrictedMoveResize(true); if (moveResizeGeom.top() > desktopArea.bottom() - bottom_marge) setUnrestrictedMoveResize(true); if (moveResizeGeom.right() < desktopArea.left() + left_marge) setUnrestrictedMoveResize(true); if (moveResizeGeom.left() > desktopArea.right() - right_marge) setUnrestrictedMoveResize(true); if (!isUnrestrictedMoveResize() && moveResizeGeom.top() < desktopArea.top()) // titlebar mustn't go out setUnrestrictedMoveResize(true); } if (isMove()) { if (moveResizeGeom.bottom() < desktopArea.top() + titlebar_marge - 1) setUnrestrictedMoveResize(true); // no need to check top_marge, titlebar_marge already handles it if (moveResizeGeom.top() > desktopArea.bottom() - bottom_marge + 1) // titlebar mustn't go out setUnrestrictedMoveResize(true); if (moveResizeGeom.right() < desktopArea.left() + left_marge) setUnrestrictedMoveResize(true); if (moveResizeGeom.left() > desktopArea.right() - right_marge) setUnrestrictedMoveResize(true); } } // When the user pressed mouse on the titlebar, don't activate move immediatelly, // since it may be just a click. Activate instead after a delay. Move used to be // activated only after moving by several pixels, but that looks bad. void AbstractClient::startDelayedMoveResize() { Q_ASSERT(!m_moveResize.delayedTimer); m_moveResize.delayedTimer = new QTimer(this); m_moveResize.delayedTimer->setSingleShot(true); connect(m_moveResize.delayedTimer, &QTimer::timeout, this, [this]() { Q_ASSERT(isMoveResizePointerButtonDown()); if (!startMoveResize()) { setMoveResizePointerButtonDown(false); } updateCursor(); stopDelayedMoveResize(); } ); m_moveResize.delayedTimer->start(QApplication::startDragTime()); } void AbstractClient::stopDelayedMoveResize() { delete m_moveResize.delayedTimer; m_moveResize.delayedTimer = nullptr; } void AbstractClient::updateMoveResize(const QPointF ¤tGlobalCursor) { handleMoveResize(pos(), currentGlobalCursor.toPoint()); } void AbstractClient::handleMoveResize(const QPoint &local, const QPoint &global) { const QRect oldGeo = frameGeometry(); handleMoveResize(local.x(), local.y(), global.x(), global.y()); if (!isFullScreen() && isMove()) { if (quickTileMode() != QuickTileMode(QuickTileFlag::None) && oldGeo != frameGeometry()) { GeometryUpdatesBlocker blocker(this); setQuickTileMode(QuickTileFlag::None); const QRect &geom_restore = geometryRestore(); setMoveOffset(QPoint(double(moveOffset().x()) / double(oldGeo.width()) * double(geom_restore.width()), double(moveOffset().y()) / double(oldGeo.height()) * double(geom_restore.height()))); if (rules()->checkMaximize(MaximizeRestore) == MaximizeRestore) setMoveResizeGeometry(geom_restore); handleMoveResize(local.x(), local.y(), global.x(), global.y()); // fix position } else if (quickTileMode() == QuickTileMode(QuickTileFlag::None) && isResizable()) { checkQuickTilingMaximizationZones(global.x(), global.y()); } } } void AbstractClient::handleMoveResize(int x, int y, int x_root, int y_root) { if (isWaitingForMoveResizeSync()) return; // we're still waiting for the client or the timeout const Position mode = moveResizePointerMode(); if ((mode == PositionCenter && !isMovableAcrossScreens()) || (mode != PositionCenter && (isShade() || !isResizable()))) return; if (!isMoveResize()) { QPoint p(QPoint(x/* - padding_left*/, y/* - padding_top*/) - moveOffset()); if (p.manhattanLength() >= QApplication::startDragDistance()) { if (!startMoveResize()) { setMoveResizePointerButtonDown(false); updateCursor(); return; } updateCursor(); } else return; } // ShadeHover or ShadeActive, ShadeNormal was already avoided above if (mode != PositionCenter && shadeMode() != ShadeNone) setShade(ShadeNone); QPoint globalPos(x_root, y_root); // these two points limit the geometry rectangle, i.e. if bottomleft resizing is done, // the bottomleft corner should be at is at (topleft.x(), bottomright().y()) QPoint topleft = globalPos - moveOffset(); QPoint bottomright = globalPos + invertedMoveOffset(); QRect previousMoveResizeGeom = moveResizeGeometry(); // TODO move whole group when moving its leader or when the leader is not mapped? auto titleBarRect = [this](bool &transposed, int &requiredPixels) -> QRect { const QRect &moveResizeGeom = moveResizeGeometry(); QRect r(moveResizeGeom); r.moveTopLeft(QPoint(0,0)); switch (titlebarPosition()) { default: case PositionTop: r.setHeight(borderTop()); break; case PositionLeft: r.setWidth(borderLeft()); transposed = true; break; case PositionBottom: r.setTop(r.bottom() - borderBottom()); break; case PositionRight: r.setLeft(r.right() - borderRight()); transposed = true; break; } // When doing a restricted move we must always keep 100px of the titlebar // visible to allow the user to be able to move it again. requiredPixels = qMin(100 * (transposed ? r.width() : r.height()), moveResizeGeom.width() * moveResizeGeom.height()); return r; }; bool update = false; if (isResize()) { QRect orig = initialMoveResizeGeometry(); SizeMode sizeMode = SizeModeAny; auto calculateMoveResizeGeom = [this, &topleft, &bottomright, &orig, &sizeMode, &mode]() { switch(mode) { case PositionTopLeft: setMoveResizeGeometry(QRect(topleft, orig.bottomRight())); break; case PositionBottomRight: setMoveResizeGeometry(QRect(orig.topLeft(), bottomright)); break; case PositionBottomLeft: setMoveResizeGeometry(QRect(QPoint(topleft.x(), orig.y()), QPoint(orig.right(), bottomright.y()))); break; case PositionTopRight: setMoveResizeGeometry(QRect(QPoint(orig.x(), topleft.y()), QPoint(bottomright.x(), orig.bottom()))); break; case PositionTop: setMoveResizeGeometry(QRect(QPoint(orig.left(), topleft.y()), orig.bottomRight())); sizeMode = SizeModeFixedH; // try not to affect height break; case PositionBottom: setMoveResizeGeometry(QRect(orig.topLeft(), QPoint(orig.right(), bottomright.y()))); sizeMode = SizeModeFixedH; break; case PositionLeft: setMoveResizeGeometry(QRect(QPoint(topleft.x(), orig.top()), orig.bottomRight())); sizeMode = SizeModeFixedW; break; case PositionRight: setMoveResizeGeometry(QRect(orig.topLeft(), QPoint(bottomright.x(), orig.bottom()))); sizeMode = SizeModeFixedW; break; case PositionCenter: default: abort(); break; } }; // first resize (without checking constrains), then snap, then check bounds, then check constrains calculateMoveResizeGeom(); // adjust new size to snap to other windows/borders setMoveResizeGeometry(workspace()->adjustClientSize(this, moveResizeGeometry(), mode)); if (!isUnrestrictedMoveResize()) { // Make sure the titlebar isn't behind a restricted area. We don't need to restrict // the other directions. If not visible enough, move the window to the closest valid // point. We bruteforce this by slowly moving the window back to its previous position QRegion availableArea(workspace()->clientArea(FullArea, -1, 0)); // On the screen availableArea -= workspace()->restrictedMoveArea(desktop()); // Strut areas bool transposed = false; int requiredPixels; QRect bTitleRect = titleBarRect(transposed, requiredPixels); int lastVisiblePixels = -1; QRect lastTry = moveResizeGeometry(); bool titleFailed = false; for (;;) { const QRect titleRect(bTitleRect.translated(moveResizeGeometry().topLeft())); int visiblePixels = 0; int realVisiblePixels = 0; for (const QRect &rect : availableArea) { const QRect r = rect & titleRect; realVisiblePixels += r.width() * r.height(); if ((transposed && r.width() == titleRect.width()) || // Only the full size regions... (!transposed && r.height() == titleRect.height())) // ...prevents long slim areas visiblePixels += r.width() * r.height(); } if (visiblePixels >= requiredPixels) break; // We have reached a valid position if (realVisiblePixels <= lastVisiblePixels) { if (titleFailed && realVisiblePixels < lastVisiblePixels) break; // we won't become better else { if (!titleFailed) setMoveResizeGeometry(lastTry); titleFailed = true; } } lastVisiblePixels = realVisiblePixels; QRect moveResizeGeom = moveResizeGeometry(); lastTry = moveResizeGeom; // Not visible enough, move the window to the closest valid point. We bruteforce // this by slowly moving the window back to its previous position. // The geometry changes at up to two edges, the one with the title (if) shall take // precedence. The opposing edge has no impact on visiblePixels and only one of // the adjacent can alter at a time, ie. it's enough to ignore adjacent edges // if the title edge altered bool leftChanged = previousMoveResizeGeom.left() != moveResizeGeom.left(); bool rightChanged = previousMoveResizeGeom.right() != moveResizeGeom.right(); bool topChanged = previousMoveResizeGeom.top() != moveResizeGeom.top(); bool btmChanged = previousMoveResizeGeom.bottom() != moveResizeGeom.bottom(); auto fixChangedState = [titleFailed](bool &major, bool &counter, bool &ad1, bool &ad2) { counter = false; if (titleFailed) major = false; if (major) ad1 = ad2 = false; }; switch (titlebarPosition()) { default: case PositionTop: fixChangedState(topChanged, btmChanged, leftChanged, rightChanged); break; case PositionLeft: fixChangedState(leftChanged, rightChanged, topChanged, btmChanged); break; case PositionBottom: fixChangedState(btmChanged, topChanged, leftChanged, rightChanged); break; case PositionRight: fixChangedState(rightChanged, leftChanged, topChanged, btmChanged); break; } if (topChanged) moveResizeGeom.setTop(moveResizeGeom.y() + sign(previousMoveResizeGeom.y() - moveResizeGeom.y())); else if (leftChanged) moveResizeGeom.setLeft(moveResizeGeom.x() + sign(previousMoveResizeGeom.x() - moveResizeGeom.x())); else if (btmChanged) moveResizeGeom.setBottom(moveResizeGeom.bottom() + sign(previousMoveResizeGeom.bottom() - moveResizeGeom.bottom())); else if (rightChanged) moveResizeGeom.setRight(moveResizeGeom.right() + sign(previousMoveResizeGeom.right() - moveResizeGeom.right())); else break; // no position changed - that's certainly not good setMoveResizeGeometry(moveResizeGeom); } } // Always obey size hints, even when in "unrestricted" mode QSize size = constrainFrameSize(moveResizeGeometry().size(), sizeMode); // the new topleft and bottomright corners (after checking size constrains), if they'll be needed topleft = QPoint(moveResizeGeometry().right() - size.width() + 1, moveResizeGeometry().bottom() - size.height() + 1); bottomright = QPoint(moveResizeGeometry().left() + size.width() - 1, moveResizeGeometry().top() + size.height() - 1); orig = moveResizeGeometry(); // if aspect ratios are specified, both dimensions may change. // Therefore grow to the right/bottom if needed. // TODO it should probably obey gravity rather than always using right/bottom ? if (sizeMode == SizeModeFixedH) orig.setRight(bottomright.x()); else if (sizeMode == SizeModeFixedW) orig.setBottom(bottomright.y()); calculateMoveResizeGeom(); if (moveResizeGeometry().size() != previousMoveResizeGeom.size()) update = true; } else if (isMove()) { Q_ASSERT(mode == PositionCenter); if (!isMovable()) { // isMovableAcrossScreens() must have been true to get here // Special moving of maximized windows on Xinerama screens int screen = screens()->number(globalPos); if (isFullScreen()) setMoveResizeGeometry(workspace()->clientArea(FullScreenArea, screen, 0)); else { QRect moveResizeGeom = workspace()->clientArea(MaximizeArea, screen, 0); QSize adjSize = constrainFrameSize(moveResizeGeom.size(), SizeModeMax); if (adjSize != moveResizeGeom.size()) { QRect r(moveResizeGeom); moveResizeGeom.setSize(adjSize); moveResizeGeom.moveCenter(r.center()); } setMoveResizeGeometry(moveResizeGeom); } } else { // first move, then snap, then check bounds QRect moveResizeGeom = moveResizeGeometry(); moveResizeGeom.moveTopLeft(topleft); moveResizeGeom.moveTopLeft(workspace()->adjustClientPosition(this, moveResizeGeom.topLeft(), isUnrestrictedMoveResize())); setMoveResizeGeometry(moveResizeGeom); if (!isUnrestrictedMoveResize()) { const QRegion strut = workspace()->restrictedMoveArea(desktop()); // Strut areas QRegion availableArea(workspace()->clientArea(FullArea, -1, 0)); // On the screen availableArea -= strut; // Strut areas bool transposed = false; int requiredPixels; QRect bTitleRect = titleBarRect(transposed, requiredPixels); for (;;) { QRect moveResizeGeom = moveResizeGeometry(); const QRect titleRect(bTitleRect.translated(moveResizeGeom.topLeft())); int visiblePixels = 0; for (const QRect &rect : availableArea) { const QRect r = rect & titleRect; if ((transposed && r.width() == titleRect.width()) || // Only the full size regions... (!transposed && r.height() == titleRect.height())) // ...prevents long slim areas visiblePixels += r.width() * r.height(); } if (visiblePixels >= requiredPixels) break; // We have reached a valid position // (esp.) if there're more screens with different struts (panels) it the titlebar // will be movable outside the movearea (covering one of the panels) until it // crosses the panel "too much" (not enough visiblePixels) and then stucks because // it's usually only pushed by 1px to either direction // so we first check whether we intersect suc strut and move the window below it // immediately (it's still possible to hit the visiblePixels >= titlebarArea break // by moving the window slightly downwards, but it won't stuck) // see bug #274466 // and bug #301805 for why we can't just match the titlearea against the screen if (screens()->count() > 1) { // optimization // TODO: could be useful on partial screen struts (half-width panels etc.) int newTitleTop = -1; for (const QRect &r : strut) { if (r.top() == 0 && r.width() > r.height() && // "top panel" r.intersects(moveResizeGeom) && moveResizeGeom.top() < r.bottom()) { newTitleTop = r.bottom() + 1; break; } } if (newTitleTop > -1) { moveResizeGeom.moveTop(newTitleTop); // invalid position, possibly on screen change setMoveResizeGeometry(moveResizeGeom); break; } } int dx = sign(previousMoveResizeGeom.x() - moveResizeGeom.x()), dy = sign(previousMoveResizeGeom.y() - moveResizeGeom.y()); if (visiblePixels && dx) // means there's no full width cap -> favor horizontally dy = 0; else if (dy) dx = 0; // Move it back moveResizeGeom.translate(dx, dy); setMoveResizeGeometry(moveResizeGeom); if (moveResizeGeom == previousMoveResizeGeom) { break; // Prevent lockup } } } } if (moveResizeGeometry().topLeft() != previousMoveResizeGeom.topLeft()) update = true; } else abort(); if (!update) return; if (isResize() && !haveResizeEffect()) { doResizeSync(); } else performMoveResize(); if (isMove()) { ScreenEdges::self()->check(globalPos, QDateTime::fromMSecsSinceEpoch(xTime(), Qt::UTC)); } } void AbstractClient::performMoveResize() { const QRect &moveResizeGeom = moveResizeGeometry(); if (isMove() || (isResize() && !haveResizeEffect())) { setFrameGeometry(moveResizeGeom); } doPerformMoveResize(); positionGeometryTip(); emit clientStepUserMovedResized(this, moveResizeGeom); } bool AbstractClient::hasStrut() const { return false; } void AbstractClient::setupWindowManagementInterface() { if (m_windowManagementInterface) { // already setup return; } if (!waylandServer() || !surface()) { return; } if (!waylandServer()->windowManagement()) { return; } using namespace KWaylandServer; auto w = waylandServer()->windowManagement()->createWindow(waylandServer()->windowManagement()); w->setTitle(caption()); w->setVirtualDesktop(isOnAllDesktops() ? 0 : desktop() - 1); w->setActive(isActive()); w->setFullscreen(isFullScreen()); w->setKeepAbove(keepAbove()); w->setKeepBelow(keepBelow()); w->setMaximized(maximizeMode() == KWin::MaximizeFull); w->setMinimized(isMinimized()); w->setOnAllDesktops(isOnAllDesktops()); w->setDemandsAttention(isDemandingAttention()); w->setCloseable(isCloseable()); w->setMaximizeable(isMaximizable()); w->setMinimizeable(isMinimizable()); w->setFullscreenable(isFullScreenable()); w->setApplicationMenuPaths(applicationMenuServiceName(), applicationMenuObjectPath()); w->setIcon(icon()); auto updateAppId = [this, w] { w->setAppId(QString::fromUtf8(m_desktopFileName.isEmpty() ? resourceClass() : m_desktopFileName)); }; updateAppId(); w->setSkipTaskbar(skipTaskbar()); w->setSkipSwitcher(skipSwitcher()); w->setPid(pid()); w->setShadeable(isShadeable()); w->setShaded(isShade()); w->setResizable(isResizable()); w->setMovable(isMovable()); w->setVirtualDesktopChangeable(true); // FIXME Matches X11Client::actionSupported(), but both should be implemented. w->setParentWindow(transientFor() ? transientFor()->windowManagementInterface() : nullptr); w->setGeometry(frameGeometry()); connect(this, &AbstractClient::skipTaskbarChanged, w, [w, this] { w->setSkipTaskbar(skipTaskbar()); } ); connect(this, &AbstractClient::skipSwitcherChanged, w, [w, this] { w->setSkipSwitcher(skipSwitcher()); } ); connect(this, &AbstractClient::captionChanged, w, [w, this] { w->setTitle(caption()); }); connect(this, &AbstractClient::activeChanged, w, [w, this] { w->setActive(isActive()); }); connect(this, &AbstractClient::fullScreenChanged, w, [w, this] { w->setFullscreen(isFullScreen()); }); connect(this, &AbstractClient::keepAboveChanged, w, &PlasmaWindowInterface::setKeepAbove); connect(this, &AbstractClient::keepBelowChanged, w, &PlasmaWindowInterface::setKeepBelow); connect(this, &AbstractClient::minimizedChanged, w, [w, this] { w->setMinimized(isMinimized()); }); connect(this, static_cast(&AbstractClient::clientMaximizedStateChanged), w, [w] (KWin::AbstractClient *c, MaximizeMode mode) { Q_UNUSED(c); w->setMaximized(mode == KWin::MaximizeFull); } ); connect(this, &AbstractClient::demandsAttentionChanged, w, [w, this] { w->setDemandsAttention(isDemandingAttention()); }); connect(this, &AbstractClient::iconChanged, w, [w, this] { w->setIcon(icon()); } ); connect(this, &AbstractClient::windowClassChanged, w, updateAppId); connect(this, &AbstractClient::desktopFileNameChanged, w, updateAppId); connect(this, &AbstractClient::shadeChanged, w, [w, this] { w->setShaded(isShade()); }); connect(this, &AbstractClient::transientChanged, w, [w, this] { w->setParentWindow(transientFor() ? transientFor()->windowManagementInterface() : nullptr); } ); connect(this, &AbstractClient::frameGeometryChanged, w, [w, this] { w->setGeometry(frameGeometry()); } ); connect(this, &AbstractClient::applicationMenuChanged, w, [w, this] { w->setApplicationMenuPaths(applicationMenuServiceName(), applicationMenuObjectPath()); } ); connect(w, &PlasmaWindowInterface::closeRequested, this, [this] { closeWindow(); }); connect(w, &PlasmaWindowInterface::moveRequested, this, [this] { Cursors::self()->mouse()->setPos(frameGeometry().center()); performMouseCommand(Options::MouseMove, Cursors::self()->mouse()->pos()); } ); connect(w, &PlasmaWindowInterface::resizeRequested, this, [this] { Cursors::self()->mouse()->setPos(frameGeometry().bottomRight()); performMouseCommand(Options::MouseResize, Cursors::self()->mouse()->pos()); } ); connect(w, &PlasmaWindowInterface::virtualDesktopRequested, this, [this] (quint32 desktop) { workspace()->sendClientToDesktop(this, desktop + 1, true); } ); connect(w, &PlasmaWindowInterface::fullscreenRequested, this, [this] (bool set) { setFullScreen(set, false); } ); connect(w, &PlasmaWindowInterface::minimizedRequested, this, [this] (bool set) { if (set) { minimize(); } else { unminimize(); } } ); connect(w, &PlasmaWindowInterface::maximizedRequested, this, [this] (bool set) { maximize(set ? MaximizeFull : MaximizeRestore); } ); connect(w, &PlasmaWindowInterface::keepAboveRequested, this, [this] (bool set) { setKeepAbove(set); } ); connect(w, &PlasmaWindowInterface::keepBelowRequested, this, [this] (bool set) { setKeepBelow(set); } ); connect(w, &PlasmaWindowInterface::demandsAttentionRequested, this, [this] (bool set) { demandAttention(set); } ); connect(w, &PlasmaWindowInterface::activeRequested, this, [this] (bool set) { if (set) { workspace()->activateClient(this, true); } } ); connect(w, &PlasmaWindowInterface::shadedRequested, this, [this] (bool set) { setShade(set); } ); for (const auto vd : m_desktops) { w->addPlasmaVirtualDesktop(vd->id()); } //this is only for the legacy connect(this, &AbstractClient::desktopChanged, w, [w, this] { if (isOnAllDesktops()) { w->setOnAllDesktops(true); return; } w->setVirtualDesktop(desktop() - 1); w->setOnAllDesktops(false); } ); //Plasma Virtual desktop management //show/hide when the window enters/exits from desktop connect(w, &PlasmaWindowInterface::enterPlasmaVirtualDesktopRequested, this, [this] (const QString &desktopId) { VirtualDesktop *vd = VirtualDesktopManager::self()->desktopForId(desktopId.toUtf8()); if (vd) { enterDesktop(vd); } } ); connect(w, &PlasmaWindowInterface::enterNewPlasmaVirtualDesktopRequested, this, [this] () { VirtualDesktopManager::self()->setCount(VirtualDesktopManager::self()->count() + 1); enterDesktop(VirtualDesktopManager::self()->desktops().last()); } ); connect(w, &PlasmaWindowInterface::leavePlasmaVirtualDesktopRequested, this, [this] (const QString &desktopId) { VirtualDesktop *vd = VirtualDesktopManager::self()->desktopForId(desktopId.toUtf8()); if (vd) { leaveDesktop(vd); } } ); m_windowManagementInterface = w; } void AbstractClient::destroyWindowManagementInterface() { if (m_windowManagementInterface) { m_windowManagementInterface->unmap(); m_windowManagementInterface = nullptr; } } Options::MouseCommand AbstractClient::getMouseCommand(Qt::MouseButton button, bool *handled) const { *handled = false; if (button == Qt::NoButton) { return Options::MouseNothing; } if (isActive()) { if (options->isClickRaise()) { *handled = true; return Options::MouseActivateRaiseAndPassClick; } } else { *handled = true; switch (button) { case Qt::LeftButton: return options->commandWindow1(); case Qt::MiddleButton: return options->commandWindow2(); case Qt::RightButton: return options->commandWindow3(); default: // all other buttons pass Activate & Pass Client return Options::MouseActivateAndPassClick; } } return Options::MouseNothing; } Options::MouseCommand AbstractClient::getWheelCommand(Qt::Orientation orientation, bool *handled) const { *handled = false; if (orientation != Qt::Vertical) { return Options::MouseNothing; } if (!isActive()) { *handled = true; return options->commandWindowWheel(); } return Options::MouseNothing; } bool AbstractClient::performMouseCommand(Options::MouseCommand cmd, const QPoint &globalPos) { bool replay = false; switch(cmd) { case Options::MouseRaise: workspace()->raiseClient(this); break; case Options::MouseLower: { workspace()->lowerClient(this); // used to be activateNextClient(this), then topClientOnDesktop // since this is a mouseOp it's however safe to use the client under the mouse instead if (isActive() && options->focusPolicyIsReasonable()) { AbstractClient *next = workspace()->clientUnderMouse(screen()); if (next && next != this) workspace()->requestFocus(next, false); } break; } case Options::MouseOperationsMenu: if (isActive() && options->isClickRaise()) autoRaise(); workspace()->showWindowMenu(QRect(globalPos, globalPos), this); break; case Options::MouseToggleRaiseAndLower: workspace()->raiseOrLowerClient(this); break; case Options::MouseActivateAndRaise: { replay = isActive(); // for clickraise mode bool mustReplay = !rules()->checkAcceptFocus(acceptsFocus()); if (mustReplay) { auto it = workspace()->stackingOrder().constEnd(), begin = workspace()->stackingOrder().constBegin(); while (mustReplay && --it != begin && *it != this) { AbstractClient *c = qobject_cast(*it); if (!c || (c->keepAbove() && !keepAbove()) || (keepBelow() && !c->keepBelow())) continue; // can never raise above "it" mustReplay = !(c->isOnCurrentDesktop() && c->isOnCurrentActivity() && c->frameGeometry().intersects(frameGeometry())); } } workspace()->takeActivity(this, Workspace::ActivityFocus | Workspace::ActivityRaise); screens()->setCurrent(globalPos); replay = replay || mustReplay; break; } case Options::MouseActivateAndLower: workspace()->requestFocus(this); workspace()->lowerClient(this); screens()->setCurrent(globalPos); replay = replay || !rules()->checkAcceptFocus(acceptsFocus()); break; case Options::MouseActivate: replay = isActive(); // for clickraise mode workspace()->takeActivity(this, Workspace::ActivityFocus); screens()->setCurrent(globalPos); replay = replay || !rules()->checkAcceptFocus(acceptsFocus()); break; case Options::MouseActivateRaiseAndPassClick: workspace()->takeActivity(this, Workspace::ActivityFocus | Workspace::ActivityRaise); screens()->setCurrent(globalPos); replay = true; break; case Options::MouseActivateAndPassClick: workspace()->takeActivity(this, Workspace::ActivityFocus); screens()->setCurrent(globalPos); replay = true; break; case Options::MouseMaximize: maximize(MaximizeFull); break; case Options::MouseRestore: maximize(MaximizeRestore); break; case Options::MouseMinimize: minimize(); break; case Options::MouseAbove: { StackingUpdatesBlocker blocker(workspace()); if (keepBelow()) setKeepBelow(false); else setKeepAbove(true); break; } case Options::MouseBelow: { StackingUpdatesBlocker blocker(workspace()); if (keepAbove()) setKeepAbove(false); else setKeepBelow(true); break; } case Options::MousePreviousDesktop: workspace()->windowToPreviousDesktop(this); break; case Options::MouseNextDesktop: workspace()->windowToNextDesktop(this); break; case Options::MouseOpacityMore: if (!isDesktop()) // No point in changing the opacity of the desktop setOpacity(qMin(opacity() + 0.1, 1.0)); break; case Options::MouseOpacityLess: if (!isDesktop()) // No point in changing the opacity of the desktop setOpacity(qMax(opacity() - 0.1, 0.1)); break; case Options::MouseClose: closeWindow(); break; case Options::MouseActivateRaiseAndMove: case Options::MouseActivateRaiseAndUnrestrictedMove: workspace()->raiseClient(this); workspace()->requestFocus(this); screens()->setCurrent(globalPos); // fallthrough case Options::MouseMove: case Options::MouseUnrestrictedMove: { if (!isMovableAcrossScreens()) break; if (isMoveResize()) finishMoveResize(false); setMoveResizePointerMode(PositionCenter); setMoveResizePointerButtonDown(true); setMoveOffset(QPoint(globalPos.x() - x(), globalPos.y() - y())); // map from global setInvertedMoveOffset(rect().bottomRight() - moveOffset()); setUnrestrictedMoveResize((cmd == Options::MouseActivateRaiseAndUnrestrictedMove || cmd == Options::MouseUnrestrictedMove)); if (!startMoveResize()) setMoveResizePointerButtonDown(false); updateCursor(); break; } case Options::MouseResize: case Options::MouseUnrestrictedResize: { if (!isResizable() || isShade()) break; if (isMoveResize()) finishMoveResize(false); setMoveResizePointerButtonDown(true); const QPoint moveOffset = QPoint(globalPos.x() - x(), globalPos.y() - y()); // map from global setMoveOffset(moveOffset); int x = moveOffset.x(), y = moveOffset.y(); bool left = x < width() / 3; bool right = x >= 2 * width() / 3; bool top = y < height() / 3; bool bot = y >= 2 * height() / 3; Position mode; if (top) mode = left ? PositionTopLeft : (right ? PositionTopRight : PositionTop); else if (bot) mode = left ? PositionBottomLeft : (right ? PositionBottomRight : PositionBottom); else mode = (x < width() / 2) ? PositionLeft : PositionRight; setMoveResizePointerMode(mode); setInvertedMoveOffset(rect().bottomRight() - moveOffset); setUnrestrictedMoveResize((cmd == Options::MouseUnrestrictedResize)); if (!startMoveResize()) setMoveResizePointerButtonDown(false); updateCursor(); break; } case Options::MouseShade: toggleShade(); cancelShadeHoverTimer(); break; case Options::MouseSetShade: setShade(ShadeNormal); cancelShadeHoverTimer(); break; case Options::MouseUnsetShade: setShade(ShadeNone); cancelShadeHoverTimer(); break; case Options::MouseNothing: default: replay = true; break; } return replay; } void AbstractClient::setTransientFor(AbstractClient *transientFor) { if (transientFor == this) { // cannot be transient for one self return; } if (m_transientFor == transientFor) { return; } m_transientFor = transientFor; emit transientChanged(); } const AbstractClient *AbstractClient::transientFor() const { return m_transientFor; } AbstractClient *AbstractClient::transientFor() { return m_transientFor; } bool AbstractClient::hasTransientPlacementHint() const { return false; } QRect AbstractClient::transientPlacement(const QRect &bounds) const { Q_UNUSED(bounds); Q_UNREACHABLE(); return QRect(); } bool AbstractClient::hasTransient(const AbstractClient *c, bool indirect) const { Q_UNUSED(indirect); return c->transientFor() == this; } QList< AbstractClient* > AbstractClient::mainClients() const { if (const AbstractClient *t = transientFor()) { return QList{const_cast< AbstractClient* >(t)}; } return QList(); } QList AbstractClient::allMainClients() const { auto result = mainClients(); foreach (const auto *cl, result) { result += cl->allMainClients(); } return result; } void AbstractClient::setModal(bool m) { // Qt-3.2 can have even modal normal windows :( if (m_modal == m) return; m_modal = m; emit modalChanged(); // Changing modality for a mapped window is weird (?) // _NET_WM_STATE_MODAL should possibly rather be _NET_WM_WINDOW_TYPE_MODAL_DIALOG } bool AbstractClient::isModal() const { return m_modal; } void AbstractClient::addTransient(AbstractClient *cl) { Q_ASSERT(!m_transients.contains(cl)); Q_ASSERT(cl != this); m_transients.append(cl); } void AbstractClient::removeTransient(AbstractClient *cl) { m_transients.removeAll(cl); if (cl->transientFor() == this) { cl->setTransientFor(nullptr); } } void AbstractClient::removeTransientFromList(AbstractClient *cl) { m_transients.removeAll(cl); } bool AbstractClient::isActiveFullScreen() const { if (!isFullScreen()) return false; const auto ac = workspace()->mostRecentlyActivatedClient(); // instead of activeClient() - avoids flicker // according to NETWM spec implementation notes suggests // "focused windows having state _NET_WM_STATE_FULLSCREEN" to be on the highest layer. // we'll also take the screen into account return ac && (ac == this || ac->screen() != screen()|| ac->allMainClients().contains(const_cast(this))); } #define BORDER(which) \ int AbstractClient::border##which() const \ { \ return isDecorated() ? decoration()->border##which() : 0; \ } BORDER(Bottom) BORDER(Left) BORDER(Right) BORDER(Top) #undef BORDER void AbstractClient::addRepaintDuringGeometryUpdates() { const QRect deco_rect = visibleRect(); addLayerRepaint(m_visibleRectBeforeGeometryUpdate); addLayerRepaint(deco_rect); // trigger repaint of window's new location m_visibleRectBeforeGeometryUpdate = deco_rect; } QRect AbstractClient::bufferGeometryBeforeUpdateBlocking() const { return m_bufferGeometryBeforeUpdateBlocking; } QRect AbstractClient::frameGeometryBeforeUpdateBlocking() const { return m_frameGeometryBeforeUpdateBlocking; } +QRect AbstractClient::clientGeometryBeforeUpdateBlocking() const +{ + return m_clientGeometryBeforeUpdateBlocking; +} + void AbstractClient::updateGeometryBeforeUpdateBlocking() { m_bufferGeometryBeforeUpdateBlocking = bufferGeometry(); m_frameGeometryBeforeUpdateBlocking = frameGeometry(); + m_clientGeometryBeforeUpdateBlocking = clientGeometry(); } void AbstractClient::doMove(int, int) { } void AbstractClient::updateInitialMoveResizeGeometry() { m_moveResize.initialGeometry = frameGeometry(); m_moveResize.geometry = m_moveResize.initialGeometry; m_moveResize.startScreen = screen(); } void AbstractClient::updateCursor() { Position m = moveResizePointerMode(); if (!isResizable() || isShade()) m = PositionCenter; CursorShape c = Qt::ArrowCursor; switch(m) { case PositionTopLeft: c = KWin::ExtendedCursor::SizeNorthWest; break; case PositionBottomRight: c = KWin::ExtendedCursor::SizeSouthEast; break; case PositionBottomLeft: c = KWin::ExtendedCursor::SizeSouthWest; break; case PositionTopRight: c = KWin::ExtendedCursor::SizeNorthEast; break; case PositionTop: c = KWin::ExtendedCursor::SizeNorth; break; case PositionBottom: c = KWin::ExtendedCursor::SizeSouth; break; case PositionLeft: c = KWin::ExtendedCursor::SizeWest; break; case PositionRight: c = KWin::ExtendedCursor::SizeEast; break; default: if (isMoveResize()) c = Qt::SizeAllCursor; else c = Qt::ArrowCursor; break; } if (c == m_moveResize.cursor) return; m_moveResize.cursor = c; emit moveResizeCursorChanged(c); } void AbstractClient::leaveMoveResize() { workspace()->setMoveResizeClient(nullptr); setMoveResize(false); if (ScreenEdges::self()->isDesktopSwitchingMovingClients()) ScreenEdges::self()->reserveDesktopSwitching(false, Qt::Vertical|Qt::Horizontal); if (isElectricBorderMaximizing()) { outline()->hide(); elevate(false); } } bool AbstractClient::s_haveResizeEffect = false; void AbstractClient::updateHaveResizeEffect() { s_haveResizeEffect = effects && static_cast(effects)->provides(Effect::Resize); } bool AbstractClient::doStartMoveResize() { return true; } void AbstractClient::doFinishMoveResize() { } void AbstractClient::positionGeometryTip() { } void AbstractClient::doPerformMoveResize() { } bool AbstractClient::isWaitingForMoveResizeSync() const { return false; } void AbstractClient::doResizeSync() { } void AbstractClient::checkQuickTilingMaximizationZones(int xroot, int yroot) { QuickTileMode mode = QuickTileFlag::None; bool innerBorder = false; for (int i=0; i < screens()->count(); ++i) { if (!screens()->geometry(i).contains(QPoint(xroot, yroot))) continue; auto isInScreen = [i](const QPoint &pt) { for (int j = 0; j < screens()->count(); ++j) { if (j == i) continue; if (screens()->geometry(j).contains(pt)) { return true; } } return false; }; QRect area = workspace()->clientArea(MaximizeArea, QPoint(xroot, yroot), desktop()); if (options->electricBorderTiling()) { if (xroot <= area.x() + 20) { mode |= QuickTileFlag::Left; innerBorder = isInScreen(QPoint(area.x() - 1, yroot)); } else if (xroot >= area.x() + area.width() - 20) { mode |= QuickTileFlag::Right; innerBorder = isInScreen(QPoint(area.right() + 1, yroot)); } } if (mode != QuickTileMode(QuickTileFlag::None)) { if (yroot <= area.y() + area.height() * options->electricBorderCornerRatio()) mode |= QuickTileFlag::Top; else if (yroot >= area.y() + area.height() - area.height() * options->electricBorderCornerRatio()) mode |= QuickTileFlag::Bottom; } else if (options->electricBorderMaximize() && yroot <= area.y() + 5 && isMaximizable()) { mode = QuickTileFlag::Maximize; innerBorder = isInScreen(QPoint(xroot, area.y() - 1)); } break; // no point in checking other screens to contain this... "point"... } if (mode != electricBorderMode()) { setElectricBorderMode(mode); if (innerBorder) { if (!m_electricMaximizingDelay) { m_electricMaximizingDelay = new QTimer(this); m_electricMaximizingDelay->setInterval(250); m_electricMaximizingDelay->setSingleShot(true); connect(m_electricMaximizingDelay, &QTimer::timeout, [this]() { if (isMove()) setElectricBorderMaximizing(electricBorderMode() != QuickTileMode(QuickTileFlag::None)); }); } m_electricMaximizingDelay->start(); } else { setElectricBorderMaximizing(mode != QuickTileMode(QuickTileFlag::None)); } } } void AbstractClient::keyPressEvent(uint key_code) { if (!isMove() && !isResize()) return; bool is_control = key_code & Qt::CTRL; bool is_alt = key_code & Qt::ALT; key_code = key_code & ~Qt::KeyboardModifierMask; int delta = is_control ? 1 : is_alt ? 32 : 8; QPoint pos = Cursors::self()->mouse()->pos(); switch(key_code) { case Qt::Key_Left: pos.rx() -= delta; break; case Qt::Key_Right: pos.rx() += delta; break; case Qt::Key_Up: pos.ry() -= delta; break; case Qt::Key_Down: pos.ry() += delta; break; case Qt::Key_Space: case Qt::Key_Return: case Qt::Key_Enter: setMoveResizePointerButtonDown(false); finishMoveResize(false); updateCursor(); break; case Qt::Key_Escape: setMoveResizePointerButtonDown(false); finishMoveResize(true); updateCursor(); break; default: return; } Cursors::self()->mouse()->setPos(pos); } QSize AbstractClient::resizeIncrements() const { return QSize(1, 1); } void AbstractClient::dontMoveResize() { setMoveResizePointerButtonDown(false); stopDelayedMoveResize(); if (isMoveResize()) finishMoveResize(false); } AbstractClient::Position AbstractClient::mousePosition() const { if (isDecorated()) { switch (decoration()->sectionUnderMouse()) { case Qt::BottomLeftSection: return PositionBottomLeft; case Qt::BottomRightSection: return PositionBottomRight; case Qt::BottomSection: return PositionBottom; case Qt::LeftSection: return PositionLeft; case Qt::RightSection: return PositionRight; case Qt::TopSection: return PositionTop; case Qt::TopLeftSection: return PositionTopLeft; case Qt::TopRightSection: return PositionTopRight; default: return PositionCenter; } } return PositionCenter; } void AbstractClient::endMoveResize() { setMoveResizePointerButtonDown(false); stopDelayedMoveResize(); if (isMoveResize()) { finishMoveResize(false); setMoveResizePointerMode(mousePosition()); } updateCursor(); } void AbstractClient::createDecoration(const QRect &oldGeometry) { KDecoration2::Decoration *decoration = Decoration::DecorationBridge::self()->createDecoration(this); if (decoration) { QMetaObject::invokeMethod(decoration, "update", Qt::QueuedConnection); connect(decoration, &KDecoration2::Decoration::shadowChanged, this, &Toplevel::updateShadow); connect(decoration, &KDecoration2::Decoration::bordersChanged, this, [this]() { GeometryUpdatesBlocker blocker(this); const QRect oldGeometry = frameGeometry(); if (!isShade()) { checkWorkspacePosition(oldGeometry); } emit geometryShapeChanged(this, oldGeometry); }); } setDecoration(decoration); setFrameGeometry(QRect(oldGeometry.topLeft(), clientSizeToFrameSize(clientSize()))); emit geometryShapeChanged(this, oldGeometry); } void AbstractClient::destroyDecoration() { delete m_decoration.decoration; m_decoration.decoration = nullptr; } bool AbstractClient::decorationHasAlpha() const { if (!isDecorated() || decoration()->isOpaque()) { // either no decoration or decoration has alpha disabled return false; } return true; } void AbstractClient::triggerDecorationRepaint() { if (isDecorated()) { decoration()->update(); } } void AbstractClient::layoutDecorationRects(QRect &left, QRect &top, QRect &right, QRect &bottom) const { if (!isDecorated()) { return; } QRect r = decoration()->rect(); top = QRect(r.x(), r.y(), r.width(), borderTop()); bottom = QRect(r.x(), r.y() + r.height() - borderBottom(), r.width(), borderBottom()); left = QRect(r.x(), r.y() + top.height(), borderLeft(), r.height() - top.height() - bottom.height()); right = QRect(r.x() + r.width() - borderRight(), r.y() + top.height(), borderRight(), r.height() - top.height() - bottom.height()); } void AbstractClient::processDecorationMove(const QPoint &localPos, const QPoint &globalPos) { if (isMoveResizePointerButtonDown()) { handleMoveResize(localPos.x(), localPos.y(), globalPos.x(), globalPos.y()); return; } // TODO: handle modifiers Position newmode = mousePosition(); if (newmode != moveResizePointerMode()) { setMoveResizePointerMode(newmode); updateCursor(); } } bool AbstractClient::processDecorationButtonPress(QMouseEvent *event, bool ignoreMenu) { Options::MouseCommand com = Options::MouseNothing; bool active = isActive(); if (!wantsInput()) // we cannot be active, use it anyway active = true; // check whether it is a double click if (event->button() == Qt::LeftButton && titlebarPositionUnderMouse()) { if (m_decoration.doubleClickTimer.isValid()) { const qint64 interval = m_decoration.doubleClickTimer.elapsed(); m_decoration.doubleClickTimer.invalidate(); if (interval > QGuiApplication::styleHints()->mouseDoubleClickInterval()) { m_decoration.doubleClickTimer.start(); // expired -> new first click and pot. init } else { Workspace::self()->performWindowOperation(this, options->operationTitlebarDblClick()); dontMoveResize(); return false; } } else { m_decoration.doubleClickTimer.start(); // new first click and pot. init, could be invalidated by release - see below } } if (event->button() == Qt::LeftButton) com = active ? options->commandActiveTitlebar1() : options->commandInactiveTitlebar1(); else if (event->button() == Qt::MidButton) com = active ? options->commandActiveTitlebar2() : options->commandInactiveTitlebar2(); else if (event->button() == Qt::RightButton) com = active ? options->commandActiveTitlebar3() : options->commandInactiveTitlebar3(); if (event->button() == Qt::LeftButton && com != Options::MouseOperationsMenu // actions where it's not possible to get the matching && com != Options::MouseMinimize) // mouse release event { setMoveResizePointerMode(mousePosition()); setMoveResizePointerButtonDown(true); setMoveOffset(event->pos()); setInvertedMoveOffset(rect().bottomRight() - moveOffset()); setUnrestrictedMoveResize(false); startDelayedMoveResize(); updateCursor(); } // In the new API the decoration may process the menu action to display an inactive tab's menu. // If the event is unhandled then the core will create one for the active window in the group. if (!ignoreMenu || com != Options::MouseOperationsMenu) performMouseCommand(com, event->globalPos()); return !( // Return events that should be passed to the decoration in the new API com == Options::MouseRaise || com == Options::MouseOperationsMenu || com == Options::MouseActivateAndRaise || com == Options::MouseActivate || com == Options::MouseActivateRaiseAndPassClick || com == Options::MouseActivateAndPassClick || com == Options::MouseNothing); } void AbstractClient::processDecorationButtonRelease(QMouseEvent *event) { if (isDecorated()) { if (event->isAccepted() || !titlebarPositionUnderMouse()) { invalidateDecorationDoubleClickTimer(); // click was for the deco and shall not init a doubleclick } } if (event->buttons() == Qt::NoButton) { setMoveResizePointerButtonDown(false); stopDelayedMoveResize(); if (isMoveResize()) { finishMoveResize(false); setMoveResizePointerMode(mousePosition()); } updateCursor(); } } void AbstractClient::startDecorationDoubleClickTimer() { m_decoration.doubleClickTimer.start(); } void AbstractClient::invalidateDecorationDoubleClickTimer() { m_decoration.doubleClickTimer.invalidate(); } bool AbstractClient::providesContextHelp() const { return false; } void AbstractClient::showContextHelp() { } QPointer AbstractClient::decoratedClient() const { return m_decoration.client; } void AbstractClient::setDecoratedClient(QPointer< Decoration::DecoratedClientImpl > client) { m_decoration.client = client; } void AbstractClient::enterEvent(const QPoint &globalPos) { if (options->isShadeHover()) { cancelShadeHoverTimer(); startShadeHoverTimer(); } if (options->focusPolicy() == Options::ClickToFocus || workspace()->userActionsMenu()->isShown()) return; if (options->isAutoRaise() && !isDesktop() && !isDock() && workspace()->focusChangeEnabled() && globalPos != workspace()->focusMousePosition() && workspace()->topClientOnDesktop(VirtualDesktopManager::self()->current(), options->isSeparateScreenFocus() ? screen() : -1) != this) { startAutoRaise(); } if (isDesktop() || isDock()) return; // for FocusFollowsMouse, change focus only if the mouse has actually been moved, not if the focus // change came because of window changes (e.g. closing a window) - #92290 if (options->focusPolicy() != Options::FocusFollowsMouse || globalPos != workspace()->focusMousePosition()) { workspace()->requestDelayFocus(this); } } void AbstractClient::leaveEvent() { cancelAutoRaise(); workspace()->cancelDelayFocus(); cancelShadeHoverTimer(); startShadeUnhoverTimer(); // TODO: send hover leave to deco // TODO: handle Options::FocusStrictlyUnderMouse } QRect AbstractClient::iconGeometry() const { if (!windowManagementInterface() || !waylandServer()) { // window management interface is only available if the surface is mapped return QRect(); } int minDistance = INT_MAX; AbstractClient *candidatePanel = nullptr; QRect candidateGeom; for (auto i = windowManagementInterface()->minimizedGeometries().constBegin(), end = windowManagementInterface()->minimizedGeometries().constEnd(); i != end; ++i) { AbstractClient *client = waylandServer()->findClient(i.key()); if (!client) { continue; } const int distance = QPoint(client->pos() - pos()).manhattanLength(); if (distance < minDistance) { minDistance = distance; candidatePanel = client; candidateGeom = i.value(); } } if (!candidatePanel) { return QRect(); } return candidateGeom.translated(candidatePanel->pos()); } QRect AbstractClient::inputGeometry() const { if (isDecorated()) { return Toplevel::inputGeometry() + decoration()->resizeOnlyBorders(); } return Toplevel::inputGeometry(); } QRect AbstractClient::virtualKeyboardGeometry() const { return m_virtualKeyboardGeometry; } void AbstractClient::setVirtualKeyboardGeometry(const QRect &geo) { // No keyboard anymore if (geo.isEmpty() && !m_keyboardGeometryRestore.isEmpty()) { setFrameGeometry(m_keyboardGeometryRestore); m_keyboardGeometryRestore = QRect(); } else if (geo.isEmpty()) { return; // The keyboard has just been opened (rather than resized) save client geometry for a restore } else if (m_keyboardGeometryRestore.isEmpty()) { m_keyboardGeometryRestore = frameGeometry(); } m_virtualKeyboardGeometry = geo; // Don't resize Desktop and fullscreen windows if (isFullScreen() || isDesktop()) { return; } if (!geo.intersects(m_keyboardGeometryRestore)) { return; } const QRect availableArea = workspace()->clientArea(MaximizeArea, this); QRect newWindowGeometry = m_keyboardGeometryRestore; newWindowGeometry.moveBottom(geo.top()); newWindowGeometry.setTop(qMax(newWindowGeometry.top(), availableArea.top())); setFrameGeometry(newWindowGeometry); } bool AbstractClient::dockWantsInput() const { return false; } void AbstractClient::setDesktopFileName(QByteArray name) { name = rules()->checkDesktopFile(name).toUtf8(); if (name == m_desktopFileName) { return; } m_desktopFileName = name; updateWindowRules(Rules::DesktopFile); emit desktopFileNameChanged(); } QString AbstractClient::iconFromDesktopFile() const { const QString desktopFileName = QString::fromUtf8(m_desktopFileName); QString desktopFilePath; if (QDir::isAbsolutePath(desktopFileName)) { desktopFilePath = desktopFileName; } if (desktopFilePath.isEmpty()) { desktopFilePath = QStandardPaths::locate(QStandardPaths::ApplicationsLocation, desktopFileName); } if (desktopFilePath.isEmpty()) { desktopFilePath = QStandardPaths::locate(QStandardPaths::ApplicationsLocation, desktopFileName + QLatin1String(".desktop")); } KDesktopFile df(desktopFilePath); return df.readIcon(); } bool AbstractClient::hasApplicationMenu() const { return ApplicationMenu::self()->applicationMenuEnabled() && !m_applicationMenuServiceName.isEmpty() && !m_applicationMenuObjectPath.isEmpty(); } void AbstractClient::updateApplicationMenuServiceName(const QString &serviceName) { const bool old_hasApplicationMenu = hasApplicationMenu(); m_applicationMenuServiceName = serviceName; const bool new_hasApplicationMenu = hasApplicationMenu(); emit applicationMenuChanged(); if (old_hasApplicationMenu != new_hasApplicationMenu) { emit hasApplicationMenuChanged(new_hasApplicationMenu); } } void AbstractClient::updateApplicationMenuObjectPath(const QString &objectPath) { const bool old_hasApplicationMenu = hasApplicationMenu(); m_applicationMenuObjectPath = objectPath; const bool new_hasApplicationMenu = hasApplicationMenu(); emit applicationMenuChanged(); if (old_hasApplicationMenu != new_hasApplicationMenu) { emit hasApplicationMenuChanged(new_hasApplicationMenu); } } void AbstractClient::setApplicationMenuActive(bool applicationMenuActive) { if (m_applicationMenuActive != applicationMenuActive) { m_applicationMenuActive = applicationMenuActive; emit applicationMenuActiveChanged(applicationMenuActive); } } void AbstractClient::showApplicationMenu(int actionId) { if (isDecorated()) { decoration()->showApplicationMenu(actionId); } else { // we don't know where the application menu button will be, show it in the top left corner instead Workspace::self()->showApplicationMenu(QRect(), this, actionId); } } bool AbstractClient::unresponsive() const { return m_unresponsive; } void AbstractClient::setUnresponsive(bool unresponsive) { if (m_unresponsive != unresponsive) { m_unresponsive = unresponsive; emit unresponsiveChanged(m_unresponsive); emit captionChanged(); } } QString AbstractClient::shortcutCaptionSuffix() const { if (shortcut().isEmpty()) { return QString(); } return QLatin1String(" {") + shortcut().toString() + QLatin1Char('}'); } AbstractClient *AbstractClient::findClientWithSameCaption() const { auto fetchNameInternalPredicate = [this](const AbstractClient *cl) { return (!cl->isSpecialWindow() || cl->isToolbar()) && cl != this && cl->captionNormal() == captionNormal() && cl->captionSuffix() == captionSuffix(); }; return workspace()->findAbstractClient(fetchNameInternalPredicate); } QString AbstractClient::caption() const { QString cap = captionNormal() + captionSuffix(); if (unresponsive()) { cap += QLatin1String(" "); cap += i18nc("Application is not responding, appended to window title", "(Not Responding)"); } return cap; } void AbstractClient::removeRule(Rules* rule) { m_rules.remove(rule); } void AbstractClient::discardTemporaryRules() { m_rules.discardTemporary(); } void AbstractClient::evaluateWindowRules() { setupWindowRules(true); applyWindowRules(); } void AbstractClient::setOnActivities(QStringList newActivitiesList) { Q_UNUSED(newActivitiesList) } void AbstractClient::checkNoBorder() { setNoBorder(false); } bool AbstractClient::groupTransient() const { return false; } const Group *AbstractClient::group() const { return nullptr; } Group *AbstractClient::group() { return nullptr; } bool AbstractClient::isInternal() const { return false; } bool AbstractClient::supportsWindowRules() const { return true; } QMargins AbstractClient::frameMargins() const { return QMargins(borderLeft(), borderTop(), borderRight(), borderBottom()); } QPoint AbstractClient::framePosToClientPos(const QPoint &point) const { return point + QPoint(borderLeft(), borderTop()); } QPoint AbstractClient::clientPosToFramePos(const QPoint &point) const { return point - QPoint(borderLeft(), borderTop()); } QSize AbstractClient::frameSizeToClientSize(const QSize &size) const { const int width = size.width() - borderLeft() - borderRight(); const int height = size.height() - borderTop() - borderBottom(); return QSize(width, height); } QSize AbstractClient::clientSizeToFrameSize(const QSize &size) const { const int width = size.width() + borderLeft() + borderRight(); const int height = size.height() + borderTop() + borderBottom(); return QSize(width, height); } QRect AbstractClient::frameRectToClientRect(const QRect &rect) const { const QPoint position = framePosToClientPos(rect.topLeft()); const QSize size = frameSizeToClientSize(rect.size()); return QRect(position, size); } QRect AbstractClient::clientRectToFrameRect(const QRect &rect) const { const QPoint position = clientPosToFramePos(rect.topLeft()); const QSize size = clientSizeToFrameSize(rect.size()); return QRect(position, size); } void AbstractClient::setElectricBorderMode(QuickTileMode mode) { if (mode != QuickTileMode(QuickTileFlag::Maximize)) { // sanitize the mode, ie. simplify "invalid" combinations if ((mode & QuickTileFlag::Horizontal) == QuickTileMode(QuickTileFlag::Horizontal)) mode &= ~QuickTileMode(QuickTileFlag::Horizontal); if ((mode & QuickTileFlag::Vertical) == QuickTileMode(QuickTileFlag::Vertical)) mode &= ~QuickTileMode(QuickTileFlag::Vertical); } m_electricMode = mode; } void AbstractClient::setElectricBorderMaximizing(bool maximizing) { m_electricMaximizing = maximizing; if (maximizing) outline()->show(electricBorderMaximizeGeometry(Cursors::self()->mouse()->pos(), desktop()), moveResizeGeometry()); else outline()->hide(); elevate(maximizing); } QRect AbstractClient::electricBorderMaximizeGeometry(QPoint pos, int desktop) { if (electricBorderMode() == QuickTileMode(QuickTileFlag::Maximize)) { if (maximizeMode() == MaximizeFull) return geometryRestore(); else return workspace()->clientArea(MaximizeArea, pos, desktop); } QRect ret = workspace()->clientArea(MaximizeArea, pos, desktop); if (electricBorderMode() & QuickTileFlag::Left) ret.setRight(ret.left()+ret.width()/2 - 1); else if (electricBorderMode() & QuickTileFlag::Right) ret.setLeft(ret.right()-(ret.width()-ret.width()/2) + 1); if (electricBorderMode() & QuickTileFlag::Top) ret.setBottom(ret.top()+ret.height()/2 - 1); else if (electricBorderMode() & QuickTileFlag::Bottom) ret.setTop(ret.bottom()-(ret.height()-ret.height()/2) + 1); return ret; } void AbstractClient::setQuickTileMode(QuickTileMode mode, bool keyboard) { // Only allow quick tile on a regular window. if (!isResizable()) { return; } workspace()->updateFocusMousePosition(Cursors::self()->mouse()->pos()); // may cause leave event GeometryUpdatesBlocker blocker(this); if (mode == QuickTileMode(QuickTileFlag::Maximize)) { m_quickTileMode = int(QuickTileFlag::None); if (maximizeMode() == MaximizeFull) { setMaximize(false, false); } else { QRect prev_geom_restore = geometryRestore(); // setMaximize() would set moveResizeGeom as geom_restore m_quickTileMode = int(QuickTileFlag::Maximize); setMaximize(true, true); QRect clientArea = workspace()->clientArea(MaximizeArea, this); if (frameGeometry().top() != clientArea.top()) { QRect r(frameGeometry()); r.moveTop(clientArea.top()); setFrameGeometry(r); } setGeometryRestore(prev_geom_restore); } emit quickTileModeChanged(); return; } // sanitize the mode, ie. simplify "invalid" combinations if ((mode & QuickTileFlag::Horizontal) == QuickTileMode(QuickTileFlag::Horizontal)) mode &= ~QuickTileMode(QuickTileFlag::Horizontal); if ((mode & QuickTileFlag::Vertical) == QuickTileMode(QuickTileFlag::Vertical)) mode &= ~QuickTileMode(QuickTileFlag::Vertical); setElectricBorderMode(mode); // used by ::electricBorderMaximizeGeometry(.) // restore from maximized so that it is possible to tile maximized windows with one hit or by dragging if (maximizeMode() != MaximizeRestore) { if (mode != QuickTileMode(QuickTileFlag::None)) { // decorations may turn off some borders when tiled const ForceGeometry_t geom_mode = isDecorated() ? ForceGeometrySet : NormalGeometrySet; m_quickTileMode = int(QuickTileFlag::None); // Temporary, so the maximize code doesn't get all confused setMaximize(false, false); setFrameGeometry(electricBorderMaximizeGeometry(keyboard ? frameGeometry().center() : Cursors::self()->mouse()->pos(), desktop()), geom_mode); // Store the mode change m_quickTileMode = mode; } else { m_quickTileMode = mode; setMaximize(false, false); } emit quickTileModeChanged(); return; } if (mode != QuickTileMode(QuickTileFlag::None)) { QPoint whichScreen = keyboard ? frameGeometry().center() : Cursors::self()->mouse()->pos(); // If trying to tile to the side that the window is already tiled to move the window to the next // screen if it exists, otherwise toggle the mode (set QuickTileFlag::None) if (quickTileMode() == mode) { const int numScreens = screens()->count(); const int curScreen = screen(); int nextScreen = curScreen; QVarLengthArray screens(numScreens); for (int i = 0; i < numScreens; ++i) // Cache screens[i] = Screens::self()->geometry(i); for (int i = 0; i < numScreens; ++i) { if (i == curScreen) continue; if (screens[i].bottom() <= screens[curScreen].top() || screens[i].top() >= screens[curScreen].bottom()) continue; // not in horizontal line const int x = screens[i].center().x(); if ((mode & QuickTileFlag::Horizontal) == QuickTileMode(QuickTileFlag::Left)) { if (x >= screens[curScreen].center().x() || (curScreen != nextScreen && x <= screens[nextScreen].center().x())) continue; // not left of current or more left then found next } else if ((mode & QuickTileFlag::Horizontal) == QuickTileMode(QuickTileFlag::Right)) { if (x <= screens[curScreen].center().x() || (curScreen != nextScreen && x >= screens[nextScreen].center().x())) continue; // not right of current or more right then found next } nextScreen = i; } if (nextScreen == curScreen) { mode = QuickTileFlag::None; // No other screens, toggle tiling } else { // Move to other screen setFrameGeometry(geometryRestore().translated(screens[nextScreen].topLeft() - screens[curScreen].topLeft())); whichScreen = screens[nextScreen].center(); // Swap sides if (mode & QuickTileFlag::Horizontal) { mode = (~mode & QuickTileFlag::Horizontal) | (mode & QuickTileFlag::Vertical); } } setElectricBorderMode(mode); // used by ::electricBorderMaximizeGeometry(.) } else if (quickTileMode() == QuickTileMode(QuickTileFlag::None)) { // Not coming out of an existing tile, not shifting monitors, we're setting a brand new tile. // Store geometry first, so we can go out of this tile later. setGeometryRestore(frameGeometry()); } if (mode != QuickTileMode(QuickTileFlag::None)) { m_quickTileMode = mode; // decorations may turn off some borders when tiled const ForceGeometry_t geom_mode = isDecorated() ? ForceGeometrySet : NormalGeometrySet; // Temporary, so the maximize code doesn't get all confused m_quickTileMode = int(QuickTileFlag::None); setFrameGeometry(electricBorderMaximizeGeometry(whichScreen, desktop()), geom_mode); } // Store the mode change m_quickTileMode = mode; } if (mode == QuickTileMode(QuickTileFlag::None)) { m_quickTileMode = int(QuickTileFlag::None); // Untiling, so just restore geometry, and we're done. if (!geometryRestore().isValid()) // invalid if we started maximized and wait for placement setGeometryRestore(frameGeometry()); // decorations may turn off some borders when tiled const ForceGeometry_t geom_mode = isDecorated() ? ForceGeometrySet : NormalGeometrySet; setFrameGeometry(geometryRestore(), geom_mode); checkWorkspacePosition(); // Just in case it's a different screen } emit quickTileModeChanged(); } void AbstractClient::sendToScreen(int newScreen) { newScreen = rules()->checkScreen(newScreen); if (isActive()) { screens()->setCurrent(newScreen); // might impact the layer of a fullscreen window foreach (AbstractClient *cc, workspace()->allClientList()) { if (cc->isFullScreen() && cc->screen() == newScreen) { cc->updateLayer(); } } } if (screen() == newScreen) // Don't use isOnScreen(), that's true even when only partially return; GeometryUpdatesBlocker blocker(this); // operating on the maximized / quicktiled window would leave the old geom_restore behind, // so we clear the state first MaximizeMode maxMode = maximizeMode(); QuickTileMode qtMode = quickTileMode(); if (maxMode != MaximizeRestore) maximize(MaximizeRestore); if (qtMode != QuickTileMode(QuickTileFlag::None)) setQuickTileMode(QuickTileFlag::None, true); QRect oldScreenArea = workspace()->clientArea(MaximizeArea, this); QRect screenArea = workspace()->clientArea(MaximizeArea, newScreen, desktop()); // the window can have its center so that the position correction moves the new center onto // the old screen, what will tile it where it is. Ie. the screen is not changed // this happens esp. with electric border quicktiling if (qtMode != QuickTileMode(QuickTileFlag::None)) keepInArea(oldScreenArea); QRect oldGeom = frameGeometry(); QRect newGeom = oldGeom; // move the window to have the same relative position to the center of the screen // (i.e. one near the middle of the right edge will also end up near the middle of the right edge) QPoint center = newGeom.center() - oldScreenArea.center(); center.setX(center.x() * screenArea.width() / oldScreenArea.width()); center.setY(center.y() * screenArea.height() / oldScreenArea.height()); center += screenArea.center(); newGeom.moveCenter(center); setFrameGeometry(newGeom); // If the window was inside the old screen area, explicitly make sure its inside also the new screen area. // Calling checkWorkspacePosition() should ensure that, but when moving to a small screen the window could // be big enough to overlap outside of the new screen area, making struts from other screens come into effect, // which could alter the resulting geometry. if (oldScreenArea.contains(oldGeom)) { keepInArea(screenArea); } // align geom_restore - checkWorkspacePosition operates on it setGeometryRestore(frameGeometry()); checkWorkspacePosition(oldGeom); // re-align geom_restore to constrained geometry setGeometryRestore(frameGeometry()); // finally reset special states // NOTICE that MaximizeRestore/QuickTileFlag::None checks are required. // eg. setting QuickTileFlag::None would break maximization if (maxMode != MaximizeRestore) maximize(maxMode); if (qtMode != QuickTileMode(QuickTileFlag::None) && qtMode != quickTileMode()) setQuickTileMode(qtMode, true); auto tso = workspace()->ensureStackingOrder(transients()); for (auto it = tso.constBegin(), end = tso.constEnd(); it != end; ++it) (*it)->sendToScreen(newScreen); } void AbstractClient::checkWorkspacePosition(QRect oldGeometry, int oldDesktop, QRect oldClientGeometry) { enum { Left = 0, Top, Right, Bottom }; const int border[4] = { borderLeft(), borderTop(), borderRight(), borderBottom() }; if( !oldGeometry.isValid()) oldGeometry = frameGeometry(); if( oldDesktop == -2 ) oldDesktop = desktop(); if (!oldClientGeometry.isValid()) oldClientGeometry = oldGeometry.adjusted(border[Left], border[Top], -border[Right], -border[Bottom]); if (isDesktop()) return; if (isFullScreen()) { QRect area = workspace()->clientArea(FullScreenArea, this); if (frameGeometry() != area) setFrameGeometry(area); return; } if (isDock()) return; if (maximizeMode() != MaximizeRestore) { // TODO update geom_restore? changeMaximize(false, false, true); // adjust size const QRect screenArea = workspace()->clientArea(ScreenArea, this); QRect geom = frameGeometry(); checkOffscreenPosition(&geom, screenArea); setFrameGeometry(geom); return; } if (quickTileMode() != QuickTileMode(QuickTileFlag::None)) { setFrameGeometry(electricBorderMaximizeGeometry(frameGeometry().center(), desktop())); return; } // this can be true only if this window was mapped before KWin // was started - in such case, don't adjust position to workarea, // because the window already had its position, and if a window // with a strut altering the workarea would be managed in initialization // after this one, this window would be moved if (!workspace() || workspace()->initializing()) return; // If the window was touching an edge before but not now move it so it is again. // Old and new maximums have different starting values so windows on the screen // edge will move when a new strut is placed on the edge. QRect oldScreenArea; if( workspace()->inUpdateClientArea()) { // we need to find the screen area as it was before the change oldScreenArea = QRect( 0, 0, workspace()->oldDisplayWidth(), workspace()->oldDisplayHeight()); int distance = INT_MAX; foreach(const QRect &r, workspace()->previousScreenSizes()) { int d = r.contains( oldGeometry.center()) ? 0 : ( r.center() - oldGeometry.center()).manhattanLength(); if( d < distance ) { distance = d; oldScreenArea = r; } } } else { oldScreenArea = workspace()->clientArea(ScreenArea, oldGeometry.center(), oldDesktop); } const QRect oldGeomTall = QRect(oldGeometry.x(), oldScreenArea.y(), oldGeometry.width(), oldScreenArea.height()); // Full screen height const QRect oldGeomWide = QRect(oldScreenArea.x(), oldGeometry.y(), oldScreenArea.width(), oldGeometry.height()); // Full screen width int oldTopMax = oldScreenArea.y(); int oldRightMax = oldScreenArea.x() + oldScreenArea.width(); int oldBottomMax = oldScreenArea.y() + oldScreenArea.height(); int oldLeftMax = oldScreenArea.x(); const QRect screenArea = workspace()->clientArea(ScreenArea, geometryRestore().center(), desktop()); int topMax = screenArea.y(); int rightMax = screenArea.x() + screenArea.width(); int bottomMax = screenArea.y() + screenArea.height(); int leftMax = screenArea.x(); QRect newGeom = geometryRestore(); // geometry(); QRect newClientGeom = newGeom.adjusted(border[Left], border[Top], -border[Right], -border[Bottom]); const QRect newGeomTall = QRect(newGeom.x(), screenArea.y(), newGeom.width(), screenArea.height()); // Full screen height const QRect newGeomWide = QRect(screenArea.x(), newGeom.y(), screenArea.width(), newGeom.height()); // Full screen width // Get the max strut point for each side where the window is (E.g. Highest point for // the bottom struts bounded by the window's left and right sides). // These 4 compute old bounds ... auto moveAreaFunc = workspace()->inUpdateClientArea() ? &Workspace::previousRestrictedMoveArea : //... the restricted areas changed &Workspace::restrictedMoveArea; //... when e.g. active desktop or screen changes for (const QRect &r : (workspace()->*moveAreaFunc)(oldDesktop, StrutAreaTop)) { QRect rect = r & oldGeomTall; if (!rect.isEmpty()) oldTopMax = qMax(oldTopMax, rect.y() + rect.height()); } for (const QRect &r : (workspace()->*moveAreaFunc)(oldDesktop, StrutAreaRight)) { QRect rect = r & oldGeomWide; if (!rect.isEmpty()) oldRightMax = qMin(oldRightMax, rect.x()); } for (const QRect &r : (workspace()->*moveAreaFunc)(oldDesktop, StrutAreaBottom)) { QRect rect = r & oldGeomTall; if (!rect.isEmpty()) oldBottomMax = qMin(oldBottomMax, rect.y()); } for (const QRect &r : (workspace()->*moveAreaFunc)(oldDesktop, StrutAreaLeft)) { QRect rect = r & oldGeomWide; if (!rect.isEmpty()) oldLeftMax = qMax(oldLeftMax, rect.x() + rect.width()); } // These 4 compute new bounds for (const QRect &r : workspace()->restrictedMoveArea(desktop(), StrutAreaTop)) { QRect rect = r & newGeomTall; if (!rect.isEmpty()) topMax = qMax(topMax, rect.y() + rect.height()); } for (const QRect &r : workspace()->restrictedMoveArea(desktop(), StrutAreaRight)) { QRect rect = r & newGeomWide; if (!rect.isEmpty()) rightMax = qMin(rightMax, rect.x()); } for (const QRect &r : workspace()->restrictedMoveArea(desktop(), StrutAreaBottom)) { QRect rect = r & newGeomTall; if (!rect.isEmpty()) bottomMax = qMin(bottomMax, rect.y()); } for (const QRect &r : workspace()->restrictedMoveArea(desktop(), StrutAreaLeft)) { QRect rect = r & newGeomWide; if (!rect.isEmpty()) leftMax = qMax(leftMax, rect.x() + rect.width()); } // Check if the sides were inside or touching but are no longer bool keep[4] = {false, false, false, false}; bool save[4] = {false, false, false, false}; int padding[4] = {0, 0, 0, 0}; if (oldGeometry.x() >= oldLeftMax) save[Left] = newGeom.x() < leftMax; if (oldGeometry.x() == oldLeftMax) keep[Left] = newGeom.x() != leftMax; else if (oldClientGeometry.x() == oldLeftMax && newClientGeom.x() != leftMax) { padding[0] = border[Left]; keep[Left] = true; } if (oldGeometry.y() >= oldTopMax) save[Top] = newGeom.y() < topMax; if (oldGeometry.y() == oldTopMax) keep[Top] = newGeom.y() != topMax; else if (oldClientGeometry.y() == oldTopMax && newClientGeom.y() != topMax) { padding[1] = border[Left]; keep[Top] = true; } if (oldGeometry.right() <= oldRightMax - 1) save[Right] = newGeom.right() > rightMax - 1; if (oldGeometry.right() == oldRightMax - 1) keep[Right] = newGeom.right() != rightMax - 1; else if (oldClientGeometry.right() == oldRightMax - 1 && newClientGeom.right() != rightMax - 1) { padding[2] = border[Right]; keep[Right] = true; } if (oldGeometry.bottom() <= oldBottomMax - 1) save[Bottom] = newGeom.bottom() > bottomMax - 1; if (oldGeometry.bottom() == oldBottomMax - 1) keep[Bottom] = newGeom.bottom() != bottomMax - 1; else if (oldClientGeometry.bottom() == oldBottomMax - 1 && newClientGeom.bottom() != bottomMax - 1) { padding[3] = border[Bottom]; keep[Bottom] = true; } // if randomly touches opposing edges, do not favor either if (keep[Left] && keep[Right]) { keep[Left] = keep[Right] = false; padding[0] = padding[2] = 0; } if (keep[Top] && keep[Bottom]) { keep[Top] = keep[Bottom] = false; padding[1] = padding[3] = 0; } if (save[Left] || keep[Left]) newGeom.moveLeft(qMax(leftMax, screenArea.x()) - padding[0]); if (padding[0] && screens()->intersecting(newGeom) > 1) newGeom.moveLeft(newGeom.left() + padding[0]); if (save[Top] || keep[Top]) newGeom.moveTop(qMax(topMax, screenArea.y()) - padding[1]); if (padding[1] && screens()->intersecting(newGeom) > 1) newGeom.moveTop(newGeom.top() + padding[1]); if (save[Right] || keep[Right]) newGeom.moveRight(qMin(rightMax - 1, screenArea.right()) + padding[2]); if (padding[2] && screens()->intersecting(newGeom) > 1) newGeom.moveRight(newGeom.right() - padding[2]); if (oldGeometry.x() >= oldLeftMax && newGeom.x() < leftMax) newGeom.setLeft(qMax(leftMax, screenArea.x())); else if (oldClientGeometry.x() >= oldLeftMax && newGeom.x() + border[Left] < leftMax) { newGeom.setLeft(qMax(leftMax, screenArea.x()) - border[Left]); if (screens()->intersecting(newGeom) > 1) newGeom.setLeft(newGeom.left() + border[Left]); } if (save[Bottom] || keep[Bottom]) newGeom.moveBottom(qMin(bottomMax - 1, screenArea.bottom()) + padding[3]); if (padding[3] && screens()->intersecting(newGeom) > 1) newGeom.moveBottom(newGeom.bottom() - padding[3]); if (oldGeometry.y() >= oldTopMax && newGeom.y() < topMax) newGeom.setTop(qMax(topMax, screenArea.y())); else if (oldClientGeometry.y() >= oldTopMax && newGeom.y() + border[Top] < topMax) { newGeom.setTop(qMax(topMax, screenArea.y()) - border[Top]); if (screens()->intersecting(newGeom) > 1) newGeom.setTop(newGeom.top() + border[Top]); } checkOffscreenPosition(&newGeom, screenArea); // Obey size hints. TODO: We really should make sure it stays in the right place if (!isShade()) newGeom.setSize(constrainFrameSize(newGeom.size())); if (newGeom != frameGeometry()) setFrameGeometry(newGeom); } void AbstractClient::checkOffscreenPosition(QRect* geom, const QRect& screenArea) { if (geom->left() > screenArea.right()) { geom->moveLeft(screenArea.right() - screenArea.width()/4); } else if (geom->right() < screenArea.left()) { geom->moveRight(screenArea.left() + screenArea.width()/4); } if (geom->top() > screenArea.bottom()) { geom->moveTop(screenArea.bottom() - screenArea.height()/4); } else if (geom->bottom() < screenArea.top()) { geom->moveBottom(screenArea.top() + screenArea.width()/4); } } /** * Returns the appropriate frame size for the current client size. * * This is equivalent to clientSizeToFrameSize(constrainClientSize(clientSize())). */ QSize AbstractClient::adjustedSize() const { return clientSizeToFrameSize(constrainClientSize(clientSize())); } /** * Constrains the client size @p size according to a set of the window's size hints. * * Default implementation applies only minimum and maximum size constraints. */ QSize AbstractClient::constrainClientSize(const QSize &size, SizeMode mode) const { Q_UNUSED(mode) int width = size.width(); int height = size.height(); // When user is resizing the window, the move resize geometry may have negative width or // height. In which case, we need to set negative dimensions to reasonable values. if (width < 1) { width = 1; } if (height < 1) { height = 1; } const QSize minimumSize = minSize(); const QSize maximumSize = maxSize(); width = qBound(minimumSize.width(), width, maximumSize.width()); height = qBound(minimumSize.height(), height, maximumSize.height()); return QSize(width, height); } /** * Constrains the frame size @p size according to a set of the window's size hints. */ QSize AbstractClient::constrainFrameSize(const QSize &size, SizeMode mode) const { const QSize unconstrainedClientSize = frameSizeToClientSize(size); const QSize constrainedClientSize = constrainClientSize(unconstrainedClientSize, mode); return clientSizeToFrameSize(constrainedClientSize); } /** * Returns @c true if the AbstractClient can be shown in full screen mode; otherwise @c false. * * Default implementation returns @c false. */ bool AbstractClient::isFullScreenable() const { return false; } /** * Returns @c true if the AbstractClient is currently being shown in full screen mode; otherwise @c false. * * A client in full screen mode occupies the entire screen with no window frame around it. * * Default implementation returns @c false. */ bool AbstractClient::isFullScreen() const { return false; } /** * Returns whether requests initiated by the user to enter or leave full screen mode are honored. * * Default implementation returns @c false. */ bool AbstractClient::userCanSetFullScreen() const { return false; } /** * Asks the AbstractClient to enter or leave full screen mode. * * Default implementation does nothing. * * @param set @c true if the AbstractClient has to be shown in full screen mode, otherwise @c false * @param user @c true if the request is initiated by the user, otherwise @c false */ void AbstractClient::setFullScreen(bool set, bool user) { Q_UNUSED(set) Q_UNUSED(user) } /** * Returns @c true if the AbstractClient can be minimized; otherwise @c false. * * Default implementation returns @c false. */ bool AbstractClient::isMinimizable() const { return false; } /** * Returns @c true if the AbstractClient can be maximized; otherwise @c false. * * Default implementation returns @c false. */ bool AbstractClient::isMaximizable() const { return false; } /** * Returns the currently applied maximize mode. * * Default implementation returns MaximizeRestore. */ MaximizeMode AbstractClient::maximizeMode() const { return MaximizeRestore; } /** * Returns the last requested maximize mode. * * On X11, this method always matches maximizeMode(). On Wayland, it is asynchronous. * * Default implementation matches maximizeMode(). */ MaximizeMode AbstractClient::requestedMaximizeMode() const { return maximizeMode(); } /** * Returns the geometry of the AbstractClient before it was maximized or quick tiled. */ QRect AbstractClient::geometryRestore() const { return m_maximizeGeometryRestore; } /** * Sets the geometry of the AbstractClient before it was maximized or quick tiled to @p rect. */ void AbstractClient::setGeometryRestore(const QRect &rect) { m_maximizeGeometryRestore = rect; } /** * Toggles the maximized state along specified dimensions @p horizontal and @p vertical. * * If @p adjust is @c true, only frame geometry will be updated to match requestedMaximizeMode(). * * Default implementation does nothing. */ void AbstractClient::changeMaximize(bool horizontal, bool vertical, bool adjust) { Q_UNUSED(horizontal) Q_UNUSED(vertical) Q_UNUSED(adjust) } } diff --git a/abstract_client.h b/abstract_client.h index e574d245e..cf6c3fccd 100644 --- a/abstract_client.h +++ b/abstract_client.h @@ -1,1370 +1,1372 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2015 Martin Gräßlin Copyright (C) 2019 Vlad Zahorodnii This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ #ifndef KWIN_ABSTRACT_CLIENT_H #define KWIN_ABSTRACT_CLIENT_H #include "toplevel.h" #include "options.h" #include "rules.h" #include "cursor.h" #include #include #include namespace KWaylandServer { class PlasmaWindowInterface; } namespace KDecoration2 { class Decoration; } namespace KWin { class Group; namespace TabBox { class TabBoxClientImpl; } namespace Decoration { class DecoratedClientImpl; class DecorationPalette; } class KWIN_EXPORT AbstractClient : public Toplevel { Q_OBJECT /** * Whether this Client is fullScreen. A Client might either be fullScreen due to the _NET_WM property * or through a legacy support hack. The fullScreen state can only be changed if the Client does not * use the legacy hack. To be sure whether the state changed, connect to the notify signal. */ Q_PROPERTY(bool fullScreen READ isFullScreen WRITE setFullScreen NOTIFY fullScreenChanged) /** * Whether the Client can be set to fullScreen. The property is evaluated each time it is invoked. * Because of that there is no notify signal. */ Q_PROPERTY(bool fullScreenable READ isFullScreenable) /** * Whether this Client is active or not. Use Workspace::activateClient() to activate a Client. * @see Workspace::activateClient */ Q_PROPERTY(bool active READ isActive NOTIFY activeChanged) /** * The desktop this Client is on. If the Client is on all desktops the property has value -1. * This is a legacy property, use x11DesktopIds instead */ Q_PROPERTY(int desktop READ desktop WRITE setDesktop NOTIFY desktopChanged) /** * Whether the Client is on all desktops. That is desktop is -1. */ Q_PROPERTY(bool onAllDesktops READ isOnAllDesktops WRITE setOnAllDesktops NOTIFY desktopChanged) /** * The x11 ids for all desktops this client is in. On X11 this list will always have a length of 1 */ Q_PROPERTY(QVector x11DesktopIds READ x11DesktopIds NOTIFY x11DesktopIdsChanged) /** * Indicates that the window should not be included on a taskbar. */ Q_PROPERTY(bool skipTaskbar READ skipTaskbar WRITE setSkipTaskbar NOTIFY skipTaskbarChanged) /** * Indicates that the window should not be included on a Pager. */ Q_PROPERTY(bool skipPager READ skipPager WRITE setSkipPager NOTIFY skipPagerChanged) /** * Whether the Client should be excluded from window switching effects. */ Q_PROPERTY(bool skipSwitcher READ skipSwitcher WRITE setSkipSwitcher NOTIFY skipSwitcherChanged) /** * Whether the window can be closed by the user. The value is evaluated each time the getter is called. * Because of that no changed signal is provided. */ Q_PROPERTY(bool closeable READ isCloseable) Q_PROPERTY(QIcon icon READ icon NOTIFY iconChanged) /** * Whether the Client is set to be kept above other windows. */ Q_PROPERTY(bool keepAbove READ keepAbove WRITE setKeepAbove NOTIFY keepAboveChanged) /** * Whether the Client is set to be kept below other windows. */ Q_PROPERTY(bool keepBelow READ keepBelow WRITE setKeepBelow NOTIFY keepBelowChanged) /** * Whether the Client can be shaded. The property is evaluated each time it is invoked. * Because of that there is no notify signal. */ Q_PROPERTY(bool shadeable READ isShadeable) /** * Whether the Client is shaded. */ Q_PROPERTY(bool shade READ isShade WRITE setShade NOTIFY shadeChanged) /** * Whether the Client can be minimized. The property is evaluated each time it is invoked. * Because of that there is no notify signal. */ Q_PROPERTY(bool minimizable READ isMinimizable) /** * Whether the Client is minimized. */ Q_PROPERTY(bool minimized READ isMinimized WRITE setMinimized NOTIFY minimizedChanged) /** * The optional geometry representing the minimized Client in e.g a taskbar. * See _NET_WM_ICON_GEOMETRY at https://standards.freedesktop.org/wm-spec/wm-spec-latest.html . * The value is evaluated each time the getter is called. * Because of that no changed signal is provided. */ Q_PROPERTY(QRect iconGeometry READ iconGeometry) /** * Returns whether the window is any of special windows types (desktop, dock, splash, ...), * i.e. window types that usually don't have a window frame and the user does not use window * management (moving, raising,...) on them. * The value is evaluated each time the getter is called. * Because of that no changed signal is provided. */ Q_PROPERTY(bool specialWindow READ isSpecialWindow) /** * Whether window state _NET_WM_STATE_DEMANDS_ATTENTION is set. This state indicates that some * action in or with the window happened. For example, it may be set by the Window Manager if * the window requested activation but the Window Manager refused it, or the application may set * it if it finished some work. This state may be set by both the Client and the Window Manager. * It should be unset by the Window Manager when it decides the window got the required attention * (usually, that it got activated). */ Q_PROPERTY(bool demandsAttention READ isDemandingAttention WRITE demandAttention NOTIFY demandsAttentionChanged) /** * The Caption of the Client. Read from WM_NAME property together with a suffix for hostname and shortcut. * To read only the caption as provided by WM_NAME, use the getter with an additional @c false value. */ Q_PROPERTY(QString caption READ caption NOTIFY captionChanged) /** * Minimum size as specified in WM_NORMAL_HINTS */ Q_PROPERTY(QSize minSize READ minSize) /** * Maximum size as specified in WM_NORMAL_HINTS */ Q_PROPERTY(QSize maxSize READ maxSize) /** * Whether the Client can accept keyboard focus. * The value is evaluated each time the getter is called. * Because of that no changed signal is provided. */ Q_PROPERTY(bool wantsInput READ wantsInput) /** * Whether the Client is a transient Window to another Window. * @see transientFor */ Q_PROPERTY(bool transient READ isTransient NOTIFY transientChanged) /** * The Client to which this Client is a transient if any. */ Q_PROPERTY(KWin::AbstractClient *transientFor READ transientFor NOTIFY transientChanged) /** * Whether the Client represents a modal window. */ Q_PROPERTY(bool modal READ isModal NOTIFY modalChanged) /** * The geometry of this Client. Be aware that depending on resize mode the frameGeometryChanged * signal might be emitted at each resize step or only at the end of the resize operation. * * @deprecated Use frameGeometry */ Q_PROPERTY(QRect geometry READ frameGeometry WRITE setFrameGeometry) /** * The geometry of this Client. Be aware that depending on resize mode the frameGeometryChanged * signal might be emitted at each resize step or only at the end of the resize operation. */ Q_PROPERTY(QRect frameGeometry READ frameGeometry WRITE setFrameGeometry) /** * Whether the Client is currently being moved by the user. * Notify signal is emitted when the Client starts or ends move/resize mode. */ Q_PROPERTY(bool move READ isMove NOTIFY moveResizedChanged) /** * Whether the Client is currently being resized by the user. * Notify signal is emitted when the Client starts or ends move/resize mode. */ Q_PROPERTY(bool resize READ isResize NOTIFY moveResizedChanged) /** * Whether the decoration is currently using an alpha channel. */ Q_PROPERTY(bool decorationHasAlpha READ decorationHasAlpha) /** * Whether the window has a decoration or not. * This property is not allowed to be set by applications themselves. * The decision whether a window has a border or not belongs to the window manager. * If this property gets abused by application developers, it will be removed again. */ Q_PROPERTY(bool noBorder READ noBorder WRITE setNoBorder) /** * Whether the Client provides context help. Mostly needed by decorations to decide whether to * show the help button or not. */ Q_PROPERTY(bool providesContextHelp READ providesContextHelp CONSTANT) /** * Whether the Client can be maximized both horizontally and vertically. * The property is evaluated each time it is invoked. * Because of that there is no notify signal. */ Q_PROPERTY(bool maximizable READ isMaximizable) /** * Whether the Client is moveable. Even if it is not moveable, it might be possible to move * it to another screen. The property is evaluated each time it is invoked. * Because of that there is no notify signal. * @see moveableAcrossScreens */ Q_PROPERTY(bool moveable READ isMovable) /** * Whether the Client can be moved to another screen. The property is evaluated each time it is invoked. * Because of that there is no notify signal. * @see moveable */ Q_PROPERTY(bool moveableAcrossScreens READ isMovableAcrossScreens) /** * Whether the Client can be resized. The property is evaluated each time it is invoked. * Because of that there is no notify signal. */ Q_PROPERTY(bool resizeable READ isResizable) /** * The desktop file name of the application this AbstractClient belongs to. * * This is either the base name without full path and without file extension of the * desktop file for the window's application (e.g. "org.kde.foo"). * * The application's desktop file name can also be the full path to the desktop file * (e.g. "/opt/kde/share/org.kde.foo.desktop") in case it's not in a standard location. */ Q_PROPERTY(QByteArray desktopFileName READ desktopFileName NOTIFY desktopFileNameChanged) /** * Whether an application menu is available for this Client */ Q_PROPERTY(bool hasApplicationMenu READ hasApplicationMenu NOTIFY hasApplicationMenuChanged) /** * Whether the application menu for this Client is currently opened */ Q_PROPERTY(bool applicationMenuActive READ applicationMenuActive NOTIFY applicationMenuActiveChanged) /** * Whether this client is unresponsive. * * When an application failed to react on a ping request in time, it is * considered unresponsive. This usually indicates that the application froze or crashed. */ Q_PROPERTY(bool unresponsive READ unresponsive NOTIFY unresponsiveChanged) /** * The color scheme set on this client * Absolute file path, or name of palette in the user's config directory following KColorSchemes format. * An empty string indicates the default palette from kdeglobals is used. * @note this indicates the colour scheme requested, which might differ from the theme applied if the colorScheme cannot be found */ Q_PROPERTY(QString colorScheme READ colorScheme NOTIFY colorSchemeChanged) public: ~AbstractClient() override; QWeakPointer tabBoxClient() const { return m_tabBoxClient.toWeakRef(); } bool isFirstInTabBox() const { return m_firstInTabBox; } bool skipSwitcher() const { return m_skipSwitcher; } void setSkipSwitcher(bool set); bool skipTaskbar() const { return m_skipTaskbar; } void setSkipTaskbar(bool set); void setOriginalSkipTaskbar(bool set); bool originalSkipTaskbar() const { return m_originalSkipTaskbar; } bool skipPager() const { return m_skipPager; } void setSkipPager(bool set); const QIcon &icon() const { return m_icon; } bool isActive() const { return m_active; } /** * Sets the client's active state to \a act. * * This function does only change the visual appearance of the client, * it does not change the focus setting. Use * Workspace::activateClient() or Workspace::requestFocus() instead. * * If a client receives or looses the focus, it calls setActive() on * its own. */ void setActive(bool); bool keepAbove() const { return m_keepAbove; } void setKeepAbove(bool); bool keepBelow() const { return m_keepBelow; } void setKeepBelow(bool); void demandAttention(bool set = true); bool isDemandingAttention() const { return m_demandsAttention; } void cancelAutoRaise(); bool wantsTabFocus() const; QMargins frameMargins() const override; QPoint clientPos() const override { return QPoint(borderLeft(), borderTop()); } virtual void updateMouseGrab(); /** * @returns The caption consisting of captionNormal and captionSuffix * @see captionNormal * @see captionSuffix */ QString caption() const; /** * @returns The caption as set by the AbstractClient without any suffix. * @see caption * @see captionSuffix */ virtual QString captionNormal() const = 0; /** * @returns The suffix added to the caption (e.g. shortcut, machine name, etc.) * @see caption * @see captionNormal */ virtual QString captionSuffix() const = 0; virtual bool isCloseable() const = 0; // TODO: remove boolean trap virtual bool isShown(bool shaded_is_shown) const = 0; virtual bool isHiddenInternal() const = 0; // TODO: remove boolean trap virtual void hideClient(bool hide) = 0; virtual bool isFullScreenable() const; virtual bool isFullScreen() const; // TODO: remove boolean trap virtual AbstractClient *findModal(bool allow_itself = false) = 0; virtual bool isTransient() const; /** * @returns Whether there is a hint available to place the AbstractClient on it's parent, default @c false. * @see transientPlacementHint */ virtual bool hasTransientPlacementHint() const; /** * Only valid id hasTransientPlacementHint is true * @returns The position the transient wishes to position itself */ virtual QRect transientPlacement(const QRect &bounds) const; const AbstractClient* transientFor() const; AbstractClient* transientFor(); /** * @returns @c true if c is the transient_for window for this client, * or recursively the transient_for window * @todo: remove boolean trap */ virtual bool hasTransient(const AbstractClient* c, bool indirect) const; const QList& transients() const; // Is not indirect virtual void addTransient(AbstractClient *client); virtual void removeTransient(AbstractClient* cl); virtual QList mainClients() const; // Call once before loop , is not indirect QList allMainClients() const; // Call once before loop , is indirect /** * Returns true for "special" windows and false for windows which are "normal" * (normal=window which has a border, can be moved by the user, can be closed, etc.) * true for Desktop, Dock, Splash, Override and TopMenu (and Toolbar??? - for now) * false for Normal, Dialog, Utility and Menu (and Toolbar??? - not yet) TODO */ bool isSpecialWindow() const; void sendToScreen(int screen); const QKeySequence &shortcut() const { return _shortcut; } void setShortcut(const QString &cut); bool performMouseCommand(Options::MouseCommand, const QPoint &globalPos); void setOnAllDesktops(bool set); void setDesktop(int); void enterDesktop(VirtualDesktop *desktop); void leaveDesktop(VirtualDesktop *desktop); /** * Set the window as being on the attached list of desktops * On X11 it will be set to the last entry */ void setDesktops(QVector desktops); int desktop() const override { return m_desktops.isEmpty() ? (int)NET::OnAllDesktops : m_desktops.last()->x11DesktopNumber(); } QVector desktops() const override { return m_desktops; } QVector x11DesktopIds() const; void setMinimized(bool set); /** * Minimizes this client plus its transients */ void minimize(bool avoid_animation = false); void unminimize(bool avoid_animation = false); bool isMinimized() const { return m_minimized; } virtual void setFullScreen(bool set, bool user = true); virtual void setClientShown(bool shown); QRect geometryRestore() const; virtual MaximizeMode maximizeMode() const; virtual MaximizeMode requestedMaximizeMode() const; void maximize(MaximizeMode); /** * Sets the maximization according to @p vertically and @p horizontally. */ Q_INVOKABLE void setMaximize(bool vertically, bool horizontally); virtual bool noBorder() const = 0; virtual void setNoBorder(bool set) = 0; virtual void blockActivityUpdates(bool b = true) = 0; QPalette palette() const; const Decoration::DecorationPalette *decorationPalette() const; /** * Returns whether the window is resizable or has a fixed size. */ virtual bool isResizable() const = 0; /** * Returns whether the window is moveable or has a fixed position. */ virtual bool isMovable() const = 0; /** * Returns whether the window can be moved to another screen. */ virtual bool isMovableAcrossScreens() const = 0; /** * @c true only for @c ShadeNormal */ bool isShade() const { return shadeMode() == ShadeNormal; } ShadeMode shadeMode() const; // Prefer isShade() void setShade(bool set); void setShade(ShadeMode mode); void toggleShade(); void cancelShadeHoverTimer(); /** * Whether the Client can be shaded. Default implementation returns @c false. */ virtual bool isShadeable() const; virtual bool isMaximizable() const; virtual bool isMinimizable() const; virtual QRect iconGeometry() const; virtual bool userCanSetFullScreen() const; virtual bool userCanSetNoBorder() const = 0; virtual void checkNoBorder(); virtual void setOnActivities(QStringList newActivitiesList); virtual void setOnAllActivities(bool set) = 0; const WindowRules* rules() const { return &m_rules; } void removeRule(Rules* r); void setupWindowRules(bool ignore_temporary); void evaluateWindowRules(); virtual void applyWindowRules(); virtual void takeFocus() = 0; virtual bool wantsInput() const = 0; /** * Whether a dock window wants input. * * By default KWin doesn't pass focus to a dock window unless a force activate * request is provided. * * This method allows to have dock windows take focus also through flags set on * the window. * * The default implementation returns @c false. */ virtual bool dockWantsInput() const; void checkWorkspacePosition(QRect oldGeometry = QRect(), int oldDesktop = -2, QRect oldClientGeometry = QRect()); virtual xcb_timestamp_t userTime() const; virtual void updateWindowRules(Rules::Types selection); void growHorizontal(); void shrinkHorizontal(); void growVertical(); void shrinkVertical(); void updateMoveResize(const QPointF ¤tGlobalCursor); /** * Ends move resize when all pointer buttons are up again. */ void endMoveResize(); void keyPressEvent(uint key_code); void enterEvent(const QPoint &globalPos); void leaveEvent(); /** * These values represent positions inside an area */ enum Position { // without prefix, they'd conflict with Qt::TopLeftCorner etc. :( PositionCenter = 0x00, PositionLeft = 0x01, PositionRight = 0x02, PositionTop = 0x04, PositionBottom = 0x08, PositionTopLeft = PositionLeft | PositionTop, PositionTopRight = PositionRight | PositionTop, PositionBottomLeft = PositionLeft | PositionBottom, PositionBottomRight = PositionRight | PositionBottom }; Position titlebarPosition() const; bool titlebarPositionUnderMouse() const; // a helper for the workspace window packing. tests for screen validity and updates since in maximization case as with normal moving void packTo(int left, int top); /** * Sets the quick tile mode ("snap") of this window. * This will also handle preserving and restoring of window geometry as necessary. * @param mode The tile mode (left/right) to give this window. * @param keyboard Defines whether to take keyboard cursor into account. */ void setQuickTileMode(QuickTileMode mode, bool keyboard = false); QuickTileMode quickTileMode() const { return QuickTileMode(m_quickTileMode); } Layer layer() const override; void updateLayer(); void placeIn(const QRect &area); enum ForceGeometry_t { NormalGeometrySet, ForceGeometrySet }; virtual void move(int x, int y, ForceGeometry_t force = NormalGeometrySet); void move(const QPoint &p, ForceGeometry_t force = NormalGeometrySet); virtual void resizeWithChecks(const QSize& s, ForceGeometry_t force = NormalGeometrySet) = 0; void keepInArea(QRect area, bool partial = false); virtual QSize minSize() const; virtual QSize maxSize() const; virtual void setFrameGeometry(const QRect &rect, ForceGeometry_t force = NormalGeometrySet) = 0; /** * How to resize the window in order to obey constraints (mainly aspect ratios). */ enum SizeMode { SizeModeAny, SizeModeFixedW, ///< Try not to affect width SizeModeFixedH, ///< Try not to affect height SizeModeMax ///< Try not to make it larger in either direction }; virtual QSize constrainClientSize(const QSize &size, SizeMode mode = SizeModeAny) const; QSize constrainFrameSize(const QSize &size, SizeMode mode = SizeModeAny) const; QSize adjustedSize() const; /** * Calculates the matching client position for the given frame position @p point. */ virtual QPoint framePosToClientPos(const QPoint &point) const; /** * Calculates the matching frame position for the given client position @p point. */ virtual QPoint clientPosToFramePos(const QPoint &point) const; /** * Calculates the matching client size for the given frame size @p size. * * Notice that size constraints won't be applied. * * Default implementation returns the frame size with frame margins being excluded. */ virtual QSize frameSizeToClientSize(const QSize &size) const; /** * Calculates the matching frame size for the given client size @p size. * * Notice that size constraints won't be applied. * * Default implementation returns the client size with frame margins being included. */ virtual QSize clientSizeToFrameSize(const QSize &size) const; /** * Calculates the matching client rect for the given frame rect @p rect. * * Notice that size constraints won't be applied. */ QRect frameRectToClientRect(const QRect &rect) const; /** * Calculates the matching frame rect for the given client rect @p rect. * * Notice that size constraints won't be applied. */ QRect clientRectToFrameRect(const QRect &rect) const; /** * Returns @c true if the Client is being interactively moved; otherwise @c false. */ bool isMove() const { return isMoveResize() && moveResizePointerMode() == PositionCenter; } /** * Returns @c true if the Client is being interactively resized; otherwise @c false. */ bool isResize() const { return isMoveResize() && moveResizePointerMode() != PositionCenter; } /** * Cursor shape for move/resize mode. */ CursorShape cursor() const { return m_moveResize.cursor; } virtual bool hasStrut() const; void setModal(bool modal); bool isModal() const; /** * Determines the mouse command for the given @p button in the current state. * * The @p handled argument specifies whether the button was handled or not. * This value should be used to determine whether the mouse button should be * passed to the AbstractClient or being filtered out. */ Options::MouseCommand getMouseCommand(Qt::MouseButton button, bool *handled) const; Options::MouseCommand getWheelCommand(Qt::Orientation orientation, bool *handled) const; // decoration related KDecoration2::Decoration *decoration() { return m_decoration.decoration; } const KDecoration2::Decoration *decoration() const { return m_decoration.decoration; } bool isDecorated() const { return m_decoration.decoration != nullptr; } QPointer decoratedClient() const; void setDecoratedClient(QPointer client); bool decorationHasAlpha() const; void triggerDecorationRepaint(); virtual void layoutDecorationRects(QRect &left, QRect &top, QRect &right, QRect &bottom) const; void processDecorationMove(const QPoint &localPos, const QPoint &globalPos); bool processDecorationButtonPress(QMouseEvent *event, bool ignoreMenu = false); void processDecorationButtonRelease(QMouseEvent *event); /** * TODO: fix boolean traps */ virtual void updateDecoration(bool check_workspace_pos, bool force = false) = 0; /** * Returns whether the window provides context help or not. If it does, * you should show a help menu item or a help button like '?' and call * contextHelp() if this is invoked. * * Default implementation returns @c false. * @see showContextHelp; */ virtual bool providesContextHelp() const; /** * Invokes context help on the window. Only works if the window * actually provides context help. * * Default implementation does nothing. * * @see providesContextHelp() */ virtual void showContextHelp(); QRect inputGeometry() const override; /** * @returns the geometry of the virtual keyboard * This geometry is in global coordinates */ QRect virtualKeyboardGeometry() const; /** * Sets the geometry of the virtual keyboard, The window may resize itself in order to make space for the keybaord * This geometry is in global coordinates */ void setVirtualKeyboardGeometry(const QRect &geo); /** * Restores the AbstractClient after it had been hidden due to show on screen edge functionality. * The AbstractClient also gets raised (e.g. Panel mode windows can cover) and the AbstractClient * gets informed in a window specific way that it is shown and raised again. */ virtual void showOnScreenEdge() = 0; QByteArray desktopFileName() const { return m_desktopFileName; } /** * Tries to terminate the process of this AbstractClient. * * Implementing subclasses can perform a windowing system solution for terminating. */ virtual void killWindow() = 0; virtual void destroyClient() = 0; enum class SameApplicationCheck { RelaxedForActive = 1 << 0, AllowCrossProcesses = 1 << 1 }; Q_DECLARE_FLAGS(SameApplicationChecks, SameApplicationCheck) static bool belongToSameApplication(const AbstractClient* c1, const AbstractClient* c2, SameApplicationChecks checks = SameApplicationChecks()); bool hasApplicationMenu() const; bool applicationMenuActive() const { return m_applicationMenuActive; } void setApplicationMenuActive(bool applicationMenuActive); QString applicationMenuServiceName() const { return m_applicationMenuServiceName; } QString applicationMenuObjectPath() const { return m_applicationMenuObjectPath; } QString colorScheme() const { return m_colorScheme; } /** * Request showing the application menu bar * @param actionId The DBus menu ID of the action that should be highlighted, 0 for the root menu */ void showApplicationMenu(int actionId); bool unresponsive() const; virtual bool isInitialPositionSet() const { return false; } /** * Default implementation returns @c null. * Mostly intended for X11 clients, from EWMH: * @verbatim * If the WM_TRANSIENT_FOR property is set to None or Root window, the window should be * treated as a transient for all other windows in the same group. It has been noted that this * is a slight ICCCM violation, but as this behavior is pretty standard for many toolkits and * window managers, and is extremely unlikely to break anything, it seems reasonable to document * it as standard. * @endverbatim */ virtual bool groupTransient() const; /** * Default implementation returns @c null. * * Mostly for X11 clients, holds the client group */ virtual const Group *group() const; /** * Default implementation returns @c null. * * Mostly for X11 clients, holds the client group */ virtual Group *group(); /** * Returns whether this is an internal client. * * Internal clients are created by KWin and used for special purpose windows, * like the task switcher, etc. * * Default implementation returns @c false. */ virtual bool isInternal() const; /** * Returns whether window rules can be applied to this client. * * Default implementation returns @c true. */ virtual bool supportsWindowRules() const; /** * Return window management interface */ KWaylandServer::PlasmaWindowInterface *windowManagementInterface() const { return m_windowManagementInterface; } public Q_SLOTS: virtual void closeWindow() = 0; Q_SIGNALS: void fullScreenChanged(); void skipTaskbarChanged(); void skipPagerChanged(); void skipSwitcherChanged(); void iconChanged(); void activeChanged(); void keepAboveChanged(bool); void keepBelowChanged(bool); /** * Emitted whenever the demands attention state changes. */ void demandsAttentionChanged(); void desktopPresenceChanged(KWin::AbstractClient*, int); // to be forwarded by Workspace void desktopChanged(); void x11DesktopIdsChanged(); void shadeChanged(); void minimizedChanged(); void clientMinimized(KWin::AbstractClient* client, bool animate); void clientUnminimized(KWin::AbstractClient* client, bool animate); void paletteChanged(const QPalette &p); void colorSchemeChanged(); void captionChanged(); void clientMaximizedStateChanged(KWin::AbstractClient*, MaximizeMode); void clientMaximizedStateChanged(KWin::AbstractClient* c, bool h, bool v); void transientChanged(); void modalChanged(); void quickTileModeChanged(); void moveResizedChanged(); void moveResizeCursorChanged(CursorShape); void clientStartUserMovedResized(KWin::AbstractClient*); void clientStepUserMovedResized(KWin::AbstractClient *, const QRect&); void clientFinishUserMovedResized(KWin::AbstractClient*); void closeableChanged(bool); void minimizeableChanged(bool); void shadeableChanged(bool); void maximizeableChanged(bool); void desktopFileNameChanged(); void applicationMenuChanged(); void hasApplicationMenuChanged(bool); void applicationMenuActiveChanged(bool); void unresponsiveChanged(bool); protected: AbstractClient(); void setFirstInTabBox(bool enable) { m_firstInTabBox = enable; } void setIcon(const QIcon &icon); void startAutoRaise(); void autoRaise(); /** * Whether the window accepts focus. * The difference to wantsInput is that the implementation should not check rules and return * what the window effectively supports. */ virtual bool acceptsFocus() const = 0; /** * Called from setActive once the active value got updated, but before the changed signal * is emitted. * * Default implementation does nothing. */ virtual void doSetActive(); /** * Called from setKeepAbove once the keepBelow value got updated, but before the changed signal * is emitted. * * Default implementation does nothing. */ virtual void doSetKeepAbove(); /** * Called from setKeepBelow once the keepBelow value got updated, but before the changed signal * is emitted. * * Default implementation does nothing. */ virtual void doSetKeepBelow(); /** * Called from setShade() once the shadeMode value got updated, but before the changed signal * is emitted. * * Default implementation does nothing. */ virtual void doSetShade(ShadeMode previousShadeMode); /** * Called from setDeskop once the desktop value got updated, but before the changed signal * is emitted. * * Default implementation does nothing. */ virtual void doSetDesktop(); /** * Called from @ref minimize and @ref unminimize once the minimized value got updated, but before the * changed signal is emitted. * * Default implementation does nothig. */ virtual void doMinimize(); virtual bool belongsToSameApplication(const AbstractClient *other, SameApplicationChecks checks) const = 0; virtual void doSetSkipTaskbar(); virtual void doSetSkipPager(); virtual void doSetSkipSwitcher(); virtual void doSetDemandsAttention(); void setupWindowManagementInterface(); void destroyWindowManagementInterface(); void updateColorScheme(QString path); virtual void updateColorScheme() = 0; void setTransientFor(AbstractClient *transientFor); /** * Just removes the @p cl from the transients without any further checks. */ void removeTransientFromList(AbstractClient* cl); Layer belongsToLayer() const; virtual bool belongsToDesktop() const; void invalidateLayer(); bool isActiveFullScreen() const; virtual Layer layerForDock() const; // electric border / quick tiling void setElectricBorderMode(QuickTileMode mode); QuickTileMode electricBorderMode() const { return m_electricMode; } void setElectricBorderMaximizing(bool maximizing); bool isElectricBorderMaximizing() const { return m_electricMaximizing; } QRect electricBorderMaximizeGeometry(QPoint pos, int desktop); void updateQuickTileMode(QuickTileMode newMode) { m_quickTileMode = newMode; } // geometry handling void checkOffscreenPosition(QRect *geom, const QRect &screenArea); int borderLeft() const; int borderRight() const; int borderTop() const; int borderBottom() const; virtual void changeMaximize(bool horizontal, bool vertical, bool adjust); void setGeometryRestore(const QRect &rect); /** * Called from move after updating the geometry. Can be reimplemented to perform specific tasks. * The base implementation does nothing. */ virtual void doMove(int x, int y); void blockGeometryUpdates(bool block); void blockGeometryUpdates(); void unblockGeometryUpdates(); bool areGeometryUpdatesBlocked() const; enum PendingGeometry_t { PendingGeometryNone, PendingGeometryNormal, PendingGeometryForced }; PendingGeometry_t pendingGeometryUpdate() const; void setPendingGeometryUpdate(PendingGeometry_t update); QRect bufferGeometryBeforeUpdateBlocking() const; QRect frameGeometryBeforeUpdateBlocking() const; + QRect clientGeometryBeforeUpdateBlocking() const; void updateGeometryBeforeUpdateBlocking(); /** * Schedules a repaint for the visibleRect before and after a * geometry update. The current visibleRect is stored for the * next time this method is called as the before geometry. */ void addRepaintDuringGeometryUpdates(); /** * @returns whether the Client is currently in move resize mode */ bool isMoveResize() const { return m_moveResize.enabled; } /** * Sets whether the Client is in move resize mode to @p enabled. */ void setMoveResize(bool enabled) { m_moveResize.enabled = enabled; } /** * @returns whether the move resize mode is unrestricted. */ bool isUnrestrictedMoveResize() const { return m_moveResize.unrestricted; } /** * Sets whether move resize mode is unrestricted to @p set. */ void setUnrestrictedMoveResize(bool set) { m_moveResize.unrestricted = set; } QPoint moveOffset() const { return m_moveResize.offset; } void setMoveOffset(const QPoint &offset) { m_moveResize.offset = offset; } QPoint invertedMoveOffset() const { return m_moveResize.invertedOffset; } void setInvertedMoveOffset(const QPoint &offset) { m_moveResize.invertedOffset = offset; } QRect initialMoveResizeGeometry() const { return m_moveResize.initialGeometry; } /** * Sets the initial move resize geometry to the current geometry. */ void updateInitialMoveResizeGeometry(); QRect moveResizeGeometry() const { return m_moveResize.geometry; } void setMoveResizeGeometry(const QRect &geo) { m_moveResize.geometry = geo; } Position moveResizePointerMode() const { return m_moveResize.pointer; } void setMoveResizePointerMode(Position mode) { m_moveResize.pointer = mode; } bool isMoveResizePointerButtonDown() const { return m_moveResize.buttonDown; } void setMoveResizePointerButtonDown(bool down) { m_moveResize.buttonDown = down; } int moveResizeStartScreen() const { return m_moveResize.startScreen; } void checkUnrestrictedMoveResize(); /** * Sets an appropriate cursor shape for the logical mouse position. */ void updateCursor(); void startDelayedMoveResize(); void stopDelayedMoveResize(); bool startMoveResize(); /** * Called from startMoveResize. * * Implementing classes should return @c false if starting move resize should * get aborted. In that case startMoveResize will also return @c false. * * Base implementation returns @c true. */ virtual bool doStartMoveResize(); virtual void doFinishMoveResize(); void finishMoveResize(bool cancel); /** * Leaves the move resize mode. * * Inheriting classes must invoke the base implementation which * ensures that the internal mode is properly ended. */ virtual void leaveMoveResize(); virtual void positionGeometryTip(); void performMoveResize(); /** * Called from performMoveResize() after actually performing the change of geometry. * Implementing subclasses can perform windowing system specific handling here. * * Default implementation does nothing. */ virtual void doPerformMoveResize(); /* * Checks if the mouse cursor is near the edge of the screen and if so * activates quick tiling or maximization */ void checkQuickTilingMaximizationZones(int xroot, int yroot); /** * Whether a sync request is still pending. * Default implementation returns @c false. */ virtual bool isWaitingForMoveResizeSync() const; /** * Called during handling a resize. Implementing subclasses can use this * method to perform windowing system specific syncing. * * Default implementation does nothing. */ virtual void doResizeSync(); void handleMoveResize(int x, int y, int x_root, int y_root); void handleMoveResize(const QPoint &local, const QPoint &global); void dontMoveResize(); virtual QSize resizeIncrements() const; /** * Returns the position depending on the Decoration's section under mouse. * If no decoration it returns PositionCenter. */ Position mousePosition() const; static bool haveResizeEffect() { return s_haveResizeEffect; } static void updateHaveResizeEffect(); static void resetHaveResizeEffect() { s_haveResizeEffect = false; } void setDecoration(KDecoration2::Decoration *decoration) { m_decoration.decoration = decoration; } virtual void createDecoration(const QRect &oldGeometry); virtual void destroyDecoration(); void startDecorationDoubleClickTimer(); void invalidateDecorationDoubleClickTimer(); void setDesktopFileName(QByteArray name); QString iconFromDesktopFile() const; void updateApplicationMenuServiceName(const QString &serviceName); void updateApplicationMenuObjectPath(const QString &objectPath); void setUnresponsive(bool unresponsive); virtual void setShortcutInternal(); QString shortcutCaptionSuffix() const; virtual void updateCaption() = 0; /** * Looks for another AbstractClient with same captionNormal and captionSuffix. * If no such AbstractClient exists @c nullptr is returned. */ AbstractClient *findClientWithSameCaption() const; void finishWindowRules(); void discardTemporaryRules(); bool tabTo(AbstractClient *other, bool behind, bool activate); void startShadeHoverTimer(); void startShadeUnhoverTimer(); private Q_SLOTS: void shadeHover(); void shadeUnhover(); private: void handlePaletteChange(); QSharedPointer m_tabBoxClient; bool m_firstInTabBox = false; bool m_skipTaskbar = false; /** * Unaffected by KWin */ bool m_originalSkipTaskbar = false; bool m_skipPager = false; bool m_skipSwitcher = false; QIcon m_icon; bool m_active = false; bool m_keepAbove = false; bool m_keepBelow = false; bool m_demandsAttention = false; bool m_minimized = false; QTimer *m_autoRaiseTimer = nullptr; QTimer *m_shadeHoverTimer = nullptr; ShadeMode m_shadeMode = ShadeNone; QVector m_desktops; QString m_colorScheme; std::shared_ptr m_palette; static QHash> s_palettes; static std::shared_ptr s_defaultPalette; KWaylandServer::PlasmaWindowInterface *m_windowManagementInterface = nullptr; AbstractClient *m_transientFor = nullptr; QList m_transients; bool m_modal = false; Layer m_layer = UnknownLayer; // electric border/quick tiling QuickTileMode m_electricMode = QuickTileFlag::None; bool m_electricMaximizing = false; // The quick tile mode of this window. int m_quickTileMode = int(QuickTileFlag::None); QTimer *m_electricMaximizingDelay = nullptr; // geometry int m_blockGeometryUpdates = 0; // > 0 = New geometry is remembered, but not actually set PendingGeometry_t m_pendingGeometryUpdate = PendingGeometryNone; friend class GeometryUpdatesBlocker; QRect m_visibleRectBeforeGeometryUpdate; QRect m_bufferGeometryBeforeUpdateBlocking; QRect m_frameGeometryBeforeUpdateBlocking; + QRect m_clientGeometryBeforeUpdateBlocking; QRect m_virtualKeyboardGeometry; QRect m_keyboardGeometryRestore; QRect m_maximizeGeometryRestore; struct { bool enabled = false; bool unrestricted = false; QPoint offset; QPoint invertedOffset; QRect initialGeometry; QRect geometry; Position pointer = PositionCenter; bool buttonDown = false; CursorShape cursor = Qt::ArrowCursor; int startScreen = 0; QTimer *delayedTimer = nullptr; } m_moveResize; struct { KDecoration2::Decoration *decoration = nullptr; QPointer client; QElapsedTimer doubleClickTimer; } m_decoration; QByteArray m_desktopFileName; bool m_applicationMenuActive = false; QString m_applicationMenuServiceName; QString m_applicationMenuObjectPath; bool m_unresponsive = false; QKeySequence _shortcut; WindowRules m_rules; static bool s_haveResizeEffect; }; /** * Helper for AbstractClient::blockGeometryUpdates() being called in pairs (true/false) */ class GeometryUpdatesBlocker { public: explicit GeometryUpdatesBlocker(AbstractClient* c) : cl(c) { cl->blockGeometryUpdates(true); } ~GeometryUpdatesBlocker() { cl->blockGeometryUpdates(false); } private: AbstractClient* cl; }; inline void AbstractClient::move(const QPoint& p, ForceGeometry_t force) { move(p.x(), p.y(), force); } inline const QList& AbstractClient::transients() const { return m_transients; } inline bool AbstractClient::areGeometryUpdatesBlocked() const { return m_blockGeometryUpdates != 0; } inline void AbstractClient::blockGeometryUpdates() { m_blockGeometryUpdates++; } inline void AbstractClient::unblockGeometryUpdates() { m_blockGeometryUpdates--; } inline AbstractClient::PendingGeometry_t AbstractClient::pendingGeometryUpdate() const { return m_pendingGeometryUpdate; } inline void AbstractClient::setPendingGeometryUpdate(PendingGeometry_t update) { m_pendingGeometryUpdate = update; } } Q_DECLARE_METATYPE(KWin::AbstractClient*) Q_DECLARE_METATYPE(QList) Q_DECLARE_OPERATORS_FOR_FLAGS(KWin::AbstractClient::SameApplicationChecks) #endif diff --git a/deleted.cpp b/deleted.cpp index ca0cef866..d73046302 100644 --- a/deleted.cpp +++ b/deleted.cpp @@ -1,317 +1,312 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2006 Lubos Lunak This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ #include "deleted.h" #include "workspace.h" #include "x11client.h" #include "group.h" #include "netinfo.h" #include "shadow.h" #include "waylandclient.h" #include "decorations/decoratedclient.h" #include "decorations/decorationrenderer.h" #include namespace KWin { Deleted::Deleted() : Toplevel() , delete_refcount(1) , m_frame(XCB_WINDOW_NONE) , no_border(true) , m_layer(UnknownLayer) , m_minimized(false) , m_modal(false) , m_wasClient(false) , m_decorationRenderer(nullptr) , m_fullscreen(false) , m_keepAbove(false) , m_keepBelow(false) , m_wasActive(false) , m_wasX11Client(false) , m_wasWaylandClient(false) , m_wasGroupTransient(false) , m_wasPopupWindow(false) , m_wasOutline(false) { } Deleted::~Deleted() { if (delete_refcount != 0) qCCritical(KWIN_CORE) << "Deleted client has non-zero reference count (" << delete_refcount << ")"; Q_ASSERT(delete_refcount == 0); if (workspace()) { workspace()->removeDeleted(this); } for (Toplevel *toplevel : qAsConst(m_transientFor)) { if (auto *deleted = qobject_cast(toplevel)) { deleted->removeTransient(this); } } for (Deleted *transient : qAsConst(m_transients)) { transient->removeTransientFor(this); } deleteEffectWindow(); } Deleted* Deleted::create(Toplevel* c) { Deleted* d = new Deleted(); d->copyToDeleted(c); workspace()->addDeleted(d, c); return d; } // to be used only from Workspace::finishCompositing() void Deleted::discard() { delete_refcount = 0; delete this; } void Deleted::copyToDeleted(Toplevel* c) { Q_ASSERT(dynamic_cast< Deleted* >(c) == nullptr); Toplevel::copyToDeleted(c); m_bufferGeometry = c->bufferGeometry(); m_bufferMargins = c->bufferMargins(); m_frameMargins = c->frameMargins(); m_bufferScale = c->bufferScale(); desk = c->desktop(); m_desktops = c->desktops(); activityList = c->activities(); contentsRect = QRect(c->clientPos(), c->clientSize()); m_contentPos = c->clientContentPos(); transparent_rect = c->transparentRect(); m_layer = c->layer(); m_frame = c->frameId(); m_opacity = c->opacity(); m_type = c->windowType(); m_windowRole = c->windowRole(); if (WinInfo* cinfo = dynamic_cast< WinInfo* >(info)) cinfo->disable(); if (AbstractClient *client = dynamic_cast(c)) { no_border = client->noBorder(); if (!no_border) { client->layoutDecorationRects(decoration_left, decoration_top, decoration_right, decoration_bottom); if (client->isDecorated()) { if (Decoration::Renderer *renderer = client->decoratedClient()->renderer()) { m_decorationRenderer = renderer; m_decorationRenderer->reparent(this); } } } m_wasClient = true; m_minimized = client->isMinimized(); m_modal = client->isModal(); m_mainClients = client->mainClients(); foreach (AbstractClient *c, m_mainClients) { addTransientFor(c); connect(c, &AbstractClient::windowClosed, this, &Deleted::mainClientClosed); } m_fullscreen = client->isFullScreen(); m_keepAbove = client->keepAbove(); m_keepBelow = client->keepBelow(); m_caption = client->caption(); m_wasActive = client->isActive(); m_wasGroupTransient = client->groupTransient(); } for (auto vd : m_desktops) { connect(vd, &QObject::destroyed, this, [=] { m_desktops.removeOne(vd); }); } m_wasWaylandClient = qobject_cast(c) != nullptr; m_wasX11Client = qobject_cast(c) != nullptr; m_wasPopupWindow = c->isPopupWindow(); m_wasOutline = c->isOutline(); } void Deleted::unrefWindow() { if (--delete_refcount > 0) return; // needs to be delayed // a) when calling from effects, otherwise it'd be rather complicated to handle the case of the // window going away during a painting pass // b) to prevent dangeling pointers in the stacking order, see bug #317765 deleteLater(); } QRect Deleted::bufferGeometry() const { return m_bufferGeometry; } QMargins Deleted::bufferMargins() const { return m_bufferMargins; } QMargins Deleted::frameMargins() const { return m_frameMargins; } qreal Deleted::bufferScale() const { return m_bufferScale; } int Deleted::desktop() const { return desk; } QStringList Deleted::activities() const { return activityList; } QVector Deleted::desktops() const { return m_desktops; } QPoint Deleted::clientPos() const { return contentsRect.topLeft(); } -QSize Deleted::clientSize() const -{ - return contentsRect.size(); -} - void Deleted::debug(QDebug& stream) const { stream << "\'ID:" << window() << "\' (deleted)"; } void Deleted::layoutDecorationRects(QRect& left, QRect& top, QRect& right, QRect& bottom) const { left = decoration_left; top = decoration_top; right = decoration_right; bottom = decoration_bottom; } QRect Deleted::transparentRect() const { return transparent_rect; } bool Deleted::isDeleted() const { return true; } NET::WindowType Deleted::windowType(bool direct, int supportedTypes) const { Q_UNUSED(direct) Q_UNUSED(supportedTypes) return m_type; } void Deleted::mainClientClosed(Toplevel *client) { if (AbstractClient *c = dynamic_cast(client)) m_mainClients.removeAll(c); } void Deleted::transientForClosed(Toplevel *toplevel, Deleted *deleted) { if (deleted == nullptr) { m_transientFor.removeAll(toplevel); return; } const int index = m_transientFor.indexOf(toplevel); if (index == -1) { return; } m_transientFor[index] = deleted; deleted->addTransient(this); } xcb_window_t Deleted::frameId() const { return m_frame; } double Deleted::opacity() const { return m_opacity; } QByteArray Deleted::windowRole() const { return m_windowRole; } QVector Deleted::x11DesktopIds() const { const auto desks = desktops(); QVector x11Ids; x11Ids.reserve(desks.count()); std::transform(desks.constBegin(), desks.constEnd(), std::back_inserter(x11Ids), [] (const VirtualDesktop *vd) { return vd->x11DesktopNumber(); } ); return x11Ids; } void Deleted::addTransient(Deleted *transient) { m_transients.append(transient); } void Deleted::removeTransient(Deleted *transient) { m_transients.removeAll(transient); } void Deleted::addTransientFor(AbstractClient *parent) { m_transientFor.append(parent); connect(parent, &AbstractClient::windowClosed, this, &Deleted::transientForClosed); } void Deleted::removeTransientFor(Deleted *parent) { m_transientFor.removeAll(parent); } } // namespace diff --git a/deleted.h b/deleted.h index 22757677c..4dbd3f486 100644 --- a/deleted.h +++ b/deleted.h @@ -1,254 +1,253 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2006 Lubos Lunak This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ #ifndef KWIN_DELETED_H #define KWIN_DELETED_H #include "toplevel.h" namespace KWin { class AbstractClient; namespace Decoration { class Renderer; } class KWIN_EXPORT Deleted : public Toplevel { Q_OBJECT public: static Deleted* create(Toplevel* c); // used by effects to keep the window around for e.g. fadeout effects when it's destroyed void refWindow(); void unrefWindow(); void discard(); QRect bufferGeometry() const override; QMargins bufferMargins() const override; QMargins frameMargins() const override; qreal bufferScale() const override; int desktop() const override; QStringList activities() const override; QVector desktops() const override; QPoint clientPos() const override; - QSize clientSize() const override; QPoint clientContentPos() const override { return m_contentPos; } QRect transparentRect() const override; bool isDeleted() const override; xcb_window_t frameId() const override; bool noBorder() const { return no_border; } void layoutDecorationRects(QRect &left, QRect &top, QRect &right, QRect &bottom) const; Layer layer() const override { return m_layer; } bool isMinimized() const { return m_minimized; } bool isModal() const { return m_modal; } QList mainClients() const { return m_mainClients; } NET::WindowType windowType(bool direct = false, int supported_types = 0) const override; bool wasClient() const { return m_wasClient; } double opacity() const override; QByteArray windowRole() const override; const Decoration::Renderer *decorationRenderer() const { return m_decorationRenderer; } bool isFullScreen() const { return m_fullscreen; } bool keepAbove() const { return m_keepAbove; } bool keepBelow() const { return m_keepBelow; } QString caption() const { return m_caption; } /** * Returns whether the client was active. * * @returns @c true if the client was active at the time when it was closed, * @c false otherwise */ bool wasActive() const { return m_wasActive; } /** * Returns whether this was an X11 client. * * @returns @c true if it was an X11 client, @c false otherwise. */ bool wasX11Client() const { return m_wasX11Client; } /** * Returns whether this was a Wayland client. * * @returns @c true if it was a Wayland client, @c false otherwise. */ bool wasWaylandClient() const { return m_wasWaylandClient; } /** * Returns whether the client was a transient. * * @returns @c true if it was a transient, @c false otherwise. */ bool wasTransient() const { return !m_transientFor.isEmpty(); } /** * Returns whether the client was a group transient. * * @returns @c true if it was a group transient, @c false otherwise. * @note This is relevant only for X11 clients. */ bool wasGroupTransient() const { return m_wasGroupTransient; } /** * Checks whether this client was a transient for given toplevel. * * @param toplevel Toplevel against which we are testing. * @returns @c true if it was a transient for given toplevel, @c false otherwise. */ bool wasTransientFor(const Toplevel *toplevel) const { return m_transientFor.contains(const_cast(toplevel)); } /** * Returns the list of transients. * * Because the window is Deleted, it can have only Deleted child transients. */ QList transients() const { return m_transients; } /** * Returns whether the client was a popup. * * @returns @c true if the client was a popup, @c false otherwise. */ bool isPopupWindow() const override { return m_wasPopupWindow; } QVector x11DesktopIds() const; /** * Whether this Deleted represents the outline. */ bool isOutline() const override { return m_wasOutline; } protected: void debug(QDebug& stream) const override; private Q_SLOTS: void mainClientClosed(KWin::Toplevel *client); void transientForClosed(Toplevel *toplevel, Deleted *deleted); private: Deleted(); // use create() void copyToDeleted(Toplevel* c); ~Deleted() override; // deleted only using unrefWindow() void addTransient(Deleted *transient); void removeTransient(Deleted *transient); void addTransientFor(AbstractClient *parent); void removeTransientFor(Deleted *parent); QRect m_bufferGeometry; QMargins m_bufferMargins; QMargins m_frameMargins; int delete_refcount; int desk; QStringList activityList; QRect contentsRect; // for clientPos()/clientSize() QPoint m_contentPos; QRect transparent_rect; xcb_window_t m_frame; QVector m_desktops; bool no_border; QRect decoration_left; QRect decoration_right; QRect decoration_top; QRect decoration_bottom; Layer m_layer; bool m_minimized; bool m_modal; QList m_mainClients; bool m_wasClient; Decoration::Renderer *m_decorationRenderer; double m_opacity; NET::WindowType m_type = NET::Unknown; QByteArray m_windowRole; bool m_fullscreen; bool m_keepAbove; bool m_keepBelow; QString m_caption; bool m_wasActive; bool m_wasX11Client; bool m_wasWaylandClient; bool m_wasGroupTransient; QList m_transientFor; QList m_transients; bool m_wasPopupWindow; bool m_wasOutline; qreal m_bufferScale = 1; }; inline void Deleted::refWindow() { ++delete_refcount; } } // namespace Q_DECLARE_METATYPE(KWin::Deleted*) #endif diff --git a/events.cpp b/events.cpp index ffc96d9b2..694b479d7 100644 --- a/events.cpp +++ b/events.cpp @@ -1,1339 +1,1340 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 1999, 2000 Matthias Ettrich Copyright (C) 2003 Lubos Lunak This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ /* This file contains things relevant to handling incoming events. */ #include "x11client.h" #include "cursor.h" #include "focuschain.h" #include "netinfo.h" #include "workspace.h" #include "atoms.h" #ifdef KWIN_BUILD_TABBOX #include "tabbox.h" #endif #include "group.h" #include "rules.h" #include "unmanaged.h" #include "useractions.h" #include "effects.h" #include "screens.h" #include "xcbutils.h" #include #include #include #include #include #include #include #include #include #include #ifdef XCB_ICCCM_FOUND #include #endif #include "composite.h" #include "x11eventfilter.h" #include "wayland_server.h" #include #ifndef XCB_GE_GENERIC #define XCB_GE_GENERIC 35 typedef struct xcb_ge_generic_event_t { uint8_t response_type; /**< */ uint8_t extension; /**< */ uint16_t sequence; /**< */ uint32_t length; /**< */ uint16_t event_type; /**< */ uint8_t pad0[22]; /**< */ uint32_t full_sequence; /**< */ } xcb_ge_generic_event_t; #endif namespace KWin { // **************************************** // Workspace // **************************************** static xcb_window_t findEventWindow(xcb_generic_event_t *event) { const uint8_t eventType = event->response_type & ~0x80; switch(eventType) { case XCB_KEY_PRESS: case XCB_KEY_RELEASE: return reinterpret_cast(event)->event; case XCB_BUTTON_PRESS: case XCB_BUTTON_RELEASE: return reinterpret_cast(event)->event; case XCB_MOTION_NOTIFY: return reinterpret_cast(event)->event; case XCB_ENTER_NOTIFY: case XCB_LEAVE_NOTIFY: return reinterpret_cast(event)->event; case XCB_FOCUS_IN: case XCB_FOCUS_OUT: return reinterpret_cast(event)->event; case XCB_EXPOSE: return reinterpret_cast(event)->window; case XCB_GRAPHICS_EXPOSURE: return reinterpret_cast(event)->drawable; case XCB_NO_EXPOSURE: return reinterpret_cast(event)->drawable; case XCB_VISIBILITY_NOTIFY: return reinterpret_cast(event)->window; case XCB_CREATE_NOTIFY: return reinterpret_cast(event)->window; case XCB_DESTROY_NOTIFY: return reinterpret_cast(event)->window; case XCB_UNMAP_NOTIFY: return reinterpret_cast(event)->window; case XCB_MAP_NOTIFY: return reinterpret_cast(event)->window; case XCB_MAP_REQUEST: return reinterpret_cast(event)->window; case XCB_REPARENT_NOTIFY: return reinterpret_cast(event)->window; case XCB_CONFIGURE_NOTIFY: return reinterpret_cast(event)->window; case XCB_CONFIGURE_REQUEST: return reinterpret_cast(event)->window; case XCB_GRAVITY_NOTIFY: return reinterpret_cast(event)->window; case XCB_RESIZE_REQUEST: return reinterpret_cast(event)->window; case XCB_CIRCULATE_NOTIFY: case XCB_CIRCULATE_REQUEST: return reinterpret_cast(event)->window; case XCB_PROPERTY_NOTIFY: return reinterpret_cast(event)->window; case XCB_COLORMAP_NOTIFY: return reinterpret_cast(event)->window; case XCB_CLIENT_MESSAGE: return reinterpret_cast(event)->window; default: // extension handling if (eventType == Xcb::Extensions::self()->shapeNotifyEvent()) { return reinterpret_cast(event)->affected_window; } if (eventType == Xcb::Extensions::self()->damageNotifyEvent()) { return reinterpret_cast(event)->drawable; } return XCB_WINDOW_NONE; } } QVector s_xcbEerrors({ QByteArrayLiteral("Success"), QByteArrayLiteral("BadRequest"), QByteArrayLiteral("BadValue"), QByteArrayLiteral("BadWindow"), QByteArrayLiteral("BadPixmap"), QByteArrayLiteral("BadAtom"), QByteArrayLiteral("BadCursor"), QByteArrayLiteral("BadFont"), QByteArrayLiteral("BadMatch"), QByteArrayLiteral("BadDrawable"), QByteArrayLiteral("BadAccess"), QByteArrayLiteral("BadAlloc"), QByteArrayLiteral("BadColor"), QByteArrayLiteral("BadGC"), QByteArrayLiteral("BadIDChoice"), QByteArrayLiteral("BadName"), QByteArrayLiteral("BadLength"), QByteArrayLiteral("BadImplementation"), QByteArrayLiteral("Unknown")}); void Workspace::registerEventFilter(X11EventFilter *filter) { if (filter->isGenericEvent()) m_genericEventFilters.append(filter); else m_eventFilters.append(filter); } void Workspace::unregisterEventFilter(X11EventFilter *filter) { if (filter->isGenericEvent()) m_genericEventFilters.removeOne(filter); else m_eventFilters.removeOne(filter); } /** * Handles workspace specific XCB event */ bool Workspace::workspaceEvent(xcb_generic_event_t *e) { const uint8_t eventType = e->response_type & ~0x80; if (!eventType) { // let's check whether it's an error from one of the extensions KWin uses xcb_generic_error_t *error = reinterpret_cast(e); const QVector extensions = Xcb::Extensions::self()->extensions(); for (const auto &extension : extensions) { if (error->major_code == extension.majorOpcode) { QByteArray errorName; if (error->error_code < s_xcbEerrors.size()) { errorName = s_xcbEerrors.at(error->error_code); } else if (error->error_code >= extension.errorBase) { const int index = error->error_code - extension.errorBase; if (index >= 0 && index < extension.errorCodes.size()) { errorName = extension.errorCodes.at(index); } } if (errorName.isEmpty()) { errorName = QByteArrayLiteral("Unknown"); } qCWarning(KWIN_CORE, "XCB error: %d (%s), sequence: %d, resource id: %d, major code: %d (%s), minor code: %d (%s)", int(error->error_code), errorName.constData(), int(error->sequence), int(error->resource_id), int(error->major_code), extension.name.constData(), int(error->minor_code), extension.opCodes.size() > error->minor_code ? extension.opCodes.at(error->minor_code).constData() : "Unknown"); return true; } } return false; } if (eventType == XCB_GE_GENERIC) { xcb_ge_generic_event_t *ge = reinterpret_cast(e); foreach (X11EventFilter *filter, m_genericEventFilters) { if (filter->extension() == ge->extension && filter->genericEventTypes().contains(ge->event_type) && filter->event(e)) { return true; } } } else { foreach (X11EventFilter *filter, m_eventFilters) { if (filter->eventTypes().contains(eventType) && filter->event(e)) { return true; } } } if (effects && static_cast< EffectsHandlerImpl* >(effects)->hasKeyboardGrab() && (eventType == XCB_KEY_PRESS || eventType == XCB_KEY_RELEASE)) return false; // let Qt process it, it'll be intercepted again in eventFilter() // events that should be handled before Clients can get them switch (eventType) { case XCB_CONFIGURE_NOTIFY: if (reinterpret_cast(e)->event == rootWindow()) markXStackingOrderAsDirty(); break; }; const xcb_window_t eventWindow = findEventWindow(e); if (eventWindow != XCB_WINDOW_NONE) { if (X11Client *c = findClient(Predicate::WindowMatch, eventWindow)) { if (c->windowEvent(e)) return true; } else if (X11Client *c = findClient(Predicate::WrapperIdMatch, eventWindow)) { if (c->windowEvent(e)) return true; } else if (X11Client *c = findClient(Predicate::FrameIdMatch, eventWindow)) { if (c->windowEvent(e)) return true; } else if (X11Client *c = findClient(Predicate::InputIdMatch, eventWindow)) { if (c->windowEvent(e)) return true; } else if (Unmanaged* c = findUnmanaged(eventWindow)) { if (c->windowEvent(e)) return true; } } switch (eventType) { case XCB_CREATE_NOTIFY: { const auto *event = reinterpret_cast(e); if (event->parent == rootWindow() && !QWidget::find(event->window) && !event->override_redirect) { // see comments for allowClientActivation() updateXTime(); const xcb_timestamp_t t = xTime(); xcb_change_property(connection(), XCB_PROP_MODE_REPLACE, event->window, atoms->kde_net_wm_user_creation_time, XCB_ATOM_CARDINAL, 32, 1, &t); } break; } case XCB_UNMAP_NOTIFY: { const auto *event = reinterpret_cast(e); return (event->event != event->window); // hide wm typical event from Qt } case XCB_REPARENT_NOTIFY: { //do not confuse Qt with these events. After all, _we_ are the //window manager who does the reparenting. return true; } case XCB_MAP_REQUEST: { updateXTime(); const auto *event = reinterpret_cast(e); if (X11Client *c = findClient(Predicate::WindowMatch, event->window)) { // e->xmaprequest.window is different from e->xany.window // TODO this shouldn't be necessary now c->windowEvent(e); FocusChain::self()->update(c, FocusChain::Update); } else if ( true /*|| e->xmaprequest.parent != root */ ) { // NOTICE don't check for the parent being the root window, this breaks when some app unmaps // a window, changes something and immediately maps it back, without giving KWin // a chance to reparent it back to root // since KWin can get MapRequest only for root window children and // children of WindowWrapper (=clients), the check is AFAIK useless anyway // NOTICE: The save-set support in X11Client::mapRequestEvent() actually requires that // this code doesn't check the parent to be root. if (!createClient(event->window, false)) { xcb_map_window(connection(), event->window); const uint32_t values[] = { XCB_STACK_MODE_ABOVE }; xcb_configure_window(connection(), event->window, XCB_CONFIG_WINDOW_STACK_MODE, values); } } return true; } case XCB_MAP_NOTIFY: { const auto *event = reinterpret_cast(e); if (event->override_redirect) { Unmanaged* c = findUnmanaged(event->window); if (c == nullptr) c = createUnmanaged(event->window); if (c) { // if hasScheduledRelease is true, it means a unamp and map sequence has occurred. // since release is scheduled after map notify, this old Unmanaged will get released // before KWIN has chance to remanage it again. so release it right now. if (c->hasScheduledRelease()) { c->release(); c = createUnmanaged(event->window); } if (c) return c->windowEvent(e); } } return (event->event != event->window); // hide wm typical event from Qt } case XCB_CONFIGURE_REQUEST: { const auto *event = reinterpret_cast(e); if (event->parent == rootWindow()) { uint32_t values[5] = { 0, 0, 0, 0, 0}; const uint32_t value_mask = event->value_mask & (XCB_CONFIG_WINDOW_X | XCB_CONFIG_WINDOW_Y | XCB_CONFIG_WINDOW_WIDTH | XCB_CONFIG_WINDOW_HEIGHT | XCB_CONFIG_WINDOW_BORDER_WIDTH); int i = 0; if (value_mask & XCB_CONFIG_WINDOW_X) { values[i++] = event->x; } if (value_mask & XCB_CONFIG_WINDOW_Y) { values[i++] = event->y; } if (value_mask & XCB_CONFIG_WINDOW_WIDTH) { values[i++] = event->width; } if (value_mask & XCB_CONFIG_WINDOW_HEIGHT) { values[i++] = event->height; } if (value_mask & XCB_CONFIG_WINDOW_BORDER_WIDTH) { values[i++] = event->border_width; } xcb_configure_window(connection(), event->window, value_mask, values); return true; } break; } case XCB_FOCUS_IN: { const auto *event = reinterpret_cast(e); if (event->event == rootWindow() && (event->detail == XCB_NOTIFY_DETAIL_NONE || event->detail == XCB_NOTIFY_DETAIL_POINTER_ROOT || event->detail == XCB_NOTIFY_DETAIL_INFERIOR)) { Xcb::CurrentInput currentInput; updateXTime(); // focusToNull() uses xTime(), which is old now (FocusIn has no timestamp) // it seems we can "loose" focus reversions when the closing client hold a grab // => catch the typical pattern (though we don't want the focus on the root anyway) #348935 const bool lostFocusPointerToRoot = currentInput->focus == rootWindow() && event->detail == XCB_NOTIFY_DETAIL_INFERIOR; if (!currentInput.isNull() && (currentInput->focus == XCB_WINDOW_NONE || currentInput->focus == XCB_INPUT_FOCUS_POINTER_ROOT || lostFocusPointerToRoot)) { //kWarning( 1212 ) << "X focus set to None/PointerRoot, reseting focus" ; AbstractClient *c = mostRecentlyActivatedClient(); if (c != nullptr) requestFocus(c, true); else if (activateNextClient(nullptr)) ; // ok, activated else focusToNull(); } } } // fall through case XCB_FOCUS_OUT: return true; // always eat these, they would tell Qt that KWin is the active app default: break; } return false; } // Used only to filter events that need to be processed by Qt first // (e.g. keyboard input to be composed), otherwise events are // handle by the XEvent filter above bool Workspace::workspaceEvent(QEvent* e) { if ((e->type() == QEvent::KeyPress || e->type() == QEvent::KeyRelease || e->type() == QEvent::ShortcutOverride) && effects && static_cast< EffectsHandlerImpl* >(effects)->hasKeyboardGrab()) { static_cast< EffectsHandlerImpl* >(effects)->grabbedKeyboardEvent(static_cast< QKeyEvent* >(e)); return true; } return false; } // **************************************** // Client // **************************************** /** * General handler for XEvents concerning the client window */ bool X11Client::windowEvent(xcb_generic_event_t *e) { if (findEventWindow(e) == window()) { // avoid doing stuff on frame or wrapper NET::Properties dirtyProperties; NET::Properties2 dirtyProperties2; double old_opacity = opacity(); info->event(e, &dirtyProperties, &dirtyProperties2); // pass through the NET stuff if ((dirtyProperties & NET::WMName) != 0) fetchName(); if ((dirtyProperties & NET::WMIconName) != 0) fetchIconicName(); if ((dirtyProperties & NET::WMStrut) != 0 || (dirtyProperties2 & NET::WM2ExtendedStrut) != 0) { workspace()->updateClientArea(); } if ((dirtyProperties & NET::WMIcon) != 0) getIcons(); // Note there's a difference between userTime() and info->userTime() // info->userTime() is the value of the property, userTime() also includes // updates of the time done by KWin (ButtonPress on windowrapper etc.). if ((dirtyProperties2 & NET::WM2UserTime) != 0) { workspace()->setWasUserInteraction(); updateUserTime(info->userTime()); } if ((dirtyProperties2 & NET::WM2StartupId) != 0) startupIdChanged(); if (dirtyProperties2 & NET::WM2Opacity) { if (compositing()) { addRepaintFull(); emit opacityChanged(this, old_opacity); } else { // forward to the frame if there's possibly another compositing manager running NETWinInfo i(connection(), frameId(), rootWindow(), NET::Properties(), NET::Properties2()); i.setOpacity(info->opacity()); } } if (dirtyProperties2 & NET::WM2FrameOverlap) { // ### Inform the decoration } if (dirtyProperties2.testFlag(NET::WM2WindowRole)) { emit windowRoleChanged(); } if (dirtyProperties2.testFlag(NET::WM2WindowClass)) { getResourceClass(); } if (dirtyProperties2.testFlag(NET::WM2BlockCompositing)) { setBlockingCompositing(info->isBlockingCompositing()); } if (dirtyProperties2.testFlag(NET::WM2GroupLeader)) { checkGroup(); updateAllowedActions(); // Group affects isMinimizable() } if (dirtyProperties2.testFlag(NET::WM2Urgency)) { updateUrgency(); } if (dirtyProperties2 & NET::WM2OpaqueRegion) { getWmOpaqueRegion(); } if (dirtyProperties2 & NET::WM2DesktopFileName) { setDesktopFileName(QByteArray(info->desktopFileName())); } if (dirtyProperties2 & NET::WM2GTKFrameExtents) { setClientFrameExtents(info->gtkFrameExtents()); } } const uint8_t eventType = e->response_type & ~0x80; switch(eventType) { case XCB_UNMAP_NOTIFY: unmapNotifyEvent(reinterpret_cast(e)); break; case XCB_DESTROY_NOTIFY: destroyNotifyEvent(reinterpret_cast(e)); break; case XCB_MAP_REQUEST: // this one may pass the event to workspace return mapRequestEvent(reinterpret_cast(e)); case XCB_CONFIGURE_REQUEST: configureRequestEvent(reinterpret_cast(e)); break; case XCB_PROPERTY_NOTIFY: propertyNotifyEvent(reinterpret_cast(e)); break; case XCB_KEY_PRESS: updateUserTime(reinterpret_cast(e)->time); break; case XCB_BUTTON_PRESS: { const auto *event = reinterpret_cast(e); updateUserTime(event->time); buttonPressEvent(event->event, event->detail, event->state, event->event_x, event->event_y, event->root_x, event->root_y, event->time); break; } case XCB_KEY_RELEASE: // don't update user time on releases // e.g. if the user presses Alt+F2, the Alt release // would appear as user input to the currently active window break; case XCB_BUTTON_RELEASE: { const auto *event = reinterpret_cast(e); // don't update user time on releases // e.g. if the user presses Alt+F2, the Alt release // would appear as user input to the currently active window buttonReleaseEvent(event->event, event->detail, event->state, event->event_x, event->event_y, event->root_x, event->root_y); break; } case XCB_MOTION_NOTIFY: { const auto *event = reinterpret_cast(e); motionNotifyEvent(event->event, event->state, event->event_x, event->event_y, event->root_x, event->root_y); workspace()->updateFocusMousePosition(QPoint(event->root_x, event->root_y)); break; } case XCB_ENTER_NOTIFY: { auto *event = reinterpret_cast(e); enterNotifyEvent(event); // MotionNotify is guaranteed to be generated only if the mouse // move start and ends in the window; for cases when it only // starts or only ends there, Enter/LeaveNotify are generated. // Fake a MotionEvent in such cases to make handle of mouse // events simpler (Qt does that too). motionNotifyEvent(event->event, event->state, event->event_x, event->event_y, event->root_x, event->root_y); workspace()->updateFocusMousePosition(QPoint(event->root_x, event->root_y)); break; } case XCB_LEAVE_NOTIFY: { auto *event = reinterpret_cast(e); motionNotifyEvent(event->event, event->state, event->event_x, event->event_y, event->root_x, event->root_y); leaveNotifyEvent(event); // not here, it'd break following enter notify handling // workspace()->updateFocusMousePosition( QPoint( e->xcrossing.x_root, e->xcrossing.y_root )); break; } case XCB_FOCUS_IN: focusInEvent(reinterpret_cast(e)); break; case XCB_FOCUS_OUT: focusOutEvent(reinterpret_cast(e)); break; case XCB_REPARENT_NOTIFY: break; case XCB_CLIENT_MESSAGE: clientMessageEvent(reinterpret_cast(e)); break; case XCB_EXPOSE: { xcb_expose_event_t *event = reinterpret_cast(e); if (event->window == frameId() && !Compositor::self()->isActive()) { // TODO: only repaint required areas triggerDecorationRepaint(); } break; } default: if (eventType == Xcb::Extensions::self()->shapeNotifyEvent() && reinterpret_cast(e)->affected_window == window()) { detectShape(window()); // workaround for #19644 updateShape(); } if (eventType == Xcb::Extensions::self()->damageNotifyEvent() && reinterpret_cast(e)->drawable == frameId()) damageNotifyEvent(); break; } return true; // eat all events } /** * Handles map requests of the client window */ bool X11Client::mapRequestEvent(xcb_map_request_event_t *e) { if (e->window != window()) { // Special support for the save-set feature, which is a bit broken. // If there's a window from one client embedded in another one, // e.g. using XEMBED, and the embedder suddenly loses its X connection, // save-set will reparent the embedded window to its closest ancestor // that will remains. Unfortunately, with reparenting window managers, // this is not the root window, but the frame (or in KWin's case, // it's the wrapper for the client window). In this case, // the wrapper will get ReparentNotify for a window it won't know, // which will be ignored, and then it gets MapRequest, as save-set // always maps. Returning true here means that Workspace::workspaceEvent() // will handle this MapRequest and manage this window (i.e. act as if // it was reparented to root window). if (e->parent == wrapperId()) return false; return true; // no messing with frame etc. } // also copied in clientMessage() if (isMinimized()) unminimize(); if (isShade()) setShade(ShadeNone); if (!isOnCurrentDesktop()) { if (workspace()->allowClientActivation(this)) workspace()->activateClient(this); else demandAttention(); } return true; } /** * Handles unmap notify events of the client window */ void X11Client::unmapNotifyEvent(xcb_unmap_notify_event_t *e) { if (e->window != window()) return; if (e->event != wrapperId()) { // most probably event from root window when initially reparenting bool ignore = true; if (e->event == rootWindow() && (e->response_type & 0x80)) ignore = false; // XWithdrawWindow() if (ignore) return; } // check whether this is result of an XReparentWindow - client then won't be parented by wrapper // in this case do not release the client (causes reparent to root, removal from saveSet and what not) // but just destroy the client Xcb::Tree tree(m_client); xcb_window_t daddy = tree.parent(); if (daddy == m_wrapper) { releaseWindow(); // unmapped from a regular client state } else { destroyClient(); // the client was moved to some other parent } } void X11Client::destroyNotifyEvent(xcb_destroy_notify_event_t *e) { if (e->window != window()) return; destroyClient(); } /** * Handles client messages for the client window */ void X11Client::clientMessageEvent(xcb_client_message_event_t *e) { Toplevel::clientMessageEvent(e); if (e->window != window()) return; // ignore frame/wrapper // WM_STATE if (e->type == atoms->wm_change_state) { if (e->data.data32[0] == XCB_ICCCM_WM_STATE_ICONIC) minimize(); return; } } /** * Handles configure requests of the client window */ void X11Client::configureRequestEvent(xcb_configure_request_event_t *e) { if (e->window != window()) return; // ignore frame/wrapper if (isResize() || isMove()) return; // we have better things to do right now if (m_fullscreenMode == FullScreenNormal) { // refuse resizing of fullscreen windows // but allow resizing fullscreen hacks in order to let them cancel fullscreen mode sendSyntheticConfigureNotify(); return; } if (isSplash()) { // no manipulations with splashscreens either sendSyntheticConfigureNotify(); return; } if (e->value_mask & XCB_CONFIG_WINDOW_BORDER_WIDTH) { // first, get rid of a window border m_client.setBorderWidth(0); } if (e->value_mask & (XCB_CONFIG_WINDOW_X | XCB_CONFIG_WINDOW_Y | XCB_CONFIG_WINDOW_HEIGHT | XCB_CONFIG_WINDOW_WIDTH)) configureRequest(e->value_mask, e->x, e->y, e->width, e->height, 0, false); if (e->value_mask & XCB_CONFIG_WINDOW_STACK_MODE) restackWindow(e->sibling, e->stack_mode, NET::FromApplication, userTime(), false); // Sending a synthetic configure notify always is fine, even in cases where // the ICCCM doesn't require this - it can be though of as 'the WM decided to move // the window later'. The client should not cause that many configure request, // so this should not have any significant impact. With user moving/resizing // the it should be optimized though (see also X11Client::setGeometry()/plainResize()/move()). sendSyntheticConfigureNotify(); // SELI TODO accept configure requests for isDesktop windows (because kdesktop // may get XRANDR resize event before kwin), but check it's still at the bottom? } /** * Handles property changes of the client window */ void X11Client::propertyNotifyEvent(xcb_property_notify_event_t *e) { Toplevel::propertyNotifyEvent(e); if (e->window != window()) return; // ignore frame/wrapper switch(e->atom) { case XCB_ATOM_WM_NORMAL_HINTS: getWmNormalHints(); break; case XCB_ATOM_WM_NAME: fetchName(); break; case XCB_ATOM_WM_ICON_NAME: fetchIconicName(); break; case XCB_ATOM_WM_TRANSIENT_FOR: readTransient(); break; case XCB_ATOM_WM_HINTS: getIcons(); // because KWin::icon() uses WMHints as fallback break; default: if (e->atom == atoms->motif_wm_hints) { getMotifHints(); } else if (e->atom == atoms->net_wm_sync_request_counter) getSyncCounter(); else if (e->atom == atoms->activities) checkActivities(); else if (e->atom == atoms->kde_first_in_window_list) updateFirstInTabBox(); else if (e->atom == atoms->kde_color_sheme) updateColorScheme(); else if (e->atom == atoms->kde_screen_edge_show) updateShowOnScreenEdge(); else if (e->atom == atoms->kde_net_wm_appmenu_service_name) checkApplicationMenuServiceName(); else if (e->atom == atoms->kde_net_wm_appmenu_object_path) checkApplicationMenuObjectPath(); break; } } void X11Client::enterNotifyEvent(xcb_enter_notify_event_t *e) { if (e->event != frameId()) return; // care only about entering the whole frame #define MOUSE_DRIVEN_FOCUS (!options->focusPolicyIsReasonable() || \ (options->focusPolicy() == Options::FocusFollowsMouse && options->isNextFocusPrefersMouse())) if (e->mode == XCB_NOTIFY_MODE_NORMAL || (e->mode == XCB_NOTIFY_MODE_UNGRAB && MOUSE_DRIVEN_FOCUS)) { #undef MOUSE_DRIVEN_FOCUS enterEvent(QPoint(e->root_x, e->root_y)); return; } } void X11Client::leaveNotifyEvent(xcb_leave_notify_event_t *e) { if (e->event != frameId()) return; // care only about leaving the whole frame if (e->mode == XCB_NOTIFY_MODE_NORMAL) { if (!isMoveResizePointerButtonDown()) { setMoveResizePointerMode(PositionCenter); updateCursor(); } bool lostMouse = !rect().contains(QPoint(e->event_x, e->event_y)); // 'lostMouse' wouldn't work with e.g. B2 or Keramik, which have non-rectangular decorations // (i.e. the LeaveNotify event comes before leaving the rect and no LeaveNotify event // comes after leaving the rect) - so lets check if the pointer is really outside the window // TODO this still sucks if a window appears above this one - it should lose the mouse // if this window is another client, but not if it's a popup ... maybe after KDE3.1 :( // (repeat after me 'AARGHL!') if (!lostMouse && e->detail != XCB_NOTIFY_DETAIL_INFERIOR) { Xcb::Pointer pointer(frameId()); if (!pointer || !pointer->same_screen || pointer->child == XCB_WINDOW_NONE) { // really lost the mouse lostMouse = true; } } if (lostMouse) { leaveEvent(); if (isDecorated()) { // sending a move instead of a leave. With leave we need to send proper coords, with move it's handled internally QHoverEvent leaveEvent(QEvent::HoverMove, QPointF(-1, -1), QPointF(-1, -1), Qt::NoModifier); QCoreApplication::sendEvent(decoration(), &leaveEvent); } } if (options->focusPolicy() == Options::FocusStrictlyUnderMouse && isActive() && lostMouse) { workspace()->requestDelayFocus(nullptr); } return; } } #define XCapL KKeyServer::modXLock() #define XNumL KKeyServer::modXNumLock() #define XScrL KKeyServer::modXScrollLock() void X11Client::grabButton(int modifier) { unsigned int mods[ 8 ] = { 0, XCapL, XNumL, XNumL | XCapL, XScrL, XScrL | XCapL, XScrL | XNumL, XScrL | XNumL | XCapL }; for (int i = 0; i < 8; ++i) m_wrapper.grabButton(XCB_GRAB_MODE_SYNC, XCB_GRAB_MODE_ASYNC, modifier | mods[ i ]); } void X11Client::ungrabButton(int modifier) { unsigned int mods[ 8 ] = { 0, XCapL, XNumL, XNumL | XCapL, XScrL, XScrL | XCapL, XScrL | XNumL, XScrL | XNumL | XCapL }; for (int i = 0; i < 8; ++i) m_wrapper.ungrabButton(modifier | mods[ i ]); } #undef XCapL #undef XNumL #undef XScrL /** * Releases the passive grab for some modifier combinations when a * window becomes active. This helps broken X programs that * missinterpret LeaveNotify events in grab mode to work properly * (Motif, AWT, Tk, ...) */ void X11Client::updateMouseGrab() { if (workspace()->globalShortcutsDisabled()) { m_wrapper.ungrabButton(); // keep grab for the simple click without modifiers if needed (see below) bool not_obscured = workspace()->topClientOnDesktop(VirtualDesktopManager::self()->current(), -1, true, false) == this; if (!(!options->isClickRaise() || not_obscured)) grabButton(XCB_NONE); return; } if (isActive() && !TabBox::TabBox::self()->forcedGlobalMouseGrab()) { // see TabBox::establishTabBoxGrab() // first grab all modifier combinations m_wrapper.grabButton(XCB_GRAB_MODE_SYNC, XCB_GRAB_MODE_ASYNC); // remove the grab for no modifiers only if the window // is unobscured or if the user doesn't want click raise // (it is unobscured if it the topmost in the unconstrained stacking order, i.e. it is // the most recently raised window) bool not_obscured = workspace()->topClientOnDesktop(VirtualDesktopManager::self()->current(), -1, true, false) == this; if (!options->isClickRaise() || not_obscured) ungrabButton(XCB_NONE); else grabButton(XCB_NONE); ungrabButton(XCB_MOD_MASK_SHIFT); ungrabButton(XCB_MOD_MASK_CONTROL); ungrabButton(XCB_MOD_MASK_CONTROL | XCB_MOD_MASK_SHIFT); } else { m_wrapper.ungrabButton(); // simply grab all modifier combinations m_wrapper.grabButton(XCB_GRAB_MODE_SYNC, XCB_GRAB_MODE_ASYNC); } } static bool modKeyDown(int state) { const uint keyModX = (options->keyCmdAllModKey() == Qt::Key_Meta) ? KKeyServer::modXMeta() : KKeyServer::modXAlt(); return keyModX && (state & KKeyServer::accelModMaskX()) == keyModX; } // return value matters only when filtering events before decoration gets them bool X11Client::buttonPressEvent(xcb_window_t w, int button, int state, int x, int y, int x_root, int y_root, xcb_timestamp_t time) { if (isMoveResizePointerButtonDown()) { if (w == wrapperId()) xcb_allow_events(connection(), XCB_ALLOW_SYNC_POINTER, XCB_TIME_CURRENT_TIME); //xTime()); return true; } if (w == wrapperId() || w == frameId() || w == inputId()) { // FRAME neco s tohohle by se melo zpracovat, nez to dostane dekorace updateUserTime(time); const bool bModKeyHeld = modKeyDown(state); if (isSplash() && button == XCB_BUTTON_INDEX_1 && !bModKeyHeld) { // hide splashwindow if the user clicks on it hideClient(true); if (w == wrapperId()) xcb_allow_events(connection(), XCB_ALLOW_SYNC_POINTER, XCB_TIME_CURRENT_TIME); //xTime()); return true; } Options::MouseCommand com = Options::MouseNothing; bool was_action = false; if (bModKeyHeld) { was_action = true; switch(button) { case XCB_BUTTON_INDEX_1: com = options->commandAll1(); break; case XCB_BUTTON_INDEX_2: com = options->commandAll2(); break; case XCB_BUTTON_INDEX_3: com = options->commandAll3(); break; case XCB_BUTTON_INDEX_4: case XCB_BUTTON_INDEX_5: com = options->operationWindowMouseWheel(button == XCB_BUTTON_INDEX_4 ? 120 : -120); break; } } else { if (w == wrapperId()) { if (button < 4) { com = getMouseCommand(x11ToQtMouseButton(button), &was_action); } else if (button < 6) { com = getWheelCommand(Qt::Vertical, &was_action); } } } if (was_action) { bool replay = performMouseCommand(com, QPoint(x_root, y_root)); if (isSpecialWindow()) replay = true; if (w == wrapperId()) // these can come only from a grab xcb_allow_events(connection(), replay ? XCB_ALLOW_REPLAY_POINTER : XCB_ALLOW_SYNC_POINTER, XCB_TIME_CURRENT_TIME); //xTime()); return true; } } if (w == wrapperId()) { // these can come only from a grab xcb_allow_events(connection(), XCB_ALLOW_REPLAY_POINTER, XCB_TIME_CURRENT_TIME); //xTime()); return true; } if (w == inputId()) { x = x_root - frameGeometry().x(); y = y_root - frameGeometry().y(); // New API processes core events FIRST and only passes unused ones to the decoration QMouseEvent ev(QMouseEvent::MouseButtonPress, QPoint(x, y), QPoint(x_root, y_root), x11ToQtMouseButton(button), x11ToQtMouseButtons(state), Qt::KeyboardModifiers()); return processDecorationButtonPress(&ev, true); } if (w == frameId() && isDecorated()) { if (button >= 4 && button <= 7) { const Qt::KeyboardModifiers modifiers = x11ToQtKeyboardModifiers(state); // Logic borrowed from qapplication_x11.cpp const int delta = 120 * ((button == 4 || button == 6) ? 1 : -1); const bool hor = (((button == 4 || button == 5) && (modifiers & Qt::AltModifier)) || (button == 6 || button == 7)); const QPoint angle = hor ? QPoint(delta, 0) : QPoint(0, delta); QWheelEvent event(QPointF(x, y), QPointF(x_root, y_root), QPoint(), angle, delta, hor ? Qt::Horizontal : Qt::Vertical, x11ToQtMouseButtons(state), modifiers); event.setAccepted(false); QCoreApplication::sendEvent(decoration(), &event); if (!event.isAccepted() && !hor) { if (titlebarPositionUnderMouse()) { performMouseCommand(options->operationTitlebarMouseWheel(delta), QPoint(x_root, y_root)); } } } else { QMouseEvent event(QEvent::MouseButtonPress, QPointF(x, y), QPointF(x_root, y_root), x11ToQtMouseButton(button), x11ToQtMouseButtons(state), x11ToQtKeyboardModifiers(state)); event.setAccepted(false); QCoreApplication::sendEvent(decoration(), &event); if (!event.isAccepted()) { processDecorationButtonPress(&event); } } return true; } return true; } // return value matters only when filtering events before decoration gets them bool X11Client::buttonReleaseEvent(xcb_window_t w, int button, int state, int x, int y, int x_root, int y_root) { if (w == frameId() && isDecorated()) { // wheel handled on buttonPress if (button < 4 || button > 7) { QMouseEvent event(QEvent::MouseButtonRelease, QPointF(x, y), QPointF(x_root, y_root), x11ToQtMouseButton(button), x11ToQtMouseButtons(state) & ~x11ToQtMouseButton(button), x11ToQtKeyboardModifiers(state)); event.setAccepted(false); QCoreApplication::sendEvent(decoration(), &event); if (event.isAccepted() || !titlebarPositionUnderMouse()) { invalidateDecorationDoubleClickTimer(); // click was for the deco and shall not init a doubleclick } } } if (w == wrapperId()) { xcb_allow_events(connection(), XCB_ALLOW_SYNC_POINTER, XCB_TIME_CURRENT_TIME); //xTime()); return true; } if (w != frameId() && w != inputId() && w != moveResizeGrabWindow()) return true; if (w == frameId() && workspace()->userActionsMenu() && workspace()->userActionsMenu()->isShown()) { const_cast(workspace()->userActionsMenu())->grabInput(); } x = this->x(); // translate from grab window to local coords y = this->y(); // Check whether other buttons are still left pressed int buttonMask = XCB_BUTTON_MASK_1 | XCB_BUTTON_MASK_2 | XCB_BUTTON_MASK_3; if (button == XCB_BUTTON_INDEX_1) buttonMask &= ~XCB_BUTTON_MASK_1; else if (button == XCB_BUTTON_INDEX_2) buttonMask &= ~XCB_BUTTON_MASK_2; else if (button == XCB_BUTTON_INDEX_3) buttonMask &= ~XCB_BUTTON_MASK_3; if ((state & buttonMask) == 0) { endMoveResize(); } return true; } // return value matters only when filtering events before decoration gets them bool X11Client::motionNotifyEvent(xcb_window_t w, int state, int x, int y, int x_root, int y_root) { if (w == frameId() && isDecorated() && !isMinimized()) { // TODO Mouse move event dependent on state QHoverEvent event(QEvent::HoverMove, QPointF(x, y), QPointF(x, y)); QCoreApplication::instance()->sendEvent(decoration(), &event); } if (w != frameId() && w != inputId() && w != moveResizeGrabWindow()) return true; // care only about the whole frame if (!isMoveResizePointerButtonDown()) { if (w == inputId()) { int x = x_root - frameGeometry().x();// + padding_left; int y = y_root - frameGeometry().y();// + padding_top; if (isDecorated()) { QHoverEvent event(QEvent::HoverMove, QPointF(x, y), QPointF(x, y)); QCoreApplication::instance()->sendEvent(decoration(), &event); } } Position newmode = modKeyDown(state) ? PositionCenter : mousePosition(); if (newmode != moveResizePointerMode()) { setMoveResizePointerMode(newmode); updateCursor(); } return false; } if (w == moveResizeGrabWindow()) { x = this->x(); // translate from grab window to local coords y = this->y(); } handleMoveResize(QPoint(x, y), QPoint(x_root, y_root)); return true; } void X11Client::focusInEvent(xcb_focus_in_event_t *e) { if (e->event != window()) return; // only window gets focus if (e->mode == XCB_NOTIFY_MODE_UNGRAB) return; // we don't care if (e->detail == XCB_NOTIFY_DETAIL_POINTER) return; // we don't care if (!isShown(false) || !isOnCurrentDesktop()) // we unmapped it, but it got focus meanwhile -> return; // activateNextClient() already transferred focus elsewhere workspace()->forEachClient([](X11Client *client) { client->cancelFocusOutTimer(); }); // check if this client is in should_get_focus list or if activation is allowed bool activate = workspace()->allowClientActivation(this, -1U, true); workspace()->gotFocusIn(this); // remove from should_get_focus list if (activate) setActive(true); else { workspace()->restoreFocus(); demandAttention(); } } void X11Client::focusOutEvent(xcb_focus_out_event_t *e) { if (e->event != window()) return; // only window gets focus if (e->mode == XCB_NOTIFY_MODE_GRAB) return; // we don't care if (isShade()) return; // here neither if (e->detail != XCB_NOTIFY_DETAIL_NONLINEAR && e->detail != XCB_NOTIFY_DETAIL_NONLINEAR_VIRTUAL) // SELI check all this return; // hack for motif apps like netscape if (QApplication::activePopupWidget()) return; // When a client loses focus, FocusOut events are usually immediatelly // followed by FocusIn events for another client that gains the focus // (unless the focus goes to another screen, or to the nofocus widget). // Without this check, the former focused client would have to be // deactivated, and after that, the new one would be activated, with // a short time when there would be no active client. This can cause // flicker sometimes, e.g. when a fullscreen is shown, and focus is transferred // from it to its transient, the fullscreen would be kept in the Active layer // at the beginning and at the end, but not in the middle, when the active // client would be temporarily none (see X11Client::belongToLayer() ). // Therefore the setActive(false) call is moved to the end of the current // event queue. If there is a matching FocusIn event in the current queue // this will be processed before the setActive(false) call and the activation // of the Client which gained FocusIn will automatically deactivate the // previously active client. if (!m_focusOutTimer) { m_focusOutTimer = new QTimer(this); m_focusOutTimer->setSingleShot(true); m_focusOutTimer->setInterval(0); connect(m_focusOutTimer, &QTimer::timeout, [this]() { setActive(false); }); } m_focusOutTimer->start(); } // performs _NET_WM_MOVERESIZE void X11Client::NETMoveResize(int x_root, int y_root, NET::Direction direction) { if (direction == NET::Move) { // move cursor to the provided position to prevent the window jumping there on first movement // the expectation is that the cursor is already at the provided position, // thus it's more a safety measurement Cursors::self()->mouse()->setPos(QPoint(x_root, y_root)); performMouseCommand(Options::MouseMove, QPoint(x_root, y_root)); } else if (isMoveResize() && direction == NET::MoveResizeCancel) { finishMoveResize(true); setMoveResizePointerButtonDown(false); updateCursor(); } else if (direction >= NET::TopLeft && direction <= NET::Left) { static const Position convert[] = { PositionTopLeft, PositionTop, PositionTopRight, PositionRight, PositionBottomRight, PositionBottom, PositionBottomLeft, PositionLeft }; if (!isResizable() || isShade()) return; if (isMoveResize()) finishMoveResize(false); setMoveResizePointerButtonDown(true); setMoveOffset(QPoint(x_root - x(), y_root - y())); // map from global setInvertedMoveOffset(rect().bottomRight() - moveOffset()); setUnrestrictedMoveResize(false); setMoveResizePointerMode(convert[ direction ]); if (!startMoveResize()) setMoveResizePointerButtonDown(false); updateCursor(); } else if (direction == NET::KeyboardMove) { // ignore mouse coordinates given in the message, mouse position is used by the moving algorithm Cursors::self()->mouse()->setPos(frameGeometry().center()); performMouseCommand(Options::MouseUnrestrictedMove, frameGeometry().center()); } else if (direction == NET::KeyboardSize) { // ignore mouse coordinates given in the message, mouse position is used by the resizing algorithm Cursors::self()->mouse()->setPos(frameGeometry().bottomRight()); performMouseCommand(Options::MouseUnrestrictedResize, frameGeometry().bottomRight()); } } void X11Client::keyPressEvent(uint key_code, xcb_timestamp_t time) { updateUserTime(time); AbstractClient::keyPressEvent(key_code); } // **************************************** // Unmanaged // **************************************** bool Unmanaged::windowEvent(xcb_generic_event_t *e) { double old_opacity = opacity(); NET::Properties dirtyProperties; NET::Properties2 dirtyProperties2; info->event(e, &dirtyProperties, &dirtyProperties2); // pass through the NET stuff if (dirtyProperties2 & NET::WM2Opacity) { if (compositing()) { addRepaintFull(); emit opacityChanged(this, old_opacity); } } if (dirtyProperties2 & NET::WM2OpaqueRegion) { getWmOpaqueRegion(); } if (dirtyProperties2.testFlag(NET::WM2WindowRole)) { emit windowRoleChanged(); } if (dirtyProperties2.testFlag(NET::WM2WindowClass)) { getResourceClass(); } const uint8_t eventType = e->response_type & ~0x80; switch (eventType) { case XCB_DESTROY_NOTIFY: release(ReleaseReason::Destroyed); break; case XCB_UNMAP_NOTIFY:{ workspace()->updateFocusMousePosition(Cursors::self()->mouse()->pos()); // may cause leave event // unmap notify might have been emitted due to a destroy notify // but unmap notify gets emitted before the destroy notify, nevertheless at this // point the window is already destroyed. This means any XCB request with the window // will cause an error. // To not run into these errors we try to wait for the destroy notify. For this we // generate a round trip to the X server and wait a very short time span before // handling the release. updateXTime(); // using 1 msec to not just move it at the end of the event loop but add an very short // timespan to cover cases like unmap() followed by destroy(). The only other way to // ensure that the window is not destroyed when we do the release handling is to grab // the XServer which we do not want to do for an Unmanaged. The timespan of 1 msec is // short enough to not cause problems in the close window animations. // It's of course still possible that we miss the destroy in which case non-fatal // X errors are reported to the event loop and logged by Qt. m_scheduledRelease = true; QTimer::singleShot(1, this, SLOT(release())); break; } case XCB_CONFIGURE_NOTIFY: configureNotifyEvent(reinterpret_cast(e)); break; case XCB_PROPERTY_NOTIFY: propertyNotifyEvent(reinterpret_cast(e)); break; case XCB_CLIENT_MESSAGE: clientMessageEvent(reinterpret_cast(e)); break; default: { if (eventType == Xcb::Extensions::self()->shapeNotifyEvent()) { detectShape(window()); addRepaintFull(); addWorkspaceRepaint(frameGeometry()); // in case shape change removes part of this window emit geometryShapeChanged(this, frameGeometry()); } if (eventType == Xcb::Extensions::self()->damageNotifyEvent()) damageNotifyEvent(); break; } } return false; // don't eat events, even our own unmanaged widgets are tracked } void Unmanaged::configureNotifyEvent(xcb_configure_notify_event_t *e) { if (effects) static_cast(effects)->checkInputWindowStacking(); // keep them on top QRect newgeom(e->x, e->y, e->width, e->height); if (newgeom != m_frameGeometry) { addWorkspaceRepaint(visibleRect()); // damage old area QRect old = m_frameGeometry; + m_clientGeometry = newgeom; m_frameGeometry = newgeom; emit frameGeometryChanged(this, old); // update shadow region addRepaintFull(); if (old.size() != m_frameGeometry.size()) discardWindowPixmap(); emit geometryShapeChanged(this, old); } } // **************************************** // Toplevel // **************************************** void Toplevel::propertyNotifyEvent(xcb_property_notify_event_t *e) { if (e->window != window()) return; // ignore frame/wrapper switch(e->atom) { default: if (e->atom == atoms->wm_client_leader) getWmClientLeader(); else if (e->atom == atoms->kde_net_wm_shadow) updateShadow(); else if (e->atom == atoms->kde_skip_close_animation) getSkipCloseAnimation(); break; } } void Toplevel::clientMessageEvent(xcb_client_message_event_t *e) { if (e->type == atoms->wl_surface_id) { m_surfaceId = e->data.data32[0]; if (auto w = waylandServer()) { if (auto s = KWaylandServer::SurfaceInterface::get(m_surfaceId, w->xWaylandConnection())) { setSurface(s); } } emit surfaceIdChanged(m_surfaceId); } } } // namespace diff --git a/internal_client.cpp b/internal_client.cpp index f22840b29..4d94037e6 100644 --- a/internal_client.cpp +++ b/internal_client.cpp @@ -1,593 +1,589 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2019 Martin Flöser Copyright (C) 2019 Vlad Zahorodnii This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ #include "internal_client.h" #include "decorations/decorationbridge.h" #include "deleted.h" #include "workspace.h" #include #include #include Q_DECLARE_METATYPE(NET::WindowType) static const QByteArray s_skipClosePropertyName = QByteArrayLiteral("KWIN_SKIP_CLOSE_ANIMATION"); static const QByteArray s_shadowEnabledPropertyName = QByteArrayLiteral("kwin_shadow_enabled"); namespace KWin { InternalClient::InternalClient(QWindow *window) : m_internalWindow(window) - , m_clientSize(window->size()) , m_windowId(window->winId()) , m_internalWindowFlags(window->flags()) { connect(m_internalWindow, &QWindow::xChanged, this, &InternalClient::updateInternalWindowGeometry); connect(m_internalWindow, &QWindow::yChanged, this, &InternalClient::updateInternalWindowGeometry); connect(m_internalWindow, &QWindow::widthChanged, this, &InternalClient::updateInternalWindowGeometry); connect(m_internalWindow, &QWindow::heightChanged, this, &InternalClient::updateInternalWindowGeometry); connect(m_internalWindow, &QWindow::windowTitleChanged, this, &InternalClient::setCaption); connect(m_internalWindow, &QWindow::opacityChanged, this, &InternalClient::setOpacity); connect(m_internalWindow, &QWindow::destroyed, this, &InternalClient::destroyClient); connect(this, &InternalClient::opacityChanged, this, &InternalClient::addRepaintFull); const QVariant windowType = m_internalWindow->property("kwin_windowType"); if (!windowType.isNull()) { m_windowType = windowType.value(); } setCaption(m_internalWindow->title()); setIcon(QIcon::fromTheme(QStringLiteral("kwin"))); setOnAllDesktops(true); setOpacity(m_internalWindow->opacity()); setSkipCloseAnimation(m_internalWindow->property(s_skipClosePropertyName).toBool()); // Create scene window, effect window, and update server-side shadow. setupCompositing(); updateColorScheme(); blockGeometryUpdates(true); commitGeometry(m_internalWindow->geometry()); updateDecoration(true); setFrameGeometry(clientRectToFrameRect(m_internalWindow->geometry())); setGeometryRestore(frameGeometry()); blockGeometryUpdates(false); m_internalWindow->installEventFilter(this); } InternalClient::~InternalClient() { } bool InternalClient::eventFilter(QObject *watched, QEvent *event) { if (watched == m_internalWindow && event->type() == QEvent::DynamicPropertyChange) { QDynamicPropertyChangeEvent *pe = static_cast(event); if (pe->propertyName() == s_skipClosePropertyName) { setSkipCloseAnimation(m_internalWindow->property(s_skipClosePropertyName).toBool()); } if (pe->propertyName() == s_shadowEnabledPropertyName) { updateShadow(); } if (pe->propertyName() == "kwin_windowType") { m_windowType = m_internalWindow->property("kwin_windowType").value(); workspace()->updateClientArea(); } } return false; } QRect InternalClient::bufferGeometry() const { return frameGeometry() - frameMargins(); } QStringList InternalClient::activities() const { return QStringList(); } void InternalClient::blockActivityUpdates(bool b) { Q_UNUSED(b) // Internal clients do not support activities. } qreal InternalClient::bufferScale() const { if (m_internalWindow) { return m_internalWindow->devicePixelRatio(); } return 1; } QString InternalClient::captionNormal() const { return m_captionNormal; } QString InternalClient::captionSuffix() const { return m_captionSuffix; } QPoint InternalClient::clientContentPos() const { return -1 * clientPos(); } -QSize InternalClient::clientSize() const -{ - return m_clientSize; -} - QSize InternalClient::minSize() const { return m_internalWindow->minimumSize(); } QSize InternalClient::maxSize() const { return m_internalWindow->maximumSize(); } void InternalClient::debug(QDebug &stream) const { stream.nospace() << "\'InternalClient:" << m_internalWindow << "\'"; } QRect InternalClient::transparentRect() const { return QRect(); } NET::WindowType InternalClient::windowType(bool direct, int supported_types) const { Q_UNUSED(direct) Q_UNUSED(supported_types) return m_windowType; } double InternalClient::opacity() const { return m_opacity; } void InternalClient::setOpacity(double opacity) { if (m_opacity == opacity) { return; } const double oldOpacity = m_opacity; m_opacity = opacity; emit opacityChanged(this, oldOpacity); } void InternalClient::killWindow() { // We don't kill our internal windows. } bool InternalClient::isPopupWindow() const { if (AbstractClient::isPopupWindow()) { return true; } return m_internalWindowFlags.testFlag(Qt::Popup); } QByteArray InternalClient::windowRole() const { return QByteArray(); } void InternalClient::closeWindow() { if (m_internalWindow) { m_internalWindow->hide(); } } bool InternalClient::isCloseable() const { return true; } bool InternalClient::isMovable() const { return true; } bool InternalClient::isMovableAcrossScreens() const { return true; } bool InternalClient::isResizable() const { return true; } bool InternalClient::noBorder() const { return m_userNoBorder || m_internalWindowFlags.testFlag(Qt::FramelessWindowHint) || m_internalWindowFlags.testFlag(Qt::Popup); } bool InternalClient::userCanSetNoBorder() const { return !m_internalWindowFlags.testFlag(Qt::FramelessWindowHint) || m_internalWindowFlags.testFlag(Qt::Popup); } bool InternalClient::wantsInput() const { return false; } bool InternalClient::isInternal() const { return true; } bool InternalClient::isLockScreen() const { if (m_internalWindow) { return m_internalWindow->property("org_kde_ksld_emergency").toBool(); } return false; } bool InternalClient::isInputMethod() const { if (m_internalWindow) { return m_internalWindow->property("__kwin_input_method").toBool(); } return false; } bool InternalClient::isOutline() const { if (m_internalWindow) { return m_internalWindow->property("__kwin_outline").toBool(); } return false; } quint32 InternalClient::windowId() const { return m_windowId; } bool InternalClient::isShown(bool shaded_is_shown) const { Q_UNUSED(shaded_is_shown) return readyForPainting(); } bool InternalClient::isHiddenInternal() const { return false; } void InternalClient::hideClient(bool hide) { Q_UNUSED(hide) } void InternalClient::resizeWithChecks(const QSize &size, ForceGeometry_t force) { Q_UNUSED(force) if (!m_internalWindow) { return; } const QRect area = workspace()->clientArea(WorkArea, this); setFrameGeometry(QRect{pos(), size.boundedTo(area.size())}, force); } void InternalClient::setFrameGeometry(const QRect &rect, ForceGeometry_t force) { if (areGeometryUpdatesBlocked()) { m_frameGeometry = rect; if (pendingGeometryUpdate() == PendingGeometryForced) { // Maximum, nothing needed. } else if (force == ForceGeometrySet) { setPendingGeometryUpdate(PendingGeometryForced); } else { setPendingGeometryUpdate(PendingGeometryNormal); } return; } if (pendingGeometryUpdate() != PendingGeometryNone) { // Reset geometry to the one before blocking, so that we can compare properly. m_frameGeometry = frameGeometryBeforeUpdateBlocking(); } if (m_frameGeometry == rect) { return; } const QRect newClientGeometry = frameRectToClientRect(rect); - if (m_clientSize == newClientGeometry.size()) { + if (clientSize() == newClientGeometry.size()) { commitGeometry(rect); } else { requestGeometry(rect); } } bool InternalClient::supportsWindowRules() const { return false; } AbstractClient *InternalClient::findModal(bool allow_itself) { Q_UNUSED(allow_itself) return nullptr; } void InternalClient::setOnAllActivities(bool set) { Q_UNUSED(set) // Internal clients do not support activities. } void InternalClient::takeFocus() { } void InternalClient::setNoBorder(bool set) { if (!userCanSetNoBorder()) { return; } if (m_userNoBorder == set) { return; } m_userNoBorder = set; updateDecoration(true); } void InternalClient::updateDecoration(bool check_workspace_pos, bool force) { if (!force && isDecorated() == !noBorder()) { return; } const QRect oldFrameGeometry = frameGeometry(); const QRect oldClientGeometry = oldFrameGeometry - frameMargins(); GeometryUpdatesBlocker blocker(this); if (force) { destroyDecoration(); } if (!noBorder()) { createDecoration(oldClientGeometry); } else { destroyDecoration(); } updateShadow(); if (check_workspace_pos) { checkWorkspacePosition(oldFrameGeometry, -2, oldClientGeometry); } } void InternalClient::updateColorScheme() { AbstractClient::updateColorScheme(QString()); } void InternalClient::showOnScreenEdge() { } void InternalClient::destroyClient() { if (isMoveResize()) { leaveMoveResize(); } Deleted *deleted = Deleted::create(this); emit windowClosed(this, deleted); destroyDecoration(); workspace()->removeInternalClient(this); deleted->unrefWindow(); m_internalWindow = nullptr; delete this; } void InternalClient::present(const QSharedPointer fbo) { Q_ASSERT(m_internalImage.isNull()); const QSize bufferSize = fbo->size() / bufferScale(); commitGeometry(QRect(pos(), clientSizeToFrameSize(bufferSize))); markAsMapped(); if (m_internalFBO != fbo) { discardWindowPixmap(); m_internalFBO = fbo; } setDepth(32); addDamageFull(); addRepaintFull(); } void InternalClient::present(const QImage &image, const QRegion &damage) { Q_ASSERT(m_internalFBO.isNull()); const QSize bufferSize = image.size() / bufferScale(); commitGeometry(QRect(pos(), clientSizeToFrameSize(bufferSize))); markAsMapped(); if (m_internalImage.size() != image.size()) { discardWindowPixmap(); } m_internalImage = image; setDepth(32); addDamage(damage); addRepaint(damage.translated(borderLeft(), borderTop())); } QWindow *InternalClient::internalWindow() const { return m_internalWindow; } bool InternalClient::acceptsFocus() const { return false; } bool InternalClient::belongsToSameApplication(const AbstractClient *other, SameApplicationChecks checks) const { Q_UNUSED(checks) return qobject_cast(other) != nullptr; } void InternalClient::doMove(int x, int y) { Q_UNUSED(x) Q_UNUSED(y) syncGeometryToInternalWindow(); } void InternalClient::doResizeSync() { requestGeometry(moveResizeGeometry()); } void InternalClient::updateCaption() { const QString oldSuffix = m_captionSuffix; const auto shortcut = shortcutCaptionSuffix(); m_captionSuffix = shortcut; if ((!isSpecialWindow() || isToolbar()) && findClientWithSameCaption()) { int i = 2; do { m_captionSuffix = shortcut + QLatin1String(" <") + QString::number(i) + QLatin1Char('>'); i++; } while (findClientWithSameCaption()); } if (m_captionSuffix != oldSuffix) { emit captionChanged(); } } void InternalClient::requestGeometry(const QRect &rect) { if (m_internalWindow) { m_internalWindow->setGeometry(frameRectToClientRect(rect)); } } void InternalClient::commitGeometry(const QRect &rect) { if (m_frameGeometry == rect && pendingGeometryUpdate() == PendingGeometryNone) { return; } + m_clientGeometry = frameRectToClientRect(rect); m_frameGeometry = rect; - m_clientSize = frameRectToClientRect(frameGeometry()).size(); - addWorkspaceRepaint(visibleRect()); syncGeometryToInternalWindow(); + if (clientGeometryBeforeUpdateBlocking() != clientGeometry()) { + emit clientGeometryChanged(this, clientGeometryBeforeUpdateBlocking()); + } if (frameGeometryBeforeUpdateBlocking() != frameGeometry()) { emit frameGeometryChanged(this, frameGeometryBeforeUpdateBlocking()); } emit geometryShapeChanged(this, frameGeometryBeforeUpdateBlocking()); updateGeometryBeforeUpdateBlocking(); if (isResize()) { performMoveResize(); } } void InternalClient::setCaption(const QString &caption) { if (m_captionNormal == caption) { return; } m_captionNormal = caption; const QString oldCaptionSuffix = m_captionSuffix; updateCaption(); if (m_captionSuffix == oldCaptionSuffix) { emit captionChanged(); } } void InternalClient::markAsMapped() { if (!ready_for_painting) { setReadyForPainting(); workspace()->addInternalClient(this); } } void InternalClient::syncGeometryToInternalWindow() { if (m_internalWindow->geometry() == frameRectToClientRect(frameGeometry())) { return; } QTimer::singleShot(0, this, [this] { requestGeometry(frameGeometry()); }); } void InternalClient::updateInternalWindowGeometry() { if (isMoveResize()) { return; } commitGeometry(clientRectToFrameRect(m_internalWindow->geometry())); } } diff --git a/internal_client.h b/internal_client.h index ec038f069..b1b3b968f 100644 --- a/internal_client.h +++ b/internal_client.h @@ -1,116 +1,114 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2019 Martin Flöser Copyright (C) 2019 Vlad Zahorodnii This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ #pragma once #include "abstract_client.h" namespace KWin { class KWIN_EXPORT InternalClient : public AbstractClient { Q_OBJECT public: explicit InternalClient(QWindow *window); ~InternalClient() override; bool eventFilter(QObject *watched, QEvent *event) override; QRect bufferGeometry() const override; QStringList activities() const override; void blockActivityUpdates(bool b = true) override; qreal bufferScale() const override; QString captionNormal() const override; QString captionSuffix() const override; QPoint clientContentPos() const override; - QSize clientSize() const override; QSize minSize() const override; QSize maxSize() const override; void debug(QDebug &stream) const override; QRect transparentRect() const override; NET::WindowType windowType(bool direct = false, int supported_types = 0) const override; double opacity() const override; void setOpacity(double opacity) override; void killWindow() override; bool isPopupWindow() const override; QByteArray windowRole() const override; void closeWindow() override; bool isCloseable() const override; bool isMovable() const override; bool isMovableAcrossScreens() const override; bool isResizable() const override; bool noBorder() const override; bool userCanSetNoBorder() const override; bool wantsInput() const override; bool isInternal() const override; bool isLockScreen() const override; bool isInputMethod() const override; bool isOutline() const override; quint32 windowId() const override; bool isShown(bool shaded_is_shown) const override; bool isHiddenInternal() const override; void hideClient(bool hide) override; void resizeWithChecks(const QSize &size, ForceGeometry_t force = NormalGeometrySet) override; void setFrameGeometry(const QRect &rect, ForceGeometry_t force = NormalGeometrySet) override; bool supportsWindowRules() const override; AbstractClient *findModal(bool allow_itself = false) override; void setOnAllActivities(bool set) override; void takeFocus() override; void setNoBorder(bool set) override; void updateDecoration(bool check_workspace_pos, bool force = false) override; void updateColorScheme() override; void showOnScreenEdge() override; void destroyClient() override; void present(const QSharedPointer fbo); void present(const QImage &image, const QRegion &damage); QWindow *internalWindow() const; protected: bool acceptsFocus() const override; bool belongsToSameApplication(const AbstractClient *other, SameApplicationChecks checks) const override; void doMove(int x, int y) override; void doResizeSync() override; void updateCaption() override; private: void requestGeometry(const QRect &rect); void commitGeometry(const QRect &rect); void setCaption(const QString &caption); void markAsMapped(); void syncGeometryToInternalWindow(); void updateInternalWindowGeometry(); QWindow *m_internalWindow = nullptr; - QSize m_clientSize = QSize(0, 0); QString m_captionNormal; QString m_captionSuffix; double m_opacity = 1.0; NET::WindowType m_windowType = NET::Normal; quint32 m_windowId = 0; Qt::WindowFlags m_internalWindowFlags = Qt::WindowFlags(); bool m_userNoBorder = false; Q_DISABLE_COPY(InternalClient) }; } diff --git a/toplevel.cpp b/toplevel.cpp index 15f4350ce..e5e9e82b4 100644 --- a/toplevel.cpp +++ b/toplevel.cpp @@ -1,807 +1,808 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2006 Lubos Lunak This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ #include "toplevel.h" #ifdef KWIN_BUILD_ACTIVITIES #include "activities.h" #endif #include "atoms.h" #include "client_machine.h" #include "composite.h" #include "effects.h" #include "screens.h" #include "shadow.h" #include "workspace.h" #include "xcbutils.h" #include #include namespace KWin { Toplevel::Toplevel() : m_visual(XCB_NONE) , bit_depth(24) , info(nullptr) , ready_for_painting(false) , m_isDamaged(false) , m_internalId(QUuid::createUuid()) , m_client() , damage_handle(XCB_NONE) , is_shape(false) , effect_window(nullptr) , m_clientMachine(new ClientMachine(this)) , m_wmClientLeader(XCB_WINDOW_NONE) , m_damageReplyPending(false) , m_screen(0) , m_skipCloseAnimation(false) { connect(this, SIGNAL(damaged(KWin::Toplevel*,QRect)), SIGNAL(needsRepaint())); connect(screens(), SIGNAL(changed()), SLOT(checkScreen())); connect(screens(), SIGNAL(countChanged(int,int)), SLOT(checkScreen())); setupCheckScreenConnection(); // Only for compatibility reasons, drop in the next major release. connect(this, &Toplevel::frameGeometryChanged, this, &Toplevel::geometryChanged); } Toplevel::~Toplevel() { Q_ASSERT(damage_handle == XCB_NONE); delete info; } QDebug& operator<<(QDebug& stream, const Toplevel* cl) { if (cl == nullptr) return stream << "\'NULL\'"; cl->debug(stream); return stream; } void Toplevel::detectShape(xcb_window_t id) { const bool wasShape = is_shape; is_shape = Xcb::Extensions::self()->hasShape(id); if (wasShape != is_shape) { emit shapedChanged(); } } // used only by Deleted::copy() void Toplevel::copyToDeleted(Toplevel* c) { m_internalId = c->internalId(); m_frameGeometry = c->m_frameGeometry; + m_clientGeometry = c->m_clientGeometry; m_visual = c->m_visual; bit_depth = c->bit_depth; info = c->info; m_client.reset(c->m_client, false); ready_for_painting = c->ready_for_painting; damage_handle = XCB_NONE; damage_region = c->damage_region; repaints_region = c->repaints_region; layer_repaints_region = c->layer_repaints_region; is_shape = c->is_shape; effect_window = c->effect_window; if (effect_window != nullptr) effect_window->setWindow(this); resource_name = c->resourceName(); resource_class = c->resourceClass(); m_clientMachine = c->m_clientMachine; m_clientMachine->setParent(this); m_wmClientLeader = c->wmClientLeader(); opaque_region = c->opaqueRegion(); m_screen = c->m_screen; m_skipCloseAnimation = c->m_skipCloseAnimation; m_internalFBO = c->m_internalFBO; m_internalImage = c->m_internalImage; } // before being deleted, remove references to everything that's now // owner by Deleted void Toplevel::disownDataPassedToDeleted() { info = nullptr; } QRect Toplevel::visibleRect() const { // There's no strict order between frame geometry and buffer geometry. QRect rect = frameGeometry() | bufferGeometry(); if (shadow() && !shadow()->shadowRegion().isEmpty()) { rect |= shadow()->shadowRegion().boundingRect().translated(pos()); } return rect; } Xcb::Property Toplevel::fetchWmClientLeader() const { return Xcb::Property(false, window(), atoms->wm_client_leader, XCB_ATOM_WINDOW, 0, 10000); } void Toplevel::readWmClientLeader(Xcb::Property &prop) { m_wmClientLeader = prop.value(window()); } void Toplevel::getWmClientLeader() { auto prop = fetchWmClientLeader(); readWmClientLeader(prop); } /** * Returns sessionId for this client, * taken either from its window or from the leader window. */ QByteArray Toplevel::sessionId() const { QByteArray result = Xcb::StringProperty(window(), atoms->sm_client_id); if (result.isEmpty() && m_wmClientLeader && m_wmClientLeader != window()) { result = Xcb::StringProperty(m_wmClientLeader, atoms->sm_client_id); } return result; } /** * Returns command property for this client, * taken either from its window or from the leader window. */ QByteArray Toplevel::wmCommand() { QByteArray result = Xcb::StringProperty(window(), XCB_ATOM_WM_COMMAND); if (result.isEmpty() && m_wmClientLeader && m_wmClientLeader != window()) { result = Xcb::StringProperty(m_wmClientLeader, XCB_ATOM_WM_COMMAND); } result.replace(0, ' '); return result; } void Toplevel::getWmClientMachine() { m_clientMachine->resolve(window(), wmClientLeader()); } /** * Returns client machine for this client, * taken either from its window or from the leader window. */ QByteArray Toplevel::wmClientMachine(bool use_localhost) const { if (!m_clientMachine) { // this should never happen return QByteArray(); } if (use_localhost && m_clientMachine->isLocal()) { // special name for the local machine (localhost) return ClientMachine::localhost(); } return m_clientMachine->hostName(); } /** * Returns client leader window for this client. * Returns the client window itself if no leader window is defined. */ xcb_window_t Toplevel::wmClientLeader() const { if (m_wmClientLeader != XCB_WINDOW_NONE) { return m_wmClientLeader; } return window(); } void Toplevel::getResourceClass() { if (!info) { return; } setResourceClass(QByteArray(info->windowClassName()).toLower(), QByteArray(info->windowClassClass()).toLower()); } void Toplevel::setResourceClass(const QByteArray &name, const QByteArray &className) { resource_name = name; resource_class = className; emit windowClassChanged(); } bool Toplevel::resourceMatch(const Toplevel *c1, const Toplevel *c2) { return c1->resourceClass() == c2->resourceClass(); } double Toplevel::opacity() const { if (!info) { return 1.0; } if (info->opacity() == 0xffffffff) return 1.0; return info->opacity() * 1.0 / 0xffffffff; } void Toplevel::setOpacity(double new_opacity) { if (!info) { return; } double old_opacity = opacity(); new_opacity = qBound(0.0, new_opacity, 1.0); if (old_opacity == new_opacity) return; info->setOpacity(static_cast< unsigned long >(new_opacity * 0xffffffff)); if (compositing()) { addRepaintFull(); emit opacityChanged(this, old_opacity); } } bool Toplevel::setupCompositing() { if (!compositing()) return false; if (damage_handle != XCB_NONE) return false; if (kwinApp()->operationMode() == Application::OperationModeX11 && !surface()) { damage_handle = xcb_generate_id(connection()); xcb_damage_create(connection(), damage_handle, frameId(), XCB_DAMAGE_REPORT_LEVEL_NON_EMPTY); } damage_region = QRegion(0, 0, width(), height()); effect_window = new EffectWindowImpl(this); Compositor::self()->scene()->addToplevel(this); return true; } void Toplevel::finishCompositing(ReleaseReason releaseReason) { if (kwinApp()->operationMode() == Application::OperationModeX11 && damage_handle == XCB_NONE) return; if (effect_window->window() == this) { // otherwise it's already passed to Deleted, don't free data discardWindowPixmap(); delete effect_window; } if (damage_handle != XCB_NONE && releaseReason != ReleaseReason::Destroyed) { xcb_damage_destroy(connection(), damage_handle); } damage_handle = XCB_NONE; damage_region = QRegion(); repaints_region = QRegion(); effect_window = nullptr; } void Toplevel::discardWindowPixmap() { addDamageFull(); if (effectWindow() != nullptr && effectWindow()->sceneWindow() != nullptr) effectWindow()->sceneWindow()->discardPixmap(); } void Toplevel::damageNotifyEvent() { m_isDamaged = true; // Note: The rect is supposed to specify the damage extents, // but we don't know it at this point. No one who connects // to this signal uses the rect however. emit damaged(this, QRect()); } bool Toplevel::compositing() const { if (!Workspace::self()) { return false; } return Workspace::self()->compositing(); } bool Toplevel::resetAndFetchDamage() { if (!m_isDamaged) return false; if (damage_handle == XCB_NONE) { m_isDamaged = false; return true; } xcb_connection_t *conn = connection(); // Create a new region and copy the damage region to it, // resetting the damaged state. xcb_xfixes_region_t region = xcb_generate_id(conn); xcb_xfixes_create_region(conn, region, 0, nullptr); xcb_damage_subtract(conn, damage_handle, 0, region); // Send a fetch-region request and destroy the region m_regionCookie = xcb_xfixes_fetch_region_unchecked(conn, region); xcb_xfixes_destroy_region(conn, region); m_isDamaged = false; m_damageReplyPending = true; return m_damageReplyPending; } void Toplevel::getDamageRegionReply() { if (!m_damageReplyPending) return; m_damageReplyPending = false; // Get the fetch-region reply xcb_xfixes_fetch_region_reply_t *reply = xcb_xfixes_fetch_region_reply(connection(), m_regionCookie, nullptr); if (!reply) return; // Convert the reply to a QRegion int count = xcb_xfixes_fetch_region_rectangles_length(reply); QRegion region; if (count > 1 && count < 16) { xcb_rectangle_t *rects = xcb_xfixes_fetch_region_rectangles(reply); QVector qrects; qrects.reserve(count); for (int i = 0; i < count; i++) qrects << QRect(rects[i].x, rects[i].y, rects[i].width, rects[i].height); region.setRects(qrects.constData(), count); } else region += QRect(reply->extents.x, reply->extents.y, reply->extents.width, reply->extents.height); const QRect bufferRect = bufferGeometry(); const QRect frameRect = frameGeometry(); damage_region += region; repaints_region += region.translated(bufferRect.topLeft() - frameRect.topLeft()); free(reply); } void Toplevel::addDamageFull() { if (!compositing()) return; const QRect bufferRect = bufferGeometry(); const QRect frameRect = frameGeometry(); const int offsetX = bufferRect.x() - frameRect.x(); const int offsetY = bufferRect.y() - frameRect.y(); const QRect damagedRect = QRect(0, 0, bufferRect.width(), bufferRect.height()); damage_region = damagedRect; repaints_region |= damagedRect.translated(offsetX, offsetY); emit damaged(this, damagedRect); } void Toplevel::resetDamage() { damage_region = QRegion(); } void Toplevel::addRepaint(const QRect& r) { if (!compositing()) { return; } repaints_region += r; emit needsRepaint(); } void Toplevel::addRepaint(int x, int y, int w, int h) { QRect r(x, y, w, h); addRepaint(r); } void Toplevel::addRepaint(const QRegion& r) { if (!compositing()) { return; } repaints_region += r; emit needsRepaint(); } void Toplevel::addLayerRepaint(const QRect& r) { if (!compositing()) { return; } layer_repaints_region += r; emit needsRepaint(); } void Toplevel::addLayerRepaint(int x, int y, int w, int h) { QRect r(x, y, w, h); addLayerRepaint(r); } void Toplevel::addLayerRepaint(const QRegion& r) { if (!compositing()) return; layer_repaints_region += r; emit needsRepaint(); } void Toplevel::addRepaintFull() { repaints_region = visibleRect().translated(-pos()); emit needsRepaint(); } void Toplevel::resetRepaints() { repaints_region = QRegion(); layer_repaints_region = QRegion(); } void Toplevel::addWorkspaceRepaint(int x, int y, int w, int h) { addWorkspaceRepaint(QRect(x, y, w, h)); } void Toplevel::addWorkspaceRepaint(const QRect& r2) { if (!compositing()) return; Compositor::self()->addRepaint(r2); } void Toplevel::setReadyForPainting() { if (!ready_for_painting) { ready_for_painting = true; if (compositing()) { addRepaintFull(); emit windowShown(this); } } } void Toplevel::deleteEffectWindow() { delete effect_window; effect_window = nullptr; } void Toplevel::checkScreen() { if (screens()->count() == 1) { if (m_screen != 0) { m_screen = 0; emit screenChanged(); } } else { const int s = screens()->number(frameGeometry().center()); if (s != m_screen) { m_screen = s; emit screenChanged(); } } qreal newScale = screens()->scale(m_screen); if (newScale != m_screenScale) { m_screenScale = newScale; emit screenScaleChanged(); } } void Toplevel::setupCheckScreenConnection() { connect(this, &Toplevel::frameGeometryChanged, this, &Toplevel::checkScreen); checkScreen(); } void Toplevel::removeCheckScreenConnection() { disconnect(this, &Toplevel::frameGeometryChanged, this, &Toplevel::checkScreen); } int Toplevel::screen() const { return m_screen; } qreal Toplevel::screenScale() const { return m_screenScale; } qreal Toplevel::bufferScale() const { return surface() ? surface()->scale() : 1; } bool Toplevel::isOnScreen(int screen) const { return screens()->geometry(screen).intersects(frameGeometry()); } bool Toplevel::isOnActiveScreen() const { return isOnScreen(screens()->current()); } void Toplevel::updateShadow() { QRect dirtyRect; // old & new shadow region const QRect oldVisibleRect = visibleRect(); if (shadow()) { dirtyRect = shadow()->shadowRegion().boundingRect(); if (!effectWindow()->sceneWindow()->shadow()->updateShadow()) { effectWindow()->sceneWindow()->updateShadow(nullptr); } emit shadowChanged(); } else { Shadow::createShadow(this); } if (shadow()) dirtyRect |= shadow()->shadowRegion().boundingRect(); if (oldVisibleRect != visibleRect()) emit paddingChanged(this, oldVisibleRect); if (dirtyRect.isValid()) { dirtyRect.translate(pos()); addLayerRepaint(dirtyRect); } } Shadow *Toplevel::shadow() { if (effectWindow() && effectWindow()->sceneWindow()) { return effectWindow()->sceneWindow()->shadow(); } else { return nullptr; } } const Shadow *Toplevel::shadow() const { if (effectWindow() && effectWindow()->sceneWindow()) { return effectWindow()->sceneWindow()->shadow(); } else { return nullptr; } } bool Toplevel::wantsShadowToBeRendered() const { return true; } void Toplevel::getWmOpaqueRegion() { if (!info) { return; } const auto rects = info->opaqueRegion(); QRegion new_opaque_region; for (const auto &r : rects) { new_opaque_region += QRect(r.pos.x, r.pos.y, r.size.width, r.size.height); } opaque_region = new_opaque_region; } bool Toplevel::isClient() const { return false; } bool Toplevel::isDeleted() const { return false; } bool Toplevel::isOnCurrentActivity() const { #ifdef KWIN_BUILD_ACTIVITIES if (!Activities::self()) { return true; } return isOnActivity(Activities::self()->current()); #else return true; #endif } void Toplevel::elevate(bool elevate) { if (!effectWindow()) { return; } effectWindow()->elevate(elevate); addWorkspaceRepaint(visibleRect()); } pid_t Toplevel::pid() const { if (!info) { return -1; } return info->pid(); } xcb_window_t Toplevel::frameId() const { return m_client; } Xcb::Property Toplevel::fetchSkipCloseAnimation() const { return Xcb::Property(false, window(), atoms->kde_skip_close_animation, XCB_ATOM_CARDINAL, 0, 1); } void Toplevel::readSkipCloseAnimation(Xcb::Property &property) { setSkipCloseAnimation(property.toBool()); } void Toplevel::getSkipCloseAnimation() { Xcb::Property property = fetchSkipCloseAnimation(); readSkipCloseAnimation(property); } bool Toplevel::skipsCloseAnimation() const { return m_skipCloseAnimation; } void Toplevel::setSkipCloseAnimation(bool set) { if (set == m_skipCloseAnimation) { return; } m_skipCloseAnimation = set; emit skipCloseAnimationChanged(); } void Toplevel::setSurface(KWaylandServer::SurfaceInterface *surface) { if (m_surface == surface) { return; } using namespace KWaylandServer; if (m_surface) { disconnect(m_surface, &SurfaceInterface::damaged, this, &Toplevel::addDamage); disconnect(m_surface, &SurfaceInterface::sizeChanged, this, &Toplevel::discardWindowPixmap); } m_surface = surface; connect(m_surface, &SurfaceInterface::damaged, this, &Toplevel::addDamage); connect(m_surface, &SurfaceInterface::sizeChanged, this, &Toplevel::discardWindowPixmap); connect(m_surface, &SurfaceInterface::subSurfaceTreeChanged, this, [this] { // TODO improve to only update actual visual area if (ready_for_painting) { addDamageFull(); m_isDamaged = true; } } ); connect(m_surface, &SurfaceInterface::destroyed, this, [this] { m_surface = nullptr; } ); emit surfaceChanged(); } void Toplevel::addDamage(const QRegion &damage) { m_isDamaged = true; damage_region += damage; for (const QRect &r : damage) { emit damaged(this, r); } } QByteArray Toplevel::windowRole() const { if (!info) { return {}; } return QByteArray(info->windowRole()); } void Toplevel::setDepth(int depth) { if (bit_depth == depth) { return; } const bool oldAlpha = hasAlpha(); bit_depth = depth; if (oldAlpha != hasAlpha()) { emit hasAlphaChanged(); } } QRegion Toplevel::inputShape() const { if (m_surface) { return m_surface->input(); } else { // TODO: maybe also for X11? return QRegion(); } } QMatrix4x4 Toplevel::inputTransformation() const { QMatrix4x4 m; m.translate(-x(), -y()); return m; } quint32 Toplevel::windowId() const { return window(); } QRect Toplevel::inputGeometry() const { return frameGeometry(); } bool Toplevel::isLocalhost() const { if (!m_clientMachine) { return true; } return m_clientMachine->isLocal(); } QMargins Toplevel::bufferMargins() const { return QMargins(); } QMargins Toplevel::frameMargins() const { return QMargins(); } } // namespace diff --git a/toplevel.h b/toplevel.h index 131b0ce43..a21e84a89 100644 --- a/toplevel.h +++ b/toplevel.h @@ -1,1049 +1,1068 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2006 Lubos Lunak This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ #ifndef KWIN_TOPLEVEL_H #define KWIN_TOPLEVEL_H // kwin #include "input.h" #include "utils.h" #include "virtualdesktops.h" #include "xcbutils.h" // KDE #include // Qt #include #include #include // xcb #include #include // c++ #include class QOpenGLFramebufferObject; namespace KWaylandServer { class SurfaceInterface; } namespace KWin { class ClientMachine; class Deleted; class EffectWindowImpl; class Shadow; /** * Enum to describe the reason why a Toplevel has to be released. */ enum class ReleaseReason { Release, ///< Normal Release after e.g. an Unmap notify event (window still valid) Destroyed, ///< Release after an Destroy notify event (window no longer valid) KWinShutsDown ///< Release on KWin Shutdown (window still valid) }; class KWIN_EXPORT Toplevel : public QObject { Q_OBJECT Q_PROPERTY(bool alpha READ hasAlpha NOTIFY hasAlphaChanged) Q_PROPERTY(qulonglong frameId READ frameId) /** * This property holds the geometry of the Toplevel, excluding invisible * portions, e.g. client-side and server-side drop-shadows, etc. * * @deprecated Use frameGeometry property instead. */ Q_PROPERTY(QRect geometry READ frameGeometry NOTIFY frameGeometryChanged) /** * This property holds rectangle that the pixmap or buffer of this Toplevel * occupies on the screen. This rectangle includes invisible portions of the * client, e.g. client-side drop shadows, etc. */ Q_PROPERTY(QRect bufferGeometry READ bufferGeometry) /** * This property holds the geometry of the Toplevel, excluding invisible * portions, e.g. server-side and client-side drop-shadows, etc. */ Q_PROPERTY(QRect frameGeometry READ frameGeometry NOTIFY frameGeometryChanged) /** * This property holds the position of the Toplevel's frame geometry. */ Q_PROPERTY(QPoint pos READ pos) /** * This property holds the size of the Toplevel's frame geometry. */ Q_PROPERTY(QSize size READ size) /** * This property holds the x position of the Toplevel's frame geometry. */ Q_PROPERTY(int x READ x) /** * This property holds the y position of the Toplevel's frame geometry. */ Q_PROPERTY(int y READ y) /** * This property holds the width of the Toplevel's frame geometry. */ Q_PROPERTY(int width READ width) /** * This property holds the height of the Toplevel's frame geometry. */ Q_PROPERTY(int height READ height) Q_PROPERTY(QRect visibleRect READ visibleRect) Q_PROPERTY(qreal opacity READ opacity WRITE setOpacity NOTIFY opacityChanged) Q_PROPERTY(int screen READ screen NOTIFY screenChanged) Q_PROPERTY(qulonglong windowId READ windowId CONSTANT) Q_PROPERTY(int desktop READ desktop) /** * Whether the window is on all desktops. That is desktop is -1. */ Q_PROPERTY(bool onAllDesktops READ isOnAllDesktops) Q_PROPERTY(QRect rect READ rect) Q_PROPERTY(QPoint clientPos READ clientPos) Q_PROPERTY(QSize clientSize READ clientSize) Q_PROPERTY(QByteArray resourceName READ resourceName NOTIFY windowClassChanged) Q_PROPERTY(QByteArray resourceClass READ resourceClass NOTIFY windowClassChanged) Q_PROPERTY(QByteArray windowRole READ windowRole NOTIFY windowRoleChanged) /** * Returns whether the window is a desktop background window (the one with wallpaper). * See _NET_WM_WINDOW_TYPE_DESKTOP at https://standards.freedesktop.org/wm-spec/wm-spec-latest.html . */ Q_PROPERTY(bool desktopWindow READ isDesktop) /** * Returns whether the window is a dock (i.e. a panel). * See _NET_WM_WINDOW_TYPE_DOCK at https://standards.freedesktop.org/wm-spec/wm-spec-latest.html . */ Q_PROPERTY(bool dock READ isDock) /** * Returns whether the window is a standalone (detached) toolbar window. * See _NET_WM_WINDOW_TYPE_TOOLBAR at https://standards.freedesktop.org/wm-spec/wm-spec-latest.html . */ Q_PROPERTY(bool toolbar READ isToolbar) /** * Returns whether the window is a torn-off menu. * See _NET_WM_WINDOW_TYPE_MENU at https://standards.freedesktop.org/wm-spec/wm-spec-latest.html . */ Q_PROPERTY(bool menu READ isMenu) /** * Returns whether the window is a "normal" window, i.e. an application or any other window * for which none of the specialized window types fit. * See _NET_WM_WINDOW_TYPE_NORMAL at https://standards.freedesktop.org/wm-spec/wm-spec-latest.html . */ Q_PROPERTY(bool normalWindow READ isNormalWindow) /** * Returns whether the window is a dialog window. * See _NET_WM_WINDOW_TYPE_DIALOG at https://standards.freedesktop.org/wm-spec/wm-spec-latest.html . */ Q_PROPERTY(bool dialog READ isDialog) /** * Returns whether the window is a splashscreen. Note that many (especially older) applications * do not support marking their splash windows with this type. * See _NET_WM_WINDOW_TYPE_SPLASH at https://standards.freedesktop.org/wm-spec/wm-spec-latest.html . */ Q_PROPERTY(bool splash READ isSplash) /** * Returns whether the window is a utility window, such as a tool window. * See _NET_WM_WINDOW_TYPE_UTILITY at https://standards.freedesktop.org/wm-spec/wm-spec-latest.html . */ Q_PROPERTY(bool utility READ isUtility) /** * Returns whether the window is a dropdown menu (i.e. a popup directly or indirectly open * from the applications menubar). * See _NET_WM_WINDOW_TYPE_DROPDOWN_MENU at https://standards.freedesktop.org/wm-spec/wm-spec-latest.html . */ Q_PROPERTY(bool dropdownMenu READ isDropdownMenu) /** * Returns whether the window is a popup menu (that is not a torn-off or dropdown menu). * See _NET_WM_WINDOW_TYPE_POPUP_MENU at https://standards.freedesktop.org/wm-spec/wm-spec-latest.html . */ Q_PROPERTY(bool popupMenu READ isPopupMenu) /** * Returns whether the window is a tooltip. * See _NET_WM_WINDOW_TYPE_TOOLTIP at https://standards.freedesktop.org/wm-spec/wm-spec-latest.html . */ Q_PROPERTY(bool tooltip READ isTooltip) /** * Returns whether the window is a window with a notification. * See _NET_WM_WINDOW_TYPE_NOTIFICATION at https://standards.freedesktop.org/wm-spec/wm-spec-latest.html . */ Q_PROPERTY(bool notification READ isNotification) /** * Returns whether the window is a window with a critical notification. */ Q_PROPERTY(bool criticalNotification READ isCriticalNotification) /** * Returns whether the window is an On Screen Display. */ Q_PROPERTY(bool onScreenDisplay READ isOnScreenDisplay) /** * Returns whether the window is a combobox popup. * See _NET_WM_WINDOW_TYPE_COMBO at https://standards.freedesktop.org/wm-spec/wm-spec-latest.html . */ Q_PROPERTY(bool comboBox READ isComboBox) /** * Returns whether the window is a Drag&Drop icon. * See _NET_WM_WINDOW_TYPE_DND at https://standards.freedesktop.org/wm-spec/wm-spec-latest.html . */ Q_PROPERTY(bool dndIcon READ isDNDIcon) /** * Returns the NETWM window type * See https://standards.freedesktop.org/wm-spec/wm-spec-latest.html . */ Q_PROPERTY(int windowType READ windowType) Q_PROPERTY(QStringList activities READ activities NOTIFY activitiesChanged) /** * Whether this Toplevel is managed by KWin (it has control over its placement and other * aspects, as opposed to override-redirect windows that are entirely handled by the application). */ Q_PROPERTY(bool managed READ isClient CONSTANT) /** * Whether this Toplevel represents an already deleted window and only kept for the compositor for animations. */ Q_PROPERTY(bool deleted READ isDeleted CONSTANT) /** * Whether the window has an own shape */ Q_PROPERTY(bool shaped READ shape NOTIFY shapedChanged) /** * Whether the window does not want to be animated on window close. * There are legit reasons for this like a screenshot application which does not want it's * window being captured. */ Q_PROPERTY(bool skipsCloseAnimation READ skipsCloseAnimation WRITE setSkipCloseAnimation NOTIFY skipCloseAnimationChanged) /** * The Id of the Wayland Surface associated with this Toplevel. * On X11 only setups the value is @c 0. */ Q_PROPERTY(quint32 surfaceId READ surfaceId NOTIFY surfaceIdChanged) /** * Interface to the Wayland Surface. * Relevant only in Wayland, in X11 it will be nullptr */ Q_PROPERTY(KWaylandServer::SurfaceInterface *surface READ surface) /** * Whether the window is a popup. */ Q_PROPERTY(bool popupWindow READ isPopupWindow) /** * Whether this Toplevel represents the outline. * * @note It's always @c false if compositing is turned off. */ Q_PROPERTY(bool outline READ isOutline) /** * This property holds a UUID to uniquely identify this Toplevel. */ Q_PROPERTY(QUuid internalId READ internalId CONSTANT) public: explicit Toplevel(); virtual xcb_window_t frameId() const; xcb_window_t window() const; /** * @return a unique identifier for the Toplevel. On X11 same as @ref window */ virtual quint32 windowId() const; /** * Returns the geometry of the pixmap or buffer attached to this Toplevel. * * For X11 clients, this method returns server-side geometry of the Toplevel. * * For Wayland clients, this method returns rectangle that the main surface * occupies on the screen, in global screen coordinates. */ virtual QRect bufferGeometry() const = 0; /** * Returns the extents of invisible portions in the pixmap. * * An X11 pixmap may contain invisible space around the actual contents of the * client. That space is reserved for server-side decoration, which we usually * want to skip when building contents window quads. * * Default implementation returns a margins object with all margins set to 0. */ virtual QMargins bufferMargins() const; /** * Returns the geometry of the Toplevel, excluding invisible portions, e.g. * server-side and client-side drop shadows, etc. */ QRect frameGeometry() const; + /** + * Returns the geometry of the client window, in global screen coordinates. + */ + QRect clientGeometry() const; /** * Returns the extents of the server-side decoration. * * Note that the returned margins object will have all margins set to 0 if * the client doesn't have a server-side decoration. * * Default implementation returns a margins object with all margins set to 0. */ virtual QMargins frameMargins() const; /** * The geometry of the Toplevel which accepts input events. This might be larger * than the actual geometry, e.g. to support resizing outside the window. * * Default implementation returns same as geometry. */ virtual QRect inputGeometry() const; QSize size() const; QPoint pos() const; QRect rect() const; int x() const; int y() const; int width() const; int height() const; bool isOnScreen(int screen) const; // true if it's at least partially there bool isOnActiveScreen() const; int screen() const; // the screen where the center is /** * The scale of the screen this window is currently on * @note The buffer scale can be different. * @since 5.12 */ qreal screenScale() const; // /** * Returns the ratio between physical pixels and device-independent pixels for * the attached buffer (or pixmap). * * For X11 clients, this method always returns 1. */ virtual qreal bufferScale() const; virtual QPoint clientPos() const = 0; // inside of geometry() /** * Describes how the client's content maps to the window geometry including the frame. * The default implementation is a 1:1 mapping meaning the frame is part of the content. */ virtual QPoint clientContentPos() const; - virtual QSize clientSize() const = 0; + QSize clientSize() const; /** * Returns a rectangle that the window occupies on the screen, including drop-shadows. */ virtual QRect visibleRect() const; virtual QRect transparentRect() const = 0; virtual bool isClient() const; virtual bool isDeleted() const; // prefer isXXX() instead // 0 for supported types means default for managed/unmanaged types virtual NET::WindowType windowType(bool direct = false, int supported_types = 0) const = 0; bool hasNETSupport() const; bool isDesktop() const; bool isDock() const; bool isToolbar() const; bool isMenu() const; bool isNormalWindow() const; // normal as in 'NET::Normal or NET::Unknown non-transient' bool isDialog() const; bool isSplash() const; bool isUtility() const; bool isDropdownMenu() const; bool isPopupMenu() const; // a context popup, not dropdown, not torn-off bool isTooltip() const; bool isNotification() const; bool isCriticalNotification() const; bool isOnScreenDisplay() const; bool isComboBox() const; bool isDNDIcon() const; virtual bool isLockScreen() const; virtual bool isInputMethod() const; virtual bool isOutline() const; /** * Returns the virtual desktop within the workspace() the client window * is located in, 0 if it isn't located on any special desktop (not mapped yet), * or NET::OnAllDesktops. Do not use desktop() directly, use * isOnDesktop() instead. */ virtual int desktop() const = 0; virtual QVector desktops() const = 0; virtual QStringList activities() const = 0; bool isOnDesktop(int d) const; bool isOnActivity(const QString &activity) const; bool isOnCurrentDesktop() const; bool isOnCurrentActivity() const; bool isOnAllDesktops() const; bool isOnAllActivities() const; virtual QByteArray windowRole() const; QByteArray sessionId() const; QByteArray resourceName() const; QByteArray resourceClass() const; QByteArray wmCommand(); QByteArray wmClientMachine(bool use_localhost) const; const ClientMachine *clientMachine() const; virtual bool isLocalhost() const; xcb_window_t wmClientLeader() const; virtual pid_t pid() const; static bool resourceMatch(const Toplevel* c1, const Toplevel* c2); bool readyForPainting() const; // true if the window has been already painted its contents xcb_visualid_t visual() const; bool shape() const; QRegion inputShape() const; virtual void setOpacity(double opacity); virtual double opacity() const; int depth() const; bool hasAlpha() const; virtual bool setupCompositing(); virtual void finishCompositing(ReleaseReason releaseReason = ReleaseReason::Release); Q_INVOKABLE void addRepaint(const QRect& r); Q_INVOKABLE void addRepaint(const QRegion& r); Q_INVOKABLE void addRepaint(int x, int y, int w, int h); Q_INVOKABLE void addLayerRepaint(const QRect& r); Q_INVOKABLE void addLayerRepaint(const QRegion& r); Q_INVOKABLE void addLayerRepaint(int x, int y, int w, int h); Q_INVOKABLE virtual void addRepaintFull(); // these call workspace->addRepaint(), but first transform the damage if needed void addWorkspaceRepaint(const QRect& r); void addWorkspaceRepaint(int x, int y, int w, int h); QRegion repaints() const; void resetRepaints(); QRegion damage() const; void resetDamage(); EffectWindowImpl* effectWindow(); const EffectWindowImpl* effectWindow() const; /** * Window will be temporarily painted as if being at the top of the stack. * Only available if Compositor is active, if not active, this method is a no-op. */ void elevate(bool elevate); /** * Returns the pointer to the Toplevel's Shadow. A Shadow * is only available if Compositing is enabled and the corresponding X window * has the Shadow property set. * @returns The Shadow belonging to this Toplevel, @c null if there's no Shadow. */ const Shadow *shadow() const; Shadow *shadow(); /** * Updates the Shadow associated with this Toplevel from X11 Property. * Call this method when the Property changes or Compositing is started. */ void updateShadow(); /** * Whether the Toplevel currently wants the shadow to be rendered. Default * implementation always returns @c true. */ virtual bool wantsShadowToBeRendered() const; /** * This method returns the area that the Toplevel window reports to be opaque. * It is supposed to only provide valuable information if hasAlpha is @c true . * @see hasAlpha */ const QRegion& opaqueRegion() const; virtual Layer layer() const = 0; /** * Resets the damage state and sends a request for the damage region. * A call to this function must be followed by a call to getDamageRegionReply(), * or the reply will be leaked. * * Returns true if the window was damaged, and false otherwise. */ bool resetAndFetchDamage(); /** * Gets the reply from a previous call to resetAndFetchDamage(). * Calling this function is a no-op if there is no pending reply. * Call damage() to return the fetched region. */ void getDamageRegionReply(); bool skipsCloseAnimation() const; void setSkipCloseAnimation(bool set); quint32 surfaceId() const; KWaylandServer::SurfaceInterface *surface() const; void setSurface(KWaylandServer::SurfaceInterface *surface); const QSharedPointer &internalFramebufferObject() const; QImage internalImageObject() const; /** * @returns Transformation to map from global to window coordinates. * * Default implementation returns a translation on negative pos(). * @see pos */ virtual QMatrix4x4 inputTransformation() const; /** * The window has a popup grab. This means that when it got mapped the * parent window had an implicit (pointer) grab. * * Normally this is only relevant for transient windows. * * Once the popup grab ends (e.g. pointer press outside of any Toplevel of * the client), the method popupDone should be invoked. * * The default implementation returns @c false. * @see popupDone * @since 5.10 */ virtual bool hasPopupGrab() const { return false; } /** * This method should be invoked for Toplevels with a popup grab when * the grab ends. * * The default implementation does nothing. * @see hasPopupGrab * @since 5.10 */ virtual void popupDone() {}; /** * @brief Finds the Toplevel matching the condition expressed in @p func in @p list. * * The method is templated to operate on either a list of Toplevels or on a list of * a subclass type of Toplevel. * @param list The list to search in * @param func The condition function (compare std::find_if) * @return T* The found Toplevel or @c null if there is no matching Toplevel */ template static T *findInList(const QList &list, std::function func); /** * Whether the window is a popup. * * Popups can be used to implement popup menus, tooltips, combo boxes, etc. * * @since 5.15 */ virtual bool isPopupWindow() const; /** * A UUID to uniquely identify this Toplevel independent of windowing system. */ QUuid internalId() const { return m_internalId; } Q_SIGNALS: void opacityChanged(KWin::Toplevel* toplevel, qreal oldOpacity); void damaged(KWin::Toplevel* toplevel, const QRect& damage); /** * This signal is emitted when the Toplevel's frame geometry changes. * @deprecated since 5.19, use frameGeometryChanged instead */ void geometryChanged(); void geometryShapeChanged(KWin::Toplevel* toplevel, const QRect& old); void paddingChanged(KWin::Toplevel* toplevel, const QRect& old); void windowClosed(KWin::Toplevel* toplevel, KWin::Deleted* deleted); void windowShown(KWin::Toplevel* toplevel); void windowHidden(KWin::Toplevel* toplevel); /** * Signal emitted when the window's shape state changed. That is if it did not have a shape * and received one or if the shape was withdrawn. Think of Chromium enabling/disabling KWin's * decoration. */ void shapedChanged(); /** * Emitted whenever the state changes in a way, that the Compositor should * schedule a repaint of the scene. */ void needsRepaint(); void activitiesChanged(KWin::Toplevel* toplevel); /** * Emitted whenever the Toplevel's screen changes. This can happen either in consequence to * a screen being removed/added or if the Toplevel's geometry changes. * @since 4.11 */ void screenChanged(); void skipCloseAnimationChanged(); /** * Emitted whenever the window role of the window changes. * @since 5.0 */ void windowRoleChanged(); /** * Emitted whenever the window class name or resource name of the window changes. * @since 5.0 */ void windowClassChanged(); /** * Emitted when a Wayland Surface gets associated with this Toplevel. * @since 5.3 */ void surfaceIdChanged(quint32); /** * @since 5.4 */ void hasAlphaChanged(); /** * Emitted whenever the Surface for this Toplevel changes. */ void surfaceChanged(); /* * Emitted when the client's screen changes onto a screen of a different scale * or the screen we're on changes * @since 5.12 */ void screenScaleChanged(); /** * Emitted whenever the client's shadow changes. * @since 5.15 */ void shadowChanged(); /** * This signal is emitted when the Toplevel's frame geometry changes. */ void frameGeometryChanged(KWin::Toplevel *toplevel, const QRect &oldGeometry); + /** + * This signal is emitted when the Toplevel's client geometry has changed. + */ + void clientGeometryChanged(KWin::Toplevel *toplevel, const QRect &oldGeometry); protected Q_SLOTS: /** * Checks whether the screen number for this Toplevel changed and updates if needed. * Any method changing the geometry of the Toplevel should call this method. */ void checkScreen(); void setupCheckScreenConnection(); void removeCheckScreenConnection(); void setReadyForPainting(); protected: ~Toplevel() override; void setWindowHandles(xcb_window_t client); void detectShape(xcb_window_t id); virtual void propertyNotifyEvent(xcb_property_notify_event_t *e); virtual void damageNotifyEvent(); virtual void clientMessageEvent(xcb_client_message_event_t *e); void discardWindowPixmap(); void addDamageFull(); virtual void addDamage(const QRegion &damage); Xcb::Property fetchWmClientLeader() const; void readWmClientLeader(Xcb::Property &p); void getWmClientLeader(); void getWmClientMachine(); /** * @returns Whether there is a compositor and it is active. */ bool compositing() const; /** * This function fetches the opaque region from this Toplevel. * Will only be called on corresponding property changes and for initialization. */ void getWmOpaqueRegion(); void getResourceClass(); void setResourceClass(const QByteArray &name, const QByteArray &className = QByteArray()); Xcb::Property fetchSkipCloseAnimation() const; void readSkipCloseAnimation(Xcb::Property &prop); void getSkipCloseAnimation(); virtual void debug(QDebug& stream) const = 0; void copyToDeleted(Toplevel* c); void disownDataPassedToDeleted(); friend QDebug& operator<<(QDebug& stream, const Toplevel*); void deleteEffectWindow(); void setDepth(int depth); QRect m_frameGeometry; + QRect m_clientGeometry; xcb_visualid_t m_visual; int bit_depth; NETWinInfo* info; bool ready_for_painting; QRegion repaints_region; // updating, repaint just requires repaint of that area QRegion layer_repaints_region; /** * An FBO object KWin internal windows might render to. */ QSharedPointer m_internalFBO; QImage m_internalImage; protected: bool m_isDamaged; private: // when adding new data members, check also copyToDeleted() QUuid m_internalId; Xcb::Window m_client; xcb_damage_damage_t damage_handle; QRegion damage_region; // damage is really damaged window (XDamage) and texture needs bool is_shape; EffectWindowImpl* effect_window; QByteArray resource_name; QByteArray resource_class; ClientMachine *m_clientMachine; xcb_window_t m_wmClientLeader; bool m_damageReplyPending; QRegion opaque_region; xcb_xfixes_fetch_region_cookie_t m_regionCookie; int m_screen; bool m_skipCloseAnimation; quint32 m_surfaceId = 0; KWaylandServer::SurfaceInterface *m_surface = nullptr; // when adding new data members, check also copyToDeleted() qreal m_screenScale = 1.0; }; inline xcb_window_t Toplevel::window() const { return m_client; } inline void Toplevel::setWindowHandles(xcb_window_t w) { Q_ASSERT(!m_client.isValid() && w != XCB_WINDOW_NONE); m_client.reset(w, false); } +inline QRect Toplevel::clientGeometry() const +{ + return m_clientGeometry; +} + +inline QSize Toplevel::clientSize() const +{ + return m_clientGeometry.size(); +} + inline QRect Toplevel::frameGeometry() const { return m_frameGeometry; } inline QSize Toplevel::size() const { return m_frameGeometry.size(); } inline QPoint Toplevel::pos() const { return m_frameGeometry.topLeft(); } inline int Toplevel::x() const { return m_frameGeometry.x(); } inline int Toplevel::y() const { return m_frameGeometry.y(); } inline int Toplevel::width() const { return m_frameGeometry.width(); } inline int Toplevel::height() const { return m_frameGeometry.height(); } inline QRect Toplevel::rect() const { return QRect(0, 0, width(), height()); } inline bool Toplevel::readyForPainting() const { return ready_for_painting; } inline xcb_visualid_t Toplevel::visual() const { return m_visual; } inline bool Toplevel::isDesktop() const { return windowType() == NET::Desktop; } inline bool Toplevel::isDock() const { return windowType() == NET::Dock; } inline bool Toplevel::isMenu() const { return windowType() == NET::Menu; } inline bool Toplevel::isToolbar() const { return windowType() == NET::Toolbar; } inline bool Toplevel::isSplash() const { return windowType() == NET::Splash; } inline bool Toplevel::isUtility() const { return windowType() == NET::Utility; } inline bool Toplevel::isDialog() const { return windowType() == NET::Dialog; } inline bool Toplevel::isNormalWindow() const { return windowType() == NET::Normal; } inline bool Toplevel::isDropdownMenu() const { return windowType() == NET::DropdownMenu; } inline bool Toplevel::isPopupMenu() const { return windowType() == NET::PopupMenu; } inline bool Toplevel::isTooltip() const { return windowType() == NET::Tooltip; } inline bool Toplevel::isNotification() const { return windowType() == NET::Notification; } inline bool Toplevel::isCriticalNotification() const { return windowType() == NET::CriticalNotification; } inline bool Toplevel::isOnScreenDisplay() const { return windowType() == NET::OnScreenDisplay; } inline bool Toplevel::isComboBox() const { return windowType() == NET::ComboBox; } inline bool Toplevel::isDNDIcon() const { return windowType() == NET::DNDIcon; } inline bool Toplevel::isLockScreen() const { return false; } inline bool Toplevel::isInputMethod() const { return false; } inline bool Toplevel::isOutline() const { return false; } inline QRegion Toplevel::damage() const { return damage_region; } inline QRegion Toplevel::repaints() const { return repaints_region.translated(pos()) | layer_repaints_region; } inline bool Toplevel::shape() const { return is_shape; } inline int Toplevel::depth() const { return bit_depth; } inline bool Toplevel::hasAlpha() const { return depth() == 32; } inline const QRegion& Toplevel::opaqueRegion() const { return opaque_region; } inline EffectWindowImpl* Toplevel::effectWindow() { return effect_window; } inline const EffectWindowImpl* Toplevel::effectWindow() const { return effect_window; } inline bool Toplevel::isOnAllDesktops() const { return kwinApp()->operationMode() == Application::OperationModeWaylandOnly || kwinApp()->operationMode() == Application::OperationModeXwayland //Wayland ? desktops().isEmpty() //X11 : desktop() == NET::OnAllDesktops; } inline bool Toplevel::isOnAllActivities() const { return activities().isEmpty(); } inline bool Toplevel::isOnDesktop(int d) const { return (kwinApp()->operationMode() == Application::OperationModeWaylandOnly || kwinApp()->operationMode() == Application::OperationModeXwayland ? desktops().contains(VirtualDesktopManager::self()->desktopForX11Id(d)) : desktop() == d ) || isOnAllDesktops(); } inline bool Toplevel::isOnActivity(const QString &activity) const { return activities().isEmpty() || activities().contains(activity); } inline bool Toplevel::isOnCurrentDesktop() const { return isOnDesktop(VirtualDesktopManager::self()->current()); } inline QByteArray Toplevel::resourceName() const { return resource_name; // it is always lowercase } inline QByteArray Toplevel::resourceClass() const { return resource_class; // it is always lowercase } inline const ClientMachine *Toplevel::clientMachine() const { return m_clientMachine; } inline quint32 Toplevel::surfaceId() const { return m_surfaceId; } inline KWaylandServer::SurfaceInterface *Toplevel::surface() const { return m_surface; } inline const QSharedPointer &Toplevel::internalFramebufferObject() const { return m_internalFBO; } inline QImage Toplevel::internalImageObject() const { return m_internalImage; } inline QPoint Toplevel::clientContentPos() const { return QPoint(0, 0); } template inline T *Toplevel::findInList(const QList &list, std::function func) { static_assert(std::is_base_of::value, "U must be derived from T"); const auto it = std::find_if(list.begin(), list.end(), func); if (it == list.end()) { return nullptr; } return *it; } inline bool Toplevel::isPopupWindow() const { switch (windowType()) { case NET::ComboBox: case NET::DropdownMenu: case NET::PopupMenu: case NET::Tooltip: return true; default: return false; } } QDebug& operator<<(QDebug& stream, const Toplevel*); } // namespace Q_DECLARE_METATYPE(KWin::Toplevel*) #endif diff --git a/unmanaged.cpp b/unmanaged.cpp index 529eb5f1b..334e69fbd 100644 --- a/unmanaged.cpp +++ b/unmanaged.cpp @@ -1,219 +1,214 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2006 Lubos Lunak This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ #include "unmanaged.h" #include "workspace.h" #include "effects.h" #include "deleted.h" #include "utils.h" #include "xcbutils.h" #include #include #include #include namespace KWin { // window types that are supported as unmanaged (mainly for compositing) const NET::WindowTypes SUPPORTED_UNMANAGED_WINDOW_TYPES_MASK = NET::NormalMask | NET::DesktopMask | NET::DockMask | NET::ToolbarMask | NET::MenuMask | NET::DialogMask /*| NET::OverrideMask*/ | NET::TopMenuMask | NET::UtilityMask | NET::SplashMask | NET::DropdownMenuMask | NET::PopupMenuMask | NET::TooltipMask | NET::NotificationMask | NET::ComboBoxMask | NET::DNDIconMask | NET::OnScreenDisplayMask | NET::CriticalNotificationMask; Unmanaged::Unmanaged() : Toplevel() { QTimer::singleShot(50, this, SLOT(setReadyForPainting())); } Unmanaged::~Unmanaged() { } bool Unmanaged::track(xcb_window_t w) { XServerGrabber xserverGrabber; Xcb::WindowAttributes attr(w); Xcb::WindowGeometry geo(w); if (attr.isNull() || attr->map_state != XCB_MAP_STATE_VIEWABLE) { return false; } if (attr->_class == XCB_WINDOW_CLASS_INPUT_ONLY) { return false; } if (geo.isNull()) { return false; } setWindowHandles(w); // the window is also the frame Xcb::selectInput(w, attr->your_event_mask | XCB_EVENT_MASK_STRUCTURE_NOTIFY | XCB_EVENT_MASK_PROPERTY_CHANGE); m_frameGeometry = geo.rect(); checkScreen(); m_visual = attr->visual; bit_depth = geo->depth; info = new NETWinInfo(connection(), w, rootWindow(), NET::WMWindowType | NET::WMPid, NET::WM2Opacity | NET::WM2WindowRole | NET::WM2WindowClass | NET::WM2OpaqueRegion); getResourceClass(); getWmClientLeader(); getWmClientMachine(); if (Xcb::Extensions::self()->isShapeAvailable()) xcb_shape_select_input(connection(), w, true); detectShape(w); getWmOpaqueRegion(); getSkipCloseAnimation(); setupCompositing(); if (QWindow *internalWindow = findInternalWindow()) { m_outline = internalWindow->property("__kwin_outline").toBool(); } if (effects) static_cast(effects)->checkInputWindowStacking(); return true; } void Unmanaged::release(ReleaseReason releaseReason) { Deleted* del = nullptr; if (releaseReason != ReleaseReason::KWinShutsDown) { del = Deleted::create(this); } emit windowClosed(this, del); finishCompositing(releaseReason); if (!QWidget::find(window()) && releaseReason != ReleaseReason::Destroyed) { // don't affect our own windows if (Xcb::Extensions::self()->isShapeAvailable()) xcb_shape_select_input(connection(), window(), false); Xcb::selectInput(window(), XCB_EVENT_MASK_NO_EVENT); } if (releaseReason != ReleaseReason::KWinShutsDown) { workspace()->removeUnmanaged(this); addWorkspaceRepaint(del->visibleRect()); disownDataPassedToDeleted(); del->unrefWindow(); } deleteUnmanaged(this); } void Unmanaged::deleteUnmanaged(Unmanaged* c) { delete c; } bool Unmanaged::hasScheduledRelease() const { return m_scheduledRelease; } QRect Unmanaged::bufferGeometry() const { return m_frameGeometry; } int Unmanaged::desktop() const { return NET::OnAllDesktops; // TODO for some window types should be the current desktop? } QStringList Unmanaged::activities() const { return QStringList(); } QVector Unmanaged::desktops() const { return QVector(); } QPoint Unmanaged::clientPos() const { return QPoint(0, 0); // unmanaged windows don't have decorations } -QSize Unmanaged::clientSize() const -{ - return size(); -} - QRect Unmanaged::transparentRect() const { return QRect(clientPos(), clientSize()); } void Unmanaged::debug(QDebug& stream) const { stream << "\'ID:" << window() << "\'"; } NET::WindowType Unmanaged::windowType(bool direct, int supportedTypes) const { // for unmanaged windows the direct does not make any difference // as there are no rules to check and no hacks to apply Q_UNUSED(direct) if (supportedTypes == 0) { supportedTypes = SUPPORTED_UNMANAGED_WINDOW_TYPES_MASK; } return info->windowType(NET::WindowTypes(supportedTypes)); } bool Unmanaged::isOutline() const { return m_outline; } void Unmanaged::addDamage(const QRegion &damage) { repaints_region += damage; Toplevel::addDamage(damage); } QWindow *Unmanaged::findInternalWindow() const { const QWindowList windows = kwinApp()->topLevelWindows(); for (QWindow *w : windows) { if (w->winId() == window()) { return w; } } return nullptr; } bool Unmanaged::setupCompositing() { if (!Toplevel::setupCompositing()) { return false; } // With unmanaged windows there is a race condition between the client painting the window // and us setting up damage tracking. If the client wins we won't get a damage event even // though the window has been painted. To avoid this we mark the whole window as damaged // and schedule a repaint immediately after creating the damage object. addDamageFull(); return true; } } // namespace diff --git a/unmanaged.h b/unmanaged.h index 291521819..1890c753f 100644 --- a/unmanaged.h +++ b/unmanaged.h @@ -1,72 +1,71 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2006 Lubos Lunak This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ #ifndef KWIN_UNMANAGED_H #define KWIN_UNMANAGED_H #include #include "toplevel.h" namespace KWin { class Unmanaged : public Toplevel { Q_OBJECT public: explicit Unmanaged(); bool windowEvent(xcb_generic_event_t *e); bool track(xcb_window_t w); bool hasScheduledRelease() const; static void deleteUnmanaged(Unmanaged* c); QRect bufferGeometry() const override; int desktop() const override; QStringList activities() const override; QVector desktops() const override; QPoint clientPos() const override; - QSize clientSize() const override; QRect transparentRect() const override; Layer layer() const override { return UnmanagedLayer; } NET::WindowType windowType(bool direct = false, int supported_types = 0) const override; bool isOutline() const override; bool setupCompositing() override; public Q_SLOTS: void release(ReleaseReason releaseReason = ReleaseReason::Release); protected: void debug(QDebug& stream) const override; void addDamage(const QRegion &damage) override; private: ~Unmanaged() override; // use release() // handlers for X11 events void configureNotifyEvent(xcb_configure_notify_event_t *e); QWindow *findInternalWindow() const; bool m_outline = false; bool m_scheduledRelease = false; }; } // namespace #endif diff --git a/x11client.cpp b/x11client.cpp index 6e2509d3c..50d432657 100644 --- a/x11client.cpp +++ b/x11client.cpp @@ -1,4991 +1,5001 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 1999, 2000 Matthias Ettrich Copyright (C) 2003 Lubos Lunak This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ // own #include "x11client.h" // kwin #ifdef KWIN_BUILD_ACTIVITIES #include "activities.h" #endif #include "atoms.h" #include "client_machine.h" #include "composite.h" #include "cursor.h" #include "deleted.h" #include "effects.h" #include "focuschain.h" #include "geometrytip.h" #include "group.h" #include "netinfo.h" #include "screens.h" #include "shadow.h" #ifdef KWIN_BUILD_TABBOX #include "tabbox.h" #endif #include "workspace.h" #include "screenedge.h" #include "decorations/decorationbridge.h" #include "decorations/decoratedclient.h" #include #include // KDE #include #include #include #include // Qt #include #include #include #include #include #include #include // xcb #include // system #include // c++ #include // Put all externs before the namespace statement to allow the linker // to resolve them properly namespace KWin { const long ClientWinMask = XCB_EVENT_MASK_KEY_PRESS | XCB_EVENT_MASK_KEY_RELEASE | XCB_EVENT_MASK_BUTTON_PRESS | XCB_EVENT_MASK_BUTTON_RELEASE | XCB_EVENT_MASK_KEYMAP_STATE | XCB_EVENT_MASK_BUTTON_MOTION | XCB_EVENT_MASK_POINTER_MOTION | // need this, too! XCB_EVENT_MASK_ENTER_WINDOW | XCB_EVENT_MASK_LEAVE_WINDOW | XCB_EVENT_MASK_FOCUS_CHANGE | XCB_EVENT_MASK_EXPOSURE | XCB_EVENT_MASK_STRUCTURE_NOTIFY | XCB_EVENT_MASK_SUBSTRUCTURE_REDIRECT; // window types that are supported as normal windows (i.e. KWin actually manages them) const NET::WindowTypes SUPPORTED_MANAGED_WINDOW_TYPES_MASK = NET::NormalMask | NET::DesktopMask | NET::DockMask | NET::ToolbarMask | NET::MenuMask | NET::DialogMask /*| NET::OverrideMask*/ | NET::TopMenuMask | NET::UtilityMask | NET::SplashMask | NET::NotificationMask | NET::OnScreenDisplayMask | NET::CriticalNotificationMask; // Creating a client: // - only by calling Workspace::createClient() // - it creates a new client and calls manage() for it // // Destroying a client: // - destroyClient() - only when the window itself has been destroyed // - releaseWindow() - the window is kept, only the client itself is destroyed /** * \class Client x11client.h * \brief The Client class encapsulates a window decoration frame. */ /** * This ctor is "dumb" - it only initializes data. All the real initialization * is done in manage(). */ X11Client::X11Client() : AbstractClient() , m_client() , m_wrapper() , m_frame() , m_activityUpdatesBlocked(false) , m_blockedActivityUpdatesRequireTransients(false) , m_moveResizeGrabWindow() , move_resize_has_keyboard_grab(false) , m_managed(false) , m_transientForId(XCB_WINDOW_NONE) , m_originalTransientForId(XCB_WINDOW_NONE) , shade_below(nullptr) , m_motif(atoms->motif_wm_hints) , blocks_compositing(false) , m_colormap(XCB_COLORMAP_NONE) , in_group(nullptr) , ping_timer(nullptr) , m_killHelperPID(0) , m_pingTimestamp(XCB_TIME_CURRENT_TIME) , m_userTime(XCB_TIME_CURRENT_TIME) // Not known yet , allowed_actions() , shade_geometry_change(false) , sm_stacking_order(-1) , activitiesDefined(false) , sessionActivityOverride(false) , needsXWindowMove(false) , m_decoInputExtent() , m_focusOutTimer(nullptr) { // TODO: Do all as initialization m_syncRequest.counter = m_syncRequest.alarm = XCB_NONE; m_syncRequest.timeout = m_syncRequest.failsafeTimeout = nullptr; m_syncRequest.lastTimestamp = xTime(); m_syncRequest.isPending = false; // Set the initial mapping state mapping_state = Withdrawn; info = nullptr; deleting = false; m_fullscreenMode = FullScreenNone; hidden = false; noborder = false; app_noborder = false; ignore_focus_stealing = false; check_active_modal = false; max_mode = MaximizeRestore; //Client to workspace connections require that each //client constructed be connected to the workspace wrapper m_frameGeometry = QRect(0, 0, 100, 100); // So that decorations don't start with size being (0,0) + m_clientGeometry = QRect(0, 0, 100, 100); connect(clientMachine(), &ClientMachine::localhostChanged, this, &X11Client::updateCaption); connect(options, &Options::condensedTitleChanged, this, &X11Client::updateCaption); connect(this, &X11Client::moveResizeCursorChanged, this, [this] (CursorShape cursor) { xcb_cursor_t nativeCursor = Cursors::self()->mouse()->x11Cursor(cursor); m_frame.defineCursor(nativeCursor); if (m_decoInputExtent.isValid()) m_decoInputExtent.defineCursor(nativeCursor); if (isMoveResize()) { // changing window attributes doesn't change cursor if there's pointer grab active xcb_change_active_pointer_grab(connection(), nativeCursor, xTime(), XCB_EVENT_MASK_BUTTON_PRESS | XCB_EVENT_MASK_BUTTON_RELEASE | XCB_EVENT_MASK_POINTER_MOTION | XCB_EVENT_MASK_ENTER_WINDOW | XCB_EVENT_MASK_LEAVE_WINDOW); } }); // SELI TODO: Initialize xsizehints?? } /** * "Dumb" destructor. */ X11Client::~X11Client() { if (m_killHelperPID && !::kill(m_killHelperPID, 0)) { // means the process is alive ::kill(m_killHelperPID, SIGTERM); m_killHelperPID = 0; } if (m_syncRequest.alarm != XCB_NONE) { xcb_sync_destroy_alarm(connection(), m_syncRequest.alarm); } Q_ASSERT(!isMoveResize()); Q_ASSERT(m_client == XCB_WINDOW_NONE); Q_ASSERT(m_wrapper == XCB_WINDOW_NONE); Q_ASSERT(m_frame == XCB_WINDOW_NONE); Q_ASSERT(!check_active_modal); for (auto it = m_connections.constBegin(); it != m_connections.constEnd(); ++it) { disconnect(*it); } } // Use destroyClient() or releaseWindow(), Client instances cannot be deleted directly void X11Client::deleteClient(X11Client *c) { delete c; } /** * Releases the window. The client has done its job and the window is still existing. */ void X11Client::releaseWindow(bool on_shutdown) { Q_ASSERT(!deleting); deleting = true; #ifdef KWIN_BUILD_TABBOX TabBox::TabBox *tabBox = TabBox::TabBox::self(); if (tabBox->isDisplayed() && tabBox->currentClient() == this) { tabBox->nextPrev(true); } #endif destroyWindowManagementInterface(); Deleted* del = nullptr; if (!on_shutdown) { del = Deleted::create(this); } if (isMoveResize()) emit clientFinishUserMovedResized(this); emit windowClosed(this, del); finishCompositing(); RuleBook::self()->discardUsed(this, true); // Remove ForceTemporarily rules StackingUpdatesBlocker blocker(workspace()); if (isMoveResize()) leaveMoveResize(); finishWindowRules(); blockGeometryUpdates(); if (isOnCurrentDesktop() && isShown(true)) addWorkspaceRepaint(visibleRect()); // Grab X during the release to make removing of properties, setting to withdrawn state // and repareting to root an atomic operation (https://lists.kde.org/?l=kde-devel&m=116448102901184&w=2) grabXServer(); exportMappingState(XCB_ICCCM_WM_STATE_WITHDRAWN); setModal(false); // Otherwise its mainwindow wouldn't get focus hidden = true; // So that it's not considered visible anymore (can't use hideClient(), it would set flags) if (!on_shutdown) workspace()->clientHidden(this); m_frame.unmap(); // Destroying decoration would cause ugly visual effect destroyDecoration(); cleanGrouping(); if (!on_shutdown) { workspace()->removeClient(this); // Only when the window is being unmapped, not when closing down KWin (NETWM sections 5.5,5.7) info->setDesktop(0); info->setState(NET::States(), info->state()); // Reset all state flags } xcb_connection_t *c = connection(); m_client.deleteProperty(atoms->kde_net_wm_user_creation_time); m_client.deleteProperty(atoms->net_frame_extents); m_client.deleteProperty(atoms->kde_net_wm_frame_strut); m_client.reparent(rootWindow(), m_bufferGeometry.x(), m_bufferGeometry.y()); xcb_change_save_set(c, XCB_SET_MODE_DELETE, m_client); m_client.selectInput(XCB_EVENT_MASK_NO_EVENT); if (on_shutdown) // Map the window, so it can be found after another WM is started m_client.map(); // TODO: Preserve minimized, shaded etc. state? else // Make sure it's not mapped if the app unmapped it (#65279). The app // may do map+unmap before we initially map the window by calling rawShow() from manage(). m_client.unmap(); m_client.reset(); m_wrapper.reset(); m_frame.reset(); unblockGeometryUpdates(); // Don't use GeometryUpdatesBlocker, it would now set the geometry if (!on_shutdown) { disownDataPassedToDeleted(); del->unrefWindow(); } deleteClient(this); ungrabXServer(); } /** * Like releaseWindow(), but this one is called when the window has been already destroyed * (E.g. The application closed it) */ void X11Client::destroyClient() { Q_ASSERT(!deleting); deleting = true; #ifdef KWIN_BUILD_TABBOX TabBox::TabBox *tabBox = TabBox::TabBox::self(); if (tabBox && tabBox->isDisplayed() && tabBox->currentClient() == this) { tabBox->nextPrev(true); } #endif destroyWindowManagementInterface(); Deleted* del = Deleted::create(this); if (isMoveResize()) emit clientFinishUserMovedResized(this); emit windowClosed(this, del); finishCompositing(ReleaseReason::Destroyed); RuleBook::self()->discardUsed(this, true); // Remove ForceTemporarily rules StackingUpdatesBlocker blocker(workspace()); if (isMoveResize()) leaveMoveResize(); finishWindowRules(); blockGeometryUpdates(); if (isOnCurrentDesktop() && isShown(true)) addWorkspaceRepaint(visibleRect()); setModal(false); hidden = true; // So that it's not considered visible anymore workspace()->clientHidden(this); destroyDecoration(); cleanGrouping(); workspace()->removeClient(this); m_client.reset(); // invalidate m_wrapper.reset(); m_frame.reset(); unblockGeometryUpdates(); // Don't use GeometryUpdatesBlocker, it would now set the geometry disownDataPassedToDeleted(); del->unrefWindow(); deleteClient(this); } /** * Manages the clients. This means handling the very first maprequest: * reparenting, initial geometry, initial state, placement, etc. * Returns false if KWin is not going to manage this window. */ bool X11Client::manage(xcb_window_t w, bool isMapped) { StackingUpdatesBlocker stacking_blocker(workspace()); Xcb::WindowAttributes attr(w); Xcb::WindowGeometry windowGeometry(w); if (attr.isNull() || windowGeometry.isNull()) { return false; } // From this place on, manage() must not return false blockGeometryUpdates(); setPendingGeometryUpdate(PendingGeometryForced); // Force update when finishing with geometry changes embedClient(w, attr->visual, attr->colormap, windowGeometry->depth); m_visual = attr->visual; bit_depth = windowGeometry->depth; // SELI TODO: Order all these things in some sane manner const NET::Properties properties = NET::WMDesktop | NET::WMState | NET::WMWindowType | NET::WMStrut | NET::WMName | NET::WMIconGeometry | NET::WMIcon | NET::WMPid | NET::WMIconName; const NET::Properties2 properties2 = NET::WM2BlockCompositing | NET::WM2WindowClass | NET::WM2WindowRole | NET::WM2UserTime | NET::WM2StartupId | NET::WM2ExtendedStrut | NET::WM2Opacity | NET::WM2FullscreenMonitors | NET::WM2FrameOverlap | NET::WM2GroupLeader | NET::WM2Urgency | NET::WM2Input | NET::WM2Protocols | NET::WM2InitialMappingState | NET::WM2IconPixmap | NET::WM2OpaqueRegion | NET::WM2DesktopFileName | NET::WM2GTKFrameExtents; auto wmClientLeaderCookie = fetchWmClientLeader(); auto skipCloseAnimationCookie = fetchSkipCloseAnimation(); auto showOnScreenEdgeCookie = fetchShowOnScreenEdge(); auto colorSchemeCookie = fetchColorScheme(); auto firstInTabBoxCookie = fetchFirstInTabBox(); auto transientCookie = fetchTransient(); auto activitiesCookie = fetchActivities(); auto applicationMenuServiceNameCookie = fetchApplicationMenuServiceName(); auto applicationMenuObjectPathCookie = fetchApplicationMenuObjectPath(); m_geometryHints.init(window()); m_motif.init(window()); info = new WinInfo(this, m_client, rootWindow(), properties, properties2); if (isDesktop() && bit_depth == 32) { // force desktop windows to be opaque. It's a desktop after all, there is no window below bit_depth = 24; } // If it's already mapped, ignore hint bool init_minimize = !isMapped && (info->initialMappingState() == NET::Iconic); m_colormap = attr->colormap; getResourceClass(); readWmClientLeader(wmClientLeaderCookie); getWmClientMachine(); getSyncCounter(); // First only read the caption text, so that setupWindowRules() can use it for matching, // and only then really set the caption using setCaption(), which checks for duplicates etc. // and also relies on rules already existing cap_normal = readName(); setupWindowRules(false); setCaption(cap_normal, true); connect(this, &X11Client::windowClassChanged, this, &X11Client::evaluateWindowRules); if (Xcb::Extensions::self()->isShapeAvailable()) xcb_shape_select_input(connection(), window(), true); detectShape(window()); detectNoBorder(); fetchIconicName(); setClientFrameExtents(info->gtkFrameExtents()); // Needs to be done before readTransient() because of reading the group checkGroup(); updateUrgency(); updateAllowedActions(); // Group affects isMinimizable() setModal((info->state() & NET::Modal) != 0); // Needs to be valid before handling groups readTransientProperty(transientCookie); setDesktopFileName(rules()->checkDesktopFile(QByteArray(info->desktopFileName()), true).toUtf8()); getIcons(); connect(this, &X11Client::desktopFileNameChanged, this, &X11Client::getIcons); m_geometryHints.read(); getMotifHints(); getWmOpaqueRegion(); readSkipCloseAnimation(skipCloseAnimationCookie); // TODO: Try to obey all state information from info->state() setOriginalSkipTaskbar((info->state() & NET::SkipTaskbar) != 0); setSkipPager((info->state() & NET::SkipPager) != 0); setSkipSwitcher((info->state() & NET::SkipSwitcher) != 0); readFirstInTabBox(firstInTabBoxCookie); setupCompositing(); KStartupInfoId asn_id; KStartupInfoData asn_data; bool asn_valid = workspace()->checkStartupNotification(window(), asn_id, asn_data); // Make sure that the input window is created before we update the stacking order updateInputWindow(); workspace()->updateClientLayer(this); SessionInfo* session = workspace()->takeSessionInfo(this); if (session) { init_minimize = session->minimized; noborder = session->noBorder; } setShortcut(rules()->checkShortcut(session ? session->shortcut : QString(), true)); init_minimize = rules()->checkMinimize(init_minimize, !isMapped); noborder = rules()->checkNoBorder(noborder, !isMapped); readActivities(activitiesCookie); // Initial desktop placement int desk = 0; if (session) { desk = session->desktop; if (session->onAllDesktops) desk = NET::OnAllDesktops; setOnActivities(session->activities); } else { // If this window is transient, ensure that it is opened on the // same window as its parent. this is necessary when an application // starts up on a different desktop than is currently displayed if (isTransient()) { auto mainclients = mainClients(); bool on_current = false; bool on_all = false; AbstractClient* maincl = nullptr; // This is slightly duplicated from Placement::placeOnMainWindow() for (auto it = mainclients.constBegin(); it != mainclients.constEnd(); ++it) { if (mainclients.count() > 1 && // A group-transient (*it)->isSpecialWindow() && // Don't consider toolbars etc when placing !(info->state() & NET::Modal)) // except when it's modal (blocks specials as well) continue; maincl = *it; if ((*it)->isOnCurrentDesktop()) on_current = true; if ((*it)->isOnAllDesktops()) on_all = true; } if (on_all) desk = NET::OnAllDesktops; else if (on_current) desk = VirtualDesktopManager::self()->current(); else if (maincl != nullptr) desk = maincl->desktop(); if (maincl) setOnActivities(maincl->activities()); } else { // a transient shall appear on its leader and not drag that around if (info->desktop()) desk = info->desktop(); // Window had the initial desktop property, force it if (desktop() == 0 && asn_valid && asn_data.desktop() != 0) desk = asn_data.desktop(); } #ifdef KWIN_BUILD_ACTIVITIES if (Activities::self() && !isMapped && !skipTaskbar() && isNormalWindow() && !activitiesDefined) { //a new, regular window, when we're not recovering from a crash, //and it hasn't got an activity. let's try giving it the current one. //TODO: decide whether to keep this before the 4.6 release //TODO: if we are keeping it (at least as an option), replace noborder checking //with a public API for setting windows to be on all activities. //something like KWindowSystem::setOnAllActivities or //KActivityConsumer::setOnAllActivities setOnActivity(Activities::self()->current(), true); } #endif } if (desk == 0) // Assume window wants to be visible on the current desktop desk = isDesktop() ? static_cast(NET::OnAllDesktops) : VirtualDesktopManager::self()->current(); desk = rules()->checkDesktop(desk, !isMapped); if (desk != NET::OnAllDesktops) // Do range check desk = qBound(1, desk, static_cast(VirtualDesktopManager::self()->count())); setDesktop(desk); info->setDesktop(desk); workspace()->updateOnAllDesktopsOfTransients(this); // SELI TODO //onAllDesktopsChange(); // Decoration doesn't exist here yet QString activitiesList; activitiesList = rules()->checkActivity(activitiesList, !isMapped); if (!activitiesList.isEmpty()) setOnActivities(activitiesList.split(QStringLiteral(","))); QRect geom(windowGeometry.rect()); bool placementDone = false; if (session) geom = session->geometry; QRect area; bool partial_keep_in_area = isMapped || session; if (isMapped || session) { area = workspace()->clientArea(FullArea, geom.center(), desktop()); checkOffscreenPosition(&geom, area); } else { int screen = asn_data.xinerama() == -1 ? screens()->current() : asn_data.xinerama(); screen = rules()->checkScreen(screen, !isMapped); area = workspace()->clientArea(PlacementArea, screens()->geometry(screen).center(), desktop()); } if (isDesktop()) // KWin doesn't manage desktop windows placementDone = true; bool usePosition = false; if (isMapped || session || placementDone) placementDone = true; // Use geometry else if (isTransient() && !isUtility() && !isDialog() && !isSplash()) usePosition = true; else if (isTransient() && !hasNETSupport()) usePosition = true; else if (isDialog() && hasNETSupport()) { // If the dialog is actually non-NETWM transient window, don't try to apply placement to it, // it breaks with too many things (xmms, display) if (mainClients().count() >= 1) { #if 1 // #78082 - Ok, it seems there are after all some cases when an application has a good // reason to specify a position for its dialog. Too bad other WMs have never bothered // with placement for dialogs, so apps always specify positions for their dialogs, // including such silly positions like always centered on the screen or under mouse. // Using ignoring requested position in window-specific settings helps, and now // there's also _NET_WM_FULL_PLACEMENT. usePosition = true; #else ; // Force using placement policy #endif } else usePosition = true; } else if (isSplash()) ; // Force using placement policy else usePosition = true; if (!rules()->checkIgnoreGeometry(!usePosition, true)) { if (m_geometryHints.hasPosition()) { placementDone = true; // Disobey xinerama placement option for now (#70943) area = workspace()->clientArea(PlacementArea, geom.center(), desktop()); } } if (isMovable() && (geom.x() > area.right() || geom.y() > area.bottom())) placementDone = false; // Weird, do not trust. if (placementDone) { QPoint position = geom.topLeft(); // Session contains the position of the frame geometry before gravitating. if (!session) { position = clientPosToFramePos(position); } move(position); } // Create client group if the window will have a decoration bool dontKeepInArea = false; readColorScheme(colorSchemeCookie); readApplicationMenuServiceName(applicationMenuServiceNameCookie); readApplicationMenuObjectPath(applicationMenuObjectPathCookie); updateDecoration(false); // Also gravitates // TODO: Is CentralGravity right here, when resizing is done after gravitating? const QSize constrainedClientSize = constrainClientSize(geom.size()); plainResize(rules()->checkSize(clientSizeToFrameSize(constrainedClientSize), !isMapped)); QPoint forced_pos = rules()->checkPosition(invalidPoint, !isMapped); if (forced_pos != invalidPoint) { move(forced_pos); placementDone = true; // Don't keep inside workarea if the window has specially configured position partial_keep_in_area = true; area = workspace()->clientArea(FullArea, geom.center(), desktop()); } if (!placementDone) { // Placement needs to be after setting size Placement::self()->place(this, area); // The client may have been moved to another screen, update placement area. area = workspace()->clientArea(PlacementArea, this); dontKeepInArea = true; placementDone = true; } // bugs #285967, #286146, #183694 // geometry() now includes the requested size and the decoration and is at the correct screen/position (hopefully) // Maximization for oversized windows must happen NOW. // If we effectively pass keepInArea(), the window will resizeWithChecks() - i.e. constrained // to the combo of all screen MINUS all struts on the edges // If only one screen struts, this will affect screens as a side-effect, the window is artificailly shrinked // below the screen size and as result no more maximized what breaks KMainWindow's stupid width+1, height+1 hack // TODO: get KMainWindow a correct state storage what will allow to store the restore size as well. if (!session) { // has a better handling of this setGeometryRestore(frameGeometry()); // Remember restore geometry if (isMaximizable() && (width() >= area.width() || height() >= area.height())) { // Window is too large for the screen, maximize in the // directions necessary const QSize ss = workspace()->clientArea(ScreenArea, area.center(), desktop()).size(); const QRect fsa = workspace()->clientArea(FullArea, geom.center(), desktop()); const QSize cs = clientSize(); int pseudo_max = ((info->state() & NET::MaxVert) ? MaximizeVertical : 0) | ((info->state() & NET::MaxHoriz) ? MaximizeHorizontal : 0); if (width() >= area.width()) pseudo_max |= MaximizeHorizontal; if (height() >= area.height()) pseudo_max |= MaximizeVertical; // heuristics: // if decorated client is smaller than the entire screen, the user might want to move it around (multiscreen) // in this case, if the decorated client is bigger than the screen (+1), we don't take this as an // attempt for maximization, but just constrain the size (the window simply wants to be bigger) // NOTICE // i intended a second check on cs < area.size() ("the managed client ("minus border") is smaller // than the workspace") but gtk / gimp seems to store it's size including the decoration, // thus a former maximized window wil become non-maximized bool keepInFsArea = false; if (width() < fsa.width() && (cs.width() > ss.width()+1)) { pseudo_max &= ~MaximizeHorizontal; keepInFsArea = true; } if (height() < fsa.height() && (cs.height() > ss.height()+1)) { pseudo_max &= ~MaximizeVertical; keepInFsArea = true; } if (pseudo_max != MaximizeRestore) { maximize((MaximizeMode)pseudo_max); // from now on, care about maxmode, since the maximization call will override mode for fix aspects dontKeepInArea |= (max_mode == MaximizeFull); QRect savedGeometry; // Use placement when unmaximizing ... if (!(max_mode & MaximizeVertical)) { savedGeometry.setY(y()); // ...but only for horizontal direction savedGeometry.setHeight(height()); } if (!(max_mode & MaximizeHorizontal)) { savedGeometry.setX(x()); // ...but only for vertical direction savedGeometry.setWidth(width()); } setGeometryRestore(savedGeometry); } if (keepInFsArea) keepInArea(fsa, partial_keep_in_area); } } if ((!isSpecialWindow() || isToolbar()) && isMovable() && !dontKeepInArea) keepInArea(area, partial_keep_in_area); updateShape(); // CT: Extra check for stupid jdk 1.3.1. But should make sense in general // if client has initial state set to Iconic and is transient with a parent // window that is not Iconic, set init_state to Normal if (init_minimize && isTransient()) { auto mainclients = mainClients(); for (auto it = mainclients.constBegin(); it != mainclients.constEnd(); ++it) if ((*it)->isShown(true)) init_minimize = false; // SELI TODO: Even e.g. for NET::Utility? } // If a dialog is shown for minimized window, minimize it too if (!init_minimize && isTransient() && mainClients().count() > 0 && workspace()->sessionManager()->state() != SessionState::Saving) { bool visible_parent = false; // Use allMainClients(), to include also main clients of group transients // that have been optimized out in X11Client::checkGroupTransients() auto mainclients = allMainClients(); for (auto it = mainclients.constBegin(); it != mainclients.constEnd(); ++it) if ((*it)->isShown(true)) visible_parent = true; if (!visible_parent) { init_minimize = true; demandAttention(); } } if (init_minimize) minimize(true); // No animation // Other settings from the previous session if (session) { // Session restored windows are not considered to be new windows WRT rules, // I.e. obey only forcing rules setKeepAbove(session->keepAbove); setKeepBelow(session->keepBelow); setOriginalSkipTaskbar(session->skipTaskbar); setSkipPager(session->skipPager); setSkipSwitcher(session->skipSwitcher); setShade(session->shaded ? ShadeNormal : ShadeNone); setOpacity(session->opacity); setGeometryRestore(session->restore); if (session->maximized != MaximizeRestore) { maximize(MaximizeMode(session->maximized)); } if (session->fullscreen != FullScreenNone) { setFullScreen(true, false); geom_fs_restore = session->fsrestore; } QRect checkedGeometryRestore = geometryRestore(); checkOffscreenPosition(&checkedGeometryRestore, area); checkOffscreenPosition(&geom_fs_restore, area); setGeometryRestore(checkedGeometryRestore); } else { // Window may want to be maximized // done after checking that the window isn't larger than the workarea, so that // the restore geometry from the checks above takes precedence, and window // isn't restored larger than the workarea MaximizeMode maxmode = static_cast( ((info->state() & NET::MaxVert) ? MaximizeVertical : 0) | ((info->state() & NET::MaxHoriz) ? MaximizeHorizontal : 0)); MaximizeMode forced_maxmode = rules()->checkMaximize(maxmode, !isMapped); // Either hints were set to maximize, or is forced to maximize, // or is forced to non-maximize and hints were set to maximize if (forced_maxmode != MaximizeRestore || maxmode != MaximizeRestore) maximize(forced_maxmode); // Read other initial states setShade(rules()->checkShade(info->state() & NET::Shaded ? ShadeNormal : ShadeNone, !isMapped)); setKeepAbove(rules()->checkKeepAbove(info->state() & NET::KeepAbove, !isMapped)); setKeepBelow(rules()->checkKeepBelow(info->state() & NET::KeepBelow, !isMapped)); setOriginalSkipTaskbar(rules()->checkSkipTaskbar(info->state() & NET::SkipTaskbar, !isMapped)); setSkipPager(rules()->checkSkipPager(info->state() & NET::SkipPager, !isMapped)); setSkipSwitcher(rules()->checkSkipSwitcher(info->state() & NET::SkipSwitcher, !isMapped)); if (info->state() & NET::DemandsAttention) demandAttention(); if (info->state() & NET::Modal) setModal(true); setFullScreen(rules()->checkFullScreen(info->state() & NET::FullScreen, !isMapped), false); } updateAllowedActions(true); // Set initial user time directly m_userTime = readUserTimeMapTimestamp(asn_valid ? &asn_id : nullptr, asn_valid ? &asn_data : nullptr, session); group()->updateUserTime(m_userTime); // And do what X11Client::updateUserTime() does // This should avoid flicker, because real restacking is done // only after manage() finishes because of blocking, but the window is shown sooner m_frame.lower(); if (session && session->stackingOrder != -1) { sm_stacking_order = session->stackingOrder; workspace()->restoreSessionStackingOrder(this); } if (compositing()) // Sending ConfigureNotify is done when setting mapping state below, // Getting the first sync response means window is ready for compositing sendSyncRequest(); else ready_for_painting = true; // set to true in case compositing is turned on later. bug #160393 if (isShown(true)) { bool allow; if (session) allow = session->active && (!workspace()->wasUserInteraction() || workspace()->activeClient() == nullptr || workspace()->activeClient()->isDesktop()); else allow = workspace()->allowClientActivation(this, userTime(), false); const bool isSessionSaving = workspace()->sessionManager()->state() == SessionState::Saving; // If session saving, force showing new windows (i.e. "save file?" dialogs etc.) // also force if activation is allowed if( !isOnCurrentDesktop() && !isMapped && !session && ( allow || isSessionSaving )) VirtualDesktopManager::self()->setCurrent( desktop()); // If the window is on an inactive activity during session saving, temporarily force it to show. if( !isMapped && !session && isSessionSaving && !isOnCurrentActivity()) { setSessionActivityOverride( true ); foreach( AbstractClient* c, mainClients()) { if (X11Client *mc = dynamic_cast(c)) { mc->setSessionActivityOverride(true); } } } if (isOnCurrentDesktop() && !isMapped && !allow && (!session || session->stackingOrder < 0)) workspace()->restackClientUnderActive(this); updateVisibility(); if (!isMapped) { if (allow && isOnCurrentDesktop()) { if (!isSpecialWindow()) if (options->focusPolicyIsReasonable() && wantsTabFocus()) workspace()->requestFocus(this); } else if (!session && !isSpecialWindow()) demandAttention(); } } else updateVisibility(); Q_ASSERT(mapping_state != Withdrawn); m_managed = true; blockGeometryUpdates(false); if (m_userTime == XCB_TIME_CURRENT_TIME || m_userTime == -1U) { // No known user time, set something old m_userTime = xTime() - 1000000; if (m_userTime == XCB_TIME_CURRENT_TIME || m_userTime == -1U) // Let's be paranoid m_userTime = xTime() - 1000000 + 10; } //sendSyntheticConfigureNotify(); // Done when setting mapping state delete session; discardTemporaryRules(); applyWindowRules(); // Just in case RuleBook::self()->discardUsed(this, false); // Remove ApplyNow rules updateWindowRules(Rules::All); // Was blocked while !isManaged() setBlockingCompositing(info->isBlockingCompositing()); readShowOnScreenEdge(showOnScreenEdgeCookie); // Forward all opacity values to the frame in case there'll be other CM running. connect(Compositor::self(), &Compositor::compositingToggled, this, [this](bool active) { if (active) { return; } if (opacity() == 1.0) { return; } NETWinInfo info(connection(), frameId(), rootWindow(), NET::Properties(), NET::Properties2()); info.setOpacity(static_cast(opacity() * 0xffffffff)); } ); // TODO: there's a small problem here - isManaged() depends on the mapping state, // but this client is not yet in Workspace's client list at this point, will // be only done in addClient() emit clientManaging(this); return true; } // Called only from manage() void X11Client::embedClient(xcb_window_t w, xcb_visualid_t visualid, xcb_colormap_t colormap, uint8_t depth) { Q_ASSERT(m_client == XCB_WINDOW_NONE); Q_ASSERT(frameId() == XCB_WINDOW_NONE); Q_ASSERT(m_wrapper == XCB_WINDOW_NONE); m_client.reset(w, false); const uint32_t zero_value = 0; xcb_connection_t *conn = connection(); // We don't want the window to be destroyed when we quit xcb_change_save_set(conn, XCB_SET_MODE_INSERT, m_client); m_client.selectInput(zero_value); m_client.unmap(); m_client.setBorderWidth(zero_value); // Note: These values must match the order in the xcb_cw_t enum const uint32_t cw_values[] = { 0, // back_pixmap 0, // border_pixel colormap, // colormap Cursors::self()->mouse()->x11Cursor(Qt::ArrowCursor) }; const uint32_t cw_mask = XCB_CW_BACK_PIXMAP | XCB_CW_BORDER_PIXEL | XCB_CW_COLORMAP | XCB_CW_CURSOR; const uint32_t common_event_mask = XCB_EVENT_MASK_KEY_PRESS | XCB_EVENT_MASK_KEY_RELEASE | XCB_EVENT_MASK_ENTER_WINDOW | XCB_EVENT_MASK_LEAVE_WINDOW | XCB_EVENT_MASK_BUTTON_PRESS | XCB_EVENT_MASK_BUTTON_RELEASE | XCB_EVENT_MASK_BUTTON_MOTION | XCB_EVENT_MASK_POINTER_MOTION | XCB_EVENT_MASK_KEYMAP_STATE | XCB_EVENT_MASK_FOCUS_CHANGE | XCB_EVENT_MASK_EXPOSURE | XCB_EVENT_MASK_STRUCTURE_NOTIFY | XCB_EVENT_MASK_SUBSTRUCTURE_REDIRECT; const uint32_t frame_event_mask = common_event_mask | XCB_EVENT_MASK_PROPERTY_CHANGE | XCB_EVENT_MASK_VISIBILITY_CHANGE; const uint32_t wrapper_event_mask = common_event_mask | XCB_EVENT_MASK_SUBSTRUCTURE_NOTIFY; const uint32_t client_event_mask = XCB_EVENT_MASK_FOCUS_CHANGE | XCB_EVENT_MASK_PROPERTY_CHANGE | XCB_EVENT_MASK_COLOR_MAP_CHANGE | XCB_EVENT_MASK_ENTER_WINDOW | XCB_EVENT_MASK_LEAVE_WINDOW | XCB_EVENT_MASK_KEY_PRESS | XCB_EVENT_MASK_KEY_RELEASE; // Create the frame window xcb_window_t frame = xcb_generate_id(conn); xcb_create_window(conn, depth, frame, rootWindow(), 0, 0, 1, 1, 0, XCB_WINDOW_CLASS_INPUT_OUTPUT, visualid, cw_mask, cw_values); m_frame.reset(frame); setWindowHandles(m_client); // Create the wrapper window xcb_window_t wrapperId = xcb_generate_id(conn); xcb_create_window(conn, depth, wrapperId, frame, 0, 0, 1, 1, 0, XCB_WINDOW_CLASS_INPUT_OUTPUT, visualid, cw_mask, cw_values); m_wrapper.reset(wrapperId); m_client.reparent(m_wrapper); // We could specify the event masks when we create the windows, but the original // Xlib code didn't. Let's preserve that behavior here for now so we don't end up // receiving any unexpected events from the wrapper creation or the reparenting. m_frame.selectInput(frame_event_mask); m_wrapper.selectInput(wrapper_event_mask); m_client.selectInput(client_event_mask); updateMouseGrab(); } void X11Client::updateInputWindow() { if (!Xcb::Extensions::self()->isShapeInputAvailable()) return; QRegion region; if (!noBorder() && isDecorated()) { const QMargins &r = decoration()->resizeOnlyBorders(); const int left = r.left(); const int top = r.top(); const int right = r.right(); const int bottom = r.bottom(); if (left != 0 || top != 0 || right != 0 || bottom != 0) { region = QRegion(-left, -top, decoration()->size().width() + left + right, decoration()->size().height() + top + bottom); region = region.subtracted(decoration()->rect()); } } if (region.isEmpty()) { m_decoInputExtent.reset(); return; } QRect bounds = region.boundingRect(); input_offset = bounds.topLeft(); // Move the bounding rect to screen coordinates bounds.translate(frameGeometry().topLeft()); // Move the region to input window coordinates region.translate(-input_offset); if (!m_decoInputExtent.isValid()) { const uint32_t mask = XCB_CW_OVERRIDE_REDIRECT | XCB_CW_EVENT_MASK; const uint32_t values[] = {true, XCB_EVENT_MASK_ENTER_WINDOW | XCB_EVENT_MASK_LEAVE_WINDOW | XCB_EVENT_MASK_BUTTON_PRESS | XCB_EVENT_MASK_BUTTON_RELEASE | XCB_EVENT_MASK_POINTER_MOTION }; m_decoInputExtent.create(bounds, XCB_WINDOW_CLASS_INPUT_ONLY, mask, values); if (mapping_state == Mapped) m_decoInputExtent.map(); } else { m_decoInputExtent.setGeometry(bounds); } const QVector rects = Xcb::regionToRects(region); xcb_shape_rectangles(connection(), XCB_SHAPE_SO_SET, XCB_SHAPE_SK_INPUT, XCB_CLIP_ORDERING_UNSORTED, m_decoInputExtent, 0, 0, rects.count(), rects.constData()); } void X11Client::updateDecoration(bool check_workspace_pos, bool force) { if (!force && ((!isDecorated() && noBorder()) || (isDecorated() && !noBorder()))) return; QRect oldgeom = frameGeometry(); QRect oldClientGeom = oldgeom.adjusted(borderLeft(), borderTop(), -borderRight(), -borderBottom()); blockGeometryUpdates(true); if (force) destroyDecoration(); if (!noBorder()) { createDecoration(oldgeom); } else destroyDecoration(); updateShadow(); if (check_workspace_pos) checkWorkspacePosition(oldgeom, -2, oldClientGeom); updateInputWindow(); blockGeometryUpdates(false); updateFrameExtents(); } void X11Client::createDecoration(const QRect& oldgeom) { KDecoration2::Decoration *decoration = Decoration::DecorationBridge::self()->createDecoration(this); if (decoration) { QMetaObject::invokeMethod(decoration, "update", Qt::QueuedConnection); connect(decoration, &KDecoration2::Decoration::shadowChanged, this, &Toplevel::updateShadow); connect(decoration, &KDecoration2::Decoration::resizeOnlyBordersChanged, this, &X11Client::updateInputWindow); connect(decoration, &KDecoration2::Decoration::bordersChanged, this, [this]() { updateFrameExtents(); GeometryUpdatesBlocker blocker(this); // TODO: this is obviously idempotent // calculateGravitation(true) would have to operate on the old border sizes // move(calculateGravitation(true)); // move(calculateGravitation(false)); QRect oldgeom = frameGeometry(); plainResize(adjustedSize(), ForceGeometrySet); if (!isShade()) checkWorkspacePosition(oldgeom); emit geometryShapeChanged(this, oldgeom); } ); connect(decoratedClient()->decoratedClient(), &KDecoration2::DecoratedClient::widthChanged, this, &X11Client::updateInputWindow); connect(decoratedClient()->decoratedClient(), &KDecoration2::DecoratedClient::heightChanged, this, &X11Client::updateInputWindow); } setDecoration(decoration); move(calculateGravitation(false)); plainResize(adjustedSize(), ForceGeometrySet); if (Compositor::compositing()) { discardWindowPixmap(); } emit geometryShapeChanged(this, oldgeom); } void X11Client::destroyDecoration() { QRect oldgeom = frameGeometry(); if (isDecorated()) { QPoint grav = calculateGravitation(true); AbstractClient::destroyDecoration(); plainResize(adjustedSize(), ForceGeometrySet); move(grav); if (compositing()) discardWindowPixmap(); if (!deleting) { emit geometryShapeChanged(this, oldgeom); } } m_decoInputExtent.reset(); } void X11Client::layoutDecorationRects(QRect &left, QRect &top, QRect &right, QRect &bottom) const { if (!isDecorated()) { return; } QRect r = decoration()->rect(); NETStrut strut = info->frameOverlap(); // Ignore the overlap strut when compositing is disabled if (!compositing()) strut.left = strut.top = strut.right = strut.bottom = 0; else if (strut.left == -1 && strut.top == -1 && strut.right == -1 && strut.bottom == -1) { top = QRect(r.x(), r.y(), r.width(), r.height() / 3); left = QRect(r.x(), r.y() + top.height(), width() / 2, r.height() / 3); right = QRect(r.x() + left.width(), r.y() + top.height(), r.width() - left.width(), left.height()); bottom = QRect(r.x(), r.y() + top.height() + left.height(), r.width(), r.height() - left.height() - top.height()); return; } top = QRect(r.x(), r.y(), r.width(), borderTop() + strut.top); bottom = QRect(r.x(), r.y() + r.height() - borderBottom() - strut.bottom, r.width(), borderBottom() + strut.bottom); left = QRect(r.x(), r.y() + top.height(), borderLeft() + strut.left, r.height() - top.height() - bottom.height()); right = QRect(r.x() + r.width() - borderRight() - strut.right, r.y() + top.height(), borderRight() + strut.right, r.height() - top.height() - bottom.height()); } QRect X11Client::transparentRect() const { if (isShade()) return QRect(); NETStrut strut = info->frameOverlap(); // Ignore the strut when compositing is disabled or the decoration doesn't support it if (!compositing()) strut.left = strut.top = strut.right = strut.bottom = 0; else if (strut.left == -1 && strut.top == -1 && strut.right == -1 && strut.bottom == -1) return QRect(); const QRect r = QRect(clientPos(), clientSize()) .adjusted(strut.left, strut.top, -strut.right, -strut.bottom); if (r.isValid()) return r; return QRect(); } void X11Client::detectNoBorder() { if (shape()) { noborder = true; app_noborder = true; return; } switch(windowType()) { case NET::Desktop : case NET::Dock : case NET::TopMenu : case NET::Splash : case NET::Notification : case NET::OnScreenDisplay : case NET::CriticalNotification : noborder = true; app_noborder = true; break; case NET::Unknown : case NET::Normal : case NET::Toolbar : case NET::Menu : case NET::Dialog : case NET::Utility : noborder = false; break; default: abort(); } // NET::Override is some strange beast without clear definition, usually // just meaning "noborder", so let's treat it only as such flag, and ignore it as // a window type otherwise (SUPPORTED_WINDOW_TYPES_MASK doesn't include it) if (info->windowType(NET::OverrideMask) == NET::Override) { noborder = true; app_noborder = true; } } void X11Client::updateFrameExtents() { NETStrut strut; strut.left = borderLeft(); strut.right = borderRight(); strut.top = borderTop(); strut.bottom = borderBottom(); info->setFrameExtents(strut); } void X11Client::setClientFrameExtents(const NETStrut &strut) { const QMargins clientFrameExtents(strut.left, strut.top, strut.right, strut.bottom); if (m_clientFrameExtents == clientFrameExtents) { return; } const bool wasClientSideDecorated = isClientSideDecorated(); m_clientFrameExtents = clientFrameExtents; // We should resize the client when its custom frame extents are changed so // the logical bounds remain the same. This however means that we will send // several configure requests to the application upon restoring it from the // maximized or fullscreen state. Notice that a client-side decorated client // cannot be shaded, therefore it's okay not to use the adjusted size here. setFrameGeometry(frameGeometry()); if (wasClientSideDecorated != isClientSideDecorated()) { emit clientSideDecoratedChanged(); } // This will invalidate the window quads cache. emit geometryShapeChanged(this, frameGeometry()); } /** * Resizes the decoration, and makes sure the decoration widget gets resize event * even if the size hasn't changed. This is needed to make sure the decoration * re-layouts (e.g. when maximization state changes, * the decoration may alter some borders, but the actual size * of the decoration stays the same). */ void X11Client::resizeDecoration() { triggerDecorationRepaint(); updateInputWindow(); } bool X11Client::userNoBorder() const { return noborder; } bool X11Client::isFullScreenable() const { if (!rules()->checkFullScreen(true)) { return false; } if (rules()->checkStrictGeometry(true)) { // check geometry constraints (rule to obey is set) const QRect fullScreenArea = workspace()->clientArea(FullScreenArea, this); const QSize constrainedClientSize = constrainClientSize(fullScreenArea.size()); if (rules()->checkSize(constrainedClientSize) != fullScreenArea.size()) { return false; // the app wouldn't fit exactly fullscreen geometry due to its strict geometry requirements } } // don't check size constrains - some apps request fullscreen despite requesting fixed size return !isSpecialWindow(); // also better disallow only weird types to go fullscreen } bool X11Client::noBorder() const { return userNoBorder() || isFullScreen(); } bool X11Client::userCanSetNoBorder() const { // Client-side decorations and server-side decorations are mutually exclusive. if (isClientSideDecorated()) { return false; } return !isFullScreen() && !isShade(); } void X11Client::setNoBorder(bool set) { if (!userCanSetNoBorder()) return; set = rules()->checkNoBorder(set); if (noborder == set) return; noborder = set; updateDecoration(true, false); updateWindowRules(Rules::NoBorder); } void X11Client::checkNoBorder() { setNoBorder(app_noborder); } bool X11Client::wantsShadowToBeRendered() const { return !isFullScreen() && maximizeMode() != MaximizeFull; } void X11Client::updateShape() { if (shape()) { // Workaround for #19644 - Shaped windows shouldn't have decoration if (!app_noborder) { // Only when shape is detected for the first time, still let the user to override app_noborder = true; noborder = rules()->checkNoBorder(true); updateDecoration(true); } if (noBorder()) { xcb_shape_combine(connection(), XCB_SHAPE_SO_SET, XCB_SHAPE_SK_BOUNDING, XCB_SHAPE_SK_BOUNDING, frameId(), clientPos().x(), clientPos().y(), window()); } } else if (app_noborder) { xcb_shape_mask(connection(), XCB_SHAPE_SO_SET, XCB_SHAPE_SK_BOUNDING, frameId(), 0, 0, XCB_PIXMAP_NONE); detectNoBorder(); app_noborder = noborder; noborder = rules()->checkNoBorder(noborder || m_motif.noBorder()); updateDecoration(true); } // Decoration mask (i.e. 'else' here) setting is done in setMask() // when the decoration calls it or when the decoration is created/destroyed updateInputShape(); if (compositing()) { addRepaintFull(); addWorkspaceRepaint(visibleRect()); // In case shape change removes part of this window } emit geometryShapeChanged(this, frameGeometry()); } static Xcb::Window shape_helper_window(XCB_WINDOW_NONE); void X11Client::cleanupX11() { shape_helper_window.reset(); } void X11Client::updateInputShape() { if (hiddenPreview()) // Sets it to none, don't change return; if (Xcb::Extensions::self()->isShapeInputAvailable()) { // There appears to be no way to find out if a window has input // shape set or not, so always propagate the input shape // (it's the same like the bounding shape by default). // Also, build the shape using a helper window, not directly // in the frame window, because the sequence set-shape-to-frame, // remove-shape-of-client, add-input-shape-of-client has the problem // that after the second step there's a hole in the input shape // until the real shape of the client is added and that can make // the window lose focus (which is a problem with mouse focus policies) // TODO: It seems there is, after all - XShapeGetRectangles() - but maybe this is better if (!shape_helper_window.isValid()) shape_helper_window.create(QRect(0, 0, 1, 1)); shape_helper_window.resize(m_bufferGeometry.size()); xcb_connection_t *c = connection(); xcb_shape_combine(c, XCB_SHAPE_SO_SET, XCB_SHAPE_SK_INPUT, XCB_SHAPE_SK_BOUNDING, shape_helper_window, 0, 0, frameId()); xcb_shape_combine(c, XCB_SHAPE_SO_SUBTRACT, XCB_SHAPE_SK_INPUT, XCB_SHAPE_SK_BOUNDING, shape_helper_window, clientPos().x(), clientPos().y(), window()); xcb_shape_combine(c, XCB_SHAPE_SO_UNION, XCB_SHAPE_SK_INPUT, XCB_SHAPE_SK_INPUT, shape_helper_window, clientPos().x(), clientPos().y(), window()); xcb_shape_combine(c, XCB_SHAPE_SO_SET, XCB_SHAPE_SK_INPUT, XCB_SHAPE_SK_INPUT, frameId(), 0, 0, shape_helper_window); } } void X11Client::hideClient(bool hide) { if (hidden == hide) return; hidden = hide; updateVisibility(); } bool X11Client::setupCompositing() { if (!Toplevel::setupCompositing()){ return false; } updateVisibility(); // for internalKeep() return true; } void X11Client::finishCompositing(ReleaseReason releaseReason) { Toplevel::finishCompositing(releaseReason); updateVisibility(); // for safety in case KWin is just resizing the window resetHaveResizeEffect(); } /** * Returns whether the window is minimizable or not */ bool X11Client::isMinimizable() const { if (isSpecialWindow() && !isTransient()) return false; if (!rules()->checkMinimize(true)) return false; if (isTransient()) { // #66868 - Let other xmms windows be minimized when the mainwindow is minimized bool shown_mainwindow = false; auto mainclients = mainClients(); for (auto it = mainclients.constBegin(); it != mainclients.constEnd(); ++it) if ((*it)->isShown(true)) shown_mainwindow = true; if (!shown_mainwindow) return true; } #if 0 // This is here because kicker's taskbar doesn't provide separate entries // for windows with an explicitly given parent // TODO: perhaps this should be redone // Disabled for now, since at least modal dialogs should be minimizable // (resulting in the mainwindow being minimized too). if (transientFor() != NULL) return false; #endif if (!wantsTabFocus()) // SELI, TODO: - NET::Utility? why wantsTabFocus() - skiptaskbar? ? return false; return true; } void X11Client::doMinimize() { if (isShade()) { // NETWM restriction - KWindowInfo::isMinimized() == Hidden && !Shaded info->setState(isMinimized() ? NET::States() : NET::Shaded, NET::Shaded); } updateVisibility(); updateAllowedActions(); workspace()->updateMinimizedOfTransients(this); } QRect X11Client::iconGeometry() const { NETRect r = info->iconGeometry(); QRect geom(r.pos.x, r.pos.y, r.size.width, r.size.height); if (geom.isValid()) return geom; else { // Check all mainwindows of this window (recursively) foreach (AbstractClient * amainwin, mainClients()) { X11Client *mainwin = dynamic_cast(amainwin); if (!mainwin) { continue; } geom = mainwin->iconGeometry(); if (geom.isValid()) return geom; } // No mainwindow (or their parents) with icon geometry was found return AbstractClient::iconGeometry(); } } bool X11Client::isShadeable() const { return !isSpecialWindow() && !noBorder() && (rules()->checkShade(ShadeNormal) != rules()->checkShade(ShadeNone)); } void X11Client::doSetShade(ShadeMode previousShadeMode) { // TODO: All this unmapping, resizing etc. feels too much duplicated from elsewhere if (isShade()) { // shade_mode == ShadeNormal addWorkspaceRepaint(visibleRect()); // Shade shade_geometry_change = true; QSize s(adjustedSize()); s.setHeight(borderTop() + borderBottom()); m_wrapper.selectInput(ClientWinMask); // Avoid getting UnmapNotify m_wrapper.unmap(); m_client.unmap(); m_wrapper.selectInput(ClientWinMask | XCB_EVENT_MASK_SUBSTRUCTURE_NOTIFY); exportMappingState(XCB_ICCCM_WM_STATE_ICONIC); plainResize(s); shade_geometry_change = false; if (previousShadeMode == ShadeHover) { if (shade_below && workspace()->stackingOrder().indexOf(shade_below) > -1) workspace()->restack(this, shade_below, true); if (isActive()) workspace()->activateNextClient(this); } else if (isActive()) { workspace()->focusToNull(); } } else { shade_geometry_change = true; if (decoratedClient()) decoratedClient()->signalShadeChange(); QSize s(adjustedSize()); shade_geometry_change = false; plainResize(s); setGeometryRestore(frameGeometry()); if ((shadeMode() == ShadeHover || shadeMode() == ShadeActivated) && rules()->checkAcceptFocus(info->input())) setActive(true); if (shadeMode() == ShadeHover) { QList order = workspace()->stackingOrder(); // invalidate, since "this" could be the topmost toplevel and shade_below dangeling shade_below = nullptr; // this is likely related to the index parameter?! for (int idx = order.indexOf(this) + 1; idx < order.count(); ++idx) { shade_below = qobject_cast(order.at(idx)); if (shade_below) { break; } } if (shade_below && shade_below->isNormalWindow()) workspace()->raiseClient(this); else shade_below = nullptr; } m_wrapper.map(); m_client.map(); exportMappingState(XCB_ICCCM_WM_STATE_NORMAL); if (isActive()) workspace()->requestFocus(this); } info->setState(isShade() ? NET::Shaded : NET::States(), NET::Shaded); info->setState(isShown(false) ? NET::States() : NET::Hidden, NET::Hidden); updateVisibility(); updateAllowedActions(); } void X11Client::updateVisibility() { if (deleting) return; if (hidden) { info->setState(NET::Hidden, NET::Hidden); setSkipTaskbar(true); // Also hide from taskbar if (compositing() && options->hiddenPreviews() == HiddenPreviewsAlways) internalKeep(); else internalHide(); return; } setSkipTaskbar(originalSkipTaskbar()); // Reset from 'hidden' if (isMinimized()) { info->setState(NET::Hidden, NET::Hidden); if (compositing() && options->hiddenPreviews() == HiddenPreviewsAlways) internalKeep(); else internalHide(); return; } info->setState(NET::States(), NET::Hidden); if (!isOnCurrentDesktop()) { if (compositing() && options->hiddenPreviews() != HiddenPreviewsNever) internalKeep(); else internalHide(); return; } if (!isOnCurrentActivity()) { if (compositing() && options->hiddenPreviews() != HiddenPreviewsNever) internalKeep(); else internalHide(); return; } internalShow(); } /** * Sets the client window's mapping state. Possible values are * WithdrawnState, IconicState, NormalState. */ void X11Client::exportMappingState(int s) { Q_ASSERT(m_client != XCB_WINDOW_NONE); Q_ASSERT(!deleting || s == XCB_ICCCM_WM_STATE_WITHDRAWN); if (s == XCB_ICCCM_WM_STATE_WITHDRAWN) { m_client.deleteProperty(atoms->wm_state); return; } Q_ASSERT(s == XCB_ICCCM_WM_STATE_NORMAL || s == XCB_ICCCM_WM_STATE_ICONIC); int32_t data[2]; data[0] = s; data[1] = XCB_NONE; m_client.changeProperty(atoms->wm_state, atoms->wm_state, 32, 2, data); } void X11Client::internalShow() { if (mapping_state == Mapped) return; MappingState old = mapping_state; mapping_state = Mapped; if (old == Unmapped || old == Withdrawn) map(); if (old == Kept) { m_decoInputExtent.map(); updateHiddenPreview(); } emit windowShown(this); } void X11Client::internalHide() { if (mapping_state == Unmapped) return; MappingState old = mapping_state; mapping_state = Unmapped; if (old == Mapped || old == Kept) unmap(); if (old == Kept) updateHiddenPreview(); addWorkspaceRepaint(visibleRect()); workspace()->clientHidden(this); emit windowHidden(this); } void X11Client::internalKeep() { Q_ASSERT(compositing()); if (mapping_state == Kept) return; MappingState old = mapping_state; mapping_state = Kept; if (old == Unmapped || old == Withdrawn) map(); m_decoInputExtent.unmap(); if (isActive()) workspace()->focusToNull(); // get rid of input focus, bug #317484 updateHiddenPreview(); addWorkspaceRepaint(visibleRect()); workspace()->clientHidden(this); } /** * Maps (shows) the client. Note that it is mapping state of the frame, * not necessarily the client window itself (i.e. a shaded window is here * considered mapped, even though it is in IconicState). */ void X11Client::map() { // XComposite invalidates backing pixmaps on unmap (minimize, different // virtual desktop, etc.). We kept the last known good pixmap around // for use in effects, but now we want to have access to the new pixmap if (compositing()) discardWindowPixmap(); m_frame.map(); if (!isShade()) { m_wrapper.map(); m_client.map(); m_decoInputExtent.map(); exportMappingState(XCB_ICCCM_WM_STATE_NORMAL); } else exportMappingState(XCB_ICCCM_WM_STATE_ICONIC); addLayerRepaint(visibleRect()); } /** * Unmaps the client. Again, this is about the frame. */ void X11Client::unmap() { // Here it may look like a race condition, as some other client might try to unmap // the window between these two XSelectInput() calls. However, they're supposed to // use XWithdrawWindow(), which also sends a synthetic event to the root window, // which won't be missed, so this shouldn't be a problem. The chance the real UnmapNotify // will be missed is also very minimal, so I don't think it's needed to grab the server // here. m_wrapper.selectInput(ClientWinMask); // Avoid getting UnmapNotify m_frame.unmap(); m_wrapper.unmap(); m_client.unmap(); m_decoInputExtent.unmap(); m_wrapper.selectInput(ClientWinMask | XCB_EVENT_MASK_SUBSTRUCTURE_NOTIFY); exportMappingState(XCB_ICCCM_WM_STATE_ICONIC); } /** * XComposite doesn't keep window pixmaps of unmapped windows, which means * there wouldn't be any previews of windows that are minimized or on another * virtual desktop. Therefore rawHide() actually keeps such windows mapped. * However special care needs to be taken so that such windows don't interfere. * Therefore they're put very low in the stacking order and they have input shape * set to none, which hopefully is enough. If there's no input shape available, * then it's hoped that there will be some other desktop above it *shrug*. * Using normal shape would be better, but that'd affect other things, e.g. painting * of the actual preview. */ void X11Client::updateHiddenPreview() { if (hiddenPreview()) { workspace()->forceRestacking(); if (Xcb::Extensions::self()->isShapeInputAvailable()) { xcb_shape_rectangles(connection(), XCB_SHAPE_SO_SET, XCB_SHAPE_SK_INPUT, XCB_CLIP_ORDERING_UNSORTED, frameId(), 0, 0, 0, nullptr); } } else { workspace()->forceRestacking(); updateInputShape(); } } void X11Client::sendClientMessage(xcb_window_t w, xcb_atom_t a, xcb_atom_t protocol, uint32_t data1, uint32_t data2, uint32_t data3, xcb_timestamp_t timestamp) { xcb_client_message_event_t ev; memset(&ev, 0, sizeof(ev)); ev.response_type = XCB_CLIENT_MESSAGE; ev.window = w; ev.type = a; ev.format = 32; ev.data.data32[0] = protocol; ev.data.data32[1] = timestamp; ev.data.data32[2] = data1; ev.data.data32[3] = data2; ev.data.data32[4] = data3; uint32_t eventMask = 0; if (w == rootWindow()) { eventMask = XCB_EVENT_MASK_SUBSTRUCTURE_REDIRECT; // Magic! } xcb_send_event(connection(), false, w, eventMask, reinterpret_cast(&ev)); xcb_flush(connection()); } /** * Returns whether the window may be closed (have a close button) */ bool X11Client::isCloseable() const { return rules()->checkCloseable(m_motif.close() && !isSpecialWindow()); } /** * Closes the window by either sending a delete_window message or using XKill. */ void X11Client::closeWindow() { if (!isCloseable()) return; // Update user time, because the window may create a confirming dialog. updateUserTime(); if (info->supportsProtocol(NET::DeleteWindowProtocol)) { sendClientMessage(window(), atoms->wm_protocols, atoms->wm_delete_window); pingWindow(); } else // Client will not react on wm_delete_window. We have not choice // but destroy his connection to the XServer. killWindow(); } /** * Kills the window via XKill */ void X11Client::killWindow() { qCDebug(KWIN_CORE) << "X11Client::killWindow():" << caption(); killProcess(false); m_client.kill(); // Always kill this client at the server destroyClient(); } /** * Send a ping to the window using _NET_WM_PING if possible if it * doesn't respond within a reasonable time, it will be killed. */ void X11Client::pingWindow() { if (!info->supportsProtocol(NET::PingProtocol)) return; // Can't ping :( if (options->killPingTimeout() == 0) return; // Turned off if (ping_timer != nullptr) return; // Pinging already ping_timer = new QTimer(this); connect(ping_timer, &QTimer::timeout, this, [this]() { if (unresponsive()) { qCDebug(KWIN_CORE) << "Final ping timeout, asking to kill:" << caption(); ping_timer->deleteLater(); ping_timer = nullptr; killProcess(true, m_pingTimestamp); return; } qCDebug(KWIN_CORE) << "First ping timeout:" << caption(); setUnresponsive(true); ping_timer->start(); } ); ping_timer->setSingleShot(true); // we'll run the timer twice, at first we'll desaturate the window // and the second time we'll show the "do you want to kill" prompt ping_timer->start(options->killPingTimeout() / 2); m_pingTimestamp = xTime(); rootInfo()->sendPing(window(), m_pingTimestamp); } void X11Client::gotPing(xcb_timestamp_t timestamp) { // Just plain compare is not good enough because of 64bit and truncating and whatnot if (NET::timestampCompare(timestamp, m_pingTimestamp) != 0) return; delete ping_timer; ping_timer = nullptr; setUnresponsive(false); if (m_killHelperPID && !::kill(m_killHelperPID, 0)) { // means the process is alive ::kill(m_killHelperPID, SIGTERM); m_killHelperPID = 0; } } void X11Client::killProcess(bool ask, xcb_timestamp_t timestamp) { if (m_killHelperPID && !::kill(m_killHelperPID, 0)) // means the process is alive return; Q_ASSERT(!ask || timestamp != XCB_TIME_CURRENT_TIME); pid_t pid = info->pid(); if (pid <= 0 || clientMachine()->hostName().isEmpty()) // Needed properties missing return; qCDebug(KWIN_CORE) << "Kill process:" << pid << "(" << clientMachine()->hostName() << ")"; if (!ask) { if (!clientMachine()->isLocal()) { QStringList lst; lst << QString::fromUtf8(clientMachine()->hostName()) << QStringLiteral("kill") << QString::number(pid); QProcess::startDetached(QStringLiteral("xon"), lst); } else ::kill(pid, SIGTERM); } else { QString hostname = clientMachine()->isLocal() ? QStringLiteral("localhost") : QString::fromUtf8(clientMachine()->hostName()); // execute helper from build dir or the system installed one const QFileInfo buildDirBinary{QDir{QCoreApplication::applicationDirPath()}, QStringLiteral("kwin_killer_helper")}; QProcess::startDetached(buildDirBinary.exists() ? buildDirBinary.absoluteFilePath() : QStringLiteral(KWIN_KILLER_BIN), QStringList() << QStringLiteral("--pid") << QString::number(unsigned(pid)) << QStringLiteral("--hostname") << hostname << QStringLiteral("--windowname") << captionNormal() << QStringLiteral("--applicationname") << QString::fromUtf8(resourceClass()) << QStringLiteral("--wid") << QString::number(window()) << QStringLiteral("--timestamp") << QString::number(timestamp), QString(), &m_killHelperPID); } } void X11Client::doSetKeepAbove() { info->setState(keepAbove() ? NET::KeepAbove : NET::States(), NET::KeepAbove); } void X11Client::doSetKeepBelow() { info->setState(keepBelow() ? NET::KeepBelow : NET::States(), NET::KeepBelow); } void X11Client::doSetSkipTaskbar() { info->setState(skipTaskbar() ? NET::SkipTaskbar : NET::States(), NET::SkipTaskbar); } void X11Client::doSetSkipPager() { info->setState(skipPager() ? NET::SkipPager : NET::States(), NET::SkipPager); } void X11Client::doSetSkipSwitcher() { info->setState(skipSwitcher() ? NET::SkipSwitcher : NET::States(), NET::SkipSwitcher); } void X11Client::doSetDesktop() { updateVisibility(); } void X11Client::doSetDemandsAttention() { info->setState(isDemandingAttention() ? NET::DemandsAttention : NET::States(), NET::DemandsAttention); } /** * Sets whether the client is on @p activity. * If you remove it from its last activity, then it's on all activities. * * Note: If it was on all activities and you try to remove it from one, nothing will happen; * I don't think that's an important enough use case to handle here. */ void X11Client::setOnActivity(const QString &activity, bool enable) { #ifdef KWIN_BUILD_ACTIVITIES if (! Activities::self()) { return; } QStringList newActivitiesList = activities(); if (newActivitiesList.contains(activity) == enable) //nothing to do return; if (enable) { QStringList allActivities = Activities::self()->all(); if (!allActivities.contains(activity)) //bogus ID return; newActivitiesList.append(activity); } else newActivitiesList.removeOne(activity); setOnActivities(newActivitiesList); #else Q_UNUSED(activity) Q_UNUSED(enable) #endif } /** * set exactly which activities this client is on */ void X11Client::setOnActivities(QStringList newActivitiesList) { #ifdef KWIN_BUILD_ACTIVITIES if (!Activities::self()) { return; } QString joinedActivitiesList = newActivitiesList.join(QStringLiteral(",")); joinedActivitiesList = rules()->checkActivity(joinedActivitiesList, false); newActivitiesList = joinedActivitiesList.split(u',', QString::SkipEmptyParts); QStringList allActivities = Activities::self()->all(); auto it = newActivitiesList.begin(); while (it != newActivitiesList.end()) { if (! allActivities.contains(*it)) { it = newActivitiesList.erase(it); } else { it++; } } if (// If we got the request to be on all activities explicitly newActivitiesList.isEmpty() || joinedActivitiesList == Activities::nullUuid() || // If we got a list of activities that covers all activities (newActivitiesList.count() > 1 && newActivitiesList.count() == allActivities.count())) { activityList.clear(); const QByteArray nullUuid = Activities::nullUuid().toUtf8(); m_client.changeProperty(atoms->activities, XCB_ATOM_STRING, 8, nullUuid.length(), nullUuid.constData()); } else { QByteArray joined = joinedActivitiesList.toLatin1(); activityList = newActivitiesList; m_client.changeProperty(atoms->activities, XCB_ATOM_STRING, 8, joined.length(), joined.constData()); } updateActivities(false); #else Q_UNUSED(newActivitiesList) #endif } void X11Client::blockActivityUpdates(bool b) { if (b) { ++m_activityUpdatesBlocked; } else { Q_ASSERT(m_activityUpdatesBlocked); --m_activityUpdatesBlocked; if (!m_activityUpdatesBlocked) updateActivities(m_blockedActivityUpdatesRequireTransients); } } /** * update after activities changed */ void X11Client::updateActivities(bool includeTransients) { if (m_activityUpdatesBlocked) { m_blockedActivityUpdatesRequireTransients |= includeTransients; return; } emit activitiesChanged(this); m_blockedActivityUpdatesRequireTransients = false; // reset FocusChain::self()->update(this, FocusChain::MakeFirst); updateVisibility(); updateWindowRules(Rules::Activity); } /** * Returns the list of activities the client window is on. * if it's on all activities, the list will be empty. * Don't use this, use isOnActivity() and friends (from class Toplevel) */ QStringList X11Client::activities() const { if (sessionActivityOverride) { return QStringList(); } return activityList; } /** * if @p on is true, sets on all activities. * if it's false, sets it to only be on the current activity */ void X11Client::setOnAllActivities(bool on) { #ifdef KWIN_BUILD_ACTIVITIES if (on == isOnAllActivities()) return; if (on) { setOnActivities(QStringList()); } else { setOnActivity(Activities::self()->current(), true); } #else Q_UNUSED(on) #endif } /** * Performs the actual focusing of the window using XSetInputFocus and WM_TAKE_FOCUS */ void X11Client::takeFocus() { if (rules()->checkAcceptFocus(info->input())) m_client.focus(); else demandAttention(false); // window cannot take input, at least withdraw urgency if (info->supportsProtocol(NET::TakeFocusProtocol)) { sendClientMessage(window(), atoms->wm_protocols, atoms->wm_take_focus, 0, 0, 0, XCB_CURRENT_TIME); } workspace()->setShouldGetFocus(this); bool breakShowingDesktop = !keepAbove(); if (breakShowingDesktop) { foreach (const X11Client *c, group()->members()) { if (c->isDesktop()) { breakShowingDesktop = false; break; } } } if (breakShowingDesktop) workspace()->setShowingDesktop(false); } /** * Returns whether the window provides context help or not. If it does, * you should show a help menu item or a help button like '?' and call * contextHelp() if this is invoked. * * \sa contextHelp() */ bool X11Client::providesContextHelp() const { return info->supportsProtocol(NET::ContextHelpProtocol); } /** * Invokes context help on the window. Only works if the window * actually provides context help. * * \sa providesContextHelp() */ void X11Client::showContextHelp() { if (info->supportsProtocol(NET::ContextHelpProtocol)) { sendClientMessage(window(), atoms->wm_protocols, atoms->net_wm_context_help); } } /** * Fetches the window's caption (WM_NAME property). It will be * stored in the client's caption(). */ void X11Client::fetchName() { setCaption(readName()); } static inline QString readNameProperty(xcb_window_t w, xcb_atom_t atom) { const auto cookie = xcb_icccm_get_text_property_unchecked(connection(), w, atom); xcb_icccm_get_text_property_reply_t reply; if (xcb_icccm_get_wm_name_reply(connection(), cookie, &reply, nullptr)) { QString retVal; if (reply.encoding == atoms->utf8_string) { retVal = QString::fromUtf8(QByteArray(reply.name, reply.name_len)); } else if (reply.encoding == XCB_ATOM_STRING) { retVal = QString::fromLocal8Bit(QByteArray(reply.name, reply.name_len)); } xcb_icccm_get_text_property_reply_wipe(&reply); return retVal.simplified(); } return QString(); } QString X11Client::readName() const { if (info->name() && info->name()[0] != '\0') return QString::fromUtf8(info->name()).simplified(); else { return readNameProperty(window(), XCB_ATOM_WM_NAME); } } // The list is taken from https://www.unicode.org/reports/tr9/ (#154840) static const QChar LRM(0x200E); void X11Client::setCaption(const QString& _s, bool force) { QString s(_s); for (int i = 0; i < s.length(); ) { if (!s[i].isPrint()) { if (QChar(s[i]).isHighSurrogate() && i + 1 < s.length() && QChar(s[i + 1]).isLowSurrogate()) { const uint uc = QChar::surrogateToUcs4(s[i], s[i + 1]); if (!QChar::isPrint(uc)) { s.remove(i, 2); } else { i += 2; } continue; } s.remove(i, 1); continue; } ++i; } const bool changed = (s != cap_normal); if (!force && !changed) { return; } cap_normal = s; if (!force && !changed) { emit captionChanged(); return; } bool reset_name = force; bool was_suffix = (!cap_suffix.isEmpty()); cap_suffix.clear(); QString machine_suffix; if (!options->condensedTitle()) { // machine doesn't qualify for "clean" if (clientMachine()->hostName() != ClientMachine::localhost() && !clientMachine()->isLocal()) machine_suffix = QLatin1String(" <@") + QString::fromUtf8(clientMachine()->hostName()) + QLatin1Char('>') + LRM; } QString shortcut_suffix = shortcutCaptionSuffix(); cap_suffix = machine_suffix + shortcut_suffix; if ((!isSpecialWindow() || isToolbar()) && findClientWithSameCaption()) { int i = 2; do { cap_suffix = machine_suffix + QLatin1String(" <") + QString::number(i) + QLatin1Char('>') + LRM; i++; } while (findClientWithSameCaption()); info->setVisibleName(caption().toUtf8().constData()); reset_name = false; } if ((was_suffix && cap_suffix.isEmpty()) || reset_name) { // If it was new window, it may have old value still set, if the window is reused info->setVisibleName(""); info->setVisibleIconName(""); } else if (!cap_suffix.isEmpty() && !cap_iconic.isEmpty()) // Keep the same suffix in iconic name if it's set info->setVisibleIconName(QString(cap_iconic + cap_suffix).toUtf8().constData()); emit captionChanged(); } void X11Client::updateCaption() { setCaption(cap_normal, true); } void X11Client::fetchIconicName() { QString s; if (info->iconName() && info->iconName()[0] != '\0') s = QString::fromUtf8(info->iconName()); else s = readNameProperty(window(), XCB_ATOM_WM_ICON_NAME); if (s != cap_iconic) { bool was_set = !cap_iconic.isEmpty(); cap_iconic = s; if (!cap_suffix.isEmpty()) { if (!cap_iconic.isEmpty()) // Keep the same suffix in iconic name if it's set info->setVisibleIconName(QString(s + cap_suffix).toUtf8().constData()); else if (was_set) info->setVisibleIconName(""); } } } void X11Client::setClientShown(bool shown) { if (deleting) return; // Don't change shown status if this client is being deleted if (shown != hidden) return; // nothing to change hidden = !shown; if (shown) { map(); takeFocus(); autoRaise(); FocusChain::self()->update(this, FocusChain::MakeFirst); } else { unmap(); // Don't move tabs to the end of the list when another tab get's activated FocusChain::self()->update(this, FocusChain::MakeLast); addWorkspaceRepaint(visibleRect()); } } void X11Client::getMotifHints() { const bool wasClosable = m_motif.close(); const bool wasNoBorder = m_motif.noBorder(); if (m_managed) // only on property change, initial read is prefetched m_motif.fetch(); m_motif.read(); if (m_motif.hasDecoration() && m_motif.noBorder() != wasNoBorder) { // If we just got a hint telling us to hide decorations, we do so. if (m_motif.noBorder()) noborder = rules()->checkNoBorder(true); // If the Motif hint is now telling us to show decorations, we only do so if the app didn't // instruct us to hide decorations in some other way, though. else if (!app_noborder) noborder = rules()->checkNoBorder(false); } // mminimize; - Ignore, bogus - E.g. shading or sending to another desktop is "minimizing" too // mmaximize; - Ignore, bogus - Maximizing is basically just resizing const bool closabilityChanged = wasClosable != m_motif.close(); if (isManaged()) updateDecoration(true); // Check if noborder state has changed if (closabilityChanged) { emit closeableChanged(isCloseable()); } } void X11Client::getIcons() { // First read icons from the window itself const QString themedIconName = iconFromDesktopFile(); if (!themedIconName.isEmpty()) { setIcon(QIcon::fromTheme(themedIconName)); return; } QIcon icon; auto readIcon = [this, &icon](int size, bool scale = true) { const QPixmap pix = KWindowSystem::icon(window(), size, size, scale, KWindowSystem::NETWM | KWindowSystem::WMHints, info); if (!pix.isNull()) { icon.addPixmap(pix); } }; readIcon(16); readIcon(32); readIcon(48, false); readIcon(64, false); readIcon(128, false); if (icon.isNull()) { // Then try window group icon = group()->icon(); } if (icon.isNull() && isTransient()) { // Then mainclients auto mainclients = mainClients(); for (auto it = mainclients.constBegin(); it != mainclients.constEnd() && icon.isNull(); ++it) { if (!(*it)->icon().isNull()) { icon = (*it)->icon(); break; } } } if (icon.isNull()) { // And if nothing else, load icon from classhint or xapp icon icon.addPixmap(KWindowSystem::icon(window(), 32, 32, true, KWindowSystem::ClassHint | KWindowSystem::XApp, info)); icon.addPixmap(KWindowSystem::icon(window(), 16, 16, true, KWindowSystem::ClassHint | KWindowSystem::XApp, info)); icon.addPixmap(KWindowSystem::icon(window(), 64, 64, false, KWindowSystem::ClassHint | KWindowSystem::XApp, info)); icon.addPixmap(KWindowSystem::icon(window(), 128, 128, false, KWindowSystem::ClassHint | KWindowSystem::XApp, info)); } setIcon(icon); } /** * Returns \c true if X11Client wants to throttle resizes; otherwise returns \c false. */ bool X11Client::wantsSyncCounter() const { return true; } void X11Client::getSyncCounter() { if (!Xcb::Extensions::self()->isSyncAvailable()) return; if (!wantsSyncCounter()) return; Xcb::Property syncProp(false, window(), atoms->net_wm_sync_request_counter, XCB_ATOM_CARDINAL, 0, 1); const xcb_sync_counter_t counter = syncProp.value(XCB_NONE); if (counter != XCB_NONE) { m_syncRequest.counter = counter; m_syncRequest.value.hi = 0; m_syncRequest.value.lo = 0; auto *c = connection(); xcb_sync_set_counter(c, m_syncRequest.counter, m_syncRequest.value); if (m_syncRequest.alarm == XCB_NONE) { const uint32_t mask = XCB_SYNC_CA_COUNTER | XCB_SYNC_CA_VALUE_TYPE | XCB_SYNC_CA_TEST_TYPE | XCB_SYNC_CA_EVENTS; const uint32_t values[] = { m_syncRequest.counter, XCB_SYNC_VALUETYPE_RELATIVE, XCB_SYNC_TESTTYPE_POSITIVE_TRANSITION, 1 }; m_syncRequest.alarm = xcb_generate_id(c); auto cookie = xcb_sync_create_alarm_checked(c, m_syncRequest.alarm, mask, values); ScopedCPointer error(xcb_request_check(c, cookie)); if (!error.isNull()) { m_syncRequest.alarm = XCB_NONE; } else { xcb_sync_change_alarm_value_list_t value; memset(&value, 0, sizeof(value)); value.value.hi = 0; value.value.lo = 1; value.delta.hi = 0; value.delta.lo = 1; xcb_sync_change_alarm_aux(c, m_syncRequest.alarm, XCB_SYNC_CA_DELTA | XCB_SYNC_CA_VALUE, &value); } } } } /** * Send the client a _NET_SYNC_REQUEST */ void X11Client::sendSyncRequest() { if (m_syncRequest.counter == XCB_NONE || m_syncRequest.isPending) { return; // do NOT, NEVER send a sync request when there's one on the stack. the clients will just stop respoding. FOREVER! ... } if (!m_syncRequest.failsafeTimeout) { m_syncRequest.failsafeTimeout = new QTimer(this); connect(m_syncRequest.failsafeTimeout, &QTimer::timeout, this, [this]() { // client does not respond to XSYNC requests in reasonable time, remove support if (!ready_for_painting) { // failed on initial pre-show request setReadyForPainting(); setupWindowManagementInterface(); return; } // failed during resize m_syncRequest.isPending = false; m_syncRequest.counter = XCB_NONE; m_syncRequest.alarm = XCB_NONE; delete m_syncRequest.timeout; delete m_syncRequest.failsafeTimeout; m_syncRequest.timeout = nullptr; m_syncRequest.failsafeTimeout = nullptr; m_syncRequest.lastTimestamp = XCB_CURRENT_TIME; } ); m_syncRequest.failsafeTimeout->setSingleShot(true); } // if there's no response within 10 seconds, sth. went wrong and we remove XSYNC support from this client. // see events.cpp X11Client::syncEvent() m_syncRequest.failsafeTimeout->start(ready_for_painting ? 10000 : 1000); // We increment before the notify so that after the notify // syncCounterSerial will equal the value we are expecting // in the acknowledgement const uint32_t oldLo = m_syncRequest.value.lo; m_syncRequest.value.lo++; if (oldLo > m_syncRequest.value.lo) { m_syncRequest.value.hi++; } if (m_syncRequest.lastTimestamp >= xTime()) { updateXTime(); } // Send the message to client sendClientMessage(window(), atoms->wm_protocols, atoms->net_wm_sync_request, m_syncRequest.value.lo, m_syncRequest.value.hi); m_syncRequest.isPending = true; m_syncRequest.lastTimestamp = xTime(); } bool X11Client::wantsInput() const { return rules()->checkAcceptFocus(acceptsFocus() || info->supportsProtocol(NET::TakeFocusProtocol)); } bool X11Client::acceptsFocus() const { return info->input(); } void X11Client::setBlockingCompositing(bool block) { const bool usedToBlock = blocks_compositing; blocks_compositing = rules()->checkBlockCompositing(block && options->windowsBlockCompositing()); if (usedToBlock != blocks_compositing) { emit blockingCompositingChanged(blocks_compositing ? this : nullptr); } } void X11Client::updateAllowedActions(bool force) { if (!isManaged() && !force) return; NET::Actions old_allowed_actions = NET::Actions(allowed_actions); allowed_actions = NET::Actions(); if (isMovable()) allowed_actions |= NET::ActionMove; if (isResizable()) allowed_actions |= NET::ActionResize; if (isMinimizable()) allowed_actions |= NET::ActionMinimize; if (isShadeable()) allowed_actions |= NET::ActionShade; // Sticky state not supported if (isMaximizable()) allowed_actions |= NET::ActionMax; if (userCanSetFullScreen()) allowed_actions |= NET::ActionFullScreen; allowed_actions |= NET::ActionChangeDesktop; // Always (Pagers shouldn't show Docks etc.) if (isCloseable()) allowed_actions |= NET::ActionClose; if (old_allowed_actions == allowed_actions) return; // TODO: This could be delayed and compressed - It's only for pagers etc. anyway info->setAllowedActions(allowed_actions); // ONLY if relevant features have changed (and the window didn't just get/loose moveresize for maximization state changes) const NET::Actions relevant = ~(NET::ActionMove|NET::ActionResize); if ((allowed_actions & relevant) != (old_allowed_actions & relevant)) { if ((allowed_actions & NET::ActionMinimize) != (old_allowed_actions & NET::ActionMinimize)) { emit minimizeableChanged(allowed_actions & NET::ActionMinimize); } if ((allowed_actions & NET::ActionShade) != (old_allowed_actions & NET::ActionShade)) { emit shadeableChanged(allowed_actions & NET::ActionShade); } if ((allowed_actions & NET::ActionMax) != (old_allowed_actions & NET::ActionMax)) { emit maximizeableChanged(allowed_actions & NET::ActionMax); } } } void X11Client::debug(QDebug& stream) const { stream.nospace(); print(stream); } Xcb::StringProperty X11Client::fetchActivities() const { #ifdef KWIN_BUILD_ACTIVITIES return Xcb::StringProperty(window(), atoms->activities); #else return Xcb::StringProperty(); #endif } void X11Client::readActivities(Xcb::StringProperty &property) { #ifdef KWIN_BUILD_ACTIVITIES QStringList newActivitiesList; QString prop = QString::fromUtf8(property); activitiesDefined = !prop.isEmpty(); if (prop == Activities::nullUuid()) { //copied from setOnAllActivities to avoid a redundant XChangeProperty. if (!activityList.isEmpty()) { activityList.clear(); updateActivities(true); } return; } if (prop.isEmpty()) { //note: this makes it *act* like it's on all activities but doesn't set the property to 'ALL' if (!activityList.isEmpty()) { activityList.clear(); updateActivities(true); } return; } newActivitiesList = prop.split(u','); if (newActivitiesList == activityList) return; //expected change, it's ok. //otherwise, somebody else changed it. we need to validate before reacting. //if the activities are not synced, and there are existing clients with //activities specified, somebody has restarted kwin. we can not validate //activities in this case. we need to trust the old values. if (Activities::self() && Activities::self()->serviceStatus() != KActivities::Consumer::Unknown) { QStringList allActivities = Activities::self()->all(); if (allActivities.isEmpty()) { qCDebug(KWIN_CORE) << "no activities!?!?"; //don't touch anything, there's probably something bad going on and we don't wanna make it worse return; } for (int i = 0; i < newActivitiesList.size(); ++i) { if (! allActivities.contains(newActivitiesList.at(i))) { qCDebug(KWIN_CORE) << "invalid:" << newActivitiesList.at(i); newActivitiesList.removeAt(i--); } } } setOnActivities(newActivitiesList); #else Q_UNUSED(property) #endif } void X11Client::checkActivities() { #ifdef KWIN_BUILD_ACTIVITIES Xcb::StringProperty property = fetchActivities(); readActivities(property); #endif } void X11Client::setSessionActivityOverride(bool needed) { sessionActivityOverride = needed; updateActivities(false); } Xcb::Property X11Client::fetchFirstInTabBox() const { return Xcb::Property(false, m_client, atoms->kde_first_in_window_list, atoms->kde_first_in_window_list, 0, 1); } void X11Client::readFirstInTabBox(Xcb::Property &property) { setFirstInTabBox(property.toBool(32, atoms->kde_first_in_window_list)); } void X11Client::updateFirstInTabBox() { // TODO: move into KWindowInfo Xcb::Property property = fetchFirstInTabBox(); readFirstInTabBox(property); } Xcb::StringProperty X11Client::fetchColorScheme() const { return Xcb::StringProperty(m_client, atoms->kde_color_sheme); } void X11Client::readColorScheme(Xcb::StringProperty &property) { AbstractClient::updateColorScheme(rules()->checkDecoColor(QString::fromUtf8(property))); } void X11Client::updateColorScheme() { Xcb::StringProperty property = fetchColorScheme(); readColorScheme(property); } bool X11Client::isClient() const { return true; } NET::WindowType X11Client::windowType(bool direct, int supportedTypes) const { // TODO: does it make sense to cache the returned window type for SUPPORTED_MANAGED_WINDOW_TYPES_MASK? if (supportedTypes == 0) { supportedTypes = SUPPORTED_MANAGED_WINDOW_TYPES_MASK; } NET::WindowType wt = info->windowType(NET::WindowTypes(supportedTypes)); if (direct) { return wt; } NET::WindowType wt2 = rules()->checkType(wt); if (wt != wt2) { wt = wt2; info->setWindowType(wt); // force hint change } // hacks here if (wt == NET::Unknown) // this is more or less suggested in NETWM spec wt = isTransient() ? NET::Dialog : NET::Normal; return wt; } void X11Client::cancelFocusOutTimer() { if (m_focusOutTimer) { m_focusOutTimer->stop(); } } xcb_window_t X11Client::frameId() const { return m_frame; } QRect X11Client::inputGeometry() const { // Notice that the buffer geometry corresponds to the geometry of the frame window. if (isDecorated()) { return m_bufferGeometry + decoration()->resizeOnlyBorders(); } return m_bufferGeometry; } QRect X11Client::bufferGeometry() const { return m_bufferGeometry; } QMargins X11Client::bufferMargins() const { return QMargins(borderLeft(), borderTop(), borderRight(), borderBottom()); } QPoint X11Client::framePosToClientPos(const QPoint &point) const { int x = point.x(); int y = point.y(); if (isDecorated()) { x += borderLeft(); y += borderTop(); } else { x -= m_clientFrameExtents.left(); y -= m_clientFrameExtents.top(); } return QPoint(x, y); } QPoint X11Client::clientPosToFramePos(const QPoint &point) const { int x = point.x(); int y = point.y(); if (isDecorated()) { x -= borderLeft(); y -= borderTop(); } else { x += m_clientFrameExtents.left(); y += m_clientFrameExtents.top(); } return QPoint(x, y); } QSize X11Client::frameSizeToClientSize(const QSize &size) const { int width = size.width(); int height = size.height(); if (isDecorated()) { width -= borderLeft() + borderRight(); height -= borderTop() + borderBottom(); } else { width += m_clientFrameExtents.left() + m_clientFrameExtents.right(); height += m_clientFrameExtents.top() + m_clientFrameExtents.bottom(); } return QSize(width, height); } QSize X11Client::clientSizeToFrameSize(const QSize &size) const { int width = size.width(); int height = size.height(); if (isDecorated()) { width += borderLeft() + borderRight(); height += borderTop() + borderBottom(); } else { width -= m_clientFrameExtents.left() + m_clientFrameExtents.right(); height -= m_clientFrameExtents.top() + m_clientFrameExtents.bottom(); } return QSize(width, height); } QRect X11Client::frameRectToBufferRect(const QRect &rect) const { if (isDecorated()) { return rect; } return frameRectToClientRect(rect); } QMatrix4x4 X11Client::inputTransformation() const { QMatrix4x4 matrix; matrix.translate(-m_bufferGeometry.x(), -m_bufferGeometry.y()); return matrix; } Xcb::Property X11Client::fetchShowOnScreenEdge() const { return Xcb::Property(false, window(), atoms->kde_screen_edge_show, XCB_ATOM_CARDINAL, 0, 1); } void X11Client::readShowOnScreenEdge(Xcb::Property &property) { //value comes in two parts, edge in the lower byte //then the type in the upper byte // 0 = autohide // 1 = raise in front on activate const uint32_t value = property.value(ElectricNone); ElectricBorder border = ElectricNone; switch (value & 0xFF) { case 0: border = ElectricTop; break; case 1: border = ElectricRight; break; case 2: border = ElectricBottom; break; case 3: border = ElectricLeft; break; } if (border != ElectricNone) { disconnect(m_edgeRemoveConnection); disconnect(m_edgeGeometryTrackingConnection); bool successfullyHidden = false; if (((value >> 8) & 0xFF) == 1) { setKeepBelow(true); successfullyHidden = keepBelow(); //request could have failed due to user kwin rules m_edgeRemoveConnection = connect(this, &AbstractClient::keepBelowChanged, this, [this](){ if (!keepBelow()) { ScreenEdges::self()->reserve(this, ElectricNone); } }); } else { hideClient(true); successfullyHidden = isHiddenInternal(); m_edgeGeometryTrackingConnection = connect(this, &X11Client::frameGeometryChanged, this, [this, border](){ hideClient(true); ScreenEdges::self()->reserve(this, border); }); } if (successfullyHidden) { ScreenEdges::self()->reserve(this, border); } else { ScreenEdges::self()->reserve(this, ElectricNone); } } else if (!property.isNull() && property->type != XCB_ATOM_NONE) { // property value is incorrect, delete the property // so that the client knows that it is not hidden xcb_delete_property(connection(), window(), atoms->kde_screen_edge_show); } else { // restore // TODO: add proper unreserve //this will call showOnScreenEdge to reset the state disconnect(m_edgeGeometryTrackingConnection); ScreenEdges::self()->reserve(this, ElectricNone); } } void X11Client::updateShowOnScreenEdge() { Xcb::Property property = fetchShowOnScreenEdge(); readShowOnScreenEdge(property); } void X11Client::showOnScreenEdge() { disconnect(m_edgeRemoveConnection); hideClient(false); setKeepBelow(false); xcb_delete_property(connection(), window(), atoms->kde_screen_edge_show); } void X11Client::addDamage(const QRegion &damage) { if (!ready_for_painting) { // avoid "setReadyForPainting()" function calling overhead if (m_syncRequest.counter == XCB_NONE) { // cannot detect complete redraw, consider done now setReadyForPainting(); setupWindowManagementInterface(); } } repaints_region += damage.translated(bufferGeometry().topLeft() - frameGeometry().topLeft()); Toplevel::addDamage(damage); } bool X11Client::belongsToSameApplication(const AbstractClient *other, SameApplicationChecks checks) const { const X11Client *c2 = dynamic_cast(other); if (!c2) { return false; } return X11Client::belongToSameApplication(this, c2, checks); } QSize X11Client::resizeIncrements() const { return m_geometryHints.resizeIncrements(); } Xcb::StringProperty X11Client::fetchApplicationMenuServiceName() const { return Xcb::StringProperty(m_client, atoms->kde_net_wm_appmenu_service_name); } void X11Client::readApplicationMenuServiceName(Xcb::StringProperty &property) { updateApplicationMenuServiceName(QString::fromUtf8(property)); } void X11Client::checkApplicationMenuServiceName() { Xcb::StringProperty property = fetchApplicationMenuServiceName(); readApplicationMenuServiceName(property); } Xcb::StringProperty X11Client::fetchApplicationMenuObjectPath() const { return Xcb::StringProperty(m_client, atoms->kde_net_wm_appmenu_object_path); } void X11Client::readApplicationMenuObjectPath(Xcb::StringProperty &property) { updateApplicationMenuObjectPath(QString::fromUtf8(property)); } void X11Client::checkApplicationMenuObjectPath() { Xcb::StringProperty property = fetchApplicationMenuObjectPath(); readApplicationMenuObjectPath(property); } void X11Client::handleSync() { setReadyForPainting(); setupWindowManagementInterface(); m_syncRequest.isPending = false; if (m_syncRequest.failsafeTimeout) { m_syncRequest.failsafeTimeout->stop(); } if (isResize()) { if (m_syncRequest.timeout) { m_syncRequest.timeout->stop(); } performMoveResize(); updateWindowPixmap(); } else // setReadyForPainting does as well, but there's a small chance for resize syncs after the resize ended addRepaintFull(); } void X11Client::move(int x, int y, ForceGeometry_t force) { const QPoint framePosition(x, y); m_clientGeometry.moveTopLeft(framePosToClientPos(framePosition)); const QPoint bufferPosition = isDecorated() ? framePosition : m_clientGeometry.topLeft(); // resuming geometry updates is handled only in setGeometry() Q_ASSERT(pendingGeometryUpdate() == PendingGeometryNone || areGeometryUpdatesBlocked()); if (!areGeometryUpdatesBlocked() && framePosition != rules()->checkPosition(framePosition)) { qCDebug(KWIN_CORE) << "forced position fail:" << framePosition << ":" << rules()->checkPosition(framePosition); } m_frameGeometry.moveTopLeft(framePosition); if (force == NormalGeometrySet && m_bufferGeometry.topLeft() == bufferPosition) { return; } m_bufferGeometry.moveTopLeft(bufferPosition); if (areGeometryUpdatesBlocked()) { if (pendingGeometryUpdate() == PendingGeometryForced) { // Maximum, nothing needed. } else if (force == ForceGeometrySet) { setPendingGeometryUpdate(PendingGeometryForced); } else { setPendingGeometryUpdate(PendingGeometryNormal); } return; } updateServerGeometry(); updateWindowRules(Rules::Position); screens()->setCurrent(this); workspace()->updateStackingOrder(); // client itself is not damaged + if (clientGeometryBeforeUpdateBlocking() != clientGeometry()) { + emit clientGeometryChanged(this, clientGeometryBeforeUpdateBlocking()); + } if (frameGeometryBeforeUpdateBlocking() != frameGeometry()) { emit frameGeometryChanged(this, frameGeometryBeforeUpdateBlocking()); } addRepaintDuringGeometryUpdates(); updateGeometryBeforeUpdateBlocking(); } bool X11Client::belongToSameApplication(const X11Client *c1, const X11Client *c2, SameApplicationChecks checks) { bool same_app = false; // tests that definitely mean they belong together if (c1 == c2) same_app = true; else if (c1->isTransient() && c2->hasTransient(c1, true)) same_app = true; // c1 has c2 as mainwindow else if (c2->isTransient() && c1->hasTransient(c2, true)) same_app = true; // c2 has c1 as mainwindow else if (c1->group() == c2->group()) same_app = true; // same group else if (c1->wmClientLeader() == c2->wmClientLeader() && c1->wmClientLeader() != c1->window() // if WM_CLIENT_LEADER is not set, it returns window(), && c2->wmClientLeader() != c2->window()) // don't use in this test then same_app = true; // same client leader // tests that mean they most probably don't belong together else if ((c1->pid() != c2->pid() && !checks.testFlag(SameApplicationCheck::AllowCrossProcesses)) || c1->wmClientMachine(false) != c2->wmClientMachine(false)) ; // different processes else if (c1->wmClientLeader() != c2->wmClientLeader() && c1->wmClientLeader() != c1->window() // if WM_CLIENT_LEADER is not set, it returns window(), && c2->wmClientLeader() != c2->window() // don't use in this test then && !checks.testFlag(SameApplicationCheck::AllowCrossProcesses)) ; // different client leader else if (!resourceMatch(c1, c2)) ; // different apps else if (!sameAppWindowRoleMatch(c1, c2, checks.testFlag(SameApplicationCheck::RelaxedForActive)) && !checks.testFlag(SameApplicationCheck::AllowCrossProcesses)) ; // "different" apps else if (c1->pid() == 0 || c2->pid() == 0) ; // old apps that don't have _NET_WM_PID, consider them different // if they weren't found to match above else same_app = true; // looks like it's the same app return same_app; } // Non-transient windows with window role containing '#' are always // considered belonging to different applications (unless // the window role is exactly the same). KMainWindow sets // window role this way by default, and different KMainWindow // usually "are" different application from user's point of view. // This help with no-focus-stealing for e.g. konqy reusing. // On the other hand, if one of the windows is active, they are // considered belonging to the same application. This is for // the cases when opening new mainwindow directly from the application, // e.g. 'Open New Window' in konqy ( active_hack == true ). bool X11Client::sameAppWindowRoleMatch(const X11Client *c1, const X11Client *c2, bool active_hack) { if (c1->isTransient()) { while (const X11Client *t = dynamic_cast(c1->transientFor())) c1 = t; if (c1->groupTransient()) return c1->group() == c2->group(); #if 0 // if a group transient is in its own group, it didn't possibly have a group, // and therefore should be considered belonging to the same app like // all other windows from the same app || c1->group()->leaderClient() == c1 || c2->group()->leaderClient() == c2; #endif } if (c2->isTransient()) { while (const X11Client *t = dynamic_cast(c2->transientFor())) c2 = t; if (c2->groupTransient()) return c1->group() == c2->group(); #if 0 || c1->group()->leaderClient() == c1 || c2->group()->leaderClient() == c2; #endif } int pos1 = c1->windowRole().indexOf('#'); int pos2 = c2->windowRole().indexOf('#'); if ((pos1 >= 0 && pos2 >= 0)) { if (!active_hack) // without the active hack for focus stealing prevention, return c1 == c2; // different mainwindows are always different apps if (!c1->isActive() && !c2->isActive()) return c1 == c2; else return true; } return true; } /* Transiency stuff: ICCCM 4.1.2.6, NETWM 7.3 WM_TRANSIENT_FOR is basically means "this is my mainwindow". For NET::Unknown windows, transient windows are considered to be NET::Dialog windows, for compatibility with non-NETWM clients. KWin may adjust the value of this property in some cases (window pointing to itself or creating a loop, keeping NET::Splash windows above other windows from the same app, etc.). X11Client::transient_for_id is the value of the WM_TRANSIENT_FOR property, after possibly being adjusted by KWin. X11Client::transient_for points to the Client this Client is transient for, or is NULL. If X11Client::transient_for_id is poiting to the root window, the window is considered to be transient for the whole window group, as suggested in NETWM 7.3. In the case of group transient window, X11Client::transient_for is NULL, and X11Client::groupTransient() returns true. Such window is treated as if it were transient for every window in its window group that has been mapped _before_ it (or, to be exact, was added to the same group before it). Otherwise two group transients can create loops, which can lead very very nasty things (bug #67914 and all its dupes). X11Client::original_transient_for_id is the value of the property, which may be different if X11Client::transient_for_id if e.g. forcing NET::Splash to be kept on top of its window group, or when the mainwindow is not mapped yet, in which case the window is temporarily made group transient, and when the mainwindow is mapped, transiency is re-evaluated. This can get a bit complicated with with e.g. two Konqueror windows created by the same process. They should ideally appear like two independent applications to the user. This should be accomplished by all windows in the same process having the same window group (needs to be changed in Qt at the moment), and using non-group transients poiting to their relevant mainwindow for toolwindows etc. KWin should handle both group and non-group transient dialogs well. In other words: - non-transient windows : isTransient() == false - normal transients : transientFor() != NULL - group transients : groupTransient() == true - list of mainwindows : mainClients() (call once and loop over the result) - list of transients : transients() - every window in the group : group()->members() */ Xcb::TransientFor X11Client::fetchTransient() const { return Xcb::TransientFor(window()); } void X11Client::readTransientProperty(Xcb::TransientFor &transientFor) { xcb_window_t new_transient_for_id = XCB_WINDOW_NONE; if (transientFor.getTransientFor(&new_transient_for_id)) { m_originalTransientForId = new_transient_for_id; new_transient_for_id = verifyTransientFor(new_transient_for_id, true); } else { m_originalTransientForId = XCB_WINDOW_NONE; new_transient_for_id = verifyTransientFor(XCB_WINDOW_NONE, false); } setTransient(new_transient_for_id); } void X11Client::readTransient() { Xcb::TransientFor transientFor = fetchTransient(); readTransientProperty(transientFor); } void X11Client::setTransient(xcb_window_t new_transient_for_id) { if (new_transient_for_id != m_transientForId) { removeFromMainClients(); X11Client *transient_for = nullptr; m_transientForId = new_transient_for_id; if (m_transientForId != XCB_WINDOW_NONE && !groupTransient()) { transient_for = workspace()->findClient(Predicate::WindowMatch, m_transientForId); Q_ASSERT(transient_for != nullptr); // verifyTransient() had to check this transient_for->addTransient(this); } // checkGroup() will check 'check_active_modal' setTransientFor(transient_for); checkGroup(nullptr, true); // force, because transiency has changed workspace()->updateClientLayer(this); workspace()->resetUpdateToolWindowsTimer(); emit transientChanged(); } } void X11Client::removeFromMainClients() { if (transientFor()) transientFor()->removeTransient(this); if (groupTransient()) { for (auto it = group()->members().constBegin(); it != group()->members().constEnd(); ++it) (*it)->removeTransient(this); } } // *sigh* this transiency handling is madness :( // This one is called when destroying/releasing a window. // It makes sure this client is removed from all grouping // related lists. void X11Client::cleanGrouping() { // qDebug() << "CLEANGROUPING:" << this; // for ( auto it = group()->members().begin(); // it != group()->members().end(); // ++it ) // qDebug() << "CL:" << *it; // QList mains; // mains = mainClients(); // for ( auto it = mains.begin(); // it != mains.end(); // ++it ) // qDebug() << "MN:" << *it; removeFromMainClients(); // qDebug() << "CLEANGROUPING2:" << this; // for ( auto it = group()->members().begin(); // it != group()->members().end(); // ++it ) // qDebug() << "CL2:" << *it; // mains = mainClients(); // for ( auto it = mains.begin(); // it != mains.end(); // ++it ) // qDebug() << "MN2:" << *it; for (auto it = transients().constBegin(); it != transients().constEnd(); ) { if ((*it)->transientFor() == this) { removeTransient(*it); it = transients().constBegin(); // restart, just in case something more has changed with the list } else ++it; } // qDebug() << "CLEANGROUPING3:" << this; // for ( auto it = group()->members().begin(); // it != group()->members().end(); // ++it ) // qDebug() << "CL3:" << *it; // mains = mainClients(); // for ( auto it = mains.begin(); // it != mains.end(); // ++it ) // qDebug() << "MN3:" << *it; // HACK // removeFromMainClients() did remove 'this' from transient // lists of all group members, but then made windows that // were transient for 'this' group transient, which again // added 'this' to those transient lists :( QList group_members = group()->members(); group()->removeMember(this); in_group = nullptr; for (auto it = group_members.constBegin(); it != group_members.constEnd(); ++it) (*it)->removeTransient(this); // qDebug() << "CLEANGROUPING4:" << this; // for ( auto it = group_members.begin(); // it != group_members.end(); // ++it ) // qDebug() << "CL4:" << *it; m_transientForId = XCB_WINDOW_NONE; } // Make sure that no group transient is considered transient // for a window that is (directly or indirectly) transient for it // (including another group transients). // Non-group transients not causing loops are checked in verifyTransientFor(). void X11Client::checkGroupTransients() { for (auto it1 = group()->members().constBegin(); it1 != group()->members().constEnd(); ++it1) { if (!(*it1)->groupTransient()) // check all group transients in the group continue; // TODO optimize to check only the changed ones? for (auto it2 = group()->members().constBegin(); it2 != group()->members().constEnd(); ++it2) { // group transients can be transient only for others in the group, // so don't make them transient for the ones that are transient for it if (*it1 == *it2) continue; for (AbstractClient* cl = (*it2)->transientFor(); cl != nullptr; cl = cl->transientFor()) { if (cl == *it1) { // don't use removeTransient(), that would modify *it2 too (*it2)->removeTransientFromList(*it1); continue; } } // if *it1 and *it2 are both group transients, and are transient for each other, // make only *it2 transient for *it1 (i.e. subwindow), as *it2 came later, // and should be therefore on top of *it1 // TODO This could possibly be optimized, it also requires hasTransient() to check for loops. if ((*it2)->groupTransient() && (*it1)->hasTransient(*it2, true) && (*it2)->hasTransient(*it1, true)) (*it2)->removeTransientFromList(*it1); // if there are already windows W1 and W2, W2 being transient for W1, and group transient W3 // is added, make it transient only for W2, not for W1, because it's already indirectly // transient for it - the indirect transiency actually shouldn't break anything, // but it can lead to exponentially expensive operations (#95231) // TODO this is pretty slow as well for (auto it3 = group()->members().constBegin(); it3 != group()->members().constEnd(); ++it3) { if (*it1 == *it2 || *it2 == *it3 || *it1 == *it3) continue; if ((*it2)->hasTransient(*it1, false) && (*it3)->hasTransient(*it1, false)) { if ((*it2)->hasTransient(*it3, true)) (*it2)->removeTransientFromList(*it1); if ((*it3)->hasTransient(*it2, true)) (*it3)->removeTransientFromList(*it1); } } } } } /** * Check that the window is not transient for itself, and similar nonsense. */ xcb_window_t X11Client::verifyTransientFor(xcb_window_t new_transient_for, bool set) { xcb_window_t new_property_value = new_transient_for; // make sure splashscreens are shown above all their app's windows, even though // they're in Normal layer if (isSplash() && new_transient_for == XCB_WINDOW_NONE) new_transient_for = rootWindow(); if (new_transient_for == XCB_WINDOW_NONE) { if (set) // sometimes WM_TRANSIENT_FOR is set to None, instead of root window new_property_value = new_transient_for = rootWindow(); else return XCB_WINDOW_NONE; } if (new_transient_for == window()) { // pointing to self // also fix the property itself qCWarning(KWIN_CORE) << "Client " << this << " has WM_TRANSIENT_FOR poiting to itself." ; new_property_value = new_transient_for = rootWindow(); } // The transient_for window may be embedded in another application, // so kwin cannot see it. Try to find the managed client for the // window and fix the transient_for property if possible. xcb_window_t before_search = new_transient_for; while (new_transient_for != XCB_WINDOW_NONE && new_transient_for != rootWindow() && !workspace()->findClient(Predicate::WindowMatch, new_transient_for)) { Xcb::Tree tree(new_transient_for); if (tree.isNull()) { break; } new_transient_for = tree->parent; } if (X11Client *new_transient_for_client = workspace()->findClient(Predicate::WindowMatch, new_transient_for)) { if (new_transient_for != before_search) { qCDebug(KWIN_CORE) << "Client " << this << " has WM_TRANSIENT_FOR poiting to non-toplevel window " << before_search << ", child of " << new_transient_for_client << ", adjusting."; new_property_value = new_transient_for; // also fix the property } } else new_transient_for = before_search; // nice try // loop detection // group transients cannot cause loops, because they're considered transient only for non-transient // windows in the group int count = 20; xcb_window_t loop_pos = new_transient_for; while (loop_pos != XCB_WINDOW_NONE && loop_pos != rootWindow()) { X11Client *pos = workspace()->findClient(Predicate::WindowMatch, loop_pos); if (pos == nullptr) break; loop_pos = pos->m_transientForId; if (--count == 0 || pos == this) { qCWarning(KWIN_CORE) << "Client " << this << " caused WM_TRANSIENT_FOR loop." ; new_transient_for = rootWindow(); } } if (new_transient_for != rootWindow() && workspace()->findClient(Predicate::WindowMatch, new_transient_for) == nullptr) { // it's transient for a specific window, but that window is not mapped new_transient_for = rootWindow(); } if (new_property_value != m_originalTransientForId) Xcb::setTransientFor(window(), new_property_value); return new_transient_for; } void X11Client::addTransient(AbstractClient* cl) { AbstractClient::addTransient(cl); if (workspace()->mostRecentlyActivatedClient() == this && cl->isModal()) check_active_modal = true; // qDebug() << "ADDTRANS:" << this << ":" << cl; // qDebug() << kBacktrace(); // for ( auto it = transients_list.begin(); // it != transients_list.end(); // ++it ) // qDebug() << "AT:" << (*it); } void X11Client::removeTransient(AbstractClient* cl) { // qDebug() << "REMOVETRANS:" << this << ":" << cl; // qDebug() << kBacktrace(); // cl is transient for this, but this is going away // make cl group transient AbstractClient::removeTransient(cl); if (cl->transientFor() == this) { if (X11Client *c = dynamic_cast(cl)) { c->m_transientForId = XCB_WINDOW_NONE; c->setTransientFor(nullptr); // SELI // SELI cl->setTransient( rootWindow()); c->setTransient(XCB_WINDOW_NONE); } } } // A new window has been mapped. Check if it's not a mainwindow for this already existing window. void X11Client::checkTransient(xcb_window_t w) { if (m_originalTransientForId != w) return; w = verifyTransientFor(w, true); setTransient(w); } // returns true if cl is the transient_for window for this client, // or recursively the transient_for window bool X11Client::hasTransient(const AbstractClient* cl, bool indirect) const { if (const X11Client *c = dynamic_cast(cl)) { // checkGroupTransients() uses this to break loops, so hasTransient() must detect them QList set; return hasTransientInternal(c, indirect, set); } return false; } bool X11Client::hasTransientInternal(const X11Client *cl, bool indirect, QList &set) const { if (const X11Client *t = dynamic_cast(cl->transientFor())) { if (t == this) return true; if (!indirect) return false; if (set.contains(cl)) return false; set.append(cl); return hasTransientInternal(t, indirect, set); } if (!cl->isTransient()) return false; if (group() != cl->group()) return false; // cl is group transient, search from top if (transients().contains(const_cast< X11Client *>(cl))) return true; if (!indirect) return false; if (set.contains(this)) return false; set.append(this); for (auto it = transients().constBegin(); it != transients().constEnd(); ++it) { const X11Client *c = qobject_cast(*it); if (!c) { continue; } if (c->hasTransientInternal(cl, indirect, set)) return true; } return false; } QList X11Client::mainClients() const { if (!isTransient()) return QList(); if (const AbstractClient *t = transientFor()) return QList{const_cast< AbstractClient* >(t)}; QList result; Q_ASSERT(group()); for (auto it = group()->members().constBegin(); it != group()->members().constEnd(); ++it) if ((*it)->hasTransient(this, false)) result.append(*it); return result; } AbstractClient* X11Client::findModal(bool allow_itself) { for (auto it = transients().constBegin(); it != transients().constEnd(); ++it) if (AbstractClient* ret = (*it)->findModal(true)) return ret; if (isModal() && allow_itself) return this; return nullptr; } // X11Client::window_group only holds the contents of the hint, // but it should be used only to find the group, not for anything else // Argument is only when some specific group needs to be set. void X11Client::checkGroup(Group* set_group, bool force) { Group* old_group = in_group; if (old_group != nullptr) old_group->ref(); // turn off automatic deleting if (set_group != nullptr) { if (set_group != in_group) { if (in_group != nullptr) in_group->removeMember(this); in_group = set_group; in_group->addMember(this); } } else if (info->groupLeader() != XCB_WINDOW_NONE) { Group* new_group = workspace()->findGroup(info->groupLeader()); X11Client *t = qobject_cast(transientFor()); if (t != nullptr && t->group() != new_group) { // move the window to the right group (e.g. a dialog provided // by different app, but transient for this one, so make it part of that group) new_group = t->group(); } if (new_group == nullptr) // doesn't exist yet new_group = new Group(info->groupLeader()); if (new_group != in_group) { if (in_group != nullptr) in_group->removeMember(this); in_group = new_group; in_group->addMember(this); } } else { if (X11Client *t = qobject_cast(transientFor())) { // doesn't have window group set, but is transient for something // so make it part of that group Group* new_group = t->group(); if (new_group != in_group) { if (in_group != nullptr) in_group->removeMember(this); in_group = t->group(); in_group->addMember(this); } } else if (groupTransient()) { // group transient which actually doesn't have a group :( // try creating group with other windows with the same client leader Group* new_group = workspace()->findClientLeaderGroup(this); if (new_group == nullptr) new_group = new Group(XCB_WINDOW_NONE); if (new_group != in_group) { if (in_group != nullptr) in_group->removeMember(this); in_group = new_group; in_group->addMember(this); } } else { // Not transient without a group, put it in its client leader group. // This might be stupid if grouping was used for e.g. taskbar grouping // or minimizing together the whole group, but as long as it is used // only for dialogs it's better to keep windows from one app in one group. Group* new_group = workspace()->findClientLeaderGroup(this); if (in_group != nullptr && in_group != new_group) { in_group->removeMember(this); in_group = nullptr; } if (new_group == nullptr) new_group = new Group(XCB_WINDOW_NONE); if (in_group != new_group) { in_group = new_group; in_group->addMember(this); } } } if (in_group != old_group || force) { for (auto it = transients().constBegin(); it != transients().constEnd(); ) { auto *c = *it; // group transients in the old group are no longer transient for it if (c->groupTransient() && c->group() != group()) { removeTransientFromList(c); it = transients().constBegin(); // restart, just in case something more has changed with the list } else ++it; } if (groupTransient()) { // no longer transient for ones in the old group if (old_group != nullptr) { for (auto it = old_group->members().constBegin(); it != old_group->members().constEnd(); ++it) (*it)->removeTransient(this); } // and make transient for all in the new group for (auto it = group()->members().constBegin(); it != group()->members().constEnd(); ++it) { if (*it == this) break; // this means the window is only transient for windows mapped before it (*it)->addTransient(this); } } // group transient splashscreens should be transient even for windows // in group mapped later for (auto it = group()->members().constBegin(); it != group()->members().constEnd(); ++it) { if (!(*it)->isSplash()) continue; if (!(*it)->groupTransient()) continue; if (*it == this || hasTransient(*it, true)) // TODO indirect? continue; addTransient(*it); } } if (old_group != nullptr) old_group->deref(); // can be now deleted if empty checkGroupTransients(); checkActiveModal(); workspace()->updateClientLayer(this); } // used by Workspace::findClientLeaderGroup() void X11Client::changeClientLeaderGroup(Group* gr) { // transientFor() != NULL are in the group of their mainwindow, so keep them there if (transientFor() != nullptr) return; // also don't change the group for window which have group set if (info->groupLeader()) return; checkGroup(gr); // change group } bool X11Client::check_active_modal = false; void X11Client::checkActiveModal() { // if the active window got new modal transient, activate it. // cannot be done in AddTransient(), because there may temporarily // exist loops, breaking findModal X11Client *check_modal = dynamic_cast(workspace()->mostRecentlyActivatedClient()); if (check_modal != nullptr && check_modal->check_active_modal) { X11Client *new_modal = dynamic_cast(check_modal->findModal()); if (new_modal != nullptr && new_modal != check_modal) { if (!new_modal->isManaged()) return; // postpone check until end of manage() workspace()->activateClient(new_modal); } check_modal->check_active_modal = false; } } QSize X11Client::constrainClientSize(const QSize &size, SizeMode mode) const { int w = size.width(); int h = size.height(); if (w < 1) w = 1; if (h < 1) h = 1; // basesize, minsize, maxsize, paspect and resizeinc have all values defined, // even if they're not set in flags - see getWmNormalHints() QSize min_size = minSize(); QSize max_size = maxSize(); if (isDecorated()) { QSize decominsize(0, 0); QSize border_size(borderLeft() + borderRight(), borderTop() + borderBottom()); if (border_size.width() > decominsize.width()) // just in case decominsize.setWidth(border_size.width()); if (border_size.height() > decominsize.height()) decominsize.setHeight(border_size.height()); if (decominsize.width() > min_size.width()) min_size.setWidth(decominsize.width()); if (decominsize.height() > min_size.height()) min_size.setHeight(decominsize.height()); } w = qMin(max_size.width(), w); h = qMin(max_size.height(), h); w = qMax(min_size.width(), w); h = qMax(min_size.height(), h); if (!rules()->checkStrictGeometry(!isFullScreen())) { // Disobey increments and aspect by explicit rule. return QSize(w, h); } int width_inc = m_geometryHints.resizeIncrements().width(); int height_inc = m_geometryHints.resizeIncrements().height(); int basew_inc = m_geometryHints.baseSize().width(); int baseh_inc = m_geometryHints.baseSize().height(); if (!m_geometryHints.hasBaseSize()) { basew_inc = m_geometryHints.minSize().width(); baseh_inc = m_geometryHints.minSize().height(); } w = int((w - basew_inc) / width_inc) * width_inc + basew_inc; h = int((h - baseh_inc) / height_inc) * height_inc + baseh_inc; // code for aspect ratios based on code from FVWM /* * The math looks like this: * * minAspectX dwidth maxAspectX * ---------- <= ------- <= ---------- * minAspectY dheight maxAspectY * * If that is multiplied out, then the width and height are * invalid in the following situations: * * minAspectX * dheight > minAspectY * dwidth * maxAspectX * dheight < maxAspectY * dwidth * */ if (m_geometryHints.hasAspect()) { double min_aspect_w = m_geometryHints.minAspect().width(); // use doubles, because the values can be MAX_INT double min_aspect_h = m_geometryHints.minAspect().height(); // and multiplying would go wrong otherwise double max_aspect_w = m_geometryHints.maxAspect().width(); double max_aspect_h = m_geometryHints.maxAspect().height(); // According to ICCCM 4.1.2.3 PMinSize should be a fallback for PBaseSize for size increments, // but not for aspect ratio. Since this code comes from FVWM, handles both at the same time, // and I have no idea how it works, let's hope nobody relies on that. const QSize baseSize = m_geometryHints.baseSize(); w -= baseSize.width(); h -= baseSize.height(); int max_width = max_size.width() - baseSize.width(); int min_width = min_size.width() - baseSize.width(); int max_height = max_size.height() - baseSize.height(); int min_height = min_size.height() - baseSize.height(); #define ASPECT_CHECK_GROW_W \ if ( min_aspect_w * h > min_aspect_h * w ) \ { \ int delta = int( min_aspect_w * h / min_aspect_h - w ) / width_inc * width_inc; \ if ( w + delta <= max_width ) \ w += delta; \ } #define ASPECT_CHECK_SHRINK_H_GROW_W \ if ( min_aspect_w * h > min_aspect_h * w ) \ { \ int delta = int( h - w * min_aspect_h / min_aspect_w ) / height_inc * height_inc; \ if ( h - delta >= min_height ) \ h -= delta; \ else \ { \ int delta = int( min_aspect_w * h / min_aspect_h - w ) / width_inc * width_inc; \ if ( w + delta <= max_width ) \ w += delta; \ } \ } #define ASPECT_CHECK_GROW_H \ if ( max_aspect_w * h < max_aspect_h * w ) \ { \ int delta = int( w * max_aspect_h / max_aspect_w - h ) / height_inc * height_inc; \ if ( h + delta <= max_height ) \ h += delta; \ } #define ASPECT_CHECK_SHRINK_W_GROW_H \ if ( max_aspect_w * h < max_aspect_h * w ) \ { \ int delta = int( w - max_aspect_w * h / max_aspect_h ) / width_inc * width_inc; \ if ( w - delta >= min_width ) \ w -= delta; \ else \ { \ int delta = int( w * max_aspect_h / max_aspect_w - h ) / height_inc * height_inc; \ if ( h + delta <= max_height ) \ h += delta; \ } \ } switch(mode) { case SizeModeAny: #if 0 // make SizeModeAny equal to SizeModeFixedW - prefer keeping fixed width, // so that changing aspect ratio to a different value and back keeps the same size (#87298) { ASPECT_CHECK_SHRINK_H_GROW_W ASPECT_CHECK_SHRINK_W_GROW_H ASPECT_CHECK_GROW_H ASPECT_CHECK_GROW_W break; } #endif case SizeModeFixedW: { // the checks are order so that attempts to modify height are first ASPECT_CHECK_GROW_H ASPECT_CHECK_SHRINK_H_GROW_W ASPECT_CHECK_SHRINK_W_GROW_H ASPECT_CHECK_GROW_W break; } case SizeModeFixedH: { ASPECT_CHECK_GROW_W ASPECT_CHECK_SHRINK_W_GROW_H ASPECT_CHECK_SHRINK_H_GROW_W ASPECT_CHECK_GROW_H break; } case SizeModeMax: { // first checks that try to shrink ASPECT_CHECK_SHRINK_H_GROW_W ASPECT_CHECK_SHRINK_W_GROW_H ASPECT_CHECK_GROW_W ASPECT_CHECK_GROW_H break; } } #undef ASPECT_CHECK_SHRINK_H_GROW_W #undef ASPECT_CHECK_SHRINK_W_GROW_H #undef ASPECT_CHECK_GROW_W #undef ASPECT_CHECK_GROW_H w += baseSize.width(); h += baseSize.height(); } return QSize(w, h); } /** * Gets the client's normal WM hints and reconfigures itself respectively. */ void X11Client::getWmNormalHints() { const bool hadFixedAspect = m_geometryHints.hasAspect(); // roundtrip to X server m_geometryHints.fetch(); m_geometryHints.read(); if (!hadFixedAspect && m_geometryHints.hasAspect()) { // align to eventual new constraints maximize(max_mode); } if (isManaged()) { // update to match restrictions QSize new_size = adjustedSize(); if (new_size != size() && !isFullScreen()) { QRect origClientGeometry = m_clientGeometry; resizeWithChecks(new_size); if ((!isSpecialWindow() || isToolbar()) && !isFullScreen()) { // try to keep the window in its xinerama screen if possible, // if that fails at least keep it visible somewhere QRect area = workspace()->clientArea(MovementArea, this); if (area.contains(origClientGeometry)) keepInArea(area); area = workspace()->clientArea(WorkArea, this); if (area.contains(origClientGeometry)) keepInArea(area); } } } updateAllowedActions(); // affects isResizeable() } QSize X11Client::minSize() const { return rules()->checkMinSize(m_geometryHints.minSize()); } QSize X11Client::maxSize() const { return rules()->checkMaxSize(m_geometryHints.maxSize()); } QSize X11Client::basicUnit() const { return m_geometryHints.resizeIncrements(); } /** * Auxiliary function to inform the client about the current window * configuration. */ void X11Client::sendSyntheticConfigureNotify() { xcb_configure_notify_event_t c; memset(&c, 0, sizeof(c)); c.response_type = XCB_CONFIGURE_NOTIFY; c.event = window(); c.window = window(); c.x = m_clientGeometry.x(); c.y = m_clientGeometry.y(); c.width = m_clientGeometry.width(); c.height = m_clientGeometry.height(); c.border_width = 0; c.above_sibling = XCB_WINDOW_NONE; c.override_redirect = 0; xcb_send_event(connection(), true, c.event, XCB_EVENT_MASK_STRUCTURE_NOTIFY, reinterpret_cast(&c)); xcb_flush(connection()); } QPoint X11Client::gravityAdjustment(xcb_gravity_t gravity) const { int dx = 0; int dy = 0; // dx, dy specify how the client window moves to make space for the frame. // In general we have to compute the reference point and from that figure // out how much we need to shift the client, however given that we ignore // the border width attribute and the extents of the server-side decoration // are known in advance, we can simplify the math quite a bit and express // the required window gravity adjustment in terms of border sizes. switch(gravity) { case XCB_GRAVITY_NORTH_WEST: // move down right default: dx = borderLeft(); dy = borderTop(); break; case XCB_GRAVITY_NORTH: // move right dx = 0; dy = borderTop(); break; case XCB_GRAVITY_NORTH_EAST: // move down left dx = -borderRight(); dy = borderTop(); break; case XCB_GRAVITY_WEST: // move right dx = borderLeft(); dy = 0; break; case XCB_GRAVITY_CENTER: dx = (borderLeft() - borderRight()) / 2; dy = (borderTop() - borderBottom()) / 2; break; case XCB_GRAVITY_STATIC: // don't move dx = 0; dy = 0; break; case XCB_GRAVITY_EAST: // move left dx = -borderRight(); dy = 0; break; case XCB_GRAVITY_SOUTH_WEST: // move up right dx = borderLeft() ; dy = -borderBottom(); break; case XCB_GRAVITY_SOUTH: // move up dx = 0; dy = -borderBottom(); break; case XCB_GRAVITY_SOUTH_EAST: // move up left dx = -borderRight(); dy = -borderBottom(); break; } return QPoint(dx, dy); } const QPoint X11Client::calculateGravitation(bool invert) const { const QPoint adjustment = gravityAdjustment(m_geometryHints.windowGravity()); // translate from client movement to frame movement const int dx = adjustment.x() - borderLeft(); const int dy = adjustment.y() - borderTop(); if (!invert) return QPoint(x() + dx, y() + dy); else return QPoint(x() - dx, y() - dy); } void X11Client::configureRequest(int value_mask, int rx, int ry, int rw, int rh, int gravity, bool from_tool) { const int configurePositionMask = XCB_CONFIG_WINDOW_X | XCB_CONFIG_WINDOW_Y; const int configureSizeMask = XCB_CONFIG_WINDOW_WIDTH | XCB_CONFIG_WINDOW_HEIGHT; const int configureGeometryMask = configurePositionMask | configureSizeMask; // "maximized" is a user setting -> we do not allow the client to resize itself // away from this & against the users explicit wish qCDebug(KWIN_CORE) << this << bool(value_mask & configureGeometryMask) << bool(maximizeMode() & MaximizeVertical) << bool(maximizeMode() & MaximizeHorizontal); // we want to (partially) ignore the request when the window is somehow maximized or quicktiled bool ignore = !app_noborder && (quickTileMode() != QuickTileMode(QuickTileFlag::None) || maximizeMode() != MaximizeRestore); // however, the user shall be able to force obedience despite and also disobedience in general ignore = rules()->checkIgnoreGeometry(ignore); if (!ignore) { // either we're not max'd / q'tiled or the user allowed the client to break that - so break it. updateQuickTileMode(QuickTileFlag::None); max_mode = MaximizeRestore; emit quickTileModeChanged(); } else if (!app_noborder && quickTileMode() == QuickTileMode(QuickTileFlag::None) && (maximizeMode() == MaximizeVertical || maximizeMode() == MaximizeHorizontal)) { // ignoring can be, because either we do, or the user does explicitly not want it. // for partially maximized windows we want to allow configures in the other dimension. // so we've to ask the user again - to know whether we just ignored for the partial maximization. // the problem here is, that the user can explicitly permit configure requests - even for maximized windows! // we cannot distinguish that from passing "false" for partially maximized windows. ignore = rules()->checkIgnoreGeometry(false); if (!ignore) { // the user is not interested, so we fix up dimensions if (maximizeMode() == MaximizeVertical) value_mask &= ~(XCB_CONFIG_WINDOW_Y | XCB_CONFIG_WINDOW_HEIGHT); if (maximizeMode() == MaximizeHorizontal) value_mask &= ~(XCB_CONFIG_WINDOW_X | XCB_CONFIG_WINDOW_WIDTH); if (!(value_mask & configureGeometryMask)) { ignore = true; // the modification turned the request void } } } if (ignore) { qCDebug(KWIN_CORE) << "DENIED"; return; // nothing to (left) to do for use - bugs #158974, #252314, #321491 } qCDebug(KWIN_CORE) << "PERMITTED" << this << bool(value_mask & configureGeometryMask); if (gravity == 0) // default (nonsense) value for the argument gravity = m_geometryHints.windowGravity(); if (value_mask & configurePositionMask) { QPoint new_pos = framePosToClientPos(pos()); new_pos -= gravityAdjustment(xcb_gravity_t(gravity)); if (value_mask & XCB_CONFIG_WINDOW_X) { new_pos.setX(rx); } if (value_mask & XCB_CONFIG_WINDOW_Y) { new_pos.setY(ry); } // clever(?) workaround for applications like xv that want to set // the location to the current location but miscalculate the // frame size due to kwin being a double-reparenting window // manager if (new_pos.x() == m_clientGeometry.x() && new_pos.y() == m_clientGeometry.y() && gravity == XCB_GRAVITY_NORTH_WEST && !from_tool) { new_pos.setX(x()); new_pos.setY(y()); } new_pos += gravityAdjustment(xcb_gravity_t(gravity)); new_pos = clientPosToFramePos(new_pos); int nw = clientSize().width(); int nh = clientSize().height(); if (value_mask & XCB_CONFIG_WINDOW_WIDTH) { nw = rw; } if (value_mask & XCB_CONFIG_WINDOW_HEIGHT) { nh = rh; } const QSize requestedClientSize = constrainClientSize(QSize(nw, nh)); QSize requestedFrameSize = clientSizeToFrameSize(requestedClientSize); requestedFrameSize = rules()->checkSize(requestedFrameSize); new_pos = rules()->checkPosition(new_pos); int newScreen = screens()->number(QRect(new_pos, requestedFrameSize).center()); if (newScreen != rules()->checkScreen(newScreen)) return; // not allowed by rule QRect origClientGeometry = m_clientGeometry; GeometryUpdatesBlocker blocker(this); move(new_pos); plainResize(requestedFrameSize); QRect area = workspace()->clientArea(WorkArea, this); if (!from_tool && (!isSpecialWindow() || isToolbar()) && !isFullScreen() && area.contains(origClientGeometry)) keepInArea(area); // this is part of the kicker-xinerama-hack... it should be // safe to remove when kicker gets proper ExtendedStrut support; // see Workspace::updateClientArea() and // X11Client::adjustedClientArea() if (hasStrut()) workspace() -> updateClientArea(); } if (value_mask & configureSizeMask && !(value_mask & configurePositionMask)) { // pure resize int nw = clientSize().width(); int nh = clientSize().height(); if (value_mask & XCB_CONFIG_WINDOW_WIDTH) { nw = rw; } if (value_mask & XCB_CONFIG_WINDOW_HEIGHT) { nh = rh; } const QSize requestedClientSize = constrainClientSize(QSize(nw, nh)); QSize requestedFrameSize = clientSizeToFrameSize(requestedClientSize); requestedFrameSize = rules()->checkSize(requestedFrameSize); if (requestedFrameSize != size()) { // don't restore if some app sets its own size again QRect origClientGeometry = m_clientGeometry; GeometryUpdatesBlocker blocker(this); resizeWithChecks(requestedFrameSize, xcb_gravity_t(gravity)); if (!from_tool && (!isSpecialWindow() || isToolbar()) && !isFullScreen()) { // try to keep the window in its xinerama screen if possible, // if that fails at least keep it visible somewhere QRect area = workspace()->clientArea(MovementArea, this); if (area.contains(origClientGeometry)) keepInArea(area); area = workspace()->clientArea(WorkArea, this); if (area.contains(origClientGeometry)) keepInArea(area); } } } setGeometryRestore(frameGeometry()); // No need to send synthetic configure notify event here, either it's sent together // with geometry change, or there's no need to send it. // Handling of the real ConfigureRequest event forces sending it, as there it's necessary. } void X11Client::resizeWithChecks(int w, int h, xcb_gravity_t gravity, ForceGeometry_t force) { Q_ASSERT(!shade_geometry_change); if (isShade()) { if (h == borderTop() + borderBottom()) { qCWarning(KWIN_CORE) << "Shaded geometry passed for size:" ; } } int newx = x(); int newy = y(); QRect area = workspace()->clientArea(WorkArea, this); // don't allow growing larger than workarea if (w > area.width()) w = area.width(); if (h > area.height()) h = area.height(); QSize tmp = constrainFrameSize(QSize(w, h)); // checks size constraints, including min/max size w = tmp.width(); h = tmp.height(); if (gravity == 0) { gravity = m_geometryHints.windowGravity(); } switch(gravity) { case XCB_GRAVITY_NORTH_WEST: // top left corner doesn't move default: break; case XCB_GRAVITY_NORTH: // middle of top border doesn't move newx = (newx + width() / 2) - (w / 2); break; case XCB_GRAVITY_NORTH_EAST: // top right corner doesn't move newx = newx + width() - w; break; case XCB_GRAVITY_WEST: // middle of left border doesn't move newy = (newy + height() / 2) - (h / 2); break; case XCB_GRAVITY_CENTER: // middle point doesn't move newx = (newx + width() / 2) - (w / 2); newy = (newy + height() / 2) - (h / 2); break; case XCB_GRAVITY_STATIC: // top left corner of _client_ window doesn't move // since decoration doesn't change, equal to NorthWestGravity break; case XCB_GRAVITY_EAST: // // middle of right border doesn't move newx = newx + width() - w; newy = (newy + height() / 2) - (h / 2); break; case XCB_GRAVITY_SOUTH_WEST: // bottom left corner doesn't move newy = newy + height() - h; break; case XCB_GRAVITY_SOUTH: // middle of bottom border doesn't move newx = (newx + width() / 2) - (w / 2); newy = newy + height() - h; break; case XCB_GRAVITY_SOUTH_EAST: // bottom right corner doesn't move newx = newx + width() - w; newy = newy + height() - h; break; } setFrameGeometry(QRect{newx, newy, w, h}, force); } // _NET_MOVERESIZE_WINDOW void X11Client::NETMoveResizeWindow(int flags, int x, int y, int width, int height) { int gravity = flags & 0xff; int value_mask = 0; if (flags & (1 << 8)) { value_mask |= XCB_CONFIG_WINDOW_X; } if (flags & (1 << 9)) { value_mask |= XCB_CONFIG_WINDOW_Y; } if (flags & (1 << 10)) { value_mask |= XCB_CONFIG_WINDOW_WIDTH; } if (flags & (1 << 11)) { value_mask |= XCB_CONFIG_WINDOW_HEIGHT; } configureRequest(value_mask, x, y, width, height, gravity, true); } bool X11Client::isMovable() const { if (!hasNETSupport() && !m_motif.move()) { return false; } if (isFullScreen()) return false; if (isSpecialWindow() && !isSplash() && !isToolbar()) // allow moving of splashscreens :) return false; if (rules()->checkPosition(invalidPoint) != invalidPoint) // forced position return false; return true; } bool X11Client::isMovableAcrossScreens() const { if (!hasNETSupport() && !m_motif.move()) { return false; } if (isSpecialWindow() && !isSplash() && !isToolbar()) // allow moving of splashscreens :) return false; if (rules()->checkPosition(invalidPoint) != invalidPoint) // forced position return false; return true; } bool X11Client::isResizable() const { if (!hasNETSupport() && !m_motif.resize()) { return false; } if (isFullScreen()) return false; if (isSpecialWindow() || isSplash() || isToolbar()) return false; if (rules()->checkSize(QSize()).isValid()) // forced size return false; const Position mode = moveResizePointerMode(); if ((mode == PositionTop || mode == PositionTopLeft || mode == PositionTopRight || mode == PositionLeft || mode == PositionBottomLeft) && rules()->checkPosition(invalidPoint) != invalidPoint) return false; QSize min = minSize(); QSize max = maxSize(); return min.width() < max.width() || min.height() < max.height(); } bool X11Client::isMaximizable() const { if (!isResizable() || isToolbar()) // SELI isToolbar() ? return false; if (rules()->checkMaximize(MaximizeRestore) == MaximizeRestore && rules()->checkMaximize(MaximizeFull) != MaximizeRestore) return true; return false; } /** * Reimplemented to inform the client about the new window position. */ void X11Client::setFrameGeometry(const QRect &rect, ForceGeometry_t force) { // this code is also duplicated in X11Client::plainResize() // Ok, the shading geometry stuff. Generally, code doesn't care about shaded geometry, // simply because there are too many places dealing with geometry. Those places // ignore shaded state and use normal geometry, which they usually should get // from adjustedSize(). Such geometry comes here, and if the window is shaded, // the geometry is used only for client_size, since that one is not used when // shading. Then the frame geometry is adjusted for the shaded geometry. // This gets more complicated in the case the code does only something like // setGeometry( geometry()) - geometry() will return the shaded frame geometry. // Such code is wrong and should be changed to handle the case when the window is shaded, // for example using X11Client::clientSize() QRect frameGeometry = rect; if (shade_geometry_change) ; // nothing else if (isShade()) { if (frameGeometry.height() == borderTop() + borderBottom()) { qCDebug(KWIN_CORE) << "Shaded geometry passed for size:"; } else { m_clientGeometry = frameRectToClientRect(frameGeometry); frameGeometry.setHeight(borderTop() + borderBottom()); } } else { m_clientGeometry = frameRectToClientRect(frameGeometry); } const QRect bufferGeometry = frameRectToBufferRect(frameGeometry); if (!areGeometryUpdatesBlocked() && frameGeometry != rules()->checkGeometry(frameGeometry)) { qCDebug(KWIN_CORE) << "forced geometry fail:" << frameGeometry << ":" << rules()->checkGeometry(frameGeometry); } m_frameGeometry = frameGeometry; if (force == NormalGeometrySet && m_bufferGeometry == bufferGeometry && pendingGeometryUpdate() == PendingGeometryNone) { return; } m_bufferGeometry = bufferGeometry; if (areGeometryUpdatesBlocked()) { if (pendingGeometryUpdate() == PendingGeometryForced) {} // maximum, nothing needed else if (force == ForceGeometrySet) setPendingGeometryUpdate(PendingGeometryForced); else setPendingGeometryUpdate(PendingGeometryNormal); return; } updateServerGeometry(); updateWindowRules(Rules::Position|Rules::Size); // keep track of old maximize mode // to detect changes screens()->setCurrent(this); workspace()->updateStackingOrder(); // Need to regenerate decoration pixmaps when the buffer size is changed. if (bufferGeometryBeforeUpdateBlocking().size() != m_bufferGeometry.size()) { discardWindowPixmap(); } + if (clientGeometryBeforeUpdateBlocking() != m_clientGeometry) { + emit clientGeometryChanged(this, clientGeometryBeforeUpdateBlocking()); + } if (frameGeometryBeforeUpdateBlocking() != m_frameGeometry) { emit frameGeometryChanged(this, frameGeometryBeforeUpdateBlocking()); } emit geometryShapeChanged(this, frameGeometryBeforeUpdateBlocking()); addRepaintDuringGeometryUpdates(); updateGeometryBeforeUpdateBlocking(); } void X11Client::plainResize(int w, int h, ForceGeometry_t force) { QSize frameSize(w, h); QSize bufferSize; // this code is also duplicated in X11Client::setGeometry(), and it's also commented there if (shade_geometry_change) ; // nothing else if (isShade()) { if (frameSize.height() == borderTop() + borderBottom()) { qCDebug(KWIN_CORE) << "Shaded geometry passed for size:"; } else { m_clientGeometry.setSize(frameSizeToClientSize(frameSize)); frameSize.setHeight(borderTop() + borderBottom()); } } else { m_clientGeometry.setSize(frameSizeToClientSize(frameSize)); } if (isDecorated()) { bufferSize = frameSize; } else { bufferSize = m_clientGeometry.size(); } if (!areGeometryUpdatesBlocked() && frameSize != rules()->checkSize(frameSize)) { qCDebug(KWIN_CORE) << "forced size fail:" << frameSize << ":" << rules()->checkSize(frameSize); } m_frameGeometry.setSize(frameSize); // resuming geometry updates is handled only in setGeometry() Q_ASSERT(pendingGeometryUpdate() == PendingGeometryNone || areGeometryUpdatesBlocked()); if (force == NormalGeometrySet && m_bufferGeometry.size() == bufferSize) { return; } m_bufferGeometry.setSize(bufferSize); if (areGeometryUpdatesBlocked()) { if (pendingGeometryUpdate() == PendingGeometryForced) {} // maximum, nothing needed else if (force == ForceGeometrySet) setPendingGeometryUpdate(PendingGeometryForced); else setPendingGeometryUpdate(PendingGeometryNormal); return; } updateServerGeometry(); updateWindowRules(Rules::Position|Rules::Size); screens()->setCurrent(this); workspace()->updateStackingOrder(); if (bufferGeometryBeforeUpdateBlocking().size() != m_bufferGeometry.size()) { discardWindowPixmap(); } + if (clientGeometryBeforeUpdateBlocking() != clientGeometry()) { + emit clientGeometryChanged(this, clientGeometryBeforeUpdateBlocking()); + } if (frameGeometryBeforeUpdateBlocking() != frameGeometry()) { emit frameGeometryChanged(this, frameGeometryBeforeUpdateBlocking()); } emit geometryShapeChanged(this, frameGeometryBeforeUpdateBlocking()); addRepaintDuringGeometryUpdates(); updateGeometryBeforeUpdateBlocking(); } void X11Client::updateServerGeometry() { const QRect oldBufferGeometry = bufferGeometryBeforeUpdateBlocking(); if (oldBufferGeometry.size() != m_bufferGeometry.size() || pendingGeometryUpdate() == PendingGeometryForced) { resizeDecoration(); // If the client is being interactively resized, then the frame window, the wrapper window, // and the client window have correct geometry at this point, so we don't have to configure // them again. If the client doesn't support frame counters, always update geometry. const bool needsGeometryUpdate = !isResize() || m_syncRequest.counter == XCB_NONE; if (needsGeometryUpdate) { m_frame.setGeometry(m_bufferGeometry); } if (!isShade()) { if (needsGeometryUpdate) { m_wrapper.setGeometry(QRect(clientPos(), clientSize())); m_client.setGeometry(QRect(QPoint(0, 0), clientSize())); } // SELI - won't this be too expensive? // THOMAS - yes, but gtk+ clients will not resize without ... sendSyntheticConfigureNotify(); } updateShape(); } else { if (isMoveResize()) { if (compositing()) { // Defer the X update until we leave this mode needsXWindowMove = true; } else { m_frame.move(m_bufferGeometry.topLeft()); // sendSyntheticConfigureNotify() on finish shall be sufficient } } else { m_frame.move(m_bufferGeometry.topLeft()); sendSyntheticConfigureNotify(); } // Unconditionally move the input window: it won't affect rendering m_decoInputExtent.move(pos() + inputPos()); } } static bool changeMaximizeRecursion = false; void X11Client::changeMaximize(bool horizontal, bool vertical, bool adjust) { if (changeMaximizeRecursion) return; if (!isResizable() || isToolbar()) // SELI isToolbar() ? return; QRect clientArea; if (isElectricBorderMaximizing()) clientArea = workspace()->clientArea(MaximizeArea, Cursors::self()->mouse()->pos(), desktop()); else clientArea = workspace()->clientArea(MaximizeArea, this); MaximizeMode old_mode = max_mode; // 'adjust == true' means to update the size only, e.g. after changing workspace size if (!adjust) { if (vertical) max_mode = MaximizeMode(max_mode ^ MaximizeVertical); if (horizontal) max_mode = MaximizeMode(max_mode ^ MaximizeHorizontal); } // if the client insist on a fix aspect ratio, we check whether the maximizing will get us // out of screen bounds and take that as a "full maximization with aspect check" then if (m_geometryHints.hasAspect() && // fixed aspect (max_mode == MaximizeVertical || max_mode == MaximizeHorizontal) && // ondimensional maximization rules()->checkStrictGeometry(true)) { // obey aspect const QSize minAspect = m_geometryHints.minAspect(); const QSize maxAspect = m_geometryHints.maxAspect(); if (max_mode == MaximizeVertical || (old_mode & MaximizeVertical)) { const double fx = minAspect.width(); // use doubles, because the values can be MAX_INT const double fy = maxAspect.height(); // use doubles, because the values can be MAX_INT if (fx*clientArea.height()/fy > clientArea.width()) // too big max_mode = old_mode & MaximizeHorizontal ? MaximizeRestore : MaximizeFull; } else { // max_mode == MaximizeHorizontal const double fx = maxAspect.width(); const double fy = minAspect.height(); if (fy*clientArea.width()/fx > clientArea.height()) // too big max_mode = old_mode & MaximizeVertical ? MaximizeRestore : MaximizeFull; } } max_mode = rules()->checkMaximize(max_mode); if (!adjust && max_mode == old_mode) return; GeometryUpdatesBlocker blocker(this); // maximing one way and unmaximizing the other way shouldn't happen, // so restore first and then maximize the other way if ((old_mode == MaximizeVertical && max_mode == MaximizeHorizontal) || (old_mode == MaximizeHorizontal && max_mode == MaximizeVertical)) { changeMaximize(false, false, false); // restore } // save sizes for restoring, if maximalizing QSize sz; if (isShade()) sz = adjustedSize(); else sz = size(); if (quickTileMode() == QuickTileMode(QuickTileFlag::None)) { QRect savedGeometry = geometryRestore(); if (!adjust && !(old_mode & MaximizeVertical)) { savedGeometry.setTop(y()); savedGeometry.setHeight(sz.height()); } if (!adjust && !(old_mode & MaximizeHorizontal)) { savedGeometry.setLeft(x()); savedGeometry.setWidth(sz.width()); } setGeometryRestore(savedGeometry); } // call into decoration update borders if (isDecorated() && decoration()->client() && !(options->borderlessMaximizedWindows() && max_mode == KWin::MaximizeFull)) { changeMaximizeRecursion = true; const auto c = decoration()->client().data(); if ((max_mode & MaximizeVertical) != (old_mode & MaximizeVertical)) { emit c->maximizedVerticallyChanged(max_mode & MaximizeVertical); } if ((max_mode & MaximizeHorizontal) != (old_mode & MaximizeHorizontal)) { emit c->maximizedHorizontallyChanged(max_mode & MaximizeHorizontal); } if ((max_mode == MaximizeFull) != (old_mode == MaximizeFull)) { emit c->maximizedChanged(max_mode & MaximizeFull); } changeMaximizeRecursion = false; } if (options->borderlessMaximizedWindows()) { // triggers a maximize change. // The next setNoBorder interation will exit since there's no change but the first recursion pullutes the restore geometry changeMaximizeRecursion = true; setNoBorder(rules()->checkNoBorder(app_noborder || (m_motif.hasDecoration() && m_motif.noBorder()) || max_mode == MaximizeFull)); changeMaximizeRecursion = false; } const ForceGeometry_t geom_mode = isDecorated() ? ForceGeometrySet : NormalGeometrySet; // Conditional quick tiling exit points if (quickTileMode() != QuickTileMode(QuickTileFlag::None)) { if (old_mode == MaximizeFull && !clientArea.contains(geometryRestore().center())) { // Not restoring on the same screen // TODO: The following doesn't work for some reason //quick_tile_mode = QuickTileFlag::None; // And exit quick tile mode manually } else if ((old_mode == MaximizeVertical && max_mode == MaximizeRestore) || (old_mode == MaximizeFull && max_mode == MaximizeHorizontal)) { // Modifying geometry of a tiled window updateQuickTileMode(QuickTileFlag::None); // Exit quick tile mode without restoring geometry } } switch(max_mode) { case MaximizeVertical: { if (old_mode & MaximizeHorizontal) { // actually restoring from MaximizeFull if (geometryRestore().width() == 0 || !clientArea.contains(geometryRestore().center())) { // needs placement plainResize(constrainFrameSize(QSize(width() * 2 / 3, clientArea.height()), SizeModeFixedH), geom_mode); Placement::self()->placeSmart(this, clientArea); } else { setFrameGeometry(QRect(QPoint(geometryRestore().x(), clientArea.top()), constrainFrameSize(QSize(geometryRestore().width(), clientArea.height()), SizeModeFixedH)), geom_mode); } } else { QRect r(x(), clientArea.top(), width(), clientArea.height()); r.setTopLeft(rules()->checkPosition(r.topLeft())); r.setSize(constrainFrameSize(r.size(), SizeModeFixedH)); setFrameGeometry(r, geom_mode); } info->setState(NET::MaxVert, NET::Max); break; } case MaximizeHorizontal: { if (old_mode & MaximizeVertical) { // actually restoring from MaximizeFull if (geometryRestore().height() == 0 || !clientArea.contains(geometryRestore().center())) { // needs placement plainResize(constrainFrameSize(QSize(clientArea.width(), height() * 2 / 3), SizeModeFixedW), geom_mode); Placement::self()->placeSmart(this, clientArea); } else { setFrameGeometry(QRect(QPoint(clientArea.left(), geometryRestore().y()), constrainFrameSize(QSize(clientArea.width(), geometryRestore().height()), SizeModeFixedW)), geom_mode); } } else { QRect r(clientArea.left(), y(), clientArea.width(), height()); r.setTopLeft(rules()->checkPosition(r.topLeft())); r.setSize(constrainFrameSize(r.size(), SizeModeFixedW)); setFrameGeometry(r, geom_mode); } info->setState(NET::MaxHoriz, NET::Max); break; } case MaximizeRestore: { QRect restore = frameGeometry(); // when only partially maximized, geom_restore may not have the other dimension remembered if (old_mode & MaximizeVertical) { restore.setTop(geometryRestore().top()); restore.setBottom(geometryRestore().bottom()); } if (old_mode & MaximizeHorizontal) { restore.setLeft(geometryRestore().left()); restore.setRight(geometryRestore().right()); } if (!restore.isValid()) { QSize s = QSize(clientArea.width() * 2 / 3, clientArea.height() * 2 / 3); if (geometryRestore().width() > 0) { s.setWidth(geometryRestore().width()); } if (geometryRestore().height() > 0) { s.setHeight(geometryRestore().height()); } plainResize(constrainFrameSize(s)); Placement::self()->placeSmart(this, clientArea); restore = frameGeometry(); if (geometryRestore().width() > 0) { restore.moveLeft(geometryRestore().x()); } if (geometryRestore().height() > 0) { restore.moveTop(geometryRestore().y()); } setGeometryRestore(restore); // relevant for mouse pos calculation, bug #298646 } if (m_geometryHints.hasAspect()) { restore.setSize(constrainFrameSize(restore.size(), SizeModeAny)); } setFrameGeometry(restore, geom_mode); if (!clientArea.contains(geometryRestore().center())) { // Not restoring to the same screen Placement::self()->place(this, clientArea); } info->setState(NET::States(), NET::Max); updateQuickTileMode(QuickTileFlag::None); break; } case MaximizeFull: { QRect r(clientArea); r.setTopLeft(rules()->checkPosition(r.topLeft())); r.setSize(constrainFrameSize(r.size(), SizeModeMax)); if (r.size() != clientArea.size()) { // to avoid off-by-one errors... if (isElectricBorderMaximizing() && r.width() < clientArea.width()) { r.moveLeft(qMax(clientArea.left(), Cursors::self()->mouse()->pos().x() - r.width()/2)); r.moveRight(qMin(clientArea.right(), r.right())); } else { r.moveCenter(clientArea.center()); const bool closeHeight = r.height() > 97*clientArea.height()/100; const bool closeWidth = r.width() > 97*clientArea.width() /100; const bool overHeight = r.height() > clientArea.height(); const bool overWidth = r.width() > clientArea.width(); if (closeWidth || closeHeight) { Position titlePos = titlebarPosition(); const QRect screenArea = workspace()->clientArea(ScreenArea, clientArea.center(), desktop()); if (closeHeight) { bool tryBottom = titlePos == PositionBottom; if ((overHeight && titlePos == PositionTop) || screenArea.top() == clientArea.top()) r.setTop(clientArea.top()); else tryBottom = true; if (tryBottom && (overHeight || screenArea.bottom() == clientArea.bottom())) r.setBottom(clientArea.bottom()); } if (closeWidth) { bool tryLeft = titlePos == PositionLeft; if ((overWidth && titlePos == PositionRight) || screenArea.right() == clientArea.right()) r.setRight(clientArea.right()); else tryLeft = true; if (tryLeft && (overWidth || screenArea.left() == clientArea.left())) r.setLeft(clientArea.left()); } } } r.moveTopLeft(rules()->checkPosition(r.topLeft())); } setFrameGeometry(r, geom_mode); if (options->electricBorderMaximize() && r.top() == clientArea.top()) updateQuickTileMode(QuickTileFlag::Maximize); else updateQuickTileMode(QuickTileFlag::None); info->setState(NET::Max, NET::Max); break; } default: break; } updateAllowedActions(); updateWindowRules(Rules::MaximizeVert|Rules::MaximizeHoriz|Rules::Position|Rules::Size); emit quickTileModeChanged(); } bool X11Client::userCanSetFullScreen() const { if (!isFullScreenable()) { return false; } return isNormalWindow() || isDialog(); } void X11Client::setFullScreen(bool set, bool user) { set = rules()->checkFullScreen(set); const bool wasFullscreen = isFullScreen(); if (wasFullscreen == set) { return; } if (user && !userCanSetFullScreen()) { return; } setShade(ShadeNone); if (wasFullscreen) { workspace()->updateFocusMousePosition(Cursors::self()->mouse()->pos()); // may cause leave event } else { geom_fs_restore = frameGeometry(); } if (set) { m_fullscreenMode = FullScreenNormal; workspace()->raiseClient(this); } else { m_fullscreenMode = FullScreenNone; } StackingUpdatesBlocker blocker1(workspace()); GeometryUpdatesBlocker blocker2(this); // active fullscreens get different layer workspace()->updateClientLayer(this); info->setState(isFullScreen() ? NET::FullScreen : NET::States(), NET::FullScreen); updateDecoration(false, false); if (set) { if (info->fullscreenMonitors().isSet()) { setFrameGeometry(fullscreenMonitorsArea(info->fullscreenMonitors())); } else { setFrameGeometry(workspace()->clientArea(FullScreenArea, this)); } } else { Q_ASSERT(!geom_fs_restore.isNull()); const int currentScreen = screen(); setFrameGeometry(QRect(geom_fs_restore.topLeft(), constrainFrameSize(geom_fs_restore.size()))); if(currentScreen != screen()) { workspace()->sendClientToScreen(this, currentScreen); } } updateWindowRules(Rules::Fullscreen | Rules::Position | Rules::Size); emit clientFullScreenSet(this, set, user); emit fullScreenChanged(); } void X11Client::updateFullscreenMonitors(NETFullscreenMonitors topology) { int nscreens = screens()->count(); // qDebug() << "incoming request with top: " << topology.top << " bottom: " << topology.bottom // << " left: " << topology.left << " right: " << topology.right // << ", we have: " << nscreens << " screens."; if (topology.top >= nscreens || topology.bottom >= nscreens || topology.left >= nscreens || topology.right >= nscreens) { qCWarning(KWIN_CORE) << "fullscreenMonitors update failed. request higher than number of screens."; return; } info->setFullscreenMonitors(topology); if (isFullScreen()) setFrameGeometry(fullscreenMonitorsArea(topology)); } /** * Calculates the bounding rectangle defined by the 4 monitor indices indicating the * top, bottom, left, and right edges of the window when the fullscreen state is enabled. */ QRect X11Client::fullscreenMonitorsArea(NETFullscreenMonitors requestedTopology) const { QRect top, bottom, left, right, total; top = screens()->geometry(requestedTopology.top); bottom = screens()->geometry(requestedTopology.bottom); left = screens()->geometry(requestedTopology.left); right = screens()->geometry(requestedTopology.right); total = top.united(bottom.united(left.united(right))); // qDebug() << "top: " << top << " bottom: " << bottom // << " left: " << left << " right: " << right; // qDebug() << "returning rect: " << total; return total; } static GeometryTip* geometryTip = nullptr; void X11Client::positionGeometryTip() { Q_ASSERT(isMove() || isResize()); // Position and Size display if (effects && static_cast(effects)->provides(Effect::GeometryTip)) return; // some effect paints this for us if (options->showGeometryTip()) { if (!geometryTip) { geometryTip = new GeometryTip(&m_geometryHints); } QRect wgeom(moveResizeGeometry()); // position of the frame, size of the window itself wgeom.setWidth(wgeom.width() - (width() - clientSize().width())); wgeom.setHeight(wgeom.height() - (height() - clientSize().height())); if (isShade()) wgeom.setHeight(0); geometryTip->setGeometry(wgeom); if (!geometryTip->isVisible()) geometryTip->show(); geometryTip->raise(); } } bool X11Client::doStartMoveResize() { bool has_grab = false; // This reportedly improves smoothness of the moveresize operation, // something with Enter/LeaveNotify events, looks like XFree performance problem or something *shrug* // (https://lists.kde.org/?t=107302193400001&r=1&w=2) QRect r = workspace()->clientArea(FullArea, this); m_moveResizeGrabWindow.create(r, XCB_WINDOW_CLASS_INPUT_ONLY, 0, nullptr, rootWindow()); m_moveResizeGrabWindow.map(); m_moveResizeGrabWindow.raise(); updateXTime(); const xcb_grab_pointer_cookie_t cookie = xcb_grab_pointer_unchecked(connection(), false, m_moveResizeGrabWindow, XCB_EVENT_MASK_BUTTON_PRESS | XCB_EVENT_MASK_BUTTON_RELEASE | XCB_EVENT_MASK_POINTER_MOTION | XCB_EVENT_MASK_ENTER_WINDOW | XCB_EVENT_MASK_LEAVE_WINDOW, XCB_GRAB_MODE_ASYNC, XCB_GRAB_MODE_ASYNC, m_moveResizeGrabWindow, Cursors::self()->mouse()->x11Cursor(cursor()), xTime()); ScopedCPointer pointerGrab(xcb_grab_pointer_reply(connection(), cookie, nullptr)); if (!pointerGrab.isNull() && pointerGrab->status == XCB_GRAB_STATUS_SUCCESS) { has_grab = true; } if (!has_grab && grabXKeyboard(frameId())) has_grab = move_resize_has_keyboard_grab = true; if (!has_grab) { // at least one grab is necessary in order to be able to finish move/resize m_moveResizeGrabWindow.reset(); return false; } return true; } void X11Client::leaveMoveResize() { if (needsXWindowMove) { // Do the deferred move m_frame.move(m_bufferGeometry.topLeft()); needsXWindowMove = false; } if (!isResize()) sendSyntheticConfigureNotify(); // tell the client about it's new final position if (geometryTip) { geometryTip->hide(); delete geometryTip; geometryTip = nullptr; } if (move_resize_has_keyboard_grab) ungrabXKeyboard(); move_resize_has_keyboard_grab = false; xcb_ungrab_pointer(connection(), xTime()); m_moveResizeGrabWindow.reset(); if (m_syncRequest.counter == XCB_NONE) { // don't forget to sanitize since the timeout will no more fire m_syncRequest.isPending = false; } delete m_syncRequest.timeout; m_syncRequest.timeout = nullptr; AbstractClient::leaveMoveResize(); } bool X11Client::isWaitingForMoveResizeSync() const { return m_syncRequest.isPending && isResize(); } void X11Client::doResizeSync() { if (!m_syncRequest.timeout) { m_syncRequest.timeout = new QTimer(this); connect(m_syncRequest.timeout, &QTimer::timeout, this, &X11Client::performMoveResize); m_syncRequest.timeout->setSingleShot(true); } if (m_syncRequest.counter != XCB_NONE) { m_syncRequest.timeout->start(250); sendSyncRequest(); } else { // for clients not supporting the XSYNC protocol, we m_syncRequest.isPending = true; // limit the resizes to 30Hz to take pointless load from X11 m_syncRequest.timeout->start(33); // and the client, the mouse is still moved at full speed } // and no human can control faster resizes anyway const QRect moveResizeClientGeometry = frameRectToClientRect(moveResizeGeometry()); const QRect moveResizeBufferGeometry = frameRectToBufferRect(moveResizeGeometry()); // According to the Composite extension spec, a window will get a new pixmap allocated each time // it is mapped or resized. Given that we redirect frame windows and not client windows, we have // to resize the frame window in order to forcefully reallocate offscreen storage. If we don't do // this, then we might render partially updated client window. I know, it sucks. m_frame.setGeometry(moveResizeBufferGeometry); m_wrapper.setGeometry(QRect(clientPos(), moveResizeClientGeometry.size())); m_client.setGeometry(QRect(QPoint(0, 0), moveResizeClientGeometry.size())); } void X11Client::doPerformMoveResize() { if (m_syncRequest.counter == XCB_NONE) { // client w/o XSYNC support. allow the next resize event m_syncRequest.isPending = false; // NEVER do this for clients with a valid counter } // (leads to sync request races in some clients) } /** * Returns \a area with the client's strut taken into account. * * Used from Workspace in updateClientArea. */ // TODO move to Workspace? QRect X11Client::adjustedClientArea(const QRect &desktopArea, const QRect& area) const { QRect r = area; NETExtendedStrut str = strut(); QRect stareaL = QRect( 0, str . left_start, str . left_width, str . left_end - str . left_start + 1); QRect stareaR = QRect( desktopArea . right() - str . right_width + 1, str . right_start, str . right_width, str . right_end - str . right_start + 1); QRect stareaT = QRect( str . top_start, 0, str . top_end - str . top_start + 1, str . top_width); QRect stareaB = QRect( str . bottom_start, desktopArea . bottom() - str . bottom_width + 1, str . bottom_end - str . bottom_start + 1, str . bottom_width); QRect screenarea = workspace()->clientArea(ScreenArea, this); // HACK: workarea handling is not xinerama aware, so if this strut // reserves place at a xinerama edge that's inside the virtual screen, // ignore the strut for workspace setting. if (area == QRect(QPoint(0, 0), screens()->displaySize())) { if (stareaL.left() < screenarea.left()) stareaL = QRect(); if (stareaR.right() > screenarea.right()) stareaR = QRect(); if (stareaT.top() < screenarea.top()) stareaT = QRect(); if (stareaB.bottom() < screenarea.bottom()) stareaB = QRect(); } // Handle struts at xinerama edges that are inside the virtual screen. // They're given in virtual screen coordinates, make them affect only // their xinerama screen. stareaL.setLeft(qMax(stareaL.left(), screenarea.left())); stareaR.setRight(qMin(stareaR.right(), screenarea.right())); stareaT.setTop(qMax(stareaT.top(), screenarea.top())); stareaB.setBottom(qMin(stareaB.bottom(), screenarea.bottom())); if (stareaL . intersects(area)) { // qDebug() << "Moving left of: " << r << " to " << stareaL.right() + 1; r . setLeft(stareaL . right() + 1); } if (stareaR . intersects(area)) { // qDebug() << "Moving right of: " << r << " to " << stareaR.left() - 1; r . setRight(stareaR . left() - 1); } if (stareaT . intersects(area)) { // qDebug() << "Moving top of: " << r << " to " << stareaT.bottom() + 1; r . setTop(stareaT . bottom() + 1); } if (stareaB . intersects(area)) { // qDebug() << "Moving bottom of: " << r << " to " << stareaB.top() - 1; r . setBottom(stareaB . top() - 1); } return r; } NETExtendedStrut X11Client::strut() const { NETExtendedStrut ext = info->extendedStrut(); NETStrut str = info->strut(); const QSize displaySize = screens()->displaySize(); if (ext.left_width == 0 && ext.right_width == 0 && ext.top_width == 0 && ext.bottom_width == 0 && (str.left != 0 || str.right != 0 || str.top != 0 || str.bottom != 0)) { // build extended from simple if (str.left != 0) { ext.left_width = str.left; ext.left_start = 0; ext.left_end = displaySize.height(); } if (str.right != 0) { ext.right_width = str.right; ext.right_start = 0; ext.right_end = displaySize.height(); } if (str.top != 0) { ext.top_width = str.top; ext.top_start = 0; ext.top_end = displaySize.width(); } if (str.bottom != 0) { ext.bottom_width = str.bottom; ext.bottom_start = 0; ext.bottom_end = displaySize.width(); } } return ext; } StrutRect X11Client::strutRect(StrutArea area) const { Q_ASSERT(area != StrutAreaAll); // Not valid const QSize displaySize = screens()->displaySize(); NETExtendedStrut strutArea = strut(); switch(area) { case StrutAreaTop: if (strutArea.top_width != 0) return StrutRect(QRect( strutArea.top_start, 0, strutArea.top_end - strutArea.top_start, strutArea.top_width ), StrutAreaTop); break; case StrutAreaRight: if (strutArea.right_width != 0) return StrutRect(QRect( displaySize.width() - strutArea.right_width, strutArea.right_start, strutArea.right_width, strutArea.right_end - strutArea.right_start ), StrutAreaRight); break; case StrutAreaBottom: if (strutArea.bottom_width != 0) return StrutRect(QRect( strutArea.bottom_start, displaySize.height() - strutArea.bottom_width, strutArea.bottom_end - strutArea.bottom_start, strutArea.bottom_width ), StrutAreaBottom); break; case StrutAreaLeft: if (strutArea.left_width != 0) return StrutRect(QRect( 0, strutArea.left_start, strutArea.left_width, strutArea.left_end - strutArea.left_start ), StrutAreaLeft); break; default: abort(); // Not valid } return StrutRect(); // Null rect } StrutRects X11Client::strutRects() const { StrutRects region; region += strutRect(StrutAreaTop); region += strutRect(StrutAreaRight); region += strutRect(StrutAreaBottom); region += strutRect(StrutAreaLeft); return region; } bool X11Client::hasStrut() const { NETExtendedStrut ext = strut(); if (ext.left_width == 0 && ext.right_width == 0 && ext.top_width == 0 && ext.bottom_width == 0) return false; return true; } bool X11Client::hasOffscreenXineramaStrut() const { // Get strut as a QRegion QRegion region; region += strutRect(StrutAreaTop); region += strutRect(StrutAreaRight); region += strutRect(StrutAreaBottom); region += strutRect(StrutAreaLeft); // Remove all visible areas so that only the invisible remain for (int i = 0; i < screens()->count(); i ++) region -= screens()->geometry(i); // If there's anything left then we have an offscreen strut return !region.isEmpty(); } void X11Client::applyWindowRules() { AbstractClient::applyWindowRules(); setBlockingCompositing(info->isBlockingCompositing()); } void X11Client::damageNotifyEvent() { if (m_syncRequest.isPending && isResize()) { emit damaged(this, QRect()); m_isDamaged = true; return; } if (!readyForPainting()) { // avoid "setReadyForPainting()" function calling overhead if (m_syncRequest.counter == XCB_NONE) { // cannot detect complete redraw, consider done now setReadyForPainting(); setupWindowManagementInterface(); } } AbstractClient::damageNotifyEvent(); } void X11Client::updateWindowPixmap() { if (effectWindow() && effectWindow()->sceneWindow()) { effectWindow()->sceneWindow()->updatePixmap(); } } } // namespace diff --git a/x11client.h b/x11client.h index 268f6aaaa..43f53c961 100644 --- a/x11client.h +++ b/x11client.h @@ -1,672 +1,665 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 1999, 2000 Matthias Ettrich Copyright (C) 2003 Lubos Lunak This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ #pragma once // kwin #include "options.h" #include "rules.h" #include "abstract_client.h" #include "xcbutils.h" // Qt #include #include #include #include #include // X #include // TODO: Cleanup the order of things in this .h file class QTimer; class KStartupInfoData; class KStartupInfoId; namespace KWin { /** * @brief Defines Predicates on how to search for a Client. * * Used by Workspace::findClient. */ enum class Predicate { WindowMatch, WrapperIdMatch, FrameIdMatch, InputIdMatch }; class KWIN_EXPORT X11Client : public AbstractClient { Q_OBJECT /** * By how much the window wishes to grow/shrink at least. Usually QSize(1,1). * MAY BE DISOBEYED BY THE WM! It's only for information, do NOT rely on it at all. * The value is evaluated each time the getter is called. * Because of that no changed signal is provided. */ Q_PROPERTY(QSize basicUnit READ basicUnit) /** * A client can block compositing. That is while the Client is alive and the state is set, * Compositing is suspended and is resumed when there are no Clients blocking compositing any * more. * * This is actually set by a window property, unfortunately not used by the target application * group. For convenience it's exported as a property to the scripts. * * Use with care! */ Q_PROPERTY(bool blocksCompositing READ isBlockingCompositing WRITE setBlockingCompositing NOTIFY blockingCompositingChanged) /** * Whether the Client uses client side window decorations. * Only GTK+ are detected. */ Q_PROPERTY(bool clientSideDecorated READ isClientSideDecorated NOTIFY clientSideDecoratedChanged) public: explicit X11Client(); ~X11Client() override; ///< Use destroyClient() or releaseWindow() xcb_window_t wrapperId() const; xcb_window_t inputId() const { return m_decoInputExtent; } xcb_window_t frameId() const override; QRect inputGeometry() const override; QRect bufferGeometry() const override; QMargins bufferMargins() const override; QPoint framePosToClientPos(const QPoint &point) const override; QPoint clientPosToFramePos(const QPoint &point) const override; QSize frameSizeToClientSize(const QSize &size) const override; QSize clientSizeToFrameSize(const QSize &size) const override; QRect frameRectToBufferRect(const QRect &rect) const; QMatrix4x4 inputTransformation() const override; bool isTransient() const override; bool groupTransient() const override; bool wasOriginallyGroupTransient() const; QList mainClients() const override; // Call once before loop , is not indirect bool hasTransient(const AbstractClient* c, bool indirect) const override; void checkTransient(xcb_window_t w); AbstractClient* findModal(bool allow_itself = false) override; const Group* group() const override; Group* group() override; void checkGroup(Group* gr = nullptr, bool force = false); void changeClientLeaderGroup(Group* gr); void updateWindowRules(Rules::Types selection) override; void applyWindowRules() override; void updateFullscreenMonitors(NETFullscreenMonitors topology); bool hasNETSupport() const; QSize minSize() const override; QSize maxSize() const override; QSize basicUnit() const; - QSize clientSize() const override; QPoint inputPos() const { return input_offset; } // Inside of geometry() bool windowEvent(xcb_generic_event_t *e); NET::WindowType windowType(bool direct = false, int supported_types = 0) const override; bool manage(xcb_window_t w, bool isMapped); void releaseWindow(bool on_shutdown = false); void destroyClient() override; QStringList activities() const override; void setOnActivity(const QString &activity, bool enable); void setOnAllActivities(bool set) override; void setOnActivities(QStringList newActivitiesList) override; void updateActivities(bool includeTransients); void blockActivityUpdates(bool b = true) override; /// Is not minimized and not hidden. I.e. normally visible on some virtual desktop. bool isShown(bool shaded_is_shown) const override; bool isHiddenInternal() const override; // For compositing bool isShadeable() const override; bool isMaximizable() const override; MaximizeMode maximizeMode() const override; bool isMinimizable() const override; QRect iconGeometry() const override; bool isFullScreenable() const override; void setFullScreen(bool set, bool user = true) override; bool isFullScreen() const override; bool userCanSetFullScreen() const override; QRect geometryFSRestore() const { return geom_fs_restore; // only for session saving } int fullScreenMode() const { return m_fullscreenMode; // only for session saving } bool userNoBorder() const; bool noBorder() const override; void setNoBorder(bool set) override; bool userCanSetNoBorder() const override; void checkNoBorder() override; int sessionStackingOrder() const; // Auxiliary functions, depend on the windowType bool wantsInput() const override; bool isResizable() const override; bool isMovable() const override; bool isMovableAcrossScreens() const override; bool isCloseable() const override; ///< May be closed by the user (May have a close button) void takeFocus() override; void updateDecoration(bool check_workspace_pos, bool force = false) override; void updateShape(); using AbstractClient::move; void move(int x, int y, ForceGeometry_t force = NormalGeometrySet) override; void setFrameGeometry(const QRect &rect, ForceGeometry_t force = NormalGeometrySet) override; /// plainResize() simply resizes void plainResize(int w, int h, ForceGeometry_t force = NormalGeometrySet); void plainResize(const QSize& s, ForceGeometry_t force = NormalGeometrySet); /// resizeWithChecks() resizes according to gravity, and checks workarea position void resizeWithChecks(const QSize &size, ForceGeometry_t force = NormalGeometrySet) override; void resizeWithChecks(int w, int h, xcb_gravity_t gravity, ForceGeometry_t force = NormalGeometrySet); void resizeWithChecks(const QSize& s, xcb_gravity_t gravity, ForceGeometry_t force = NormalGeometrySet); QSize constrainClientSize(const QSize &size, SizeMode mode = SizeModeAny) const override; bool providesContextHelp() const override; QRect adjustedClientArea(const QRect& desktop, const QRect& area) const; xcb_colormap_t colormap() const; /// Updates visibility depending on being shaded, virtual desktop, etc. void updateVisibility(); /// Hides a client - Basically like minimize, but without effects, it's simply hidden void hideClient(bool hide) override; bool hiddenPreview() const; ///< Window is mapped in order to get a window pixmap bool setupCompositing() override; void finishCompositing(ReleaseReason releaseReason = ReleaseReason::Release) override; void setBlockingCompositing(bool block); inline bool isBlockingCompositing() { return blocks_compositing; } QString captionNormal() const override { return cap_normal; } QString captionSuffix() const override { return cap_suffix; } using AbstractClient::keyPressEvent; void keyPressEvent(uint key_code, xcb_timestamp_t time); // FRAME ?? void updateMouseGrab() override; xcb_window_t moveResizeGrabWindow() const; QPoint gravityAdjustment(xcb_gravity_t gravity) const; const QPoint calculateGravitation(bool invert) const; void NETMoveResize(int x_root, int y_root, NET::Direction direction); void NETMoveResizeWindow(int flags, int x, int y, int width, int height); void restackWindow(xcb_window_t above, int detail, NET::RequestSource source, xcb_timestamp_t timestamp, bool send_event = false); void gotPing(xcb_timestamp_t timestamp); void updateUserTime(xcb_timestamp_t time = XCB_TIME_CURRENT_TIME); xcb_timestamp_t userTime() const override; bool hasUserTimeSupport() const; /// Does 'delete c;' static void deleteClient(X11Client *c); static bool belongToSameApplication(const X11Client *c1, const X11Client *c2, SameApplicationChecks checks = SameApplicationChecks()); static bool sameAppWindowRoleMatch(const X11Client *c1, const X11Client *c2, bool active_hack); void killWindow() override; void showContextHelp() override; void checkActiveModal(); StrutRect strutRect(StrutArea area) const; StrutRects strutRects() const; bool hasStrut() const override; /** * If shown is true the client is mapped and raised, if false * the client is unmapped and hidden, this function is called * when the tabbing group of the client switches its visible * client. */ void setClientShown(bool shown) override; /** * Whether or not the window has a strut that expands through the invisible area of * an xinerama setup where the monitors are not the same resolution. */ bool hasOffscreenXineramaStrut() const; QRect transparentRect() const override; bool isClientSideDecorated() const; bool wantsShadowToBeRendered() const override; void layoutDecorationRects(QRect &left, QRect &top, QRect &right, QRect &bottom) const override; Xcb::Property fetchFirstInTabBox() const; void readFirstInTabBox(Xcb::Property &property); void updateFirstInTabBox(); Xcb::StringProperty fetchColorScheme() const; void readColorScheme(Xcb::StringProperty &property); void updateColorScheme() override; //sets whether the client should be faked as being on all activities (and be shown during session save) void setSessionActivityOverride(bool needed); bool isClient() const override; template void print(T &stream) const; void cancelFocusOutTimer(); /** * Restores the Client after it had been hidden due to show on screen edge functionality. * In addition the property gets deleted so that the Client knows that it is visible again. */ void showOnScreenEdge() override; Xcb::StringProperty fetchApplicationMenuServiceName() const; void readApplicationMenuServiceName(Xcb::StringProperty &property); void checkApplicationMenuServiceName(); Xcb::StringProperty fetchApplicationMenuObjectPath() const; void readApplicationMenuObjectPath(Xcb::StringProperty &property); void checkApplicationMenuObjectPath(); struct SyncRequest { xcb_sync_counter_t counter; xcb_sync_int64_t value; xcb_sync_alarm_t alarm; xcb_timestamp_t lastTimestamp; QTimer *timeout, *failsafeTimeout; bool isPending; }; const SyncRequest &syncRequest() const { return m_syncRequest; } virtual bool wantsSyncCounter() const; void handleSync(); static void cleanupX11(); public Q_SLOTS: void closeWindow() override; void updateCaption() override; private: // Handlers for X11 events bool mapRequestEvent(xcb_map_request_event_t *e); void unmapNotifyEvent(xcb_unmap_notify_event_t *e); void destroyNotifyEvent(xcb_destroy_notify_event_t *e); void configureRequestEvent(xcb_configure_request_event_t *e); void propertyNotifyEvent(xcb_property_notify_event_t *e) override; void clientMessageEvent(xcb_client_message_event_t *e) override; void enterNotifyEvent(xcb_enter_notify_event_t *e); void leaveNotifyEvent(xcb_leave_notify_event_t *e); void focusInEvent(xcb_focus_in_event_t *e); void focusOutEvent(xcb_focus_out_event_t *e); void damageNotifyEvent() override; bool buttonPressEvent(xcb_window_t w, int button, int state, int x, int y, int x_root, int y_root, xcb_timestamp_t time = XCB_CURRENT_TIME); bool buttonReleaseEvent(xcb_window_t w, int button, int state, int x, int y, int x_root, int y_root); bool motionNotifyEvent(xcb_window_t w, int state, int x, int y, int x_root, int y_root); protected: void debug(QDebug& stream) const override; void addDamage(const QRegion &damage) override; bool belongsToSameApplication(const AbstractClient *other, SameApplicationChecks checks) const override; void doSetActive() override; void doSetKeepAbove() override; void doSetKeepBelow() override; void doSetShade(ShadeMode previousShadeMode) override; void doSetDesktop() override; void doMinimize() override; void doSetSkipPager() override; void doSetSkipTaskbar() override; void doSetSkipSwitcher() override; void doSetDemandsAttention() override; bool belongsToDesktop() const override; bool doStartMoveResize() override; void doPerformMoveResize() override; bool isWaitingForMoveResizeSync() const override; void doResizeSync() override; QSize resizeIncrements() const override; bool acceptsFocus() const override; //Signals for the scripting interface //Signals make an excellent way for communication //in between objects as compared to simple function //calls Q_SIGNALS: void clientManaging(KWin::X11Client *); void clientFullScreenSet(KWin::X11Client *, bool, bool); /** * Emitted whenever the Client want to show it menu */ void showRequest(); /** * Emitted whenever the Client's menu is closed */ void menuHidden(); /** * Emitted whenever the Client's menu is available */ void appMenuAvailable(); /** * Emitted whenever the Client's menu is unavailable */ void appMenuUnavailable(); /** * Emitted whenever the Client's block compositing state changes. */ void blockingCompositingChanged(KWin::X11Client *client); void clientSideDecoratedChanged(); private: void exportMappingState(int s); // ICCCM 4.1.3.1, 4.1.4, NETWM 2.5.1 bool isManaged() const; ///< Returns false if this client is not yet managed void updateAllowedActions(bool force = false); QRect fullscreenMonitorsArea(NETFullscreenMonitors topology) const; void changeMaximize(bool horizontal, bool vertical, bool adjust) override; void getWmNormalHints(); void getMotifHints(); void getIcons(); void fetchName(); void fetchIconicName(); QString readName() const; void setCaption(const QString& s, bool force = false); bool hasTransientInternal(const X11Client *c, bool indirect, QList &set) const; void setShortcutInternal() override; void configureRequest(int value_mask, int rx, int ry, int rw, int rh, int gravity, bool from_tool); NETExtendedStrut strut() const; int checkShadeGeometry(int w, int h); void getSyncCounter(); void sendSyncRequest(); void leaveMoveResize() override; void positionGeometryTip() override; void grabButton(int mod); void ungrabButton(int mod); void resizeDecoration(); void createDecoration(const QRect &oldgeom) override; void pingWindow(); void killProcess(bool ask, xcb_timestamp_t timestamp = XCB_TIME_CURRENT_TIME); void updateUrgency(); static void sendClientMessage(xcb_window_t w, xcb_atom_t a, xcb_atom_t protocol, uint32_t data1 = 0, uint32_t data2 = 0, uint32_t data3 = 0, xcb_timestamp_t timestamp = xTime()); void embedClient(xcb_window_t w, xcb_visualid_t visualid, xcb_colormap_t colormap, uint8_t depth); void detectNoBorder(); void destroyDecoration() override; void updateFrameExtents(); void setClientFrameExtents(const NETStrut &strut); void internalShow(); void internalHide(); void internalKeep(); void map(); void unmap(); void updateHiddenPreview(); void updateInputShape(); void updateServerGeometry(); void updateWindowPixmap(); xcb_timestamp_t readUserTimeMapTimestamp(const KStartupInfoId* asn_id, const KStartupInfoData* asn_data, bool session) const; xcb_timestamp_t readUserCreationTime() const; void startupIdChanged(); void updateInputWindow(); Xcb::Property fetchShowOnScreenEdge() const; void readShowOnScreenEdge(Xcb::Property &property); /** * Reads the property and creates/destroys the screen edge if required * and shows/hides the client. */ void updateShowOnScreenEdge(); Xcb::Window m_client; Xcb::Window m_wrapper; Xcb::Window m_frame; QStringList activityList; int m_activityUpdatesBlocked; bool m_blockedActivityUpdatesRequireTransients; Xcb::Window m_moveResizeGrabWindow; bool move_resize_has_keyboard_grab; bool m_managed; Xcb::GeometryHints m_geometryHints; void sendSyntheticConfigureNotify(); enum MappingState { Withdrawn, ///< Not handled, as per ICCCM WithdrawnState Mapped, ///< The frame is mapped Unmapped, ///< The frame is not mapped Kept ///< The frame should be unmapped, but is kept (For compositing) }; MappingState mapping_state; Xcb::TransientFor fetchTransient() const; void readTransientProperty(Xcb::TransientFor &transientFor); void readTransient(); xcb_window_t verifyTransientFor(xcb_window_t transient_for, bool set); void addTransient(AbstractClient* cl) override; void removeTransient(AbstractClient* cl) override; void removeFromMainClients(); void cleanGrouping(); void checkGroupTransients(); void setTransient(xcb_window_t new_transient_for_id); xcb_window_t m_transientForId; xcb_window_t m_originalTransientForId; X11Client *shade_below; uint deleting : 1; ///< True when doing cleanup and destroying the client Xcb::MotifHints m_motif; uint hidden : 1; ///< Forcibly hidden by calling hide() uint noborder : 1; uint app_noborder : 1; ///< App requested no border via window type, shape extension, etc. uint ignore_focus_stealing : 1; ///< Don't apply focus stealing prevention to this client bool blocks_compositing; enum FullScreenMode { FullScreenNone, FullScreenNormal } m_fullscreenMode; MaximizeMode max_mode; QRect m_bufferGeometry = QRect(0, 0, 100, 100); - QRect m_clientGeometry = QRect(0, 0, 100, 100); QRect geom_fs_restore; xcb_colormap_t m_colormap; QString cap_normal, cap_iconic, cap_suffix; Group* in_group; QTimer* ping_timer; qint64 m_killHelperPID; xcb_timestamp_t m_pingTimestamp; xcb_timestamp_t m_userTime; NET::Actions allowed_actions; bool shade_geometry_change; SyncRequest m_syncRequest; static bool check_active_modal; ///< \see X11Client::checkActiveModal() int sm_stacking_order; friend struct ResetupRulesProcedure; friend bool performTransiencyCheck(); Xcb::StringProperty fetchActivities() const; void readActivities(Xcb::StringProperty &property); void checkActivities(); bool activitiesDefined; //whether the x property was actually set bool sessionActivityOverride; bool needsXWindowMove; Xcb::Window m_decoInputExtent; QPoint input_offset; QTimer *m_focusOutTimer; QList m_connections; QMetaObject::Connection m_edgeRemoveConnection; QMetaObject::Connection m_edgeGeometryTrackingConnection; QMargins m_clientFrameExtents; }; inline xcb_window_t X11Client::wrapperId() const { return m_wrapper; } inline bool X11Client::isClientSideDecorated() const { return !m_clientFrameExtents.isNull(); } inline bool X11Client::groupTransient() const { return m_transientForId == rootWindow(); } // Needed because verifyTransientFor() may set transient_for_id to root window, // if the original value has a problem (window doesn't exist, etc.) inline bool X11Client::wasOriginallyGroupTransient() const { return m_originalTransientForId == rootWindow(); } inline bool X11Client::isTransient() const { return m_transientForId != XCB_WINDOW_NONE; } inline const Group* X11Client::group() const { return in_group; } inline Group* X11Client::group() { return in_group; } inline bool X11Client::isShown(bool shaded_is_shown) const { return !isMinimized() && (!isShade() || shaded_is_shown) && !hidden; } inline bool X11Client::isHiddenInternal() const { return hidden; } inline MaximizeMode X11Client::maximizeMode() const { return max_mode; } inline bool X11Client::isFullScreen() const { return m_fullscreenMode != FullScreenNone; } inline bool X11Client::hasNETSupport() const { return info->hasNETSupport(); } inline xcb_colormap_t X11Client::colormap() const { return m_colormap; } inline int X11Client::sessionStackingOrder() const { return sm_stacking_order; } inline bool X11Client::isManaged() const { return m_managed; } -inline QSize X11Client::clientSize() const -{ - return m_clientGeometry.size(); -} - inline void X11Client::plainResize(const QSize& s, ForceGeometry_t force) { plainResize(s.width(), s.height(), force); } inline void X11Client::resizeWithChecks(const QSize &s, AbstractClient::ForceGeometry_t force) { resizeWithChecks(s.width(), s.height(), XCB_GRAVITY_BIT_FORGET, force); } inline void X11Client::resizeWithChecks(const QSize& s, xcb_gravity_t gravity, ForceGeometry_t force) { resizeWithChecks(s.width(), s.height(), gravity, force); } inline bool X11Client::hasUserTimeSupport() const { return info->userTime() != -1U; } inline xcb_window_t X11Client::moveResizeGrabWindow() const { return m_moveResizeGrabWindow; } inline bool X11Client::hiddenPreview() const { return mapping_state == Kept; } template inline void X11Client::print(T &stream) const { stream << "\'Client:" << window() << ";WMCLASS:" << resourceClass() << ":" << resourceName() << ";Caption:" << caption() << "\'"; } } // namespace Q_DECLARE_METATYPE(KWin::X11Client *) Q_DECLARE_METATYPE(QList) diff --git a/xdgshellclient.cpp b/xdgshellclient.cpp index 0ea08021c..df9bd92bf 100644 --- a/xdgshellclient.cpp +++ b/xdgshellclient.cpp @@ -1,2115 +1,2135 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2015 Martin Gräßlin Copyright (C) 2018 David Edmundson Copyright (C) 2019 Vlad Zahorodnii This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ #include "xdgshellclient.h" #include "deleted.h" #include "screenedge.h" #include "screens.h" #include "subsurfacemonitor.h" #include "wayland_server.h" #include "workspace.h" #ifdef KWIN_BUILD_TABBOX #include "tabbox.h" #endif #include #include #include #include #include #include #include #include #include #include #include #include using namespace KWaylandServer; namespace KWin { +enum XdgSurfaceGeometryType { + XdgSurfaceGeometryClient = 0x1, + XdgSurfaceGeometryFrame = 0x2, + XdgSurfaceGeometryBuffer = 0x4, +}; + XdgSurfaceClient::XdgSurfaceClient(XdgSurfaceInterface *shellSurface) : WaylandClient(shellSurface->surface()) , m_shellSurface(shellSurface) , m_configureTimer(new QTimer(this)) { setupCompositing(); connect(shellSurface, &XdgSurfaceInterface::configureAcknowledged, this, &XdgSurfaceClient::handleConfigureAcknowledged); connect(shellSurface, &XdgSurfaceInterface::resetOccurred, this, &XdgSurfaceClient::destroyClient); connect(shellSurface->surface(), &SurfaceInterface::committed, this, &XdgSurfaceClient::handleCommit); connect(shellSurface->surface(), &SurfaceInterface::shadowChanged, this, &XdgSurfaceClient::updateShadow); #if 0 // TODO: Refactor kwin core in order to uncomment this code. connect(shellSurface->surface(), &SurfaceInterface::mapped, this, &XdgSurfaceClient::setReadyForPainting); #endif connect(shellSurface->surface(), &SurfaceInterface::unbound, this, &XdgSurfaceClient::destroyClient); connect(shellSurface->surface(), &SurfaceInterface::destroyed, this, &XdgSurfaceClient::destroyClient); // 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, &XdgSurfaceClient::setHaveNextWindowGeometry); connect(treeMonitor, &SubSurfaceMonitor::subSurfaceRemoved, this, &XdgSurfaceClient::setHaveNextWindowGeometry); connect(treeMonitor, &SubSurfaceMonitor::subSurfaceMoved, this, &XdgSurfaceClient::setHaveNextWindowGeometry); connect(treeMonitor, &SubSurfaceMonitor::subSurfaceResized, this, &XdgSurfaceClient::setHaveNextWindowGeometry); connect(shellSurface, &XdgSurfaceInterface::windowGeometryChanged, this, &XdgSurfaceClient::setHaveNextWindowGeometry); connect(surface(), &SurfaceInterface::sizeChanged, this, &XdgSurfaceClient::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, &XdgSurfaceClient::sendConfigure); // Unfortunately, AbstractClient::checkWorkspacePosition() operates on the geometry restore // so we need to initialize it with some reasonable value; otherwise bad things will happen // when we want to decorate the client or move the client to another screen. This is a hack. connect(this, &XdgSurfaceClient::frameGeometryChanged, this, &XdgSurfaceClient::updateGeometryRestoreHack); } XdgSurfaceClient::~XdgSurfaceClient() { qDeleteAll(m_configureEvents); } QRect XdgSurfaceClient::requestedFrameGeometry() const { return m_requestedFrameGeometry; } QPoint XdgSurfaceClient::requestedPos() const { return m_requestedFrameGeometry.topLeft(); } QSize XdgSurfaceClient::requestedSize() const { return m_requestedFrameGeometry.size(); } QRect XdgSurfaceClient::requestedClientGeometry() const { return m_requestedClientGeometry; } QRect XdgSurfaceClient::inputGeometry() const { return isDecorated() ? AbstractClient::inputGeometry() : bufferGeometry(); } QRect XdgSurfaceClient::bufferGeometry() const { return m_bufferGeometry; } QSize XdgSurfaceClient::requestedClientSize() const { return requestedClientGeometry().size(); } QRect XdgSurfaceClient::clientGeometry() const { return m_clientGeometry; } -QSize XdgSurfaceClient::clientSize() const -{ - return m_clientGeometry.size(); -} - QMatrix4x4 XdgSurfaceClient::inputTransformation() const { QMatrix4x4 transformation; transformation.translate(-m_bufferGeometry.x(), -m_bufferGeometry.y()); return transformation; } XdgSurfaceConfigure *XdgSurfaceClient::lastAcknowledgedConfigure() const { return m_lastAcknowledgedConfigure.data(); } bool XdgSurfaceClient::stateCompare() const { if (m_requestedFrameGeometry != m_frameGeometry) { return true; } if (m_requestedClientGeometry != m_clientGeometry) { return true; } if (m_requestedClientGeometry.isEmpty()) { return true; } return false; } void XdgSurfaceClient::scheduleConfigure() { if (isClosing()) { return; } if (stateCompare()) { m_configureTimer->start(); } else { m_configureTimer->stop(); } } void XdgSurfaceClient::sendConfigure() { XdgSurfaceConfigure *configureEvent = sendRoleConfigure(); if (configureEvent->position != pos()) { configureEvent->presentFields |= XdgSurfaceConfigure::PositionField; } if (configureEvent->size != size()) { configureEvent->presentFields |= XdgSurfaceConfigure::SizeField; } m_configureEvents.append(configureEvent); } void XdgSurfaceClient::handleConfigureAcknowledged(quint32 serial) { while (!m_configureEvents.isEmpty()) { if (serial < m_configureEvents.first()->serial) { break; } m_lastAcknowledgedConfigure.reset(m_configureEvents.takeFirst()); } } void XdgSurfaceClient::handleCommit() { if (!surface()->buffer()) { return; } if (haveNextWindowGeometry()) { handleNextWindowGeometry(); resetHaveNextWindowGeometry(); } handleRoleCommit(); m_lastAcknowledgedConfigure.reset(); setReadyForPainting(); updateDepth(); } void XdgSurfaceClient::handleRoleCommit() { } void XdgSurfaceClient::handleNextWindowGeometry() { const QRect 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!"; } QRect frameGeometry(pos(), clientSizeToFrameSize(m_windowGeometry.size())); // We're not done yet. The xdg-shell spec allows clients to attach buffers smaller than // we asked. Normally, this is not a big deal, but when the client is being interactively // resized, it may cause the window contents to bounce. In order to counter this, we have // to "gravitate" the new geometry according to the current move-resize pointer mode so // the opposite window corner stays still. if (isMoveResize()) { frameGeometry = adjustMoveResizeGeometry(frameGeometry); } else if (lastAcknowledgedConfigure()) { XdgSurfaceConfigure *configureEvent = lastAcknowledgedConfigure(); if (configureEvent->presentFields & XdgSurfaceConfigure::PositionField) { frameGeometry.moveTopLeft(configureEvent->position); } } updateGeometry(frameGeometry); if (isResize()) { performMoveResize(); } } bool XdgSurfaceClient::haveNextWindowGeometry() const { return m_haveNextWindowGeometry || m_lastAcknowledgedConfigure; } void XdgSurfaceClient::setHaveNextWindowGeometry() { m_haveNextWindowGeometry = true; } void XdgSurfaceClient::resetHaveNextWindowGeometry() { m_haveNextWindowGeometry = false; } QRect XdgSurfaceClient::adjustMoveResizeGeometry(const QRect &rect) const { QRect geometry = rect; switch (moveResizePointerMode()) { case PositionTopLeft: geometry.moveRight(moveResizeGeometry().right()); geometry.moveBottom(moveResizeGeometry().bottom()); break; case PositionTop: case PositionTopRight: geometry.moveLeft(moveResizeGeometry().left()); geometry.moveBottom(moveResizeGeometry().bottom()); break; case PositionRight: case PositionBottomRight: case PositionBottom: case PositionCenter: geometry.moveLeft(moveResizeGeometry().left()); geometry.moveTop(moveResizeGeometry().top()); break; case PositionBottomLeft: case PositionLeft: geometry.moveRight(moveResizeGeometry().right()); geometry.moveTop(moveResizeGeometry().top()); break; } return geometry; } /** * Sets the frame geometry of the XdgSurfaceClient to \a rect. * * Because geometry updates are asynchronous on Wayland, there are no any guarantees that * the frame geometry will be changed immediately. We may need to send a configure event to * the client if the current window geometry size and the requested window geometry size * don't match. frameGeometryChanged() will be emitted when the requested frame geometry * has been applied. * * Notice that the client may attach a buffer smaller than the one in the configure event. */ void XdgSurfaceClient::setFrameGeometry(const QRect &rect, ForceGeometry_t force) { m_requestedFrameGeometry = rect; // XdgToplevelClient currently doesn't support shaded clients, but let's stick with // what X11Client does. Hopefully, one day we will be able to unify setFrameGeometry() // for all AbstractClient subclasses. It's going to be great! if (isShade()) { if (m_requestedFrameGeometry.height() == borderTop() + borderBottom()) { qCDebug(KWIN_CORE) << "Passed shaded frame geometry to setFrameGeometry()"; } else { m_requestedClientGeometry = frameRectToClientRect(m_requestedFrameGeometry); m_requestedFrameGeometry.setHeight(borderTop() + borderBottom()); } } else { m_requestedClientGeometry = frameRectToClientRect(m_requestedFrameGeometry); } if (areGeometryUpdatesBlocked()) { m_frameGeometry = m_requestedFrameGeometry; if (pendingGeometryUpdate() == PendingGeometryForced) { return; } if (force == ForceGeometrySet) { setPendingGeometryUpdate(PendingGeometryForced); } else { setPendingGeometryUpdate(PendingGeometryNormal); } return; } m_frameGeometry = frameGeometryBeforeUpdateBlocking(); // Notice that the window geometry size of (0, 0) has special meaning to xdg shell clients. // It basically says "pick whatever size you think is the best, dawg." if (requestedClientSize() != clientSize()) { requestGeometry(requestedFrameGeometry()); } else { updateGeometry(requestedFrameGeometry()); } } void XdgSurfaceClient::move(int x, int y, ForceGeometry_t force) { Q_ASSERT(pendingGeometryUpdate() == PendingGeometryNone || areGeometryUpdatesBlocked()); QPoint p(x, y); if (!areGeometryUpdatesBlocked() && p != rules()->checkPosition(p)) { qCDebug(KWIN_CORE) << "forced position fail:" << p << ":" << rules()->checkPosition(p); } m_requestedFrameGeometry.moveTopLeft(p); m_requestedClientGeometry.moveTopLeft(framePosToClientPos(p)); if (force == NormalGeometrySet && m_frameGeometry.topLeft() == p) { return; } m_frameGeometry.moveTopLeft(m_requestedFrameGeometry.topLeft()); if (areGeometryUpdatesBlocked()) { if (pendingGeometryUpdate() == PendingGeometryForced) { return; } if (force == ForceGeometrySet) { setPendingGeometryUpdate(PendingGeometryForced); } else { setPendingGeometryUpdate(PendingGeometryNormal); } return; } m_clientGeometry.moveTopLeft(m_requestedClientGeometry.topLeft()); m_bufferGeometry = frameRectToBufferRect(m_frameGeometry); updateWindowRules(Rules::Position); screens()->setCurrent(this); workspace()->updateStackingOrder(); emit frameGeometryChanged(this, frameGeometryBeforeUpdateBlocking()); addRepaintDuringGeometryUpdates(); updateGeometryBeforeUpdateBlocking(); } void XdgSurfaceClient::requestGeometry(const QRect &rect) { m_requestedFrameGeometry = rect; m_requestedClientGeometry = frameRectToClientRect(rect); scheduleConfigure(); // Send the configure event later. } void XdgSurfaceClient::updateGeometry(const QRect &rect) { + const QRect oldClientGeometry = m_clientGeometry; const QRect oldFrameGeometry = m_frameGeometry; + const QRect oldBufferGeometry = m_bufferGeometry; + m_clientGeometry = frameRectToClientRect(rect); m_frameGeometry = rect; m_bufferGeometry = frameRectToBufferRect(rect); - m_clientGeometry = frameRectToClientRect(rect); - if (oldFrameGeometry == m_frameGeometry) { + uint changedGeometries = 0; + + if (m_clientGeometry != oldClientGeometry) { + changedGeometries |= XdgSurfaceGeometryClient; + } + if (m_frameGeometry != oldFrameGeometry) { + changedGeometries |= XdgSurfaceGeometryFrame; + } + if (m_bufferGeometry != oldBufferGeometry) { + changedGeometries |= XdgSurfaceGeometryBuffer; + } + + if (!changedGeometries) { return; } updateWindowRules(Rules::Position | Rules::Size); updateGeometryBeforeUpdateBlocking(); - emit frameGeometryChanged(this, oldFrameGeometry); + if (changedGeometries & XdgSurfaceGeometryClient) { + emit clientGeometryChanged(this, oldClientGeometry); + } + if (changedGeometries & XdgSurfaceGeometryFrame) { + emit frameGeometryChanged(this, oldFrameGeometry); + } emit geometryShapeChanged(this, oldFrameGeometry); addRepaintDuringGeometryUpdates(); } /** * \internal * \todo We have to check the current frame geometry in checkWorskpacePosition(). * * Sets the geometry restore to the first valid frame geometry. This is a HACK! * * Unfortunately, AbstractClient::checkWorkspacePosition() operates on the geometry restore * rather than the current frame geometry, so we have to ensure that it's initialized with * some reasonable value even if the client is not maximized or quick tiled. */ void XdgSurfaceClient::updateGeometryRestoreHack() { if (geometryRestore().isEmpty() && !frameGeometry().isEmpty()) { setGeometryRestore(frameGeometry()); } } void XdgSurfaceClient::updateDepth() { if (surface()->buffer()->hasAlphaChannel() && !isDesktop()) { setDepth(32); } else { setDepth(24); } } QRect XdgSurfaceClient::frameRectToBufferRect(const QRect &rect) const { const int left = rect.left() + borderLeft() - m_windowGeometry.left(); const int top = rect.top() + borderTop() - m_windowGeometry.top(); return QRect(QPoint(left, top), surface()->size()); } void XdgSurfaceClient::addDamage(const QRegion &damage) { const int offsetX = m_bufferGeometry.x() - m_frameGeometry.x(); const int offsetY = m_bufferGeometry.y() - m_frameGeometry.y(); repaints_region += damage.translated(offsetX, offsetY); Toplevel::addDamage(damage); } bool XdgSurfaceClient::isShown(bool shaded_is_shown) const { Q_UNUSED(shaded_is_shown) return !isClosing() && !isHidden() && !isMinimized(); } bool XdgSurfaceClient::isHiddenInternal() const { return isHidden(); } void XdgSurfaceClient::hideClient(bool hide) { if (hide) { internalHide(); } else { internalShow(); } } bool XdgSurfaceClient::isHidden() const { return m_isHidden; } void XdgSurfaceClient::internalShow() { if (!isHidden()) { return; } m_isHidden = false; addRepaintFull(); emit windowShown(this); } void XdgSurfaceClient::internalHide() { if (isHidden()) { return; } if (isMoveResize()) { leaveMoveResize(); } m_isHidden = true; addWorkspaceRepaint(visibleRect()); workspace()->clientHidden(this); emit windowHidden(this); } bool XdgSurfaceClient::isClosing() const { return m_isClosing; } void XdgSurfaceClient::destroyClient() { m_isClosing = true; m_configureTimer->stop(); if (isMoveResize()) { leaveMoveResize(); } cleanTabBox(); Deleted *deleted = Deleted::create(this); emit windowClosed(this, deleted); StackingUpdatesBlocker blocker(workspace()); RuleBook::self()->discardUsed(this, true); destroyWindowManagementInterface(); destroyDecoration(); cleanGrouping(); waylandServer()->removeClient(this); deleted->unrefWindow(); delete this; } void XdgSurfaceClient::cleanGrouping() { if (transientFor()) { transientFor()->removeTransient(this); } for (auto it = transients().constBegin(); it != transients().constEnd();) { if ((*it)->transientFor() == this) { removeTransient(*it); it = transients().constBegin(); // restart, just in case something more has changed with the list } else { ++it; } } } void XdgSurfaceClient::cleanTabBox() { #ifdef KWIN_BUILD_TABBOX TabBox::TabBox *tabBox = TabBox::TabBox::self(); if (tabBox->isDisplayed() && tabBox->currentClient() == this) { tabBox->nextPrev(true); } #endif } XdgToplevelClient::XdgToplevelClient(XdgToplevelInterface *shellSurface) : XdgSurfaceClient(shellSurface->xdgSurface()) , m_shellSurface(shellSurface) { setupWindowManagementIntegration(); setupPlasmaShellIntegration(); setDesktop(VirtualDesktopManager::self()->current()); if (waylandServer()->inputMethodConnection() == surface()->client()) { m_windowType = NET::OnScreenDisplay; } connect(shellSurface, &XdgToplevelInterface::windowTitleChanged, this, &XdgToplevelClient::handleWindowTitleChanged); connect(shellSurface, &XdgToplevelInterface::windowClassChanged, this, &XdgToplevelClient::handleWindowClassChanged); connect(shellSurface, &XdgToplevelInterface::windowMenuRequested, this, &XdgToplevelClient::handleWindowMenuRequested); connect(shellSurface, &XdgToplevelInterface::moveRequested, this, &XdgToplevelClient::handleMoveRequested); connect(shellSurface, &XdgToplevelInterface::resizeRequested, this, &XdgToplevelClient::handleResizeRequested); connect(shellSurface, &XdgToplevelInterface::maximizeRequested, this, &XdgToplevelClient::handleMaximizeRequested); connect(shellSurface, &XdgToplevelInterface::unmaximizeRequested, this, &XdgToplevelClient::handleUnmaximizeRequested); connect(shellSurface, &XdgToplevelInterface::fullscreenRequested, this, &XdgToplevelClient::handleFullscreenRequested); connect(shellSurface, &XdgToplevelInterface::unfullscreenRequested, this, &XdgToplevelClient::handleUnfullscreenRequested); connect(shellSurface, &XdgToplevelInterface::minimizeRequested, this, &XdgToplevelClient::handleMinimizeRequested); connect(shellSurface, &XdgToplevelInterface::parentXdgToplevelChanged, this, &XdgToplevelClient::handleTransientForChanged); connect(shellSurface, &XdgToplevelInterface::initializeRequested, this, &XdgToplevelClient::initialize); connect(shellSurface, &XdgToplevelInterface::destroyed, this, &XdgToplevelClient::destroyClient); connect(shellSurface->shell(), &XdgShellInterface::pingTimeout, this, &XdgToplevelClient::handlePingTimeout); connect(shellSurface->shell(), &XdgShellInterface::pingDelayed, this, &XdgToplevelClient::handlePingDelayed); connect(shellSurface->shell(), &XdgShellInterface::pongReceived, this, &XdgToplevelClient::handlePongReceived); connect(waylandServer(), &WaylandServer::foreignTransientChanged, this, &XdgToplevelClient::handleForeignTransientForChanged); } XdgToplevelClient::~XdgToplevelClient() { } XdgToplevelInterface *XdgToplevelClient::shellSurface() const { return m_shellSurface; } void XdgToplevelClient::debug(QDebug &stream) const { stream << this; } NET::WindowType XdgToplevelClient::windowType(bool direct, int supported_types) const { Q_UNUSED(direct) Q_UNUSED(supported_types) return m_windowType; } MaximizeMode XdgToplevelClient::maximizeMode() const { return m_maximizeMode; } MaximizeMode XdgToplevelClient::requestedMaximizeMode() const { return m_requestedMaximizeMode; } QSize XdgToplevelClient::minSize() const { return rules()->checkMinSize(m_shellSurface->minimumSize()); } QSize XdgToplevelClient::maxSize() const { return rules()->checkMaxSize(m_shellSurface->maximumSize()); } bool XdgToplevelClient::isFullScreen() const { return m_isFullScreen; } bool XdgToplevelClient::isMovable() const { if (isFullScreen()) { return false; } if (isSpecialWindow() && !isSplash() && !isToolbar()) { return false; } if (rules()->checkPosition(invalidPoint) != invalidPoint) { return false; } return true; } bool XdgToplevelClient::isMovableAcrossScreens() const { if (isSpecialWindow() && !isSplash() && !isToolbar()) { return false; } if (rules()->checkPosition(invalidPoint) != invalidPoint) { return false; } return true; } bool XdgToplevelClient::isResizable() const { if (isFullScreen()) { return false; } if (isSpecialWindow() || isSplash() || isToolbar()) { return false; } if (rules()->checkSize(QSize()).isValid()) { return false; } const QSize min = minSize(); const QSize max = maxSize(); return min.width() < max.width() || min.height() < max.height(); } bool XdgToplevelClient::isCloseable() const { return !isDesktop() && !isDock(); } bool XdgToplevelClient::isFullScreenable() const { if (!rules()->checkFullScreen(true)) { return false; } return !isSpecialWindow(); } bool XdgToplevelClient::isMaximizable() const { if (!isResizable()) { return false; } if (rules()->checkMaximize(MaximizeRestore) != MaximizeRestore || rules()->checkMaximize(MaximizeFull) != MaximizeFull) { return false; } return true; } bool XdgToplevelClient::isMinimizable() const { if (isSpecialWindow() && !isTransient()) { return false; } if (!rules()->checkMinimize(true)) { return false; } return true; } bool XdgToplevelClient::isTransient() const { return m_isTransient; } bool XdgToplevelClient::userCanSetFullScreen() const { return true; } bool XdgToplevelClient::userCanSetNoBorder() const { if (m_serverDecoration) { switch (m_serverDecoration->mode()) { case ServerSideDecorationManagerInterface::Mode::Server: return !isFullScreen() && !isShade(); case ServerSideDecorationManagerInterface::Mode::Client: case ServerSideDecorationManagerInterface::Mode::None: return false; } } if (m_xdgDecoration) { switch (m_xdgDecoration->preferredMode()) { case XdgToplevelDecorationV1Interface::Mode::Server: case XdgToplevelDecorationV1Interface::Mode::Undefined: return !isFullScreen() && !isShade(); case XdgToplevelDecorationV1Interface::Mode::Client: return false; } } return false; } bool XdgToplevelClient::noBorder() const { if (m_serverDecoration) { switch (m_serverDecoration->mode()) { case ServerSideDecorationManagerInterface::Mode::Server: return m_userNoBorder || isFullScreen(); case ServerSideDecorationManagerInterface::Mode::Client: case ServerSideDecorationManagerInterface::Mode::None: return true; } } if (m_xdgDecoration) { switch (m_xdgDecoration->preferredMode()) { case XdgToplevelDecorationV1Interface::Mode::Server: case XdgToplevelDecorationV1Interface::Mode::Undefined: return m_userNoBorder || isFullScreen(); case XdgToplevelDecorationV1Interface::Mode::Client: return true; } } return true; } void XdgToplevelClient::setNoBorder(bool set) { if (!userCanSetNoBorder()) { return; } set = rules()->checkNoBorder(set); if (m_userNoBorder == set) { return; } m_userNoBorder = set; updateDecoration(true, false); updateWindowRules(Rules::NoBorder); } void XdgToplevelClient::updateDecoration(bool check_workspace_pos, bool force) { if (!force && ((!isDecorated() && noBorder()) || (isDecorated() && !noBorder()))) { return; } const QRect oldFrameGeometry = frameGeometry(); const QRect oldClientGeometry = clientGeometry(); blockGeometryUpdates(true); if (force) { destroyDecoration(); } if (!noBorder()) { createDecoration(oldFrameGeometry); } else { destroyDecoration(); } if (m_serverDecoration && isDecorated()) { m_serverDecoration->setMode(ServerSideDecorationManagerInterface::Mode::Server); } if (m_xdgDecoration) { if (isDecorated() || m_userNoBorder) { m_xdgDecoration->sendConfigure(XdgToplevelDecorationV1Interface::Mode::Server); } else { m_xdgDecoration->sendConfigure(XdgToplevelDecorationV1Interface::Mode::Client); } scheduleConfigure(); } updateShadow(); if (check_workspace_pos) { checkWorkspacePosition(oldFrameGeometry, -2, oldClientGeometry); } blockGeometryUpdates(false); } bool XdgToplevelClient::supportsWindowRules() const { return !m_plasmaShellSurface; } bool XdgToplevelClient::hasStrut() const { if (!isShown(true)) { return false; } if (!m_plasmaShellSurface) { return false; } if (m_plasmaShellSurface->role() != PlasmaShellSurfaceInterface::Role::Panel) { return false; } return m_plasmaShellSurface->panelBehavior() == PlasmaShellSurfaceInterface::PanelBehavior::AlwaysVisible; } void XdgToplevelClient::showOnScreenEdge() { if (!m_plasmaShellSurface) { return; } hideClient(false); workspace()->raiseClient(this); if (m_plasmaShellSurface->panelBehavior() == PlasmaShellSurfaceInterface::PanelBehavior::AutoHide) { m_plasmaShellSurface->showAutoHidingPanel(); } } bool XdgToplevelClient::isInitialPositionSet() const { return m_plasmaShellSurface ? m_plasmaShellSurface->isPositionSet() : false; } void XdgToplevelClient::closeWindow() { if (isCloseable()) { sendPing(PingReason::CloseWindow); m_shellSurface->sendClose(); } } XdgSurfaceConfigure *XdgToplevelClient::sendRoleConfigure() const { const quint32 serial = m_shellSurface->sendConfigure(requestedClientSize(), m_requestedStates); XdgToplevelConfigure *configureEvent = new XdgToplevelConfigure(); configureEvent->position = requestedPos(); configureEvent->size = requestedSize(); configureEvent->states = m_requestedStates; configureEvent->serial = serial; return configureEvent; } bool XdgToplevelClient::stateCompare() const { if (m_requestedStates != m_acknowledgedStates) { return true; } return XdgSurfaceClient::stateCompare(); } void XdgToplevelClient::handleRoleCommit() { auto configureEvent = static_cast(lastAcknowledgedConfigure()); if (configureEvent) { handleStatesAcknowledged(configureEvent->states); } } void XdgToplevelClient::doMinimize() { if (isMinimized()) { workspace()->clientHidden(this); } else { emit windowShown(this); } workspace()->updateMinimizedOfTransients(this); } void XdgToplevelClient::doResizeSync() { requestGeometry(moveResizeGeometry()); } void XdgToplevelClient::doSetActive() { WaylandClient::doSetActive(); if (isActive()) { m_requestedStates |= XdgToplevelInterface::State::Activated; } else { m_requestedStates &= ~XdgToplevelInterface::State::Activated; } scheduleConfigure(); } void XdgToplevelClient::doSetFullScreen() { if (isFullScreen()) { m_requestedStates |= XdgToplevelInterface::State::FullScreen; } else { m_requestedStates &= ~XdgToplevelInterface::State::FullScreen; } scheduleConfigure(); } void XdgToplevelClient::doSetMaximized() { if (requestedMaximizeMode() & MaximizeHorizontal) { m_requestedStates |= XdgToplevelInterface::State::MaximizedHorizontal; } else { m_requestedStates &= ~XdgToplevelInterface::State::MaximizedHorizontal; } if (requestedMaximizeMode() & MaximizeVertical) { m_requestedStates |= XdgToplevelInterface::State::MaximizedVertical; } else { m_requestedStates &= ~XdgToplevelInterface::State::MaximizedVertical; } scheduleConfigure(); } bool XdgToplevelClient::doStartMoveResize() { if (moveResizePointerMode() != PositionCenter) { m_requestedStates |= XdgToplevelInterface::State::Resizing; } scheduleConfigure(); return true; } void XdgToplevelClient::doFinishMoveResize() { m_requestedStates &= ~XdgToplevelInterface::State::Resizing; scheduleConfigure(); } void XdgToplevelClient::takeFocus() { if (wantsInput()) { sendPing(PingReason::FocusWindow); setActive(true); } if (!keepAbove() && !isOnScreenDisplay() && !belongsToDesktop()) { workspace()->setShowingDesktop(false); } } bool XdgToplevelClient::wantsInput() const { return rules()->checkAcceptFocus(acceptsFocus()); } bool XdgToplevelClient::dockWantsInput() const { if (m_plasmaShellSurface) { if (m_plasmaShellSurface->role() == PlasmaShellSurfaceInterface::Role::Panel) { return m_plasmaShellSurface->panelTakesFocus(); } } return false; } bool XdgToplevelClient::acceptsFocus() const { if (isInputMethod()) { return false; } if (m_plasmaShellSurface) { if (m_plasmaShellSurface->role() == PlasmaShellSurfaceInterface::Role::OnScreenDisplay || m_plasmaShellSurface->role() == PlasmaShellSurfaceInterface::Role::ToolTip) { return false; } if (m_plasmaShellSurface->role() == PlasmaShellSurfaceInterface::Role::Notification || m_plasmaShellSurface->role() == PlasmaShellSurfaceInterface::Role::CriticalNotification) { return m_plasmaShellSurface->panelTakesFocus(); } } return !isClosing() && readyForPainting(); } Layer XdgToplevelClient::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 AbstractClient::layerForDock(); } void XdgToplevelClient::handleWindowTitleChanged() { setCaption(m_shellSurface->windowTitle()); } void XdgToplevelClient::handleWindowClassChanged() { const QByteArray applicationId = m_shellSurface->windowClass().toUtf8(); setResourceClass(resourceName(), applicationId); if (shellSurface()->isConfigured() && supportsWindowRules()) { evaluateWindowRules(); } setDesktopFileName(applicationId); } void XdgToplevelClient::handleWindowMenuRequested(SeatInterface *seat, const QPoint &surfacePos, quint32 serial) { Q_UNUSED(seat) Q_UNUSED(serial) performMouseCommand(Options::MouseOperationsMenu, pos() + surfacePos); } void XdgToplevelClient::handleMoveRequested(SeatInterface *seat, quint32 serial) { Q_UNUSED(seat) Q_UNUSED(serial) performMouseCommand(Options::MouseMove, Cursors::self()->mouse()->pos()); } void XdgToplevelClient::handleResizeRequested(SeatInterface *seat, Qt::Edges edges, quint32 serial) { Q_UNUSED(seat) Q_UNUSED(serial) if (!isResizable() || isShade()) { return; } if (isMoveResize()) { finishMoveResize(false); } setMoveResizePointerButtonDown(true); setMoveOffset(Cursors::self()->mouse()->pos() - pos()); // map from global setInvertedMoveOffset(rect().bottomRight() - moveOffset()); setUnrestrictedMoveResize(false); auto toPosition = [edges] { Position position = PositionCenter; if (edges.testFlag(Qt::TopEdge)) { position = PositionTop; } else if (edges.testFlag(Qt::BottomEdge)) { position = PositionBottom; } if (edges.testFlag(Qt::LeftEdge)) { position = Position(position | PositionLeft); } else if (edges.testFlag(Qt::RightEdge)) { position = Position(position | PositionRight); } return position; }; setMoveResizePointerMode(toPosition()); if (!startMoveResize()) { setMoveResizePointerButtonDown(false); } updateCursor(); } void XdgToplevelClient::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 XdgToplevelClient::handleMaximizeRequested() { maximize(MaximizeFull); scheduleConfigure(); } void XdgToplevelClient::handleUnmaximizeRequested() { maximize(MaximizeRestore); scheduleConfigure(); } void XdgToplevelClient::handleFullscreenRequested(OutputInterface *output) { Q_UNUSED(output) setFullScreen(/* set */ true, /* user */ false); scheduleConfigure(); } void XdgToplevelClient::handleUnfullscreenRequested() { setFullScreen(/* set */ false, /* user */ false); scheduleConfigure(); } void XdgToplevelClient::handleMinimizeRequested() { performMouseCommand(Options::MouseMinimize, Cursors::self()->mouse()->pos()); } void XdgToplevelClient::handleTransientForChanged() { SurfaceInterface *transientForSurface = nullptr; if (XdgToplevelInterface *parentToplevel = m_shellSurface->parentXdgToplevel()) { transientForSurface = parentToplevel->surface(); } if (!transientForSurface) { transientForSurface = waylandServer()->findForeignTransientForSurface(surface()); } AbstractClient *transientForClient = waylandServer()->findClient(transientForSurface); if (transientForClient != transientFor()) { if (transientFor()) { transientFor()->removeTransient(this); } if (transientForClient) { transientForClient->addTransient(this); } setTransientFor(transientForClient); } m_isTransient = transientForClient; } void XdgToplevelClient::handleForeignTransientForChanged(SurfaceInterface *child) { if (surface() == child) { handleTransientForChanged(); } } void XdgToplevelClient::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 XdgToplevelClient::handlePingDelayed(quint32 serial) { auto it = m_pings.find(serial); if (it != m_pings.end()) { qCDebug(KWIN_CORE) << "First ping timeout:" << caption(); setUnresponsive(true); } } void XdgToplevelClient::handlePongReceived(quint32 serial) { auto it = m_pings.find(serial); if (it != m_pings.end()) { setUnresponsive(false); m_pings.erase(it); } } void XdgToplevelClient::sendPing(PingReason reason) { XdgShellInterface *shell = m_shellSurface->shell(); XdgSurfaceInterface *surface = m_shellSurface->xdgSurface(); const quint32 serial = shell->ping(surface); m_pings.insert(serial, reason); } void XdgToplevelClient::initialize() { blockGeometryUpdates(true); bool needsPlacement = !isInitialPositionSet(); if (supportsWindowRules()) { setupWindowRules(false); const QRect originalGeometry = frameGeometry(); const QRect ruledGeometry = rules()->checkGeometry(originalGeometry, true); if (originalGeometry != ruledGeometry) { setFrameGeometry(ruledGeometry); } maximize(rules()->checkMaximize(maximizeMode(), true)); setDesktop(rules()->checkDesktop(desktop(), 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)); // 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 (isFullScreen()) { needsPlacement = false; } if (needsPlacement) { const QRect area = workspace()->clientArea(PlacementArea, Screens::self()->current(), desktop()); placeIn(area); } blockGeometryUpdates(false); scheduleConfigure(); updateColorScheme(); } void XdgToplevelClient::updateMaximizeMode(MaximizeMode maximizeMode) { if (m_maximizeMode == maximizeMode) { return; } m_maximizeMode = maximizeMode; updateWindowRules(Rules::MaximizeVert | Rules::MaximizeHoriz); emit clientMaximizedStateChanged(this, maximizeMode); emit clientMaximizedStateChanged(this, maximizeMode & MaximizeHorizontal, maximizeMode & MaximizeVertical); } void XdgToplevelClient::updateFullScreenMode(bool set) { if (m_isFullScreen == set) { return; } m_isFullScreen = set; updateWindowRules(Rules::Fullscreen); emit fullScreenChanged(); } void XdgToplevelClient::updateColorScheme() { if (m_paletteInterface) { AbstractClient::updateColorScheme(rules()->checkDecoColor(m_paletteInterface->palette())); } else { AbstractClient::updateColorScheme(rules()->checkDecoColor(QString())); } } void XdgToplevelClient::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()); } void XdgToplevelClient::installServerDecoration(ServerSideDecorationInterface *decoration) { m_serverDecoration = decoration; connect(m_serverDecoration, &ServerSideDecorationInterface::destroyed, this, [this] { if (!isClosing() && readyForPainting()) { updateDecoration(/* check_workspace_pos */ true); } }); connect(m_serverDecoration, &ServerSideDecorationInterface::modeRequested, this, [this] (ServerSideDecorationManagerInterface::Mode mode) { const bool changed = mode != m_serverDecoration->mode(); if (changed && readyForPainting()) { updateDecoration(/* check_workspace_pos */ false); } } ); if (readyForPainting()) { updateDecoration(/* check_workspace_pos */ true); } } void XdgToplevelClient::installXdgDecoration(XdgToplevelDecorationV1Interface *decoration) { m_xdgDecoration = decoration; connect(m_xdgDecoration, &XdgToplevelDecorationV1Interface::destroyed, this, [this] { if (!isClosing()) { updateDecoration(/* check_workspace_pos */ true); } }); connect(m_xdgDecoration, &XdgToplevelDecorationV1Interface::preferredModeChanged, this, [this] { // force is true as we must send a new configure response. updateDecoration(/* check_workspace_pos */ false, /* force */ true); }); } void XdgToplevelClient::installPalette(ServerSideDecorationPaletteInterface *palette) { m_paletteInterface = palette; auto updatePalette = [this](const QString &palette) { AbstractClient::updateColorScheme(rules()->checkDecoColor(palette)); }; connect(m_paletteInterface, &ServerSideDecorationPaletteInterface::paletteChanged, this, [=](const QString &palette) { updatePalette(palette); }); connect(m_paletteInterface, &QObject::destroyed, this, [=]() { updatePalette(QString()); }); updatePalette(palette->palette()); } /** * \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 XdgToplevelClient::installPlasmaShellSurface(PlasmaShellSurfaceInterface *shellSurface) { m_plasmaShellSurface = shellSurface; auto updatePosition = [this, shellSurface] { move(shellSurface->position()); }; 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::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: setOnAllDesktops(true); break; default: break; } workspace()->updateClientArea(); }; connect(shellSurface, &PlasmaShellSurfaceInterface::positionChanged, this, updatePosition); connect(shellSurface, &PlasmaShellSurfaceInterface::roleChanged, this, updateRole); connect(shellSurface, &PlasmaShellSurfaceInterface::panelBehaviorChanged, this, [this] { updateShowOnScreenEdge(); workspace()->updateClientArea(); }); connect(shellSurface, &PlasmaShellSurfaceInterface::panelAutoHideHideRequested, this, [this] { hideClient(true); m_plasmaShellSurface->hideAutoHidingPanel(); updateShowOnScreenEdge(); }); connect(shellSurface, &PlasmaShellSurfaceInterface::panelAutoHideShowRequested, this, [this] { hideClient(false); ScreenEdges::self()->reserve(this, ElectricNone); m_plasmaShellSurface->showAutoHidingPanel(); }); connect(shellSurface, &PlasmaShellSurfaceInterface::panelTakesFocusChanged, this, [this] { if (m_plasmaShellSurface->panelTakesFocus()) { workspace()->activateClient(this); } }); if (shellSurface->isPositionSet()) { updatePosition(); } updateRole(); updateShowOnScreenEdge(); connect(this, &XdgToplevelClient::frameGeometryChanged, this, &XdgToplevelClient::updateShowOnScreenEdge); connect(this, &XdgToplevelClient::windowShown, this, &XdgToplevelClient::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 XdgToplevelClient::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(); Qt::Edges edges; for (int i = 0; i < screens()->count(); i++) { const QRect screenGeometry = screens()->geometry(i); 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); } } void XdgToplevelClient::setupWindowManagementIntegration() { if (isLockScreen()) { return; } connect(surface(), &SurfaceInterface::mapped, this, &XdgToplevelClient::setupWindowManagementInterface); } void XdgToplevelClient::setupPlasmaShellIntegration() { connect(surface(), &SurfaceInterface::mapped, this, &XdgToplevelClient::updateShowOnScreenEdge); } void XdgToplevelClient::setFullScreen(bool set, bool user) { set = rules()->checkFullScreen(set); const bool wasFullscreen = isFullScreen(); if (wasFullscreen == set) { return; } if (isSpecialWindow()) { return; } if (user && !userCanSetFullScreen()) { return; } if (wasFullscreen) { workspace()->updateFocusMousePosition(Cursors::self()->mouse()->pos()); // may cause leave event } else { m_fullScreenGeometryRestore = frameGeometry(); } m_isFullScreen = set; if (set) { workspace()->raiseClient(this); } StackingUpdatesBlocker blocker1(workspace()); GeometryUpdatesBlocker blocker2(this); workspace()->updateClientLayer(this); // active fullscreens get different layer updateDecoration(false, false); if (set) { setFrameGeometry(workspace()->clientArea(FullScreenArea, this)); } else { if (m_fullScreenGeometryRestore.isValid()) { int currentScreen = screen(); setFrameGeometry(QRect(m_fullScreenGeometryRestore.topLeft(), constrainFrameSize(m_fullScreenGeometryRestore.size()))); if( currentScreen != screen()) workspace()->sendClientToScreen( this, currentScreen ); } else { // this can happen when the window was first shown already fullscreen, // so let the client set the size by itself setFrameGeometry(QRect(workspace()->clientArea(PlacementArea, this).topLeft(), QSize(0, 0))); } } doSetFullScreen(); updateWindowRules(Rules::Fullscreen|Rules::Position|Rules::Size); emit fullScreenChanged(); } /** * \todo Move to AbstractClient. */ static bool changeMaximizeRecursion = false; void XdgToplevelClient::changeMaximize(bool horizontal, bool vertical, bool adjust) { if (changeMaximizeRecursion) { return; } if (!isResizable()) { return; } const QRect clientArea = isElectricBorderMaximizing() ? workspace()->clientArea(MaximizeArea, Cursors::self()->mouse()->pos(), desktop()) : workspace()->clientArea(MaximizeArea, this); const MaximizeMode oldMode = m_requestedMaximizeMode; const QRect oldGeometry = frameGeometry(); // '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; } StackingUpdatesBlocker blocker(workspace()); // call into decoration update borders if (isDecorated() && decoration()->client() && !(options->borderlessMaximizedWindows() && m_requestedMaximizeMode == KWin::MaximizeFull)) { changeMaximizeRecursion = true; const auto c = decoration()->client().toStrongRef(); if ((m_requestedMaximizeMode & MaximizeVertical) != (oldMode & MaximizeVertical)) { emit c->maximizedVerticallyChanged(m_requestedMaximizeMode & MaximizeVertical); } if ((m_requestedMaximizeMode & MaximizeHorizontal) != (oldMode & MaximizeHorizontal)) { emit c->maximizedHorizontallyChanged(m_requestedMaximizeMode & MaximizeHorizontal); } if ((m_requestedMaximizeMode == MaximizeFull) != (oldMode == MaximizeFull)) { emit c->maximizedChanged(m_requestedMaximizeMode & MaximizeFull); } changeMaximizeRecursion = false; } if (options->borderlessMaximizedWindows()) { // triggers a maximize change. // The next setNoBorder interation will exit since there's no change but the first recursion pullutes the restore geometry changeMaximizeRecursion = true; setNoBorder(rules()->checkNoBorder(m_requestedMaximizeMode == MaximizeFull)); changeMaximizeRecursion = false; } // Conditional quick tiling exit points const auto oldQuickTileMode = quickTileMode(); if (quickTileMode() != QuickTileMode(QuickTileFlag::None)) { if (oldMode == MaximizeFull && !clientArea.contains(geometryRestore().center())) { // Not restoring on the same screen // TODO: The following doesn't work for some reason //quick_tile_mode = QuickTileNone; // And exit quick tile mode manually } else if ((oldMode == MaximizeVertical && m_requestedMaximizeMode == MaximizeRestore) || (oldMode == MaximizeFull && m_requestedMaximizeMode == MaximizeHorizontal)) { // Modifying geometry of a tiled window updateQuickTileMode(QuickTileFlag::None); // Exit quick tile mode without restoring geometry } } if (m_requestedMaximizeMode == MaximizeFull) { setGeometryRestore(oldGeometry); // TODO: Client has more checks if (options->electricBorderMaximize()) { updateQuickTileMode(QuickTileFlag::Maximize); } else { updateQuickTileMode(QuickTileFlag::None); } if (quickTileMode() != oldQuickTileMode) { emit quickTileModeChanged(); } setFrameGeometry(workspace()->clientArea(MaximizeArea, this)); workspace()->raiseClient(this); } else { if (m_requestedMaximizeMode == MaximizeRestore) { updateQuickTileMode(QuickTileFlag::None); } if (quickTileMode() != oldQuickTileMode) { emit quickTileModeChanged(); } if (geometryRestore().isValid()) { setFrameGeometry(geometryRestore()); } else { setFrameGeometry(workspace()->clientArea(PlacementArea, this)); } } doSetMaximized(); } XdgPopupClient::XdgPopupClient(XdgPopupInterface *shellSurface) : XdgSurfaceClient(shellSurface->xdgSurface()) , m_shellSurface(shellSurface) { setDesktop(VirtualDesktopManager::self()->current()); connect(shellSurface, &XdgPopupInterface::grabRequested, this, &XdgPopupClient::handleGrabRequested); connect(shellSurface, &XdgPopupInterface::initializeRequested, this, &XdgPopupClient::initialize); connect(shellSurface, &XdgPopupInterface::destroyed, this, &XdgPopupClient::destroyClient); // The xdg-shell spec states that the parent xdg-surface may be null if it is specified // via "some other protocol," but we don't support any such protocol yet. Notice that the // xdg-foreign protocol is only for toplevel surfaces. XdgSurfaceInterface *parentShellSurface = shellSurface->parentXdgSurface(); AbstractClient *parentClient = waylandServer()->findClient(parentShellSurface->surface()); parentClient->addTransient(this); setTransientFor(parentClient); } XdgPopupClient::~XdgPopupClient() { } void XdgPopupClient::debug(QDebug &stream) const { stream << this; } NET::WindowType XdgPopupClient::windowType(bool direct, int supported_types) const { Q_UNUSED(direct) Q_UNUSED(supported_types) return NET::Normal; } bool XdgPopupClient::hasPopupGrab() const { return m_haveExplicitGrab; } void XdgPopupClient::popupDone() { m_shellSurface->sendPopupDone(); } bool XdgPopupClient::isPopupWindow() const { return true; } bool XdgPopupClient::isTransient() const { return true; } bool XdgPopupClient::isResizable() const { return false; } bool XdgPopupClient::isMovable() const { return false; } bool XdgPopupClient::isMovableAcrossScreens() const { return false; } bool XdgPopupClient::hasTransientPlacementHint() const { return true; } static QPoint popupOffset(const QRect &anchorRect, const Qt::Edges anchorEdge, const Qt::Edges gravity, const QSize popupSize) { QPoint anchorPoint; switch (anchorEdge & (Qt::LeftEdge | Qt::RightEdge)) { case Qt::LeftEdge: anchorPoint.setX(anchorRect.x()); break; case Qt::RightEdge: anchorPoint.setX(anchorRect.x() + anchorRect.width()); break; default: anchorPoint.setX(qRound(anchorRect.x() + anchorRect.width() / 2.0)); } switch (anchorEdge & (Qt::TopEdge | Qt::BottomEdge)) { case Qt::TopEdge: anchorPoint.setY(anchorRect.y()); break; case Qt::BottomEdge: anchorPoint.setY(anchorRect.y() + anchorRect.height()); break; default: anchorPoint.setY(qRound(anchorRect.y() + anchorRect.height() / 2.0)); } // calculate where the top left point of the popup will end up with the applied gravity // gravity indicates direction. i.e if gravitating towards the top the popup's bottom edge // will next to the anchor point QPoint popupPosAdjust; switch (gravity & (Qt::LeftEdge | Qt::RightEdge)) { case Qt::LeftEdge: popupPosAdjust.setX(-popupSize.width()); break; case Qt::RightEdge: popupPosAdjust.setX(0); break; default: popupPosAdjust.setX(qRound(-popupSize.width() / 2.0)); } switch (gravity & (Qt::TopEdge | Qt::BottomEdge)) { case Qt::TopEdge: popupPosAdjust.setY(-popupSize.height()); break; case Qt::BottomEdge: popupPosAdjust.setY(0); break; default: popupPosAdjust.setY(qRound(-popupSize.height() / 2.0)); } return anchorPoint + popupPosAdjust; } QRect XdgPopupClient::transientPlacement(const QRect &bounds) const { const XdgPositioner positioner = m_shellSurface->positioner(); QSize desiredSize = size(); if (desiredSize.isEmpty()) { desiredSize = positioner.size(); } const QPoint 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 QRect &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; }; QRect 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 = QRect(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) { QRect 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 = QRect(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) { QRect 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 XdgPopupClient::isCloseable() const { return false; } void XdgPopupClient::closeWindow() { } void XdgPopupClient::updateColorScheme() { AbstractClient::updateColorScheme(QString()); } bool XdgPopupClient::noBorder() const { return true; } bool XdgPopupClient::userCanSetNoBorder() const { return false; } void XdgPopupClient::setNoBorder(bool set) { Q_UNUSED(set) } void XdgPopupClient::updateDecoration(bool check_workspace_pos, bool force) { Q_UNUSED(check_workspace_pos) Q_UNUSED(force) } void XdgPopupClient::showOnScreenEdge() { } bool XdgPopupClient::supportsWindowRules() const { return false; } bool XdgPopupClient::wantsInput() const { return false; } void XdgPopupClient::takeFocus() { } bool XdgPopupClient::acceptsFocus() const { return false; } XdgSurfaceConfigure *XdgPopupClient::sendRoleConfigure() const { const QPoint parentPosition = transientFor()->framePosToClientPos(transientFor()->pos()); const QPoint popupPosition = requestedPos() - parentPosition; const quint32 serial = m_shellSurface->sendConfigure(QRect(popupPosition, requestedClientSize())); XdgSurfaceConfigure *configureEvent = new XdgSurfaceConfigure(); configureEvent->position = requestedPos(); configureEvent->size = requestedSize(); configureEvent->serial = serial; return configureEvent; } void XdgPopupClient::handleGrabRequested(SeatInterface *seat, quint32 serial) { Q_UNUSED(seat) Q_UNUSED(serial) m_haveExplicitGrab = true; } void XdgPopupClient::initialize() { const QRect area = workspace()->clientArea(PlacementArea, Screens::self()->current(), desktop()); placeIn(area); scheduleConfigure(); } } // namespace KWin diff --git a/xdgshellclient.h b/xdgshellclient.h index ca51045e6..c859120bd 100644 --- a/xdgshellclient.h +++ b/xdgshellclient.h @@ -1,290 +1,288 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2015 Martin Gräßlin Copyright (C) 2018 David Edmundson Copyright (C) 2019 Vlad Zahorodnii This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ #pragma once #include "waylandclient.h" #include #include #include namespace KWaylandServer { class AppMenuInterface; class PlasmaShellSurfaceInterface; class ServerSideDecorationInterface; class ServerSideDecorationPaletteInterface; class XdgToplevelDecorationV1Interface; } namespace KWin { class XdgSurfaceConfigure { public: enum ConfigureField { PositionField = 0x1, SizeField = 0x2, }; Q_DECLARE_FLAGS(ConfigureFields, ConfigureField) ConfigureFields presentFields; QPoint position; QSize size; qreal serial; }; class XdgSurfaceClient : public WaylandClient { Q_OBJECT public: explicit XdgSurfaceClient(KWaylandServer::XdgSurfaceInterface *shellSurface); ~XdgSurfaceClient() override; QRect inputGeometry() const override; QRect bufferGeometry() const override; - QSize clientSize() const override; QMatrix4x4 inputTransformation() const override; void setFrameGeometry(const QRect &rect, ForceGeometry_t force = NormalGeometrySet) override; using AbstractClient::move; void move(int x, int y, ForceGeometry_t force = NormalGeometrySet) override; bool isShown(bool shaded_is_shown) const override; bool isHiddenInternal() const override; void hideClient(bool hide) override; void destroyClient() override; QRect frameRectToBufferRect(const QRect &rect) const; QRect requestedFrameGeometry() const; QPoint requestedPos() const; QSize requestedSize() const; QRect requestedClientGeometry() const; QSize requestedClientSize() const; QRect clientGeometry() const; bool isClosing() const; bool isHidden() const; protected: void addDamage(const QRegion &damage) override; virtual XdgSurfaceConfigure *sendRoleConfigure() const = 0; virtual void handleRoleCommit(); virtual bool stateCompare() const; XdgSurfaceConfigure *lastAcknowledgedConfigure() const; void scheduleConfigure(); void sendConfigure(); void requestGeometry(const QRect &rect); void updateGeometry(const QRect &rect); private: void handleConfigureAcknowledged(quint32 serial); void handleCommit(); void handleNextWindowGeometry(); bool haveNextWindowGeometry() const; void setHaveNextWindowGeometry(); void resetHaveNextWindowGeometry(); QRect adjustMoveResizeGeometry(const QRect &rect) const; void updateGeometryRestoreHack(); void updateDepth(); void internalShow(); void internalHide(); void cleanGrouping(); void cleanTabBox(); KWaylandServer::XdgSurfaceInterface *m_shellSurface; QTimer *m_configureTimer; QQueue m_configureEvents; QScopedPointer m_lastAcknowledgedConfigure; QRect m_windowGeometry; QRect m_requestedFrameGeometry; QRect m_bufferGeometry; QRect m_requestedClientGeometry; - QRect m_clientGeometry; bool m_isClosing = false; bool m_isHidden = false; bool m_haveNextWindowGeometry = false; }; class XdgToplevelConfigure final : public XdgSurfaceConfigure { public: KWaylandServer::XdgToplevelInterface::States states; }; class XdgToplevelClient final : public XdgSurfaceClient { Q_OBJECT enum class PingReason { CloseWindow, FocusWindow }; public: explicit XdgToplevelClient(KWaylandServer::XdgToplevelInterface *shellSurface); ~XdgToplevelClient() override; KWaylandServer::XdgToplevelInterface *shellSurface() const; void debug(QDebug &stream) const override; NET::WindowType windowType(bool direct = false, int supported_types = 0) const override; MaximizeMode maximizeMode() const override; MaximizeMode requestedMaximizeMode() const override; QSize minSize() const override; QSize maxSize() const override; bool isFullScreen() const override; bool isMovableAcrossScreens() const override; bool isMovable() const override; bool isResizable() const override; bool isCloseable() const override; bool isFullScreenable() const override; bool isMaximizable() const override; bool isMinimizable() const override; bool isTransient() const override; bool userCanSetFullScreen() const override; bool userCanSetNoBorder() const override; bool noBorder() const override; void setNoBorder(bool set) override; void updateDecoration(bool check_workspace_pos, bool force = false) override; void updateColorScheme() override; bool supportsWindowRules() const override; void takeFocus() override; bool wantsInput() const override; bool dockWantsInput() const override; bool hasStrut() const override; void showOnScreenEdge() override; bool isInitialPositionSet() const override; void setFullScreen(bool set, bool user) override; void closeWindow() override; void installAppMenu(KWaylandServer::AppMenuInterface *appMenu); void installServerDecoration(KWaylandServer::ServerSideDecorationInterface *decoration); void installPalette(KWaylandServer::ServerSideDecorationPaletteInterface *palette); void installPlasmaShellSurface(KWaylandServer::PlasmaShellSurfaceInterface *shellSurface); void installXdgDecoration(KWaylandServer::XdgToplevelDecorationV1Interface *decoration); protected: XdgSurfaceConfigure *sendRoleConfigure() const override; void handleRoleCommit() override; void doMinimize() override; void doResizeSync() override; void doSetActive() override; void doSetFullScreen(); void doSetMaximized(); bool doStartMoveResize() override; void doFinishMoveResize() override; bool acceptsFocus() const override; void changeMaximize(bool horizontal, bool vertical, bool adjust) override; Layer layerForDock() const override; bool stateCompare() const override; private: void handleWindowTitleChanged(); void handleWindowClassChanged(); void handleWindowMenuRequested(KWaylandServer::SeatInterface *seat, const QPoint &surfacePos, quint32 serial); void handleMoveRequested(KWaylandServer::SeatInterface *seat, quint32 serial); void handleResizeRequested(KWaylandServer::SeatInterface *seat, Qt::Edges, quint32 serial); void handleStatesAcknowledged(const KWaylandServer::XdgToplevelInterface::States &states); void handleMaximizeRequested(); void handleUnmaximizeRequested(); void handleFullscreenRequested(KWaylandServer::OutputInterface *output); void handleUnfullscreenRequested(); void handleMinimizeRequested(); void handleTransientForChanged(); void handleForeignTransientForChanged(KWaylandServer::SurfaceInterface *child); void handlePingTimeout(quint32 serial); void handlePingDelayed(quint32 serial); void handlePongReceived(quint32 serial); void initialize(); void updateMaximizeMode(MaximizeMode maximizeMode); void updateFullScreenMode(bool set); void updateShowOnScreenEdge(); void setupWindowManagementIntegration(); void setupPlasmaShellIntegration(); void sendPing(PingReason reason); QPointer m_plasmaShellSurface; QPointer m_appMenuInterface; QPointer m_paletteInterface; QPointer m_serverDecoration; QPointer m_xdgDecoration; KWaylandServer::XdgToplevelInterface *m_shellSurface; KWaylandServer::XdgToplevelInterface::States m_requestedStates; KWaylandServer::XdgToplevelInterface::States m_acknowledgedStates; QMap m_pings; QRect m_fullScreenGeometryRestore; NET::WindowType m_windowType = NET::Normal; MaximizeMode m_maximizeMode = MaximizeRestore; MaximizeMode m_requestedMaximizeMode = MaximizeRestore; bool m_isFullScreen = false; bool m_userNoBorder = false; bool m_isTransient = false; }; class XdgPopupClient final : public XdgSurfaceClient { Q_OBJECT public: explicit XdgPopupClient(KWaylandServer::XdgPopupInterface *shellSurface); ~XdgPopupClient() override; void debug(QDebug &stream) const override; NET::WindowType windowType(bool direct = false, int supported_types = 0) const override; bool hasPopupGrab() const override; void popupDone() override; bool isPopupWindow() const override; bool isTransient() const override; bool isResizable() const override; bool isMovable() const override; bool isMovableAcrossScreens() const override; bool hasTransientPlacementHint() const override; QRect transientPlacement(const QRect &bounds) const override; bool isCloseable() const override; void closeWindow() override; void updateColorScheme() override; bool noBorder() const override; bool userCanSetNoBorder() const override; void setNoBorder(bool set) override; void updateDecoration(bool check_workspace_pos, bool force = false) override; void showOnScreenEdge() override; bool wantsInput() const override; void takeFocus() override; bool supportsWindowRules() const override; protected: bool acceptsFocus() const override; XdgSurfaceConfigure *sendRoleConfigure() const override; private: void handleGrabRequested(KWaylandServer::SeatInterface *seat, quint32 serial); void initialize(); KWaylandServer::XdgPopupInterface *m_shellSurface; bool m_haveExplicitGrab = false; }; } // namespace KWin Q_DECLARE_OPERATORS_FOR_FLAGS(KWin::XdgSurfaceConfigure::ConfigureFields)