diff --git a/effects/diminactive/diminactive.cpp b/effects/diminactive/diminactive.cpp index aae2c8b1b..69ba65311 100644 --- a/effects/diminactive/diminactive.cpp +++ b/effects/diminactive/diminactive.cpp @@ -1,392 +1,398 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2007 Lubos Lunak Copyright (C) 2007 Christian Nitschkowski Copyright (C) 2018 Vlad Zagorodniy 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 "diminactive.h" // KConfigSkeleton #include "diminactiveconfig.h" namespace KWin { /** * Checks if two windows belong to the same window group * * One possible example of a window group is an app window and app * preferences window(e.g. Dolphin window and Dolphin Preferences window). * * @param w1 The first window * @param w2 The second window * @returns @c true if both windows belong to the same window group, @c false otherwise **/ static inline bool belongToSameGroup(const EffectWindow *w1, const EffectWindow *w2) { return w1 && w2 && w1->group() && w1->group() == w2->group(); } DimInactiveEffect::DimInactiveEffect() { initConfig(); reconfigure(ReconfigureAll); connect(effects, &EffectsHandler::windowActivated, this, &DimInactiveEffect::windowActivated); connect(effects, &EffectsHandler::windowClosed, this, &DimInactiveEffect::windowClosed); connect(effects, &EffectsHandler::windowDeleted, this, &DimInactiveEffect::windowDeleted); connect(effects, &EffectsHandler::activeFullScreenEffectChanged, this, &DimInactiveEffect::activeFullScreenEffectChanged); } DimInactiveEffect::~DimInactiveEffect() { } void DimInactiveEffect::reconfigure(ReconfigureFlags flags) { Q_UNUSED(flags) DimInactiveConfig::self()->read(); // TODO: Use normalized strength param. m_dimStrength = DimInactiveConfig::strength() / 100.0; m_dimPanels = DimInactiveConfig::dimPanels(); m_dimDesktop = DimInactiveConfig::dimDesktop(); m_dimKeepAbove = DimInactiveConfig::dimKeepAbove(); m_dimByGroup = DimInactiveConfig::dimByGroup(); // Need to reset m_activeWindow becase canDimWindow returns false // if m_activeWindow is equal to effects->activeWindow(). m_activeWindow = nullptr; EffectWindow *activeWindow = effects->activeWindow(); m_activeWindow = (activeWindow && canDimWindow(activeWindow)) ? activeWindow : nullptr; m_activeWindowGroup = (m_dimByGroup && m_activeWindow) ? m_activeWindow->group() : nullptr; m_fullScreenTransition.timeLine.setDuration( std::chrono::milliseconds(static_cast(animationTime(250)))); effects->addRepaintFull(); } void DimInactiveEffect::prePaintScreen(ScreenPrePaintData &data, int time) { const std::chrono::milliseconds delta(time); if (m_fullScreenTransition.active) { m_fullScreenTransition.timeLine.update(delta); } auto transitionIt = m_transitions.begin(); while (transitionIt != m_transitions.end()) { (*transitionIt).update(delta); ++transitionIt; } effects->prePaintScreen(data, time); } void DimInactiveEffect::paintWindow(EffectWindow *w, int mask, QRegion region, WindowPaintData &data) { auto transitionIt = m_transitions.constFind(w); if (transitionIt != m_transitions.constEnd()) { const qreal transitionProgress = (*transitionIt).value(); dimWindow(data, m_dimStrength * transitionProgress); effects->paintWindow(w, mask, region, data); return; } auto forceIt = m_forceDim.constFind(w); if (forceIt != m_forceDim.constEnd()) { const qreal forcedStrength = *forceIt; dimWindow(data, forcedStrength); effects->paintWindow(w, mask, region, data); return; } if (canDimWindow(w)) { dimWindow(data, m_dimStrength); } effects->paintWindow(w, mask, region, data); } void DimInactiveEffect::postPaintScreen() { if (m_fullScreenTransition.active) { if (m_fullScreenTransition.timeLine.done()) { m_fullScreenTransition.active = false; } effects->addRepaintFull(); } auto transitionIt = m_transitions.begin(); while (transitionIt != m_transitions.end()) { EffectWindow *w = transitionIt.key(); if ((*transitionIt).done()) { transitionIt = m_transitions.erase(transitionIt); } else { ++transitionIt; } w->addRepaintFull(); } effects->postPaintScreen(); } void DimInactiveEffect::dimWindow(WindowPaintData &data, qreal strength) { qreal dimFactor; if (m_fullScreenTransition.active) { dimFactor = 1.0 - m_fullScreenTransition.timeLine.value(); } else if (effects->activeFullScreenEffect()) { dimFactor = 0.0; } else { dimFactor = 1.0; } data.multiplyBrightness(1.0 - strength * dimFactor); data.multiplySaturation(1.0 - strength * dimFactor); } bool DimInactiveEffect::canDimWindow(const EffectWindow *w) const { if (m_activeWindow == w) { return false; } if (m_dimByGroup && belongToSameGroup(m_activeWindow, w)) { return false; } if (w->isDock() && !m_dimPanels) { return false; } if (w->isDesktop() && !m_dimDesktop) { return false; } if (w->keepAbove() && !m_dimKeepAbove) { return false; } if (!w->isManaged()) { return false; } return w->isNormalWindow() || w->isDialog() || w->isUtility() || w->isDock() || w->isDesktop(); } void DimInactiveEffect::scheduleInTransition(EffectWindow *w) { TimeLine &timeLine = m_transitions[w]; timeLine.setDuration( std::chrono::milliseconds(static_cast(animationTime(160)))); if (timeLine.done()) { // If the Out animation is still active, then we're trucating // duration of the timeline(from 250ms to 160ms). If the timeline // is about to be finished with the old duration, then after // changing duration it will be in the "done" state. Thus, we // have to reset the timeline, otherwise it won't update progress. timeLine.reset(); } timeLine.setDirection(TimeLine::Backward); timeLine.setEasingCurve(QEasingCurve::InOutSine); } void DimInactiveEffect::scheduleGroupInTransition(EffectWindow *w) { if (!m_dimByGroup) { scheduleInTransition(w); return; } if (!w->group()) { scheduleInTransition(w); return; } const auto members = w->group()->members(); for (EffectWindow *member : members) { scheduleInTransition(member); } } void DimInactiveEffect::scheduleOutTransition(EffectWindow *w) { TimeLine &timeLine = m_transitions[w]; timeLine.setDuration( std::chrono::milliseconds(static_cast(animationTime(250)))); if (timeLine.done()) { timeLine.reset(); } timeLine.setDirection(TimeLine::Forward); timeLine.setEasingCurve(QEasingCurve::InOutSine); } void DimInactiveEffect::scheduleGroupOutTransition(EffectWindow *w) { if (!m_dimByGroup) { scheduleOutTransition(w); return; } if (!w->group()) { scheduleOutTransition(w); return; } const auto members = w->group()->members(); for (EffectWindow *member : members) { scheduleOutTransition(member); } } void DimInactiveEffect::scheduleRepaint(EffectWindow *w) { if (!m_dimByGroup) { w->addRepaintFull(); return; } if (!w->group()) { w->addRepaintFull(); return; } const auto members = w->group()->members(); for (EffectWindow *member : members) { member->addRepaintFull(); } } void DimInactiveEffect::windowActivated(EffectWindow *w) { if (!w) { return; } if (m_activeWindow == w) { return; } if (m_dimByGroup && belongToSameGroup(m_activeWindow, w)) { m_activeWindow = w; return; } // WORKAROUND: Deleted windows do not belong to any of window groups. // So, if one of windows in a window group is closed, the In transition // will be false-triggered for the rest of the window group. In addition // to the active window, keep track of active window group so we can // tell whether "focus" moved from a closed window to some other window // in a window group. if (m_dimByGroup && w->group() && w->group() == m_activeWindowGroup) { m_activeWindow = w; return; } EffectWindow *previousActiveWindow = m_activeWindow; m_activeWindow = canDimWindow(w) ? w : nullptr; m_activeWindowGroup = (m_dimByGroup && m_activeWindow) ? m_activeWindow->group() : nullptr; if (previousActiveWindow) { scheduleGroupOutTransition(previousActiveWindow); scheduleRepaint(previousActiveWindow); } if (m_activeWindow) { scheduleGroupInTransition(m_activeWindow); scheduleRepaint(m_activeWindow); } } void DimInactiveEffect::windowClosed(EffectWindow *w) { // When a window is closed, we should force current dim strength that // is applied to it to avoid flickering when some effect animates // the disappearing of the window. If there is no such effect then // it won't be dimmed. qreal forcedStrength = 0.0; bool shouldForceDim = false; auto transitionIt = m_transitions.find(w); if (transitionIt != m_transitions.end()) { forcedStrength = m_dimStrength * (*transitionIt).value(); shouldForceDim = true; m_transitions.erase(transitionIt); } else if (m_activeWindow == w) { forcedStrength = 0.0; shouldForceDim = true; } else if (m_dimByGroup && belongToSameGroup(m_activeWindow, w)) { forcedStrength = 0.0; shouldForceDim = true; } else if (canDimWindow(w)) { forcedStrength = m_dimStrength; shouldForceDim = true; } if (shouldForceDim) { m_forceDim.insert(w, forcedStrength); } if (m_activeWindow == w) { m_activeWindow = nullptr; } } void DimInactiveEffect::windowDeleted(EffectWindow *w) { m_forceDim.remove(w); + + // FIXME: Sometimes we can miss the window close signal because KWin + // can activate a window that is not ready for painting and the window + // gets destroyed immediately. So, we have to remove active transitions + // for that window here, otherwise we'll crash in postPaintScreen. + m_transitions.remove(w); } void DimInactiveEffect::activeFullScreenEffectChanged() { if (m_fullScreenTransition.timeLine.done()) { m_fullScreenTransition.timeLine.reset(); } m_fullScreenTransition.timeLine.setDirection( effects->activeFullScreenEffect() ? TimeLine::Forward : TimeLine::Backward ); m_fullScreenTransition.active = true; effects->addRepaintFull(); } } // namespace KWin diff --git a/plugins/qpa/integration.cpp b/plugins/qpa/integration.cpp index 055b8fb13..d934b9760 100644 --- a/plugins/qpa/integration.cpp +++ b/plugins/qpa/integration.cpp @@ -1,288 +1,294 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2015 Martin Gräßlin 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 . *********************************************************************/ #define WL_EGL_PLATFORM 1 #include "integration.h" #include "platform.h" #include "backingstore.h" #include "nativeinterface.h" #include "platformcontextwayland.h" #include "screen.h" #include "sharingplatformcontext.h" #include "window.h" #include "../../virtualkeyboard.h" #include "../../main.h" #include "../../screens.h" #include "../../wayland_server.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace KWin { namespace QPA { Integration::Integration() : QObject() , QPlatformIntegration() , m_fontDb(new QGenericUnixFontDatabase()) , m_nativeInterface(new NativeInterface(this)) , m_inputContext() { } Integration::~Integration() = default; bool Integration::hasCapability(Capability cap) const { switch (cap) { case ThreadedPixmaps: return true; case OpenGL: return true; case ThreadedOpenGL: return false; case BufferQueueingOpenGL: return false; case MultipleWindows: case NonFullScreenWindows: return true; case RasterGLSurface: return false; default: return QPlatformIntegration::hasCapability(cap); } } void Integration::initialize() { connect(kwinApp(), &Application::screensCreated, this, [this] { connect(screens(), &Screens::changed, this, &Integration::initScreens); initScreens(); } ); QPlatformIntegration::initialize(); auto dummyScreen = new Screen(-1); screenAdded(dummyScreen); m_screens << dummyScreen; m_inputContext.reset(QPlatformInputContextFactory::create(QStringLiteral("qtvirtualkeyboard"))); qunsetenv("QT_IM_MODULE"); if (!m_inputContext.isNull()) { connect(qApp, &QGuiApplication::focusObjectChanged, this, [this] { if (VirtualKeyboard::self() && qApp->focusObject() != VirtualKeyboard::self()) { m_inputContext->setFocusObject(VirtualKeyboard::self()); } } ); connect(kwinApp(), &Application::workspaceCreated, this, [this] { if (VirtualKeyboard::self()) { m_inputContext->setFocusObject(VirtualKeyboard::self()); } } ); connect(qApp->inputMethod(), &QInputMethod::visibleChanged, this, [this] { if (qApp->inputMethod()->isVisible()) { if (QWindow *w = VirtualKeyboard::self()->inputPanel()) { QWindowSystemInterface::handleWindowActivated(w, Qt::ActiveWindowFocusReason); } } } ); } } QAbstractEventDispatcher *Integration::createEventDispatcher() const { return new QUnixEventDispatcherQPA; } QPlatformBackingStore *Integration::createPlatformBackingStore(QWindow *window) const { auto registry = waylandServer()->internalClientRegistry(); const auto shm = registry->interface(KWayland::Client::Registry::Interface::Shm); if (shm.name == 0u) { return nullptr; } return new BackingStore(window, registry->createShmPool(shm.name, shm.version, window)); } QPlatformWindow *Integration::createPlatformWindow(QWindow *window) const { auto c = compositor(); auto s = shell(); if (!s || !c) { return new QPlatformWindow(window); } else { // don't set window as parent, cause infinite recursion in PlasmaQuick::Dialog auto surface = c->createSurface(c); return new Window(window, surface, s->createSurface(surface, surface), this); } } QPlatformFontDatabase *Integration::fontDatabase() const { return m_fontDb; } QPlatformTheme *Integration::createPlatformTheme(const QString &name) const { return QGenericUnixTheme::createUnixTheme(name); } QStringList Integration::themeNames() const { if (qEnvironmentVariableIsSet("KDE_FULL_SESSION")) { return QStringList({QStringLiteral("kde")}); } return QStringList({QLatin1String(QGenericUnixTheme::name)}); } QPlatformNativeInterface *Integration::nativeInterface() const { return m_nativeInterface; } QPlatformOpenGLContext *Integration::createPlatformOpenGLContext(QOpenGLContext *context) const { if (kwinApp()->platform()->supportsQpaContext()) { return new SharingPlatformContext(context); } if (kwinApp()->platform()->sceneEglDisplay() != EGL_NO_DISPLAY) { auto s = kwinApp()->platform()->sceneEglSurface(); if (s != EGL_NO_SURFACE) { // try a SharingPlatformContext with a created surface return new SharingPlatformContext(context, s, kwinApp()->platform()->sceneEglConfig()); } } if (m_eglDisplay == EGL_NO_DISPLAY) { const_cast(this)->initEgl(); } if (m_eglDisplay == EGL_NO_DISPLAY) { return nullptr; } return new PlatformContextWayland(context, const_cast(this)); } void Integration::initScreens() { QVector newScreens; + newScreens.reserve(qMax(screens()->count(), 1)); for (int i = 0; i < screens()->count(); i++) { auto screen = new Screen(i); screenAdded(screen); newScreens << screen; } + if (newScreens.isEmpty()) { + auto dummyScreen = new Screen(-1); + screenAdded(dummyScreen); + newScreens << dummyScreen; + } while (!m_screens.isEmpty()) { destroyScreen(m_screens.takeLast()); } m_screens = newScreens; } KWayland::Client::Compositor *Integration::compositor() const { if (!m_compositor) { using namespace KWayland::Client; auto registry = waylandServer()->internalClientRegistry(); const auto c = registry->interface(Registry::Interface::Compositor); if (c.name != 0u) { const_cast(this)->m_compositor = registry->createCompositor(c.name, c.version, registry); } } return m_compositor; } KWayland::Client::Shell *Integration::shell() const { if (!m_shell) { using namespace KWayland::Client; auto registry = waylandServer()->internalClientRegistry(); const auto s = registry->interface(Registry::Interface::Shell); if (s.name != 0u) { const_cast(this)->m_shell = registry->createShell(s.name, s.version, registry); } } return m_shell; } EGLDisplay Integration::eglDisplay() const { return m_eglDisplay; } void Integration::initEgl() { Q_ASSERT(m_eglDisplay == EGL_NO_DISPLAY); // This variant uses Wayland as the EGL platform qputenv("EGL_PLATFORM", "wayland"); m_eglDisplay = eglGetDisplay(waylandServer()->internalClientConection()->display()); if (m_eglDisplay == EGL_NO_DISPLAY) { return; } // call eglInitialize in a thread to not block QFuture future = QtConcurrent::run([this] () -> bool { EGLint major, minor; if (eglInitialize(m_eglDisplay, &major, &minor) == EGL_FALSE) { return false; } EGLint error = eglGetError(); if (error != EGL_SUCCESS) { return false; } return true; }); // TODO: make this better while (!future.isFinished()) { waylandServer()->internalClientConection()->flush(); QCoreApplication::processEvents(QEventLoop::WaitForMoreEvents); } if (!future.result()) { eglTerminate(m_eglDisplay); m_eglDisplay = EGL_NO_DISPLAY; } } QPlatformInputContext *Integration::inputContext() const { return m_inputContext.data(); } } } diff --git a/useractions.cpp b/useractions.cpp index f3ca0f90b..1d10f7a22 100644 --- a/useractions.cpp +++ b/useractions.cpp @@ -1,1829 +1,1829 @@ /******************************************************************** 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 direct user actions, such as responses to global keyboard shortcuts, or selecting actions from the window operations menu. */ /////////////////////////////////////////////////////////////////////////////// // NOTE: if you change the menu, keep kde-workspace/libs/taskmanager/taskactions.cpp in sync ////////////////////////////////////////////////////////////////////////////// #include "useractions.h" #include "cursor.h" #include "client.h" #include "composite.h" #include "input.h" #include "workspace.h" #include "effects.h" #include "platform.h" #include "screens.h" #include "shell_client.h" #include "virtualdesktops.h" #include "scripting/scripting.h" #ifdef KWIN_BUILD_ACTIVITIES #include "activities.h" #include #endif #include "appmenu.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include "killwindow.h" #ifdef KWIN_BUILD_TABBOX #include "tabbox.h" #endif namespace KWin { UserActionsMenu::UserActionsMenu(QObject *parent) : QObject(parent) , m_menu(NULL) , m_desktopMenu(NULL) , m_screenMenu(NULL) , m_activityMenu(NULL) , m_addTabsMenu(NULL) , m_switchToTabMenu(NULL) , m_scriptsMenu(NULL) , m_resizeOperation(NULL) , m_moveOperation(NULL) , m_maximizeOperation(NULL) , m_shadeOperation(NULL) , m_keepAboveOperation(NULL) , m_keepBelowOperation(NULL) , m_fullScreenOperation(NULL) , m_noBorderOperation(NULL) , m_minimizeOperation(NULL) , m_closeOperation(NULL) , m_removeFromTabGroup(NULL) , m_closeTabGroup(NULL) , m_client(QWeakPointer()) { } UserActionsMenu::~UserActionsMenu() { discard(); } bool UserActionsMenu::isShown() const { return m_menu && m_menu->isVisible(); } bool UserActionsMenu::hasClient() const { return !m_client.isNull() && isShown(); } void UserActionsMenu::close() { if (!m_menu) { return; } m_menu->close(); m_client.clear(); } bool UserActionsMenu::isMenuClient(const AbstractClient *c) const { if (!c || m_client.isNull()) { return false; } return c == m_client.data(); } void UserActionsMenu::show(const QRect &pos, const QWeakPointer &cl) { if (!KAuthorized::authorizeAction(QStringLiteral("kwin_rmb"))) return; if (cl.isNull()) return; if (isShown()) // recursion return; if (cl.data()->isDesktop() || cl.data()->isDock()) return; m_client = cl; init(); Workspace *ws = Workspace::self(); int x = pos.left(); int y = pos.bottom(); const bool needsPopup = kwinApp()->shouldUseWaylandForCompositing(); if (y == pos.top()) { m_client.data()->blockActivityUpdates(true); if (needsPopup) { m_menu->popup(QPoint(x, y)); } else { m_menu->exec(QPoint(x, y)); } if (!m_client.isNull()) m_client.data()->blockActivityUpdates(false); } else { m_client.data()->blockActivityUpdates(true); QRect area = ws->clientArea(ScreenArea, QPoint(x, y), VirtualDesktopManager::self()->current()); menuAboutToShow(); // needed for sizeHint() to be correct :-/ int popupHeight = m_menu->sizeHint().height(); if (y + popupHeight < area.height()) { if (needsPopup) { m_menu->popup(QPoint(x, y)); } else { m_menu->exec(QPoint(x, y)); } } else { if (needsPopup) { m_menu->popup(QPoint(x, pos.top() - popupHeight)); } else { m_menu->exec(QPoint(x, pos.top() - popupHeight)); } } if (!m_client.isNull()) - m_client.data()->blockActivityUpdates(true); + m_client.data()->blockActivityUpdates(false); } } void UserActionsMenu::grabInput() { m_menu->windowHandle()->setMouseGrabEnabled(true); m_menu->windowHandle()->setKeyboardGrabEnabled(true); } void UserActionsMenu::helperDialog(const QString& message, const QWeakPointer &c) { QStringList args; QString type; auto shortcut = [](const QString &name) { QAction* action = Workspace::self()->findChild(name); assert(action != NULL); const auto shortcuts = KGlobalAccel::self()->shortcut(action); return QStringLiteral("%1 (%2)").arg(action->text()) .arg(shortcuts.isEmpty() ? QString() : shortcuts.first().toString(QKeySequence::NativeText)); }; if (message == QStringLiteral("noborderaltf3")) { args << QStringLiteral("--msgbox") << i18n( "You have selected to show a window without its border.\n" "Without the border, you will not be able to enable the border " "again using the mouse: use the window operations menu instead, " "activated using the %1 keyboard shortcut.", shortcut(QStringLiteral("Window Operations Menu"))); type = QStringLiteral("altf3warning"); } else if (message == QLatin1String("fullscreenaltf3")) { args << QStringLiteral("--msgbox") << i18n( "You have selected to show a window in fullscreen mode.\n" "If the application itself does not have an option to turn the fullscreen " "mode off you will not be able to disable it " "again using the mouse: use the window operations menu instead, " "activated using the %1 keyboard shortcut.", shortcut(QStringLiteral("Window Operations Menu"))); type = QStringLiteral("altf3warning"); } else abort(); if (!type.isEmpty()) { KConfig cfg(QStringLiteral("kwin_dialogsrc")); KConfigGroup cg(&cfg, "Notification Messages"); // Depends on KMessageBox if (!cg.readEntry(type, true)) return; args << QStringLiteral("--dontagain") << QLatin1String("kwin_dialogsrc:") + type; } if (!c.isNull()) args << QStringLiteral("--embed") << QString::number(c.data()->windowId()); QtConcurrent::run([args]() { KProcess::startDetached(QStringLiteral("kdialog"), args); }); } QStringList configModules(bool controlCenter) { QStringList args; args << QStringLiteral("kwindecoration"); if (controlCenter) args << QStringLiteral("kwinoptions"); else if (KAuthorized::authorizeControlModule(QStringLiteral("kde-kwinoptions.desktop"))) args << QStringLiteral("kwinactions") << QStringLiteral("kwinfocus") << QStringLiteral("kwinmoving") << QStringLiteral("kwinadvanced") << QStringLiteral("kwinrules") << QStringLiteral("kwincompositing") << QStringLiteral("kwineffects") #ifdef KWIN_BUILD_TABBOX << QStringLiteral("kwintabbox") #endif << QStringLiteral("kwinscreenedges") << QStringLiteral("kwinscripts") ; return args; } void UserActionsMenu::init() { if (m_menu) { return; } m_menu = new QMenu; connect(m_menu, &QMenu::aboutToShow, this, &UserActionsMenu::menuAboutToShow); connect(m_menu, &QMenu::triggered, this, &UserActionsMenu::slotWindowOperation, Qt::QueuedConnection); QMenu *advancedMenu = new QMenu(m_menu); connect(advancedMenu, &QMenu::aboutToShow, [this, advancedMenu]() { advancedMenu->setPalette(m_client.data()->palette()); }); auto setShortcut = [](QAction *action, const QString &actionName) { const auto shortcuts = KGlobalAccel::self()->shortcut(Workspace::self()->findChild(actionName)); if (!shortcuts.isEmpty()) { action->setShortcut(shortcuts.first()); } }; m_moveOperation = advancedMenu->addAction(i18n("&Move")); m_moveOperation->setIcon(QIcon::fromTheme(QStringLiteral("transform-move"))); setShortcut(m_moveOperation, QStringLiteral("Window Move")); m_moveOperation->setData(Options::UnrestrictedMoveOp); m_resizeOperation = advancedMenu->addAction(i18n("&Resize")); setShortcut(m_resizeOperation, QStringLiteral("Window Resize")); m_resizeOperation->setData(Options::ResizeOp); m_keepAboveOperation = advancedMenu->addAction(i18n("Keep &Above Others")); m_keepAboveOperation->setIcon(QIcon::fromTheme(QStringLiteral("go-up"))); setShortcut(m_keepAboveOperation, QStringLiteral("Window Above Other Windows")); m_keepAboveOperation->setCheckable(true); m_keepAboveOperation->setData(Options::KeepAboveOp); m_keepBelowOperation = advancedMenu->addAction(i18n("Keep &Below Others")); m_keepBelowOperation->setIcon(QIcon::fromTheme(QStringLiteral("go-down"))); setShortcut(m_keepBelowOperation, QStringLiteral("Window Below Other Windows")); m_keepBelowOperation->setCheckable(true); m_keepBelowOperation->setData(Options::KeepBelowOp); m_fullScreenOperation = advancedMenu->addAction(i18n("&Fullscreen")); m_fullScreenOperation->setIcon(QIcon::fromTheme(QStringLiteral("view-fullscreen"))); setShortcut(m_fullScreenOperation, QStringLiteral("Window Fullscreen")); m_fullScreenOperation->setCheckable(true); m_fullScreenOperation->setData(Options::FullScreenOp); m_shadeOperation = advancedMenu->addAction(i18n("&Shade")); setShortcut(m_shadeOperation, QStringLiteral("Window Shade")); m_shadeOperation->setCheckable(true); m_shadeOperation->setData(Options::ShadeOp); m_noBorderOperation = advancedMenu->addAction(i18n("&No Border")); setShortcut(m_noBorderOperation, QStringLiteral("Window No Border")); m_noBorderOperation->setCheckable(true); m_noBorderOperation->setData(Options::NoBorderOp); advancedMenu->addSeparator(); m_shortcutOperation = advancedMenu->addAction(i18n("Window Short&cut...")); m_shortcutOperation->setIcon(QIcon::fromTheme(QStringLiteral("configure-shortcuts"))); setShortcut(m_shortcutOperation, QStringLiteral("Setup Window Shortcut")); m_shortcutOperation->setData(Options::SetupWindowShortcutOp); QAction *action = advancedMenu->addAction(i18n("Special &Window Settings...")); action->setIcon(QIcon::fromTheme(QStringLiteral("preferences-system-windows-actions"))); action->setData(Options::WindowRulesOp); m_rulesOperation = action; action = advancedMenu->addAction(i18n("S&pecial Application Settings...")); action->setIcon(QIcon::fromTheme(QStringLiteral("preferences-system-windows-actions"))); action->setData(Options::ApplicationRulesOp); m_applicationRulesOperation = action; if (!kwinApp()->config()->isImmutable() && !KAuthorized::authorizeControlModules(configModules(true)).isEmpty()) { advancedMenu->addSeparator(); action = advancedMenu->addAction(i18nc("Entry in context menu of window decoration to open the configuration module of KWin", "Window Manager S&ettings...")); action->setIcon(QIcon::fromTheme(QStringLiteral("configure"))); connect(action, &QAction::triggered, this, [this]() { // opens the KWin configuration QStringList args; args << QStringLiteral("--icon") << QStringLiteral("preferences-system-windows"); const QString path = QStandardPaths::locate(QStandardPaths::GenericDataLocation, QStringLiteral("kservices5/kwinfocus.desktop")); if (!path.isEmpty()) { args << QStringLiteral("--desktopfile") << path; } args << configModules(false); QProcess *p = new Process(this); p->setArguments(args); p->setProcessEnvironment(kwinApp()->processStartupEnvironment()); p->setProgram(QStringLiteral("kcmshell5")); connect(p, static_cast(&QProcess::finished), p, &QProcess::deleteLater); connect(p, static_cast(&QProcess::error), this, [p] (QProcess::ProcessError e) { if (e == QProcess::FailedToStart) { qCDebug(KWIN_CORE) << "Failed to start kcmshell5"; } } ); p->start(); } ); } m_minimizeOperation = m_menu->addAction(i18n("Mi&nimize")); setShortcut(m_minimizeOperation, QStringLiteral("Window Minimize")); m_minimizeOperation->setData(Options::MinimizeOp); m_maximizeOperation = m_menu->addAction(i18n("Ma&ximize")); setShortcut(m_maximizeOperation, QStringLiteral("Window Maximize")); m_maximizeOperation->setCheckable(true); m_maximizeOperation->setData(Options::MaximizeOp); m_menu->addSeparator(); // Actions for window tabbing if (false) { m_removeFromTabGroup = m_menu->addAction(i18n("&Untab")); setShortcut(m_removeFromTabGroup, QStringLiteral("Untab")); m_removeFromTabGroup->setData(Options::RemoveTabFromGroupOp); m_closeTabGroup = m_menu->addAction(i18n("Close Entire &Group")); m_closeTabGroup->setIcon(QIcon::fromTheme(QStringLiteral("window-close"))); setShortcut(m_closeTabGroup, QStringLiteral("Close TabGroup")); m_closeTabGroup->setData(Options::CloseTabGroupOp); m_menu->addSeparator(); } m_menu->addSeparator(); action = m_menu->addMenu(advancedMenu); action->setText(i18n("&More Actions")); m_menu->addSeparator(); m_closeOperation = m_menu->addAction(i18n("&Close")); m_closeOperation->setIcon(QIcon::fromTheme(QStringLiteral("window-close"))); setShortcut(m_closeOperation, QStringLiteral("Window Close")); m_closeOperation->setData(Options::CloseOp); } void UserActionsMenu::discard() { delete m_menu; m_menu = NULL; m_desktopMenu = NULL; m_screenMenu = NULL; m_activityMenu = NULL; m_switchToTabMenu = NULL; m_addTabsMenu = NULL; m_scriptsMenu = NULL; } void UserActionsMenu::menuAboutToShow() { if (m_client.isNull() || !m_menu) return; if (VirtualDesktopManager::self()->count() == 1) { delete m_desktopMenu; m_desktopMenu = 0; } else { initDesktopPopup(); } if (screens()->count() == 1 || (!m_client.data()->isMovable() && !m_client.data()->isMovableAcrossScreens())) { delete m_screenMenu; m_screenMenu = NULL; } else { initScreenPopup(); } m_menu->setPalette(m_client.data()->palette()); m_resizeOperation->setEnabled(m_client.data()->isResizable()); m_moveOperation->setEnabled(m_client.data()->isMovableAcrossScreens()); m_maximizeOperation->setEnabled(m_client.data()->isMaximizable()); m_maximizeOperation->setChecked(m_client.data()->maximizeMode() == MaximizeFull); m_shadeOperation->setEnabled(m_client.data()->isShadeable()); m_shadeOperation->setChecked(m_client.data()->shadeMode() != ShadeNone); m_keepAboveOperation->setChecked(m_client.data()->keepAbove()); m_keepBelowOperation->setChecked(m_client.data()->keepBelow()); m_fullScreenOperation->setEnabled(m_client.data()->userCanSetFullScreen()); m_fullScreenOperation->setChecked(m_client.data()->isFullScreen()); m_noBorderOperation->setEnabled(m_client.data()->userCanSetNoBorder()); m_noBorderOperation->setChecked(m_client.data()->noBorder()); m_minimizeOperation->setEnabled(m_client.data()->isMinimizable()); m_closeOperation->setEnabled(m_client.data()->isCloseable()); m_shortcutOperation->setEnabled(m_client.data()->rules()->checkShortcut(QString()).isNull()); if (false) { initTabbingPopups(); m_addTabsMenu->setPalette(m_client.data()->palette()); } else { delete m_addTabsMenu; m_addTabsMenu = 0; } // drop the existing scripts menu delete m_scriptsMenu; m_scriptsMenu = NULL; // ask scripts whether they want to add entries for the given Client QList scriptActions = Scripting::self()->actionsForUserActionMenu(m_client.data(), m_scriptsMenu); if (!scriptActions.isEmpty()) { m_scriptsMenu = new QMenu(m_menu); m_scriptsMenu->setPalette(m_client.data()->palette()); m_scriptsMenu->addActions(scriptActions); QAction *action = m_scriptsMenu->menuAction(); // set it as the first item after desktop m_menu->insertAction(m_closeOperation, action); action->setText(i18n("&Extensions")); } // disable rules for Wayland windows - dialog is X11 only if (qobject_cast(m_client.data())) { m_rulesOperation->setEnabled(false); m_applicationRulesOperation->setEnabled(false); } else { m_rulesOperation->setEnabled(true); m_applicationRulesOperation->setEnabled(true); } showHideActivityMenu(); } void UserActionsMenu::showHideActivityMenu() { #ifdef KWIN_BUILD_ACTIVITIES if (!Activities::self()) { return; } const QStringList &openActivities_ = Activities::self()->running(); qCDebug(KWIN_CORE) << "activities:" << openActivities_.size(); if (openActivities_.size() < 2) { delete m_activityMenu; m_activityMenu = 0; } else { initActivityPopup(); } #endif } void UserActionsMenu::selectPopupClientTab(QAction* action) { if (!(!m_client.isNull() && m_client.data()->tabGroup()) || !action->data().isValid()) return; if (AbstractClient *other = action->data().value()) { m_client.data()->tabGroup()->setCurrent(other); return; } // failed conversion, try "1" & "2", being prev and next int direction = action->data().toInt(); if (direction == 1) m_client.data()->tabGroup()->activatePrev(); else if (direction == 2) m_client.data()->tabGroup()->activateNext(); } static QString shortCaption(const QString &s) { if (s.length() < 64) return s; QString ss = s; return ss.replace(32,s.length()-64, QStringLiteral("...")); } void UserActionsMenu::rebuildTabListPopup() { Q_ASSERT(m_switchToTabMenu); m_switchToTabMenu->clear(); // whatever happens "0x1" and "0x2" are no heap positions ;-) m_switchToTabMenu->addAction(i18nc("Switch to tab -> Previous", "Previous"))->setData(1); m_switchToTabMenu->addAction(i18nc("Switch to tab -> Next", "Next"))->setData(2); m_switchToTabMenu->addSeparator(); for (auto i = m_client.data()->tabGroup()->clients().constBegin(), end = m_client.data()->tabGroup()->clients().constEnd(); i != end; ++i) { if ((*i)->noBorder() || *i == m_client.data()->tabGroup()->current()) continue; // cannot tab there anyway m_switchToTabMenu->addAction(shortCaption((*i)->caption()))->setData(QVariant::fromValue(*i)); } } void UserActionsMenu::entabPopupClient(QAction* action) { if (m_client.isNull() || !action->data().isValid()) return; AbstractClient *other = action->data().value(); if (!Workspace::self()->allClientList().contains(other)) // might have been lost betwenn pop-up and selection return; AbstractClient *c = m_client.data(); if (!c) { return; } c->tabBehind(other, true); if (options->focusPolicyIsReasonable()) Workspace::self()->requestFocus(c); } void UserActionsMenu::rebuildTabGroupPopup() { Q_ASSERT(m_addTabsMenu); m_addTabsMenu->clear(); const auto &clientList = Workspace::self()->allClientList(); for (auto i = clientList.constBegin(), end = clientList.constEnd(); i != end; ++i) { if (*i == m_client.data() || (*i)->noBorder()) continue; m_addTabsMenu->addAction(shortCaption((*i)->caption()))->setData(QVariant::fromValue(*i)); } if (m_addTabsMenu->actions().isEmpty()) m_addTabsMenu->addAction(i18nc("There's no window available to be attached as tab to this one", "None available"))->setEnabled(false); } void UserActionsMenu::initTabbingPopups() { bool needTabManagers = false; if (m_client.data()->tabGroup() && m_client.data()->tabGroup()->count() > 1) { needTabManagers = true; if (!m_switchToTabMenu) { m_switchToTabMenu = new QMenu(i18n("Switch to Tab"), m_menu); connect(m_switchToTabMenu, &QMenu::triggered, this, &UserActionsMenu::selectPopupClientTab); connect(m_switchToTabMenu, &QMenu::aboutToShow, this, &UserActionsMenu::rebuildTabListPopup); m_menu->insertMenu(m_removeFromTabGroup, m_switchToTabMenu); } } else { delete m_switchToTabMenu; m_switchToTabMenu = 0; } if (!m_addTabsMenu) { m_addTabsMenu = new QMenu(i18n("&Attach as tab to"), m_menu); connect(m_addTabsMenu, &QMenu::triggered, this, &UserActionsMenu::entabPopupClient); connect(m_addTabsMenu, &QMenu::aboutToShow, this, &UserActionsMenu::rebuildTabGroupPopup); m_menu->insertMenu(m_removeFromTabGroup, m_addTabsMenu); } m_addTabsMenu->menuAction()->setEnabled(!m_client.data()->isFullScreen()); m_removeFromTabGroup->setVisible(needTabManagers); m_closeTabGroup->setVisible(needTabManagers); } void UserActionsMenu::initDesktopPopup() { if (m_desktopMenu) return; m_desktopMenu = new QMenu(m_menu); connect(m_desktopMenu, &QMenu::triggered, this, &UserActionsMenu::slotSendToDesktop); connect(m_desktopMenu, &QMenu::aboutToShow, this, &UserActionsMenu::desktopPopupAboutToShow); QAction *action = m_desktopMenu->menuAction(); // set it as the first item m_menu->insertAction(m_minimizeOperation, action); action->setText(i18n("Move To &Desktop")); } void UserActionsMenu::initScreenPopup() { if (m_screenMenu) { return; } m_screenMenu = new QMenu(m_menu); connect(m_screenMenu, &QMenu::triggered, this, &UserActionsMenu::slotSendToScreen); connect(m_screenMenu, &QMenu::aboutToShow, this, &UserActionsMenu::screenPopupAboutToShow); QAction *action = m_screenMenu->menuAction(); // set it as the first item after desktop m_menu->insertAction(m_activityMenu ? m_activityMenu->menuAction() : m_minimizeOperation, action); action->setText(i18n("Move To &Screen")); } void UserActionsMenu::initActivityPopup() { if (m_activityMenu) return; m_activityMenu = new QMenu(m_menu); connect(m_activityMenu, &QMenu::triggered, this, &UserActionsMenu::slotToggleOnActivity); connect(m_activityMenu, &QMenu::aboutToShow, this, &UserActionsMenu::activityPopupAboutToShow); QAction *action = m_activityMenu->menuAction(); // set it as the first item m_menu->insertAction(m_minimizeOperation, action); action->setText(i18n("Ac&tivities")); //FIXME is that a good string? } void UserActionsMenu::desktopPopupAboutToShow() { if (!m_desktopMenu) return; const VirtualDesktopManager *vds = VirtualDesktopManager::self(); m_desktopMenu->clear(); m_desktopMenu->setPalette(m_client.data()->palette()); QActionGroup *group = new QActionGroup(m_desktopMenu); QAction *action = m_desktopMenu->addAction(i18n("&All Desktops")); action->setData(0); action->setCheckable(true); group->addAction(action); if (!m_client.isNull() && m_client.data()->isOnAllDesktops()) action->setChecked(true); m_desktopMenu->addSeparator(); const uint BASE = 10; for (uint i = 1; i <= vds->count(); ++i) { QString basic_name(QStringLiteral("%1 %2")); if (i < BASE) { basic_name.prepend(QLatin1Char('&')); } action = m_desktopMenu->addAction(basic_name.arg(i).arg(vds->name(i).replace(QLatin1Char('&'), QStringLiteral("&&")))); action->setData(i); action->setCheckable(true); group->addAction(action); if (!m_client.isNull() && !m_client.data()->isOnAllDesktops() && m_client.data()->isOnDesktop(i)) action->setChecked(true); } m_desktopMenu->addSeparator(); action = m_desktopMenu->addAction(i18nc("Create a new desktop and move there the window", "&New Desktop")); action->setData(vds->count() + 1); if (vds->count() >= vds->maximum()) action->setEnabled(false); } void UserActionsMenu::screenPopupAboutToShow() { if (!m_screenMenu) { return; } m_screenMenu->clear(); m_screenMenu->setPalette(m_client.data()->palette()); QActionGroup *group = new QActionGroup(m_screenMenu); for (int i = 0; icount(); ++i) { // assumption: there are not more than 9 screens attached. QAction *action = m_screenMenu->addAction(i18nc("@item:inmenu List of all Screens to send a window to. First argument is a number, second the output identifier. E.g. Screen 1 (HDMI1)", "Screen &%1 (%2)", (i+1), screens()->name(i))); action->setData(i); action->setCheckable(true); if (!m_client.isNull() && i == m_client.data()->screen()) { action->setChecked(true); } group->addAction(action); } } void UserActionsMenu::activityPopupAboutToShow() { if (!m_activityMenu) return; #ifdef KWIN_BUILD_ACTIVITIES if (!Activities::self()) { return; } m_activityMenu->clear(); m_activityMenu->setPalette(m_client.data()->palette()); QAction *action = m_activityMenu->addAction(i18n("&All Activities")); action->setData(QString()); action->setCheckable(true); static QPointer allActivitiesGroup; if (!allActivitiesGroup) { allActivitiesGroup = new QActionGroup(m_activityMenu); } allActivitiesGroup->addAction(action); if (!m_client.isNull() && m_client.data()->isOnAllActivities()) action->setChecked(true); m_activityMenu->addSeparator(); foreach (const QString &id, Activities::self()->running()) { KActivities::Info activity(id); QString name = activity.name(); name.replace('&', "&&"); QWidgetAction *action = new QWidgetAction(m_activityMenu); QCheckBox *box = new QCheckBox(name, m_activityMenu); action->setDefaultWidget(box); const QString icon = activity.icon(); if (!icon.isEmpty()) box->setIcon(QIcon::fromTheme(icon)); box->setBackgroundRole(m_activityMenu->backgroundRole()); box->setForegroundRole(m_activityMenu->foregroundRole()); box->setPalette(m_activityMenu->palette()); connect(box, &QCheckBox::clicked, action, &QAction::triggered); m_activityMenu->addAction(action); action->setData(id); if (!m_client.isNull() && !m_client.data()->isOnAllActivities() && m_client.data()->isOnActivity(id)) box->setChecked(true); } #endif } void UserActionsMenu::slotWindowOperation(QAction *action) { if (!action->data().isValid()) return; Options::WindowOperation op = static_cast< Options::WindowOperation >(action->data().toInt()); QWeakPointer c = (!m_client.isNull()) ? m_client : QWeakPointer(Workspace::self()->activeClient()); if (c.isNull()) return; QString type; switch(op) { case Options::FullScreenOp: if (!c.data()->isFullScreen() && c.data()->userCanSetFullScreen()) type = QStringLiteral("fullscreenaltf3"); break; case Options::NoBorderOp: if (!c.data()->noBorder() && c.data()->userCanSetNoBorder()) type = QStringLiteral("noborderaltf3"); break; default: break; }; if (!type.isEmpty()) helperDialog(type, c); // need to delay performing the window operation as we need to have the // user actions menu closed before we destroy the decoration. Otherwise Qt crashes qRegisterMetaType(); QMetaObject::invokeMethod(workspace(), "performWindowOperation", Qt::QueuedConnection, Q_ARG(KWin::AbstractClient*, c.data()), Q_ARG(Options::WindowOperation, op)); } void UserActionsMenu::slotSendToDesktop(QAction *action) { bool ok = false; uint desk = action->data().toUInt(&ok); if (!ok) { return; } if (m_client.isNull()) return; Workspace *ws = Workspace::self(); VirtualDesktopManager *vds = VirtualDesktopManager::self(); if (desk == 0) { // the 'on_all_desktops' menu entry m_client.data()->setOnAllDesktops(!m_client.data()->isOnAllDesktops()); return; } else if (desk > vds->count()) { vds->setCount(desk); } ws->sendClientToDesktop(m_client.data(), desk, false); } void UserActionsMenu::slotSendToScreen(QAction *action) { const int screen = action->data().toInt(); if (m_client.isNull()) { return; } if (screen >= screens()->count()) { return; } Workspace::self()->sendClientToScreen(m_client.data(), screen); } void UserActionsMenu::slotToggleOnActivity(QAction *action) { #ifdef KWIN_BUILD_ACTIVITIES if (!Activities::self()) { return; } QString activity = action->data().toString(); if (m_client.isNull()) return; if (activity.isEmpty()) { // the 'on_all_activities' menu entry m_client.data()->setOnAllActivities(!m_client.data()->isOnAllActivities()); return; } Client *c = dynamic_cast(m_client.data()); if (!c) { return; } Activities::self()->toggleClientOnActivity(c, activity, false); if (m_activityMenu && m_activityMenu->isVisible() && m_activityMenu->actions().count()) { const bool isOnAll = m_client.data()->isOnAllActivities(); m_activityMenu->actions().at(0)->setChecked(isOnAll); if (isOnAll) { // toggleClientOnActivity interprets "on all" as "on none" and // susequent toggling ("off") would move the client to only that activity. // bug #330838 -> set all but "on all" off to "force proper usage" for (int i = 1; i < m_activityMenu->actions().count(); ++i) { if (QWidgetAction *qwa = qobject_cast(m_activityMenu->actions().at(i))) { if (QCheckBox *qcb = qobject_cast(qwa->defaultWidget())) { qcb->setChecked(false); } } } } } #else Q_UNUSED(action) #endif } //**************************************** // ShortcutDialog //**************************************** ShortcutDialog::ShortcutDialog(const QKeySequence& cut) : _shortcut(cut) { m_ui.setupUi(this); m_ui.keySequenceEdit->setKeySequence(cut); m_ui.warning->hide(); // Listen to changed shortcuts connect(m_ui.keySequenceEdit, &QKeySequenceEdit::editingFinished, this, &ShortcutDialog::keySequenceChanged); connect(m_ui.clearButton, &QToolButton::clicked, [this]{ _shortcut = QKeySequence(); }); m_ui.keySequenceEdit->setFocus(); setWindowFlags(Qt::Popup | Qt::X11BypassWindowManagerHint); } void ShortcutDialog::accept() { QKeySequence seq = shortcut(); if (!seq.isEmpty()) { if (seq[0] == Qt::Key_Escape) { reject(); return; } if (seq[0] == Qt::Key_Space || (seq[0] & Qt::KeyboardModifierMask) == 0) { // clear m_ui.keySequenceEdit->clear(); QDialog::accept(); return; } } QDialog::accept(); } void ShortcutDialog::done(int r) { QDialog::done(r); emit dialogDone(r == Accepted); } void ShortcutDialog::keySequenceChanged() { activateWindow(); // where is the kbd focus lost? cause of popup state? QKeySequence seq = m_ui.keySequenceEdit->keySequence(); if (_shortcut == seq) return; // don't try to update the same if (seq.isEmpty()) { // clear _shortcut = seq; return; } if (seq.count() > 1) { seq = QKeySequence(seq[0]); m_ui.keySequenceEdit->setKeySequence(seq); } // Check if the key sequence is used currently QString sc = seq.toString(); // NOTICE - seq.toString() & the entries in "conflicting" randomly get invalidated after the next call (if no sc has been set & conflicting isn't empty?!) QList conflicting = KGlobalAccel::getGlobalShortcutsByKey(seq); if (!conflicting.isEmpty()) { const KGlobalShortcutInfo &conflict = conflicting.at(0); m_ui.warning->setText(i18nc("'%1' is a keyboard shortcut like 'ctrl+w'", "%1 is already in use", sc)); m_ui.warning->setToolTip(i18nc("keyboard shortcut '%1' is used by action '%2' in application '%3'", "%1 is used by %2 in %3", sc, conflict.friendlyName(), conflict.componentFriendlyName())); m_ui.warning->show(); m_ui.keySequenceEdit->setKeySequence(shortcut()); } else if (seq != _shortcut) { m_ui.warning->hide(); if (QPushButton *ok = m_ui.buttonBox->button(QDialogButtonBox::Ok)) ok->setFocus(); } _shortcut = seq; } QKeySequence ShortcutDialog::shortcut() const { return _shortcut; } //**************************************** // Workspace //**************************************** void Workspace::slotIncreaseWindowOpacity() { if (!active_client) { return; } active_client->setOpacity(qMin(active_client->opacity() + 0.05, 1.0)); } void Workspace::slotLowerWindowOpacity() { if (!active_client) { return; } active_client->setOpacity(qMax(active_client->opacity() - 0.05, 0.05)); } void Workspace::closeActivePopup() { if (active_popup) { active_popup->close(); active_popup = NULL; active_popup_client = NULL; } m_userActionsMenu->close(); } template void Workspace::initShortcut(const QString &actionName, const QString &description, const QKeySequence &shortcut, Slot slot, const QVariant &data) { initShortcut(actionName, description, shortcut, this, slot, data); } template void Workspace::initShortcut(const QString &actionName, const QString &description, const QKeySequence &shortcut, T *receiver, Slot slot, const QVariant &data) { QAction *a = new QAction(this); a->setProperty("componentName", QStringLiteral(KWIN_NAME)); a->setObjectName(actionName); a->setText(description); if (data.isValid()) { a->setData(data); } KGlobalAccel::self()->setDefaultShortcut(a, QList() << shortcut); KGlobalAccel::self()->setShortcut(a, QList() << shortcut); input()->registerShortcut(shortcut, a, receiver, slot); } /*! Create the global accel object \c keys. */ void Workspace::initShortcuts() { #define IN_KWIN #include "kwinbindings.cpp" #ifdef KWIN_BUILD_TABBOX TabBox::TabBox::self()->initShortcuts(); #endif VirtualDesktopManager::self()->initShortcuts(); m_userActionsMenu->discard(); // so that it's recreated next time } void Workspace::setupWindowShortcut(AbstractClient* c) { assert(client_keys_dialog == NULL); // TODO: PORT ME (KGlobalAccel related) //keys->setEnabled( false ); //disable_shortcuts_keys->setEnabled( false ); //client_keys->setEnabled( false ); client_keys_dialog = new ShortcutDialog(c->shortcut()); client_keys_client = c; connect(client_keys_dialog, &ShortcutDialog::dialogDone, this, &Workspace::setupWindowShortcutDone); QRect r = clientArea(ScreenArea, c); QSize size = client_keys_dialog->sizeHint(); QPoint pos = c->pos() + c->clientPos(); if (pos.x() + size.width() >= r.right()) pos.setX(r.right() - size.width()); if (pos.y() + size.height() >= r.bottom()) pos.setY(r.bottom() - size.height()); client_keys_dialog->move(pos); client_keys_dialog->show(); active_popup = client_keys_dialog; active_popup_client = c; } void Workspace::setupWindowShortcutDone(bool ok) { // keys->setEnabled( true ); // disable_shortcuts_keys->setEnabled( true ); // client_keys->setEnabled( true ); if (ok) client_keys_client->setShortcut(client_keys_dialog->shortcut().toString()); closeActivePopup(); client_keys_dialog->deleteLater(); client_keys_dialog = NULL; client_keys_client = NULL; if (active_client) active_client->takeFocus(); } void Workspace::clientShortcutUpdated(AbstractClient* c) { QString key = QStringLiteral("_k_session:%1").arg(c->window()); QAction* action = findChild(key); if (!c->shortcut().isEmpty()) { if (action == NULL) { // new shortcut action = new QAction(this); kwinApp()->platform()->setupActionForGlobalAccel(action); action->setProperty("componentName", QStringLiteral(KWIN_NAME)); action->setObjectName(key); action->setText(i18n("Activate Window (%1)", c->caption())); connect(action, &QAction::triggered, c, std::bind(&Workspace::activateClient, this, c, true)); } // no autoloading, since it's configured explicitly here and is not meant to be reused // (the key is the window id anyway, which is kind of random) KGlobalAccel::self()->setShortcut(action, QList() << c->shortcut(), KGlobalAccel::NoAutoloading); action->setEnabled(true); } else { KGlobalAccel::self()->removeAllShortcuts(action); delete action; } } void Workspace::performWindowOperation(AbstractClient* c, Options::WindowOperation op) { if (!c) return; if (op == Options::MoveOp || op == Options::UnrestrictedMoveOp) Cursor::setPos(c->geometry().center()); if (op == Options::ResizeOp || op == Options::UnrestrictedResizeOp) Cursor::setPos(c->geometry().bottomRight()); switch(op) { case Options::MoveOp: c->performMouseCommand(Options::MouseMove, Cursor::pos()); break; case Options::UnrestrictedMoveOp: c->performMouseCommand(Options::MouseUnrestrictedMove, Cursor::pos()); break; case Options::ResizeOp: c->performMouseCommand(Options::MouseResize, Cursor::pos()); break; case Options::UnrestrictedResizeOp: c->performMouseCommand(Options::MouseUnrestrictedResize, Cursor::pos()); break; case Options::CloseOp: QMetaObject::invokeMethod(c, "closeWindow", Qt::QueuedConnection); break; case Options::MaximizeOp: c->maximize(c->maximizeMode() == MaximizeFull ? MaximizeRestore : MaximizeFull); break; case Options::HMaximizeOp: c->maximize(c->maximizeMode() ^ MaximizeHorizontal); break; case Options::VMaximizeOp: c->maximize(c->maximizeMode() ^ MaximizeVertical); break; case Options::RestoreOp: c->maximize(MaximizeRestore); break; case Options::MinimizeOp: c->minimize(); break; case Options::ShadeOp: c->performMouseCommand(Options::MouseShade, Cursor::pos()); break; case Options::OnAllDesktopsOp: c->setOnAllDesktops(!c->isOnAllDesktops()); break; case Options::FullScreenOp: c->setFullScreen(!c->isFullScreen(), true); break; case Options::NoBorderOp: c->setNoBorder(!c->noBorder()); break; case Options::KeepAboveOp: { StackingUpdatesBlocker blocker(this); bool was = c->keepAbove(); c->setKeepAbove(!c->keepAbove()); if (was && !c->keepAbove()) raiseClient(c); break; } case Options::KeepBelowOp: { StackingUpdatesBlocker blocker(this); bool was = c->keepBelow(); c->setKeepBelow(!c->keepBelow()); if (was && !c->keepBelow()) lowerClient(c); break; } case Options::OperationsOp: c->performMouseCommand(Options::MouseShade, Cursor::pos()); break; case Options::WindowRulesOp: RuleBook::self()->edit(c, false); break; case Options::ApplicationRulesOp: RuleBook::self()->edit(c, true); break; case Options::SetupWindowShortcutOp: setupWindowShortcut(c); break; case Options::LowerOp: lowerClient(c); break; case Options::TabDragOp: // Handled by decoration itself case Options::NoOp: break; case Options::RemoveTabFromGroupOp: if (c->untab(c->geometry().translated(cascadeOffset(c))) && options->focusPolicyIsReasonable()) takeActivity(c, ActivityFocus | ActivityRaise); break; case Options::ActivateNextTabOp: if (c->tabGroup()) c->tabGroup()->activateNext(); break; case Options::ActivatePreviousTabOp: if (c->tabGroup()) c->tabGroup()->activatePrev(); break; case Options::CloseTabGroupOp: c->tabGroup()->closeAll(); break; } } /** * Called by the decoration in the new API to determine what buttons the user has configured for * window tab dragging and the operations menu. */ Options::WindowOperation Client::mouseButtonToWindowOperation(Qt::MouseButtons button) { Options::MouseCommand com = Options::MouseNothing; bool active = isActive(); if (!wantsInput()) // we cannot be active, use it anyway active = true; if (button == Qt::LeftButton) com = active ? options->commandActiveTitlebar1() : options->commandInactiveTitlebar1(); else if (button == Qt::MidButton) com = active ? options->commandActiveTitlebar2() : options->commandInactiveTitlebar2(); else if (button == Qt::RightButton) com = active ? options->commandActiveTitlebar3() : options->commandInactiveTitlebar3(); // TODO: Complete the list if (com == Options::MouseDragTab) return Options::TabDragOp; if (com == Options::MouseOperationsMenu) return Options::OperationsOp; return Options::NoOp; } /*! Performs a mouse command on this client (see options.h) */ bool Client::performMouseCommand(Options::MouseCommand command, const QPoint &globalPos) { bool replay = false; switch(command) { case Options::MouseShade : toggleShade(); cancelShadeHoverTimer(); break; case Options::MouseSetShade: setShade(ShadeNormal); cancelShadeHoverTimer(); break; case Options::MouseUnsetShade: setShade(ShadeNone); cancelShadeHoverTimer(); break; default: return AbstractClient::performMouseCommand(command, globalPos); } return replay; } void Workspace::slotActivateAttentionWindow() { if (attention_chain.count() > 0) activateClient(attention_chain.first()); } static uint senderValue(QObject *sender) { QAction *act = qobject_cast(sender); bool ok = false; uint i = -1; if (act) i = act->data().toUInt(&ok); if (ok) return i; return -1; } #define USABLE_ACTIVE_CLIENT (active_client && !(active_client->isDesktop() || active_client->isDock())) void Workspace::slotWindowToDesktop(uint i) { if (USABLE_ACTIVE_CLIENT) { if (i < 1) return; if (i >= 1 && i <= VirtualDesktopManager::self()->count()) sendClientToDesktop(active_client, i, true); } } static bool screenSwitchImpossible() { if (!screens()->isCurrentFollowsMouse()) return false; QStringList args; args << QStringLiteral("--passivepopup") << i18n("The window manager is configured to consider the screen with the mouse on it as active one.\n" "Therefore it is not possible to switch to a screen explicitly.") << QStringLiteral("20"); KProcess::startDetached(QStringLiteral("kdialog"), args); return true; } void Workspace::slotSwitchToScreen() { if (screenSwitchImpossible()) return; const int i = senderValue(sender()); if (i > -1) setCurrentScreen(i); } void Workspace::slotSwitchToNextScreen() { if (screenSwitchImpossible()) return; setCurrentScreen((screens()->current() + 1) % screens()->count()); } void Workspace::slotSwitchToPrevScreen() { if (screenSwitchImpossible()) return; setCurrentScreen((screens()->current() + screens()->count() - 1) % screens()->count()); } void Workspace::slotWindowToScreen() { if (USABLE_ACTIVE_CLIENT) { const int i = senderValue(sender()); if (i < 0) return; if (i >= 0 && i <= screens()->count()) { sendClientToScreen(active_client, i); } } } void Workspace::slotWindowToNextScreen() { if (USABLE_ACTIVE_CLIENT) sendClientToScreen(active_client, (active_client->screen() + 1) % screens()->count()); } void Workspace::slotWindowToPrevScreen() { if (USABLE_ACTIVE_CLIENT) sendClientToScreen(active_client, (active_client->screen() + screens()->count() - 1) % screens()->count()); } /*! Maximizes the popup client */ void Workspace::slotWindowMaximize() { if (USABLE_ACTIVE_CLIENT) performWindowOperation(active_client, Options::MaximizeOp); } /*! Maximizes the popup client vertically */ void Workspace::slotWindowMaximizeVertical() { if (USABLE_ACTIVE_CLIENT) performWindowOperation(active_client, Options::VMaximizeOp); } /*! Maximizes the popup client horiozontally */ void Workspace::slotWindowMaximizeHorizontal() { if (USABLE_ACTIVE_CLIENT) performWindowOperation(active_client, Options::HMaximizeOp); } /*! Minimizes the popup client */ void Workspace::slotWindowMinimize() { if (USABLE_ACTIVE_CLIENT) performWindowOperation(active_client, Options::MinimizeOp); } /*! Shades/unshades the popup client respectively */ void Workspace::slotWindowShade() { if (USABLE_ACTIVE_CLIENT) performWindowOperation(active_client, Options::ShadeOp); } /*! Raises the popup client */ void Workspace::slotWindowRaise() { if (USABLE_ACTIVE_CLIENT) raiseClient(active_client); } /*! Lowers the popup client */ void Workspace::slotWindowLower() { if (USABLE_ACTIVE_CLIENT) { lowerClient(active_client); // As this most likely makes the window no longer visible change the // keyboard focus to the next available window. //activateNextClient( c ); // Doesn't work when we lower a child window if (active_client->isActive() && options->focusPolicyIsReasonable()) { if (options->isNextFocusPrefersMouse()) { AbstractClient *next = clientUnderMouse(active_client->screen()); if (next && next != active_client) requestFocus(next, false); } else { activateClient(topClientOnDesktop(VirtualDesktopManager::self()->current(), -1)); } } } } /*! Does a toggle-raise-and-lower on the popup client; */ void Workspace::slotWindowRaiseOrLower() { if (USABLE_ACTIVE_CLIENT) raiseOrLowerClient(active_client); } void Workspace::slotWindowOnAllDesktops() { if (USABLE_ACTIVE_CLIENT) active_client->setOnAllDesktops(!active_client->isOnAllDesktops()); } void Workspace::slotWindowFullScreen() { if (USABLE_ACTIVE_CLIENT) performWindowOperation(active_client, Options::FullScreenOp); } void Workspace::slotWindowNoBorder() { if (USABLE_ACTIVE_CLIENT) performWindowOperation(active_client, Options::NoBorderOp); } void Workspace::slotWindowAbove() { if (USABLE_ACTIVE_CLIENT) performWindowOperation(active_client, Options::KeepAboveOp); } void Workspace::slotWindowBelow() { if (USABLE_ACTIVE_CLIENT) performWindowOperation(active_client, Options::KeepBelowOp); } void Workspace::slotSetupWindowShortcut() { if (USABLE_ACTIVE_CLIENT) performWindowOperation(active_client, Options::SetupWindowShortcutOp); } /*! Toggles show desktop */ void Workspace::slotToggleShowDesktop() { setShowingDesktop(!showingDesktop()); } template void windowToDesktop(AbstractClient *c) { VirtualDesktopManager *vds = VirtualDesktopManager::self(); Workspace *ws = Workspace::self(); Direction functor; // TODO: why is options->isRollOverDesktops() not honored? const auto desktop = functor(nullptr, true); if (c && !c->isDesktop() && !c->isDock()) { ws->setClientIsMoving(c); vds->setCurrent(desktop); ws->setClientIsMoving(NULL); } } /*! Move window to next desktop */ void Workspace::slotWindowToNextDesktop() { if (USABLE_ACTIVE_CLIENT) windowToNextDesktop(active_client); } void Workspace::windowToNextDesktop(AbstractClient* c) { windowToDesktop(c); } /*! Move window to previous desktop */ void Workspace::slotWindowToPreviousDesktop() { if (USABLE_ACTIVE_CLIENT) windowToPreviousDesktop(active_client); } void Workspace::windowToPreviousDesktop(AbstractClient* c) { windowToDesktop(c); } template void activeClientToDesktop() { VirtualDesktopManager *vds = VirtualDesktopManager::self(); Workspace *ws = Workspace::self(); const int current = vds->current(); Direction functor; const int d = functor(current, options->isRollOverDesktops()); if (d == current) { return; } ws->setClientIsMoving(ws->activeClient()); vds->setCurrent(d); ws->setClientIsMoving(NULL); } void Workspace::slotWindowToDesktopRight() { if (USABLE_ACTIVE_CLIENT) { activeClientToDesktop(); } } void Workspace::slotWindowToDesktopLeft() { if (USABLE_ACTIVE_CLIENT) { activeClientToDesktop(); } } void Workspace::slotWindowToDesktopUp() { if (USABLE_ACTIVE_CLIENT) { activeClientToDesktop(); } } void Workspace::slotWindowToDesktopDown() { if (USABLE_ACTIVE_CLIENT) { activeClientToDesktop(); } } void Workspace::slotActivateNextTab() { if (active_client && active_client->tabGroup()) active_client->tabGroup()->activateNext(); } void Workspace::slotActivatePrevTab() { if (active_client && active_client->tabGroup()) active_client->tabGroup()->activatePrev(); } void Workspace::slotUntab() { if (active_client) active_client->untab(active_client->geometry().translated(cascadeOffset(active_client))); } /*! Kill Window feature, similar to xkill */ void Workspace::slotKillWindow() { if (m_windowKiller.isNull()) { m_windowKiller.reset(new KillWindow()); } m_windowKiller->start(); } /*! Switches to the nearest window in given direction */ void Workspace::switchWindow(Direction direction) { if (!active_client) return; AbstractClient *c = active_client; int desktopNumber = c->isOnAllDesktops() ? VirtualDesktopManager::self()->current() : c->desktop(); // Centre of the active window QPoint curPos(c->pos().x() + c->geometry().width() / 2, c->pos().y() + c->geometry().height() / 2); if (!switchWindow(c, direction, curPos, desktopNumber)) { auto opposite = [&] { switch(direction) { case DirectionNorth: return QPoint(curPos.x(), screens()->geometry().height()); case DirectionSouth: return QPoint(curPos.x(), 0); case DirectionEast: return QPoint(0, curPos.y()); case DirectionWest: return QPoint(screens()->geometry().width(), curPos.y()); default: Q_UNREACHABLE(); } }; switchWindow(c, direction, opposite(), desktopNumber); } } bool Workspace::switchWindow(AbstractClient *c, Direction direction, QPoint curPos, int d) { AbstractClient *switchTo = nullptr; int bestScore = 0; ToplevelList clist = stackingOrder(); for (ToplevelList::Iterator i = clist.begin(); i != clist.end(); ++i) { auto client = qobject_cast(*i); if (!client) { continue; } if (client->wantsTabFocus() && *i != c && client->isOnDesktop(d) && !client->isMinimized() && (*i)->isOnCurrentActivity()) { // Centre of the other window QPoint other(client->pos().x() + client->geometry().width() / 2, client->pos().y() + client->geometry().height() / 2); int distance; int offset; switch(direction) { case DirectionNorth: distance = curPos.y() - other.y(); offset = qAbs(other.x() - curPos.x()); break; case DirectionEast: distance = other.x() - curPos.x(); offset = qAbs(other.y() - curPos.y()); break; case DirectionSouth: distance = other.y() - curPos.y(); offset = qAbs(other.x() - curPos.x()); break; case DirectionWest: distance = curPos.x() - other.x(); offset = qAbs(other.y() - curPos.y()); break; default: distance = -1; offset = -1; } if (distance > 0) { // Inverse score int score = distance + offset + ((offset * offset) / distance); if (score < bestScore || !switchTo) { switchTo = client; bestScore = score; } } } } if (switchTo) { if (switchTo->tabGroup()) switchTo = switchTo->tabGroup()->current(); activateClient(switchTo); } return switchTo; } /*! Shows the window operations popup menu for the activeClient() */ void Workspace::slotWindowOperations() { if (!active_client) return; QPoint pos = active_client->pos() + active_client->clientPos(); showWindowMenu(QRect(pos, pos), active_client); } void Workspace::showWindowMenu(const QRect &pos, AbstractClient* cl) { m_userActionsMenu->show(pos, cl); } void Workspace::showApplicationMenu(const QRect &pos, AbstractClient *c, int actionId) { ApplicationMenu::self()->showApplicationMenu(c->geometry().topLeft() + pos.bottomLeft(), c, actionId); } /*! Closes the popup client */ void Workspace::slotWindowClose() { // TODO: why? // if ( tab_box->isVisible()) // return; if (USABLE_ACTIVE_CLIENT) performWindowOperation(active_client, Options::CloseOp); } /*! Starts keyboard move mode for the popup client */ void Workspace::slotWindowMove() { if (USABLE_ACTIVE_CLIENT) performWindowOperation(active_client, Options::UnrestrictedMoveOp); } /*! Starts keyboard resize mode for the popup client */ void Workspace::slotWindowResize() { if (USABLE_ACTIVE_CLIENT) performWindowOperation(active_client, Options::UnrestrictedResizeOp); } #undef USABLE_ACTIVE_CLIENT void AbstractClient::setShortcut(const QString& _cut) { QString cut = rules()->checkShortcut(_cut); auto updateShortcut = [this](const QKeySequence &cut = QKeySequence()) { if (_shortcut == cut) return; _shortcut = cut; setShortcutInternal(); }; if (cut.isEmpty()) { updateShortcut(); return; } if (cut == shortcut().toString()) { return; // no change } // Format: // base+(abcdef)base+(abcdef) // E.g. Alt+Ctrl+(ABCDEF);Meta+X,Meta+(ABCDEF) if (!cut.contains(QLatin1Char('(')) && !cut.contains(QLatin1Char(')')) && !cut.contains(QLatin1String(" - "))) { if (workspace()->shortcutAvailable(cut, this)) updateShortcut(QKeySequence(cut)); else updateShortcut(); return; } QList< QKeySequence > keys; QStringList groups = cut.split(QStringLiteral(" - ")); for (QStringList::ConstIterator it = groups.constBegin(); it != groups.constEnd(); ++it) { QRegExp reg(QStringLiteral("(.*\\+)\\((.*)\\)")); if (reg.indexIn(*it) > -1) { QString base = reg.cap(1); QString list = reg.cap(2); for (int i = 0; i < list.length(); ++i) { QKeySequence c(base + list[ i ]); if (!c.isEmpty()) keys.append(c); } } else { // regexp doesn't match, so it should be a normal shortcut QKeySequence c(*it); if (!c.isEmpty()) { keys.append(c); } } } for (auto it = keys.constBegin(); it != keys.constEnd(); ++it) { if (_shortcut == *it) // current one is in the list return; } for (auto it = keys.constBegin(); it != keys.constEnd(); ++it) { if (workspace()->shortcutAvailable(*it, this)) { updateShortcut(*it); return; } } updateShortcut(); } void AbstractClient::setShortcutInternal() { updateCaption(); workspace()->clientShortcutUpdated(this); } void Client::setShortcutInternal() { updateCaption(); #if 0 workspace()->clientShortcutUpdated(this); #else // Workaround for kwin<->kglobalaccel deadlock, when KWin has X grab and the kded // kglobalaccel module tries to create the key grab. KWin should preferably grab // they keys itself anyway :(. QTimer::singleShot(0, this, std::bind(&Workspace::clientShortcutUpdated, workspace(), this)); #endif } bool Workspace::shortcutAvailable(const QKeySequence &cut, AbstractClient* ignore) const { if (ignore && cut == ignore->shortcut()) return true; if (!KGlobalAccel::getGlobalShortcutsByKey(cut).isEmpty()) { return false; } for (auto it = m_allClients.constBegin(); it != m_allClients.constEnd(); ++it) { if ((*it) != ignore && (*it)->shortcut() == cut) return false; } return true; } } // namespace