diff --git a/app/dock/dockview.cpp b/app/dock/dockview.cpp index dd131038..6f6cd613 100644 --- a/app/dock/dockview.cpp +++ b/app/dock/dockview.cpp @@ -1,1955 +1,1943 @@ /* * Copyright 2016 Smith AR * Michail Vourlakos * * This file is part of Latte-Dock * * Latte-Dock 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. * * Latte-Dock 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 "dockview.h" #include "dockconfigview.h" #include "dockmenumanager.h" #include "panelshadows_p.h" #include "visibilitymanager.h" #include "../dockcorona.h" #include "../layout.h" #include "../layoutmanager.h" #include "../screenpool.h" #include "../universalsettings.h" #include "../../liblattedock/extras.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace Latte { //! both alwaysVisible and dockWinBehavior are passed through corona because //! during the dock window creation containment hasnt been set, but these variables //! are needed in order for window flags to be set correctly DockView::DockView(Plasma::Corona *corona, QScreen *targetScreen, bool dockWindowBehavior) : PlasmaQuick::ContainmentView(corona), m_menuManager(new DockMenuManager(this)) { setTitle(corona->kPackage().metadata().name()); setIcon(qGuiApp->windowIcon()); setResizeMode(QuickViewSharedEngine::SizeRootObjectToView); setColor(QColor(Qt::transparent)); setClearBeforeRendering(true); const auto flags = Qt::FramelessWindowHint | Qt::WindowStaysOnTopHint | Qt::NoDropShadowWindowHint | Qt::WindowDoesNotAcceptFocus; if (dockWindowBehavior) { setFlags(flags); } else { setFlags(flags | Qt::BypassWindowManagerHint); } KWindowSystem::setOnAllDesktops(winId(), true); if (targetScreen) setScreenToFollow(targetScreen); else setScreenToFollow(qGuiApp->primaryScreen()); connect(this, &DockView::containmentChanged , this, [ &, dockWindowBehavior]() { qDebug() << "dock view c++ containment changed 1..."; if (!this->containment()) return; qDebug() << "dock view c++ containment changed 2..."; setDockWinBehavior(dockWindowBehavior); restoreConfig(); reconsiderScreen(); if (!m_visibility) { m_visibility = new VisibilityManager(this); connect(m_visibility, &VisibilityManager::isHiddenChanged, this, [&]() { if (m_visibility->isHidden()) { deactivateApplets(); } }); } connect(this->containment(), SIGNAL(statusChanged(Plasma::Types::ItemStatus)), SLOT(statusChanged(Plasma::Types::ItemStatus))); }, Qt::DirectConnection); m_screenSyncTimer.setSingleShot(true); m_screenSyncTimer.setInterval(2000); connect(&m_screenSyncTimer, &QTimer::timeout, this, &DockView::reconsiderScreen); //! under X11 it was identified that windows many times especially under screen changes //! dont end up at the correct position and size. This timer will enforce repositionings //! and resizes every 500ms if the window hasnt end up to correct values and until this //! is achieved m_validateGeometryTimer.setSingleShot(true); m_validateGeometryTimer.setInterval(500); connect(&m_validateGeometryTimer, &QTimer::timeout, this, &DockView::syncGeometry); auto *dockCorona = qobject_cast(this->corona()); if (dockCorona) { m_screenSyncTimer.setInterval(qMax(dockCorona->universalSettings()->screenTrackerInterval() - 500, 1000)); connect(dockCorona->universalSettings(), &UniversalSettings::screenTrackerIntervalChanged, this, [this, dockCorona]() { m_screenSyncTimer.setInterval(qMax(dockCorona->universalSettings()->screenTrackerInterval() - 500, 1000)); }); connect(dockCorona, &DockCorona::docksCountChanged, this, &DockView::docksCountChanged); connect(this, &DockView::docksCountChanged, this, &DockView::totalDocksCountChanged); connect(dockCorona, &DockCorona::dockLocationChanged, this, &DockView::dockLocationChanged); connect(dockCorona, &DockCorona::dockLocationChanged, this, [&]() { //! check if an edge has been freed for a primary dock //! from another screen if (m_onPrimary) { m_screenSyncTimer.start(); } }); } } DockView::~DockView() { m_inDelete = true; disconnect(corona(), &Plasma::Corona::availableScreenRectChanged, this, &DockView::availableScreenRectChanged); disconnect(containment(), SIGNAL(statusChanged(Plasma::Types::ItemStatus)), this, SLOT(statusChanged(Plasma::Types::ItemStatus))); m_screenSyncTimer.stop(); qDebug() << "dock view deleting..."; rootContext()->setContextProperty(QStringLiteral("dock"), nullptr); //! this disconnect does not free up connections correctly when //! dockView is deleted. A crash for this example is the following: //! switch to Alternative Session and disable compositing, //! the signal creating the crash was probably from deleted //! windows. //! this->disconnect(); if (m_configView) { m_configView->setVisible(false);//hide(); } if (m_menuManager) { m_menuManager->deleteLater(); } if (m_visibility) delete m_visibility; } void DockView::init() { connect(this, &QQuickWindow::screenChanged, this, &DockView::screenChanged); connect(this, &QQuickWindow::screenChanged, this, &DockView::docksCountChanged); connect(qGuiApp, &QGuiApplication::screenAdded, this, &DockView::screenChanged); connect(qGuiApp, &QGuiApplication::primaryScreenChanged, this, &DockView::screenChanged); connect(this, &DockView::screenGeometryChanged, this, &DockView::syncGeometry); connect(this, &QQuickWindow::xChanged, this, &DockView::xChanged); connect(this, &QQuickWindow::xChanged, this, &DockView::validateDockGeometry); connect(this, &QQuickWindow::xChanged, this, &DockView::updateAbsDockGeometry); connect(this, &QQuickWindow::yChanged, this, &DockView::yChanged); connect(this, &QQuickWindow::yChanged, this, &DockView::validateDockGeometry); connect(this, &QQuickWindow::yChanged, this, &DockView::updateAbsDockGeometry); connect(this, &QQuickWindow::widthChanged, this, &DockView::widthChanged); connect(this, &QQuickWindow::widthChanged, this, &DockView::validateDockGeometry); connect(this, &QQuickWindow::widthChanged, this, &DockView::updateAbsDockGeometry); connect(this, &QQuickWindow::heightChanged, this, &DockView::heightChanged); connect(this, &QQuickWindow::heightChanged, this, &DockView::validateDockGeometry); connect(this, &QQuickWindow::heightChanged, this, &DockView::updateAbsDockGeometry); connect(corona(), &Plasma::Corona::availableScreenRectChanged, this, &DockView::availableScreenRectChanged); connect(this, &DockView::behaveAsPlasmaPanelChanged, this, &DockView::syncGeometry); connect(this, &DockView::drawShadowsChanged, this, &DockView::syncGeometry); connect(this, &DockView::maxLengthChanged, this, &DockView::syncGeometry); connect(this, &DockView::offsetChanged, this, &DockView::syncGeometry); connect(this, &DockView::alignmentChanged, this, &DockView::updateEnabledBorders); connect(this, &DockView::dockWinBehaviorChanged, this, &DockView::saveConfig); connect(this, &DockView::onPrimaryChanged, this, &DockView::saveConfig); connect(this, &DockView::locationChanged, this, [&]() { updateFormFactor(); syncGeometry(); }); connect(this, &DockView::dockTransparencyChanged, this, &DockView::updateEffects); connect(this, &DockView::drawEffectsChanged, this, &DockView::updateEffects); connect(this, &DockView::effectsAreaChanged, this, &DockView::updateEffects); connect(&m_theme, &Plasma::Theme::themeChanged, this, &DockView::themeChanged); connect(this, &DockView::normalThicknessChanged, this, [&]() { if (m_behaveAsPlasmaPanel) { syncGeometry(); } }); connect(this, SIGNAL(normalThicknessChanged()), corona(), SIGNAL(availableScreenRectChanged())); connect(this, SIGNAL(shadowChanged()), corona(), SIGNAL(availableScreenRectChanged())); connect(m_menuManager, &DockMenuManager::contextMenuChanged, this, &DockView::contextMenuIsShownChanged); initSignalingForLocationChangeSliding(); ///!!!!! rootContext()->setContextProperty(QStringLiteral("dock"), this); auto *dockCorona = qobject_cast(this->corona()); if (dockCorona) { rootContext()->setContextProperty(QStringLiteral("universalSettings"), dockCorona->universalSettings()); rootContext()->setContextProperty(QStringLiteral("layoutManager"), dockCorona->layoutManager()); } setSource(corona()->kPackage().filePath("lattedockui")); // setVisible(true); syncGeometry(); if (!KWindowSystem::isPlatformWayland()) { setVisible(true); } qDebug() << "SOURCE:" << source(); } void DockView::hideWindowsForSlidingOut() { setBlockHiding(false); if (m_configView) { auto configDialog = qobject_cast(m_configView); if (configDialog) { configDialog->hideConfigWindow(); } } } void DockView::initSignalingForLocationChangeSliding() { //! signals to handle the sliding-in/out during location changes connect(this, &DockView::hideDockDuringLocationChangeStarted, this, [&]() { hideWindowsForSlidingOut(); }); connect(this, &DockView::locationChanged, this, [&]() { if (m_goToLocation != Plasma::Types::Floating) { m_goToLocation = Plasma::Types::Floating; QTimer::singleShot(100, [this]() { setBlockAnimations(false); emit showDockAfterLocationChangeFinished(); showSettingsWindow(); if (m_managedLayout) { m_managedLayout->syncDockViewsToScreens(); } }); } }); //! signals to handle the sliding-in/out during screen changes connect(this, &DockView::hideDockDuringScreenChangeStarted, this, [&]() { hideWindowsForSlidingOut(); }); connect(this, &DockView::currentScreenChanged, this, [&]() { if (m_goToScreen) { m_goToScreen = nullptr; QTimer::singleShot(100, [this]() { setBlockAnimations(false); emit showDockAfterScreenChangeFinished(); showSettingsWindow(); if (m_managedLayout) { m_managedLayout->syncDockViewsToScreens(); } }); } }); //! signals to handle the sliding-in/out during moving to another layout connect(this, &DockView::hideDockDuringMovingToLayoutStarted, this, [&]() { hideWindowsForSlidingOut(); }); connect(this, &DockView::managedLayoutChanged, this, [&]() { if (!m_moveToLayout.isEmpty() && m_managedLayout) { m_moveToLayout = ""; QTimer::singleShot(100, [this]() { setBlockAnimations(false); emit showDockAfterMovingToLayoutFinished(); showSettingsWindow(); }); } }); //! ---- both cases ---- !// //! this is used for both location and screen change cases, this signal //! is send when the sliding-out animation has finished connect(this, &DockView::hideDockDuringLocationChangeFinished, this, [&]() { setBlockAnimations(true); if (m_goToLocation != Plasma::Types::Floating) { setLocation(m_goToLocation); } else if (m_goToScreen) { setScreenToFollow(m_goToScreen); } else if (!m_moveToLayout.isEmpty()) { moveToLayout(m_moveToLayout); } }); } void DockView::disconnectSensitiveSignals() { disconnect(corona(), &Plasma::Corona::availableScreenRectChanged, this, &DockView::availableScreenRectChanged); setManagedLayout(nullptr); if (visibility()) { visibility()->setEnabledDynamicBackground(false); } } void DockView::availableScreenRectChanged() { if (m_inDelete) return; if (formFactor() == Plasma::Types::Vertical) syncGeometry(); } void DockView::setupWaylandIntegration() { if (m_shellSurface) return; if (DockCorona *c = qobject_cast(corona())) { using namespace KWayland::Client; PlasmaShell *interface {c->waylandDockCoronaInterface()}; if (!interface) return; Surface *s{Surface::fromWindow(this)}; if (!s) return; m_shellSurface = interface->createSurface(s, this); qDebug() << "WAYLAND dock window surface was created..."; m_shellSurface->setSkipTaskbar(true); m_shellSurface->setRole(PlasmaShellSurface::Role::Panel); m_shellSurface->setPanelBehavior(PlasmaShellSurface::PanelBehavior::WindowsGoBelow); } } KWayland::Client::PlasmaShellSurface *DockView::surface() { return m_shellSurface; } bool DockView::setCurrentScreen(const QString id) { QScreen *nextScreen{qGuiApp->primaryScreen()}; if (id != "primary") { foreach (auto scr, qGuiApp->screens()) { if (scr && scr->name() == id) { nextScreen = scr; break; } } } if (m_screenToFollow == nextScreen) { return true; } if (nextScreen) { if (m_managedLayout) { auto freeEdges = m_managedLayout->freeEdges(nextScreen); if (!freeEdges.contains(location())) { return false; } else { m_goToScreen = nextScreen; //! asynchronous call in order to not crash from configwindow //! deletion from sliding out animation QTimer::singleShot(100, [this]() { emit hideDockDuringScreenChangeStarted(); }); } } } return true; } //! this function updates the dock's associated screen. //! updateScreenId = true, update also the m_screenToFollowId //! updateScreenId = false, do not update the m_screenToFollowId //! that way an explicit dock can be shown in another screen when //! there isnt a tasks dock running in the system and for that //! dock its first origin screen is stored and that way when //! that screen is reconnected the dock will return to its original //! place void DockView::setScreenToFollow(QScreen *screen, bool updateScreenId) { if (!screen || m_screenToFollow == screen) { return; } m_screenToFollow = screen; if (updateScreenId) { m_screenToFollowId = screen->name(); } qDebug() << "adapting to screen..."; setScreen(screen); if (this->containment()) this->containment()->reactToScreenChange(); connect(screen, &QScreen::geometryChanged, this, &DockView::screenGeometryChanged); syncGeometry(); updateAbsDockGeometry(true); emit screenGeometryChanged(); emit currentScreenChanged(); } //! the main function which decides if this dock is at the //! correct screen void DockView::reconsiderScreen() { if (m_inDelete) { return; } qDebug() << " Delayer "; foreach (auto scr, qGuiApp->screens()) { qDebug() << " D, found screen: " << scr->name(); } bool screenExists{false}; //!check if the associated screen is running foreach (auto scr, qGuiApp->screens()) { if (m_screenToFollowId == scr->name() || (onPrimary() && scr == qGuiApp->primaryScreen())) { screenExists = true; } } qDebug() << "dock screen exists ::: " << screenExists; - int docksWithTasks = m_managedLayout ? m_managedLayout->noDocksWithTasks() : 0; - //! 1.a primary dock must be always on the primary screen - //! 2.the last tasks dock must also always on the primary screen - //! even though it has been configured as an explicit - if ((m_onPrimary || (tasksPresent() && docksWithTasks == 1 && !screenExists)) - && (m_screenToFollowId != qGuiApp->primaryScreen()->name() - || m_screenToFollow != qGuiApp->primaryScreen())) { + if (m_onPrimary && (m_screenToFollowId != qGuiApp->primaryScreen()->name() + || m_screenToFollow != qGuiApp->primaryScreen())) { using Plasma::Types; QList edges{Types::BottomEdge, Types::LeftEdge, Types::TopEdge, Types::RightEdge}; edges = m_managedLayout ? m_managedLayout->freeEdges(qGuiApp->primaryScreen()) : edges; //change to primary screen only if the specific edge is free qDebug() << "updating the primary screen for dock..."; qDebug() << "available primary screen edges:" << edges; qDebug() << "dock location:" << location(); if (edges.contains(location())) { - //! case 2 - if (!m_onPrimary && !screenExists && tasksPresent() && (docksWithTasks == 1)) { - qDebug() << "reached case 2 of updating dock primary screen..."; - setScreenToFollow(qGuiApp->primaryScreen(), false); - } else { - //! case 1 - qDebug() << "reached case 1 of updating dock primary screen..."; - setScreenToFollow(qGuiApp->primaryScreen()); - } - + //! case 1 + qDebug() << "reached case 1: of updating dock primary screen..."; + setScreenToFollow(qGuiApp->primaryScreen()); syncGeometry(); } } else if (!m_onPrimary) { - //! 3.an explicit dock must be always on the correct associated screen + //! 2.an explicit dock must be always on the correct associated screen //! there are cases that window manager misplaces the dock, this function //! ensures that this dock will return at its correct screen foreach (auto scr, qGuiApp->screens()) { if (scr && scr->name() == m_screenToFollowId) { - qDebug() << "updating the explicit screen for dock..."; + qDebug() << "reached case 2: updating the explicit screen for dock..."; setScreenToFollow(scr); syncGeometry(); break; } } } emit docksCountChanged(); } void DockView::screenChanged(QScreen *scr) { m_screenSyncTimer.start(); //! this is needed in order to update the struts on screen change //! and even though the geometry has been set correctly the offsets //! of the screen must be updated to the new ones if (m_visibility && m_visibility->mode() == Latte::Dock::AlwaysVisible) { updateAbsDockGeometry(true); } } void DockView::addNewDock() { auto *dockCorona = qobject_cast(this->corona()); if (dockCorona) { dockCorona->loadDefaultLayout(); } } void DockView::copyDock() { m_managedLayout->copyDock(containment()); } void DockView::removeDock() { if (totalDocksCount() > 1) { QAction *removeAct = this->containment()->actions()->action(QStringLiteral("remove")); if (removeAct) { removeAct->trigger(); } } } QQmlListProperty DockView::screens() { return QQmlListProperty(this, nullptr, &countScreens, &atScreens); } int DockView::countScreens(QQmlListProperty *property) { Q_UNUSED(property) return qGuiApp->screens().count(); } QScreen *DockView::atScreens(QQmlListProperty *property, int index) { Q_UNUSED(property) return qGuiApp->screens().at(index); } QString DockView::currentScreen() const { return m_screenToFollowId; } bool DockView::settingsWindowIsShown() { auto configView = qobject_cast(m_configView); return (configView != nullptr); } void DockView::showSettingsWindow() { showConfigurationInterface(containment()); applyActivitiesToWindows(); } void DockView::showConfigurationInterface(Plasma::Applet *applet) { if (!applet || !applet->containment()) return; Plasma::Containment *c = qobject_cast(applet); if (m_configView && c && c->isContainment() && c == this->containment()) { if (m_configView->isVisible()) { m_configView->setVisible(false); //m_configView->hide(); } else { m_configView->setVisible(true); //m_configView->show(); } return; } else if (m_configView) { if (m_configView->applet() == applet) { m_configView->setVisible(true); //m_configView->show(); m_configView->requestActivate(); return; } else { m_configView->setVisible(false); //m_configView->hide(); m_configView->deleteLater(); } } bool delayConfigView = false; if (c && containment() && c->isContainment() && c->id() == this->containment()->id()) { m_configView = new DockConfigView(c, this); delayConfigView = true; } else { m_configView = new PlasmaQuick::ConfigView(applet); } m_configView.data()->init(); if (!delayConfigView) { m_configView->setVisible(true); //m_configView.data()->show(); } else { //add a timer for showing the configuration window the first time it is //created in order to give the containmnent's layouts the time to //calculate the window's height if (!KWindowSystem::isPlatformWayland()) { QTimer::singleShot(150, m_configView, SLOT(show())); } else { QTimer::singleShot(150, [this]() { m_configView->setVisible(true); }); } } } //! this is used mainly from vertical panels in order to //! to get the maximum geometry that can be used from the dock //! based on their alignment type and the location dock QRect DockView::maximumNormalGeometry() { int xPos = 0; int yPos = 0; int maxHeight = maxLength() * screen()->geometry().height(); int maxWidth = normalThickness(); QRect maxGeometry; maxGeometry.setRect(0, 0, maxWidth, maxHeight); switch (location()) { case Plasma::Types::LeftEdge: xPos = screen()->geometry().x(); switch (alignment()) { case Latte::Dock::Top: yPos = screen()->geometry().y(); break; case Latte::Dock::Center: case Latte::Dock::Justify: yPos = qMax(screen()->geometry().center().y() - maxHeight / 2, screen()->geometry().y()); break; case Latte::Dock::Bottom: yPos = screen()->geometry().bottom() - maxHeight + 1; break; } maxGeometry.setRect(xPos, yPos, maxWidth, maxHeight); break; case Plasma::Types::RightEdge: xPos = screen()->geometry().right() - maxWidth + 1; switch (alignment()) { case Latte::Dock::Top: yPos = screen()->geometry().y(); break; case Latte::Dock::Center: case Latte::Dock::Justify: yPos = qMax(screen()->geometry().center().y() - maxHeight / 2, screen()->geometry().y()); break; case Latte::Dock::Bottom: yPos = screen()->geometry().bottom() - maxHeight + 1; break; } maxGeometry.setRect(xPos, yPos, maxWidth, maxHeight); break; default: //! bypass clang warnings break; } //! this is needed in order to preserve that the top dock will be above //! the others in case flag bypasswindowmanagerhint hasnt be set, //! such a case is the AlwaysVisible mode if (location() == Plasma::Types::TopEdge) { KWindowSystem::setState(winId(), NET::KeepAbove); } else { KWindowSystem::clearState(winId(), NET::KeepAbove); } return maxGeometry; } void DockView::resizeWindow(QRect availableScreenRect) { QSize screenSize = this->screen()->size(); QSize size = (formFactor() == Plasma::Types::Vertical) ? QSize(maxThickness(), availableScreenRect.height()) : QSize(screenSize.width(), maxThickness()); if (formFactor() == Plasma::Types::Vertical) { //qDebug() << "MAXIMUM RECT :: " << maximumRect << " - AVAILABLE RECT :: " << availableRect; if (m_behaveAsPlasmaPanel) { size.setWidth(normalThickness()); size.setHeight(static_cast(maxLength() * availableScreenRect.height())); } } else { if (m_behaveAsPlasmaPanel) { size.setWidth(static_cast(maxLength() * screenSize.width())); size.setHeight(normalThickness()); } } m_validGeometry.setSize(size); setMinimumSize(size); setMaximumSize(size); resize(size); if (formFactor() == Plasma::Types::Horizontal && corona()) { emit corona()->availableScreenRectChanged(); } } void DockView::validateDockGeometry() { if (geometry() != m_validGeometry) { m_validateGeometryTimer.start(); } } QRect DockView::localGeometry() const { return m_localGeometry; } void DockView::setLocalGeometry(const QRect &geometry) { if (m_localGeometry == geometry) { return; } m_localGeometry = geometry; emit localGeometryChanged(); updateAbsDockGeometry(); } void DockView::updateAbsDockGeometry(bool bypassChecks) { //! there was a -1 in height and width here. The reason of this //! if I remember correctly was related to multi-screen but I cant //! remember exactly the reason, something related to rigth edge in //! multi screen environment. BUT this was breaking the entire AlwaysVisible //! experience with struts. Removing them in order to restore correct //! behavior and keeping this comment in order to check for //! multi-screen breakage QRect absGeometry {x() + m_localGeometry.x(), y() + m_localGeometry.y() , m_localGeometry.width(), m_localGeometry.height()}; if (m_absGeometry == absGeometry && !bypassChecks) return; m_absGeometry = absGeometry; syncGeometry(); emit absGeometryChanged(m_absGeometry); //! this is needed in order to update correctly the screenGeometries if (visibility() && corona() && visibility()->mode() == Dock::AlwaysVisible) { emit corona()->availableScreenRectChanged(); emit corona()->availableScreenRegionChanged(); } } void DockView::updatePosition(QRect availableScreenRect) { QRect screenGeometry{availableScreenRect}; QPoint position; position = {0, 0}; const auto length = [&](int length) -> int { float offs = static_cast(offset()); return static_cast(length * ((1 - maxLength()) / 2) + length * (offs / 100)); }; int cleanThickness = normalThickness() - shadow(); switch (location()) { case Plasma::Types::TopEdge: if (m_behaveAsPlasmaPanel) { position = {screenGeometry.x() + length(screenGeometry.width()), screenGeometry.y()}; } else { position = {screenGeometry.x(), screenGeometry.y()}; } break; case Plasma::Types::BottomEdge: if (m_behaveAsPlasmaPanel) { position = {screenGeometry.x() + length(screenGeometry.width()), screenGeometry.y() + screenGeometry.height() - cleanThickness }; } else { position = {screenGeometry.x(), screenGeometry.y() + screenGeometry.height() - height()}; } break; case Plasma::Types::RightEdge: if (m_behaveAsPlasmaPanel && !mask().isNull()) { position = {availableScreenRect.right() - cleanThickness + 1, availableScreenRect.y() + length(availableScreenRect.height()) }; } else { position = {availableScreenRect.right() - width() + 1, availableScreenRect.y()}; } break; case Plasma::Types::LeftEdge: if (m_behaveAsPlasmaPanel && !mask().isNull()) { position = {availableScreenRect.x(), availableScreenRect.y() + length(availableScreenRect.height())}; } else { position = {availableScreenRect.x(), availableScreenRect.y()}; } break; default: qWarning() << "wrong location, couldn't update the panel position" << location(); } m_validGeometry.setTopLeft(position); setPosition(position); if (m_shellSurface) { m_shellSurface->setPosition(position); } } inline void DockView::syncGeometry() { if (!(this->screen() && this->containment()) || m_inDelete) return; bool found{false}; //! before updating the positioning and geometry of the dock //! we make sure that the dock is at the correct screen if (this->screen() != m_screenToFollow) { qDebug() << "Sync Geometry screens inconsistent!!!!"; m_screenSyncTimer.start(); } else { found = true; } //! if the dock isnt at the correct screen the calculations //! are not executed if (found) { //! compute the free screen rectangle for vertical panels only once //! this way the costly QRegion computations are calculated only once //! instead of two times (both inside the resizeWindow and the updatePosition) QRegion freeRegion;; QRect maximumRect; QRect availableScreenRect{this->screen()->geometry()}; if (formFactor() == Plasma::Types::Vertical) { QString layoutName = m_managedLayout ? m_managedLayout->name() : QString(); auto dockCorona = qobject_cast(corona()); int fixedScreen = onPrimary() ? dockCorona->screenPool()->primaryScreenId() : this->containment()->screen(); freeRegion = dockCorona->availableScreenRegionWithCriteria(fixedScreen, layoutName); maximumRect = maximumNormalGeometry(); QRegion availableRegion = freeRegion.intersected(maximumRect); availableScreenRect = freeRegion.intersected(maximumRect).boundingRect(); float area = 0; //! it is used to choose which or the availableRegion rectangles will //! be the one representing dock geometry for (int i = 0; i < availableRegion.rectCount(); ++i) { QRect rect = availableRegion.rects().at(i); //! the area of each rectangle in calculated in squares of 50x50 //! this is a way to avoid enourmous numbers for area value float tempArea = (float)(rect.width() * rect.height()) / 2500; if (tempArea > area) { availableScreenRect = rect; area = tempArea; } } if (availableRegion.rectCount() > 1 && m_behaveAsPlasmaPanel) m_forceDrawCenteredBorders = true; else m_forceDrawCenteredBorders = false; } else { m_forceDrawCenteredBorders = false; } updateEnabledBorders(); resizeWindow(availableScreenRect); updatePosition(availableScreenRect); } // qDebug() << "dock geometry:" << qRectToStr(geometry()); } void DockView::statusChanged(Plasma::Types::ItemStatus status) { if (containment()) { if (containment()->status() >= Plasma::Types::NeedsAttentionStatus && containment()->status() != Plasma::Types::HiddenStatus) { setBlockHiding(true); } else { setBlockHiding(false); } } } bool DockView::alternativesIsShown() const { return m_alternativesIsShown; } void DockView::setAlternativesIsShown(bool show) { if (m_alternativesIsShown == show) { return; } m_alternativesIsShown = show; setBlockHiding(show); emit alternativesIsShownChanged(); } bool DockView::contextMenuIsShown() const { if (!m_menuManager) { return false; } return m_menuManager->contextMenu(); } int DockView::currentThickness() const { if (formFactor() == Plasma::Types::Vertical) { return m_maskArea.isNull() ? width() : m_maskArea.width() - m_shadow; } else { return m_maskArea.isNull() ? height() : m_maskArea.height() - m_shadow; } } int DockView::normalThickness() const { return m_normalThickness; } void DockView::setNormalThickness(int thickness) { if (m_normalThickness == thickness) { return; } m_normalThickness = thickness; emit normalThicknessChanged(); } int DockView::docksCount() const { if (!m_managedLayout) { return 0; } return m_managedLayout->docksCount(screen()); } int DockView::totalDocksCount() const { if (!m_managedLayout) { return 0; } return m_managedLayout->docksCount(); } int DockView::docksWithTasks() { if (!m_managedLayout) return 0; return m_managedLayout->noDocksWithTasks(); } void DockView::updateFormFactor() { if (!this->containment()) return; switch (location()) { case Plasma::Types::TopEdge: case Plasma::Types::BottomEdge: this->containment()->setFormFactor(Plasma::Types::Horizontal); break; case Plasma::Types::LeftEdge: case Plasma::Types::RightEdge: this->containment()->setFormFactor(Plasma::Types::Vertical); break; default: qWarning() << "wrong location, couldn't update the panel position" << location(); } } bool DockView::dockWinBehavior() const { return m_dockWinBehavior; } void DockView::setDockWinBehavior(bool dock) { if (m_dockWinBehavior == dock) { return; } m_dockWinBehavior = dock; emit dockWinBehaviorChanged(); } bool DockView::behaveAsPlasmaPanel() const { return m_behaveAsPlasmaPanel; } void DockView::setBehaveAsPlasmaPanel(bool behavior) { if (m_behaveAsPlasmaPanel == behavior) { return; } m_behaveAsPlasmaPanel = behavior; if (m_behaveAsPlasmaPanel && m_drawShadows) { PanelShadows::self()->addWindow(this, enabledBorders()); } else { PanelShadows::self()->removeWindow(this); // m_enabledBorders = Plasma::FrameSvg::AllBorders; // emit enabledBordersChanged(); } updateEffects(); emit behaveAsPlasmaPanelChanged(); } bool DockView::drawShadows() const { return m_drawShadows; } void DockView::setDrawShadows(bool draw) { if (m_drawShadows == draw) { return; } m_drawShadows = draw; if (m_behaveAsPlasmaPanel && m_drawShadows) { PanelShadows::self()->addWindow(this, enabledBorders()); } else { PanelShadows::self()->removeWindow(this); //m_enabledBorders = Plasma::FrameSvg::AllBorders; //emit enabledBordersChanged(); } emit drawShadowsChanged(); } bool DockView::drawEffects() const { return m_drawEffects; } void DockView::setDrawEffects(bool draw) { if (m_drawEffects == draw) { return; } m_drawEffects = draw; emit drawEffectsChanged(); } bool DockView::inEditMode() const { return m_inEditMode; } void DockView::setInEditMode(bool edit) { if (m_inEditMode == edit) { return; } m_inEditMode = edit; emit inEditModeChanged(); } bool DockView::onPrimary() const { return m_onPrimary; } void DockView::setOnPrimary(bool flag) { if (m_onPrimary == flag) { return; } m_onPrimary = flag; emit onPrimaryChanged(); } float DockView::maxLength() const { return m_maxLength; } void DockView::setMaxLength(float length) { if (m_maxLength == length) { return; } m_maxLength = length; emit maxLengthChanged(); } int DockView::maxThickness() const { return m_maxThickness; } void DockView::setMaxThickness(int thickness) { if (m_maxThickness == thickness) return; m_maxThickness = thickness; syncGeometry(); emit maxThicknessChanged(); } int DockView::alignment() const { return m_alignment; } void DockView::setAlignment(int alignment) { Dock::Alignment align = static_cast(alignment); if (m_alignment == alignment) { return; } m_alignment = align; emit alignmentChanged(); } bool DockView::blockAnimations() const { return m_blockAnimations; } void DockView::setBlockAnimations(bool block) { if (m_blockAnimations == block) { return; } m_blockAnimations = block; emit blockAnimationsChanged(); } bool DockView::colorizerSupport() const { return m_colorizerSupport; } void DockView::setColorizerSupport(bool support) { if (m_colorizerSupport == support) { return; } m_colorizerSupport = support; emit colorizerSupportChanged(); } QRect DockView::maskArea() const { return m_maskArea; } void DockView::setMaskArea(QRect area) { if (m_maskArea == area) return; m_maskArea = area; if (KWindowSystem::compositingActive()) { if (m_behaveAsPlasmaPanel) { setMask(QRect()); } else { setMask(m_maskArea); } } else { //! this is used when compositing is disabled and provides //! the correct way for the mask to be painted in order for //! rounded corners to be shown correctly //! the enabledBorders check was added because there was cases //! that the mask region wasnt calculated correctly after location changes if (!m_background || m_background->enabledBorders() != enabledBorders()) { m_background = new Plasma::FrameSvg(this); } if (m_background->imagePath() != "opaque/dialogs/background") { m_background->setImagePath(QStringLiteral("opaque/dialogs/background")); } m_background->setEnabledBorders(enabledBorders()); m_background->resizeFrame(area.size()); QRegion fixedMask = m_background->mask(); fixedMask.translate(m_maskArea.x(), m_maskArea.y()); //! fix for KF5.32 that return empty QRegion's for the mask if (fixedMask.isEmpty()) { fixedMask = QRegion(m_maskArea); } setMask(fixedMask); } // qDebug() << "dock mask set:" << m_maskArea; emit maskAreaChanged(); } QRect DockView::effectsArea() const { return m_effectsArea; } void DockView::setEffectsArea(QRect area) { QRect inWindowRect = area.intersected(QRect(0, 0, width(), height())); if (m_effectsArea == inWindowRect) { return; } m_effectsArea = inWindowRect; emit effectsAreaChanged(); } QRect DockView::absGeometry() const { return m_absGeometry; } QRect DockView::screenGeometry() const { if (this->screen()) { QRect geom = this->screen()->geometry(); return geom; } return QRect(); } int DockView::offset() const { return m_offset; } void DockView::setOffset(int offset) { if (m_offset == offset) { return; } m_offset = offset; emit offsetChanged(); } int DockView::dockTransparency() const { return m_dockTransparency; } void DockView::setDockTransparency(int transparency) { if (m_dockTransparency == transparency) { return; } m_dockTransparency = transparency; emit dockTransparencyChanged(); } int DockView::shadow() const { return m_shadow; } void DockView::setShadow(int shadow) { if (m_shadow == shadow) return; m_shadow = shadow; if (m_behaveAsPlasmaPanel) { syncGeometry(); } emit shadowChanged(); } int DockView::fontPixelSize() const { return m_fontPixelSize; } void DockView::setFontPixelSize(int size) { if (m_fontPixelSize == size) { return; } m_fontPixelSize = size; emit fontPixelSizeChanged(); } void DockView::applyActivitiesToWindows() { if (m_visibility) { QStringList activities = m_managedLayout->appliedActivities(); m_visibility->setWindowOnActivities(*this, activities); if (m_configView) { m_visibility->setWindowOnActivities(*m_configView, activities); auto configView = qobject_cast(m_configView); if (configView && configView->secondaryWindow()) { m_visibility->setWindowOnActivities(*configView->secondaryWindow(), activities); } } if (m_visibility->supportsKWinEdges()) { m_visibility->applyActivitiesToHiddenWindows(activities); } } } Layout *DockView::managedLayout() const { return m_managedLayout; } void DockView::setManagedLayout(Layout *layout) { if (m_managedLayout == layout) { return; } // clear mode for (auto &c : connectionsManagedLayout) { disconnect(c); } m_managedLayout = layout; if (m_managedLayout) { //! Sometimes the activity isnt completely ready, by adding a delay //! we try to catch up QTimer::singleShot(100, [this]() { if (m_managedLayout && m_visibility) { qDebug() << "DOCK VIEW FROM LAYOUT ::: " << m_managedLayout->name() << " - activities: " << m_managedLayout->appliedActivities(); applyActivitiesToWindows(); emit activitiesChanged(); } }); } DockCorona *dockCorona = qobject_cast(this->corona()); if (dockCorona->layoutManager()->memoryUsage() == Dock::MultipleLayouts) { connectionsManagedLayout[0] = connect(dockCorona->activitiesConsumer(), &KActivities::Consumer::runningActivitiesChanged, this, [&]() { if (m_managedLayout && m_visibility) { qDebug() << "DOCK VIEW FROM LAYOUT (runningActivitiesChanged) ::: " << m_managedLayout->name() << " - activities: " << m_managedLayout->appliedActivities(); applyActivitiesToWindows(); emit activitiesChanged(); } }); connectionsManagedLayout[1] = connect(m_managedLayout, &Layout::activitiesChanged, this, [&]() { if (m_managedLayout) { applyActivitiesToWindows(); emit activitiesChanged(); } }); connectionsManagedLayout[2] = connect(dockCorona->layoutManager(), &LayoutManager::layoutsChanged, this, [&]() { if (m_managedLayout) { applyActivitiesToWindows(); emit activitiesChanged(); } }); //!IMPORTANT!!! ::: This fixes a bug when closing an Activity all docks from all Activities are //! disappearing! With this they reappear!!! connectionsManagedLayout[3] = connect(this, &QWindow::visibleChanged, this, [&]() { if (!isVisible() && m_managedLayout) { QTimer::singleShot(100, [this]() { if (m_managedLayout && containment() && !containment()->destroyed()) { setVisible(true); applyActivitiesToWindows(); emit activitiesChanged(); } }); QTimer::singleShot(1500, [this]() { if (m_managedLayout && containment() && !containment()->destroyed()) { setVisible(true); applyActivitiesToWindows(); emit activitiesChanged(); } }); } }); } emit managedLayoutChanged(); } void DockView::moveToLayout(QString layoutName) { if (!m_managedLayout) { return; } QList containments = m_managedLayout->unassignFromLayout(this); DockCorona *dockCorona = qobject_cast(this->corona()); if (dockCorona && containments.size() > 0) { Layout *newLayout = dockCorona->layoutManager()->activeLayout(layoutName); if (newLayout) { newLayout->assignToLayout(this, containments); } } } bool DockView::inLocationChangeAnimation() { return ((m_goToLocation != Plasma::Types::Floating) || (m_moveToLayout != "") || m_goToScreen); } void DockView::hideDockDuringLocationChange(int goToLocation) { m_goToLocation = static_cast(goToLocation); emit hideDockDuringLocationChangeStarted(); } void DockView::hideDockDuringMovingToLayout(QString layoutName) { m_moveToLayout = layoutName; emit hideDockDuringMovingToLayoutStarted(); } void DockView::setBlockHiding(bool block) { if (!block) { auto *configView = qobject_cast(m_configView); if (m_alternativesIsShown || (configView && configView->sticker() && configView->isVisible())) { return; } if (m_visibility) { m_visibility->setBlockHiding(false); } } else { if (m_visibility) { m_visibility->setBlockHiding(true); } } } void DockView::updateEffects() { //! Dont apply any effect before the wayland surface is created under wayland //! https://bugs.kde.org/show_bug.cgi?id=392890 if (KWindowSystem::isPlatformWayland() && !m_shellSurface) { return; } if (!m_behaveAsPlasmaPanel) { if (m_drawEffects && !m_effectsArea.isNull() && !m_effectsArea.isEmpty()) { //! this is used when compositing is disabled and provides //! the correct way for the mask to be painted in order for //! rounded corners to be shown correctly if (!m_background) { m_background = new Plasma::FrameSvg(this); } if (m_background->imagePath() != "widgets/panel-background") { m_background->setImagePath(QStringLiteral("widgets/panel-background")); } m_background->setEnabledBorders(enabledBorders()); m_background->resizeFrame(m_effectsArea.size()); QRegion fixedMask = m_background->mask(); fixedMask.translate(m_effectsArea.x(), m_effectsArea.y()); //! fix1, for KF5.32 that return empty QRegion's for the mask if (fixedMask.isEmpty()) { fixedMask = QRegion(m_effectsArea); } KWindowEffects::enableBlurBehind(winId(), true, fixedMask); bool drawBackgroundEffect = m_theme.backgroundContrastEnabled() && (m_dockTransparency == 100); //based on Breeze Dark theme behavior the enableBackgroundContrast even though it does accept //a QRegion it uses only the first rect. The bug was that for Breeze Dark there was a line //at the dock bottom that was distinguishing it from other themes KWindowEffects::enableBackgroundContrast(winId(), drawBackgroundEffect, m_theme.backgroundContrast(), m_theme.backgroundIntensity(), m_theme.backgroundSaturation(), fixedMask.boundingRect()); } else { KWindowEffects::enableBlurBehind(winId(), false); KWindowEffects::enableBackgroundContrast(winId(), false); } } else if (m_behaveAsPlasmaPanel && m_drawEffects) { KWindowEffects::enableBlurBehind(winId(), true); bool drawBackgroundEffect = m_theme.backgroundContrastEnabled() && (m_dockTransparency == 100); KWindowEffects::enableBackgroundContrast(winId(), drawBackgroundEffect, m_theme.backgroundContrast(), m_theme.backgroundIntensity(), m_theme.backgroundSaturation()); } else { KWindowEffects::enableBlurBehind(winId(), false); KWindowEffects::enableBackgroundContrast(winId(), false); } } //! remove latte tasks plasmoid void DockView::removeTasksPlasmoid() { if (!tasksPresent() || !containment()) { return; } foreach (Plasma::Applet *applet, containment()->applets()) { KPluginMetaData meta = applet->kPackage().metadata(); if (meta.pluginId() == "org.kde.latte.plasmoid") { QAction *closeApplet = applet->actions()->action(QStringLiteral("remove")); if (closeApplet) { closeApplet->trigger(); //! remove only the first found return; } } } } //! check if the tasks plasmoid exist in the dock bool DockView::tasksPresent() { if (!this->containment()) { return false; } foreach (Plasma::Applet *applet, this->containment()->applets()) { const auto &provides = KPluginMetaData::readStringList(applet->pluginMetaData().rawData(), QStringLiteral("X-Plasma-Provides")); if (provides.contains(QLatin1String("org.kde.plasma.multitasking"))) { return true; } } return false; } //! check if the tasks plasmoid exist in the dock bool DockView::latteTasksPresent() { if (!this->containment()) { return false; } foreach (Plasma::Applet *applet, this->containment()->applets()) { KPluginMetaData metadata = applet->pluginMetaData(); if (metadata.pluginId() == "org.kde.latte.plasmoid") { return true; } } return false; } //!check if the plasmoid with _name_ exists in the midedata bool DockView::mimeContainsPlasmoid(QMimeData *mimeData, QString name) { if (!mimeData) { return false; } if (mimeData->hasFormat(QStringLiteral("text/x-plasmoidservicename"))) { QString data = mimeData->data(QStringLiteral("text/x-plasmoidservicename")); const QStringList appletNames = data.split('\n', QString::SkipEmptyParts); foreach (const QString &appletName, appletNames) { if (appletName == name) return true; } } return false; } VisibilityManager *DockView::visibility() const { return m_visibility; } bool DockView::event(QEvent *e) { if (!m_inDelete) { emit eventTriggered(e); switch (e->type()) { case QEvent::Leave: engine()->trimComponentCache(); break; case QEvent::PlatformSurface: if (auto pe = dynamic_cast(e)) { switch (pe->surfaceEventType()) { case QPlatformSurfaceEvent::SurfaceCreated: setupWaylandIntegration(); if (m_shellSurface) { syncGeometry(); if (m_drawShadows) { PanelShadows::self()->addWindow(this, enabledBorders()); } } break; case QPlatformSurfaceEvent::SurfaceAboutToBeDestroyed: if (m_shellSurface) { delete m_shellSurface; m_shellSurface = nullptr; qDebug() << "WAYLAND dock window surface was deleted..."; PanelShadows::self()->removeWindow(this); } break; } } break; default: break; } } return ContainmentView::event(e);; } QList DockView::freeEdges() const { if (!m_managedLayout) { const QList emptyEdges; return emptyEdges; } const auto edges = m_managedLayout->freeEdges(screen()); QList edgesInt; foreach (Plasma::Types::Location edge, edges) { edgesInt.append(static_cast(edge)); } return edgesInt; } void DockView::deactivateApplets() { if (!containment()) { return; } foreach (auto applet, containment()->applets()) { PlasmaQuick::AppletQuickItem *ai = applet->property("_plasma_graphicObject").value(); if (ai) { ai->setExpanded(false); } } } void DockView::toggleAppletExpanded(const int id) { if (!containment()) { return; } foreach (auto applet, containment()->applets()) { if (applet->id() == id) { PlasmaQuick::AppletQuickItem *ai = applet->property("_plasma_graphicObject").value(); if (ai) { if (!ai->isActivationTogglesExpanded()) { ai->setActivationTogglesExpanded(true); } emit applet->activated(); } } } } QVariantList DockView::containmentActions() { QVariantList actions; /*if (containment()->corona()->immutability() != Plasma::Types::Mutable) { return actions; }*/ //FIXME: the trigger string it should be better to be supported this way //const QString trigger = Plasma::ContainmentActions::eventToString(event); const QString trigger = "RightButton;NoModifier"; Plasma::ContainmentActions *plugin = this->containment()->containmentActions().value(trigger); if (!plugin) { return actions; } if (plugin->containment() != this->containment()) { plugin->setContainment(this->containment()); // now configure it KConfigGroup cfg(this->containment()->corona()->config(), "ActionPlugins"); cfg = KConfigGroup(&cfg, QString::number(this->containment()->containmentType())); KConfigGroup pluginConfig = KConfigGroup(&cfg, trigger); plugin->restore(pluginConfig); } foreach (QAction *ac, plugin->contextualActions()) { actions << QVariant::fromValue(ac); } return actions; } //!BEGIN overriding context menus behavior void DockView::mousePressEvent(QMouseEvent *event) { bool result = m_menuManager->mousePressEvent(event); emit contextMenuIsShownChanged(); if (result) { PlasmaQuick::ContainmentView::mousePressEvent(event); } } //!END overriding context menus behavior //!BEGIN draw panel shadows outside the dock window Plasma::FrameSvg::EnabledBorders DockView::enabledBorders() const { return m_enabledBorders; } void DockView::updateEnabledBorders() { if (!this->screen()) { return; } Plasma::FrameSvg::EnabledBorders borders = Plasma::FrameSvg::AllBorders; switch (location()) { case Plasma::Types::TopEdge: borders &= ~Plasma::FrameSvg::TopBorder; break; case Plasma::Types::LeftEdge: borders &= ~Plasma::FrameSvg::LeftBorder; break; case Plasma::Types::RightEdge: borders &= ~Plasma::FrameSvg::RightBorder; break; case Plasma::Types::BottomEdge: borders &= ~Plasma::FrameSvg::BottomBorder; break; default: break; } if ((location() == Plasma::Types::LeftEdge || location() == Plasma::Types::RightEdge)) { if (maxLength() == 1 && m_alignment == Dock::Justify && !m_forceDrawCenteredBorders) { borders &= ~Plasma::FrameSvg::TopBorder; borders &= ~Plasma::FrameSvg::BottomBorder; } if (m_alignment == Dock::Top && !m_forceDrawCenteredBorders && m_offset == 0) { borders &= ~Plasma::FrameSvg::TopBorder; } if (m_alignment == Dock::Bottom && !m_forceDrawCenteredBorders && m_offset == 0) { borders &= ~Plasma::FrameSvg::BottomBorder; } } if (location() == Plasma::Types::TopEdge || location() == Plasma::Types::BottomEdge) { if (maxLength() == 1 && m_alignment == Dock::Justify) { borders &= ~Plasma::FrameSvg::LeftBorder; borders &= ~Plasma::FrameSvg::RightBorder; } if (m_alignment == Dock::Left && m_offset == 0) { borders &= ~Plasma::FrameSvg::LeftBorder; } if (m_alignment == Dock::Right && m_offset == 0) { borders &= ~Plasma::FrameSvg::RightBorder; } } if (m_enabledBorders != borders) { m_enabledBorders = borders; emit enabledBordersChanged(); } if (!m_behaveAsPlasmaPanel || !m_drawShadows) { PanelShadows::self()->removeWindow(this); } else { PanelShadows::self()->setEnabledBorders(this, borders); } } //!END draw panel shadows outside the dock window //!BEGIN configuration functions void DockView::saveConfig() { if (!this->containment()) return; auto config = this->containment()->config(); config.writeEntry("onPrimary", m_onPrimary); config.writeEntry("dockWindowBehavior", m_dockWinBehavior); config.sync(); } void DockView::restoreConfig() { if (!this->containment()) return; auto config = this->containment()->config(); setOnPrimary(config.readEntry("onPrimary", true)); setDockWinBehavior(config.readEntry("dockWindowBehavior", true)); } //!END configuration functions } //!END namespace