/*
* Copyright 2016 Smith AR <audoban@openmaibox.org>
* Michail Vourlakos <mvourlakos@gmail.com>
*
* 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 <http://www.gnu.org/licenses/>.
*/
#include "lattecorona.h"
// local
#include "alternativeshelper.h"
#include "importer.h"
#include "lattedockadaptor.h"
#include "launcherssignals.h"
#include "layoutmanager.h"
#include "screenpool.h"
#include "indicator/factory.h"
#include "layout/centrallayout.h"
#include "layout/genericlayout.h"
#include "layout/sharedlayout.h"
#include "shortcuts/globalshortcuts.h"
#include "package/lattepackage.h"
#include "plasma/extended/screenpool.h"
#include "plasma/extended/theme.h"
#include "settings/universalsettings.h"
#include "view/view.h"
#include "wm/abstractwindowinterface.h"
#include "wm/waylandinterface.h"
#include "wm/xwindowinterface.h"
// Qt
#include <QAction>
#include <QApplication>
#include <QScreen>
#include <QDBusConnection>
#include <QDebug>
#include <QDesktopWidget>
#include <QFile>
#include <QFontDatabase>
#include <QQmlContext>
// Plasma
#include <Plasma>
#include <Plasma/Corona>
#include <Plasma/Containment>
#include <PlasmaQuick/ConfigView>
// KDE
#include <KActionCollection>
#include <KPluginMetaData>
#include <KGlobalAccel>
#include <KLocalizedString>
#include <KPackage/Package>
#include <KPackage/PackageLoader>
#include <KAboutData>
#include <KActivities/Consumer>
#include <KDeclarative/QmlObjectSharedEngine>
#include <KWindowSystem>
#include <KWayland/Client/connection_thread.h>
#include <KWayland/Client/registry.h>
#include <KWayland/Client/plasmashell.h>
#include <KWayland/Client/plasmawindowmanagement.h>
namespace Latte {
Corona::Corona(bool defaultLayoutOnStartup, QString layoutNameOnStartUp, int userSetMemoryUsage, QObject *parent)
: Plasma::Corona(parent),
m_defaultLayoutOnStartup(defaultLayoutOnStartup),
m_userSetMemoryUsage(userSetMemoryUsage),
m_layoutNameOnStartUp(layoutNameOnStartUp),
m_activityConsumer(new KActivities::Consumer(this)),
m_screenPool(new ScreenPool(KSharedConfig::openConfig(), this)),
m_indicatorFactory(new Indicator::Factory(this)),
m_universalSettings(new UniversalSettings(KSharedConfig::openConfig(), this)),
m_globalShortcuts(new GlobalShortcuts(this)),
m_plasmaScreenPool(new PlasmaExtended::ScreenPool(this)),
m_themeExtended(new PlasmaExtended::Theme(KSharedConfig::openConfig(), this)),
m_layoutManager(new LayoutManager(this))
{
//! create the window manager
if (KWindowSystem::isPlatformWayland()) {
m_wm = new WaylandInterface(this);
} else {
m_wm = new XWindowInterface(this);
}
setupWaylandIntegration();
KPackage::Package package(new Latte::Package(this));
m_screenPool->load();
if (!package.isValid()) {
qWarning() << staticMetaObject.className()
<< "the package" << package.metadata().rawData() << "is invalid!";
return;
} else {
qDebug() << staticMetaObject.className()
<< "the package" << package.metadata().rawData() << "is valid!";
}
setKPackage(package);
//! universal settings / extendedtheme must be loaded after the package has been set
m_universalSettings->load();
m_themeExtended->load();
qmlRegisterTypes();
if (m_activityConsumer && (m_activityConsumer->serviceStatus() == KActivities::Consumer::Running)) {
load();
}
connect(m_activityConsumer, &KActivities::Consumer::serviceStatusChanged, this, &Corona::load);
m_viewsScreenSyncTimer.setSingleShot(true);
m_viewsScreenSyncTimer.setInterval(m_universalSettings->screenTrackerInterval());
connect(&m_viewsScreenSyncTimer, &QTimer::timeout, this, &Corona::syncLatteViewsToScreens);
connect(m_universalSettings, &UniversalSettings::screenTrackerIntervalChanged, this, [this]() {
m_viewsScreenSyncTimer.setInterval(m_universalSettings->screenTrackerInterval());
});
//! initialize the background tracer for broadcasted backgrounds
m_backgroundTracer = new KDeclarative::QmlObjectSharedEngine(this);
m_backgroundTracer->setInitializationDelayed(true);
m_backgroundTracer->setSource(kPackage().filePath("backgroundTracer"));
m_backgroundTracer->completeInitialization();
//! Dbus adaptor initialization
new LatteDockAdaptor(this);
QDBusConnection dbus = QDBusConnection::sessionBus();
dbus.registerObject(QStringLiteral("/Latte"), this);
}
Corona::~Corona()
{
//! BEGIN: Give the time to slide-out views when closing
m_layoutManager->hideAllViews();
//! Don't delay the destruction under wayland in any case
//! because it creates a crash with kwin effects
//! https://bugs.kde.org/show_bug.cgi?id=392890
if (!KWindowSystem::isPlatformWayland()) {
QTimer::singleShot(400, [this]() {
m_quitTimedEnded = true;
});
while (!m_quitTimedEnded) {
QGuiApplication::processEvents(QEventLoop::AllEvents, 50);
}
}
//! END: slide-out views when closing
m_viewsScreenSyncTimer.stop();
if (m_layoutManager->memoryUsage() == Types::SingleLayout) {
cleanConfig();
}
qDebug() << "Latte Corona - unload: containments ...";
m_layoutManager->unload();
m_wm->deleteLater();
m_globalShortcuts->deleteLater();
m_layoutManager->deleteLater();
m_screenPool->deleteLater();
m_universalSettings->deleteLater();
m_plasmaScreenPool->deleteLater();
m_backgroundTracer->deleteLater();
m_themeExtended->deleteLater();
m_indicatorFactory->deleteLater();
disconnect(m_activityConsumer, &KActivities::Consumer::serviceStatusChanged, this, &Corona::load);
delete m_activityConsumer;
qDebug() << "Latte Corona - deleted...";
}
void Corona::load()
{
if (m_activityConsumer && (m_activityConsumer->serviceStatus() == KActivities::Consumer::Running) && m_activitiesStarting) {
disconnect(m_activityConsumer, &KActivities::Consumer::serviceStatusChanged, this, &Corona::load);
m_layoutManager->load();
m_activitiesStarting = false;
connect(this, &Corona::availableScreenRectChangedFrom, this, &Plasma::Corona::availableScreenRectChanged);
connect(this, &Corona::availableScreenRegionChangedFrom, this, &Plasma::Corona::availableScreenRegionChanged);
connect(qGuiApp, &QGuiApplication::primaryScreenChanged, this, &Corona::primaryOutputChanged, Qt::UniqueConnection);
connect(QApplication::desktop(), &QDesktopWidget::screenCountChanged, this, &Corona::screenCountChanged);
connect(m_screenPool, &ScreenPool::primaryPoolChanged, this, &Corona::screenCountChanged);
QString assignedLayout = m_layoutManager->shouldSwitchToLayout(m_activityConsumer->currentActivity());
QString loadLayoutName = "";
if (!m_defaultLayoutOnStartup && m_layoutNameOnStartUp.isEmpty()) {
if (!assignedLayout.isEmpty() && assignedLayout != m_universalSettings->currentLayoutName()) {
loadLayoutName = assignedLayout;
} else {
loadLayoutName = m_universalSettings->currentLayoutName();
}
if (!m_layoutManager->layoutExists(loadLayoutName)) {
loadLayoutName = m_layoutManager->defaultLayoutName();
m_layoutManager->importDefaultLayout(false);
}
} else if (m_defaultLayoutOnStartup) {
loadLayoutName = m_layoutManager->importer()->uniqueLayoutName(m_layoutManager->defaultLayoutName());
m_layoutManager->importDefaultLayout(true);
} else {
loadLayoutName = m_layoutNameOnStartUp;
}
if (m_userSetMemoryUsage != -1 && !KWindowSystem::isPlatformWayland()) {
Types::LayoutsMemoryUsage usage = static_cast<Types::LayoutsMemoryUsage>(m_userSetMemoryUsage);
m_universalSettings->setLayoutsMemoryUsage(usage);
}
if (KWindowSystem::isPlatformWayland()) {
m_universalSettings->setLayoutsMemoryUsage(Types::SingleLayout);
}
m_layoutManager->loadLayoutOnStartup(loadLayoutName);
//! load screens signals such screenGeometryChanged in order to support
//! plasmoid.screenGeometry properly
for (QScreen *screen : qGuiApp->screens()) {
addOutput(screen);
}
connect(qGuiApp, &QGuiApplication::screenAdded, this, &Corona::addOutput, Qt::UniqueConnection);
}
}
void Corona::unload()
{
qDebug() << "unload: removing containments...";
while (!containments().isEmpty()) {
//deleting a containment will remove it from the list due to QObject::destroyed connect in Corona
//this form doesn't crash, while qDeleteAll(containments()) does
delete containments().first();
}
}
void Corona::setupWaylandIntegration()
{
if (!KWindowSystem::isPlatformWayland()) {
return;
}
using namespace KWayland::Client;
auto connection = ConnectionThread::fromApplication(this);
if (!connection) {
return;
}
Registry *registry{new Registry(this)};
registry->create(connection);
connect(registry, &Registry::plasmaShellAnnounced, this
, [this, registry](quint32 name, quint32 version) {
m_waylandCorona = registry->createPlasmaShell(name, version, this);
});
QObject::connect(registry, &KWayland::Client::Registry::plasmaWindowManagementAnnounced,
[this, registry](quint32 name, quint32 version) {
KWayland::Client::PlasmaWindowManagement *pwm = registry->createPlasmaWindowManagement(name, version, this);
WaylandInterface *wI = qobject_cast<WaylandInterface *>(m_wm);
if (wI) {
wI->initWindowManagement(pwm);
}
});
registry->setup();
connection->roundtrip();
}
KActivities::Consumer *Corona::activityConsumer() const
{
return m_activityConsumer;
}
KWayland::Client::PlasmaShell *Corona::waylandCoronaInterface() const
{
return m_waylandCorona;
}
void Corona::cleanConfig()
{
auto containmentsEntries = config()->group("Containments");
bool changed = false;
for(const auto &cId : containmentsEntries.groupList()) {
if (!containmentExists(cId.toUInt())) {
//cleanup obsolete containments
containmentsEntries.group(cId).deleteGroup();
changed = true;
qDebug() << "obsolete containment configuration deleted:" << cId;
} else {
//cleanup obsolete applets of running containments
auto appletsEntries = containmentsEntries.group(cId).group("Applets");
for(const auto &appletId : appletsEntries.groupList()) {
if (!appletExists(cId.toUInt(), appletId.toUInt())) {
appletsEntries.group(appletId).deleteGroup();
changed = true;
qDebug() << "obsolete applet configuration deleted:" << appletId;
}
}
}
}
if (changed) {
config()->sync();
qDebug() << "configuration file cleaned...";
}
}
bool Corona::containmentExists(uint id) const
{
for(const auto containment : containments()) {
if (id == containment->id()) {
return true;
}
}
return false;
}
bool Corona::appletExists(uint containmentId, uint appletId) const
{
Plasma::Containment *containment = nullptr;
for(const auto cont : containments()) {
if (containmentId == cont->id()) {
containment = cont;
break;
}
}
if (!containment) {
return false;
}
for(const auto applet : containment->applets()) {
if (applet->id() == appletId) {
return true;
}
}
return false;
}
KActivities::Consumer *Corona::activitiesConsumer() const
{
return m_activityConsumer;
}
GlobalShortcuts *Corona::globalShortcuts() const
{
return m_globalShortcuts;
}
ScreenPool *Corona::screenPool() const
{
return m_screenPool;
}
UniversalSettings *Corona::universalSettings() const
{
return m_universalSettings;
}
LayoutManager *Corona::layoutManager() const
{
return m_layoutManager;
}
AbstractWindowInterface *Corona::wm() const
{
return m_wm;
}
Indicator::Factory *Corona::indicatorFactory() const
{
return m_indicatorFactory;
}
PlasmaExtended::ScreenPool *Corona::plasmaScreenPool() const
{
return m_plasmaScreenPool;
}
PlasmaExtended::Theme *Corona::themeExtended() const
{
return m_themeExtended;
}
int Corona::numScreens() const
{
return qGuiApp->screens().count();
}
QRect Corona::screenGeometry(int id) const
{
const auto screens = qGuiApp->screens();
const QScreen *screen{qGuiApp->primaryScreen()};
QString screenName;
if (m_screenPool->hasId(id)) {
screenName = m_screenPool->connector(id);
}
for(const auto scr : screens) {
if (scr->name() == screenName) {
screen = scr;
break;
}
}
return screen->geometry();
}
QRegion Corona::availableScreenRegion(int id) const
{
return availableScreenRegionWithCriteria(id);
}
QRegion Corona::availableScreenRegionWithCriteria(int id, QString forLayout) const
{
const auto screens = qGuiApp->screens();
const QScreen *screen{qGuiApp->primaryScreen()};
QString screenName;
if (m_screenPool->hasId(id)) {
screenName = m_screenPool->connector(id);
}
for(auto scr : screens) {
if (scr->name() == screenName) {
screen = scr;
break;
}
}
if (!screen)
return QRegion();
QList<Latte::View *> views;
if (forLayout.isEmpty()) {
Latte::CentralLayout *currentLayout = m_layoutManager->currentLayout();
views = currentLayout->latteViews();
} else {
Layout::GenericLayout *generic = m_layoutManager->centralLayout(forLayout);
if (!generic) {
//! Identify best active layout to be used for metrics calculations.
//! Active layouts are always take into account their shared layouts for their metrics
SharedLayout *sharedLayout = m_layoutManager->sharedLayout(forLayout);
if (sharedLayout) {
generic = sharedLayout->currentCentralLayout();
}
}
if (!generic) {
generic = m_layoutManager->currentLayout();
}
views = generic->latteViews();
}
QRegion available(screen->geometry());
for (const auto *view : views) {
if (view && view->containment() && view->screen() == screen
&& view->visibility() && (view->visibility()->mode() != Latte::Types::AutoHide)) {
int realThickness = view->normalThickness();
// Usually availableScreenRect is used by the desktop,
// but Latte don't have desktop, then here just
// need calculate available space for top and bottom location,
// because the left and right are those who dodge others views
switch (view->location()) {
case Plasma::Types::TopEdge:
if (view->behaveAsPlasmaPanel()) {
available -= view->geometry();
} else {
QRect realGeometry;
int realWidth = view->maxLength() * view->width();
switch (view->alignment()) {
case Latte::Types::Left:
realGeometry = QRect(view->x(), view->y(),
realWidth, realThickness);
break;
case Latte::Types::Center:
case Latte::Types::Justify:
realGeometry = QRect(qMax(view->geometry().x(), view->geometry().center().x() - realWidth / 2), view->y(),
realWidth, realThickness);
break;
case Latte::Types::Right:
realGeometry = QRect(view->geometry().right() - realWidth + 1, view->y(),
realWidth, realThickness);
break;
}
available -= realGeometry;
}
break;
case Plasma::Types::BottomEdge:
if (view->behaveAsPlasmaPanel()) {
available -= view->geometry();
} else {
QRect realGeometry;
int realWidth = view->maxLength() * view->width();
int realY = view->geometry().bottom() - realThickness + 1;
switch (view->alignment()) {
case Latte::Types::Left:
realGeometry = QRect(view->x(), realY,
realWidth, realThickness);
break;
case Latte::Types::Center:
case Latte::Types::Justify:
realGeometry = QRect(qMax(view->geometry().x(), view->geometry().center().x() - realWidth / 2),
realY, realWidth, realThickness);
break;
case Latte::Types::Right:
realGeometry = QRect(view->geometry().right() - realWidth + 1, realY,
realWidth, realThickness);
break;
}
available -= realGeometry;
}
break;
default:
//! bypass clang warnings
break;
}
}
}
/*qDebug() << "::::: FREE AREAS :::::";
for (int i = 0; i < available.rectCount(); ++i) {
qDebug() << available.rects().at(i);
}
qDebug() << "::::: END OF FREE AREAS :::::";*/
return available;
}
QRect Corona::availableScreenRect(int id) const
{
return availableScreenRectWithCriteria(id);
}
QRect Corona::availableScreenRectWithCriteria(int id, QList<Types::Visibility> modes, QList<Plasma::Types::Location> edges) const
{
const auto screens = qGuiApp->screens();
const QScreen *screen{qGuiApp->primaryScreen()};
if (m_screenPool->hasId(id)) {
QString scrName = m_screenPool->connector(id);
for(const auto scr : screens) {
if (scr->name() == scrName) {
screen = scr;
break;
}
}
}
if (!screen)
return {};
bool allModes = modes.isEmpty();
bool allEdges = edges.isEmpty();
auto available = screen->geometry();
Latte::CentralLayout *currentLayout = m_layoutManager->currentLayout();
QList<Latte::View *> views;
if (currentLayout) {
views = currentLayout->latteViews();
}
for (const auto *view : views) {
if (view && view->containment() && view->screen() == screen
&& ((allEdges || edges.contains(view->location()))
&& (allModes || (view->visibility() && modes.contains(view->visibility()->mode()))))) {
// Usually availableScreenRect is used by the desktop,
// but Latte don't have desktop, then here just
// need calculate available space for top and bottom location,
// because the left and right are those who dodge others docks
switch (view->location()) {
case Plasma::Types::TopEdge:
available.setTop(view->y() + view->normalThickness());
break;
case Plasma::Types::BottomEdge:
available.setBottom(view->y() + view->height() - view->normalThickness());
break;
case Plasma::Types::LeftEdge:
available.setLeft(view->x() + view->normalThickness());
break;
case Plasma::Types::RightEdge:
available.setRight(view->x() + view->width() - view->normalThickness());
break;
default:
//! bypass clang warnings
break;
}
}
}
return available;
}
void Corona::addOutput(QScreen *screen)
{
Q_ASSERT(screen);
int id = m_screenPool->id(screen->name());
if (id == -1) {
int newId = m_screenPool->firstAvailableId();
m_screenPool->insertScreenMapping(newId, screen->name());
}
connect(screen, &QScreen::geometryChanged, this, [ = ]() {
const int id = m_screenPool->id(screen->name());
if (id >= 0) {
emit screenGeometryChanged(id);
emit availableScreenRegionChanged();
emit availableScreenRectChanged();
}
});
emit availableScreenRectChanged();
emit screenAdded(m_screenPool->id(screen->name()));
}
void Corona::primaryOutputChanged()
{
m_viewsScreenSyncTimer.start();
}
void Corona::screenRemoved(QScreen *screen)
{
Q_ASSERT(screen);
}
void Corona::screenCountChanged()
{
m_viewsScreenSyncTimer.start();
}
//! the central functions that updates loading/unloading latteviews
//! concerning screen changed (for multi-screen setups mainly)
void Corona::syncLatteViewsToScreens()
{
m_layoutManager->syncLatteViewsToScreens();
}
int Corona::primaryScreenId() const
{
return m_screenPool->id(qGuiApp->primaryScreen()->name());
}
void Corona::closeApplication()
{
//! this code must be called asynchronously because it is called
//! also from qml (Settings window).
QTimer::singleShot(5, [this]() {
m_layoutManager->hideLatteSettingsDialog();
m_layoutManager->hideAllViews();
});
//! give the time for the views to hide themselves
QTimer::singleShot(500, [this]() {
qGuiApp->quit();
});
}
void Corona::aboutApplication()
{
if (aboutDialog) {
aboutDialog->hide();
aboutDialog->deleteLater();
}
aboutDialog = new KAboutApplicationDialog(KAboutData::applicationData());
connect(aboutDialog.data(), &QDialog::finished, aboutDialog.data(), &QObject::deleteLater);
m_wm->skipTaskBar(*aboutDialog);
m_wm->setKeepAbove(*aboutDialog, true);
aboutDialog->show();
}
int Corona::screenForContainment(const Plasma::Containment *containment) const
{
//FIXME: indexOf is not a proper way to support multi-screen
// as for environment to environment the indexes change
// also there is the following issue triggered
// from latteView adaptToScreen()
//
// in a multi-screen environment that
// primary screen is not set to 0 it was
// created an endless showing loop at
// startup (catch-up race) between
// screen:0 and primaryScreen
//case in which this containment is child of an applet, hello systray :)
if (Plasma::Applet *parentApplet = qobject_cast<Plasma::Applet *>(containment->parent())) {
if (Plasma::Containment *cont = parentApplet->containment()) {
return screenForContainment(cont);
} else {
return -1;
}
}
Latte::CentralLayout *currentLayout = m_layoutManager->currentLayout();
Latte::View *view = currentLayout->viewForContainment(containment);
if (view && view->screen()) {
return m_screenPool->id(view->screen()->name());
}
//Failed? fallback on lastScreen()
//lastScreen() is the correct screen for panels
//It is also correct for desktops *that have the correct activity()*
//a containment with lastScreen() == 0 but another activity,
//won't be associated to a screen
// qDebug() << "ShellCorona screenForContainment: " << containment << " Last screen is " << containment->lastScreen();
for (auto screen : qGuiApp->screens()) {
// containment->lastScreen() == m_screenPool->id(screen->name()) to check if the lastScreen refers to a screen that exists/it's known
if (containment->lastScreen() == m_screenPool->id(screen->name()) &&
(containment->activity() == m_activityConsumer->currentActivity() ||
containment->containmentType() == Plasma::Types::PanelContainment || containment->containmentType() == Plasma::Types::CustomPanelContainment)) {
return containment->lastScreen();
}
}
return -1;
}
void Corona::showAlternativesForApplet(Plasma::Applet *applet)
{
const QString alternativesQML = kPackage().filePath("appletalternativesui");
if (alternativesQML.isEmpty()) {
return;
}
Latte::CentralLayout *currentLayout = m_layoutManager->currentLayout();
Latte::View *latteView = currentLayout->viewForContainment(applet->containment());
KDeclarative::QmlObjectSharedEngine *qmlObj{nullptr};
if (latteView) {
latteView->setAlternativesIsShown(true);
qmlObj = new KDeclarative::QmlObjectSharedEngine(latteView);
} else {
qmlObj = new KDeclarative::QmlObjectSharedEngine(this);
}
qmlObj->setInitializationDelayed(true);
qmlObj->setSource(QUrl::fromLocalFile(alternativesQML));
AlternativesHelper *helper = new AlternativesHelper(applet, qmlObj);
qmlObj->rootContext()->setContextProperty(QStringLiteral("alternativesHelper"), helper);
m_alternativesObjects << qmlObj;
qmlObj->completeInitialization();
//! Alternative dialog signals
connect(helper, &QObject::destroyed, this, [latteView]() {
latteView->setAlternativesIsShown(false);
});
connect(qmlObj->rootObject(), SIGNAL(visibleChanged(bool)),
this, SLOT(alternativesVisibilityChanged(bool)));
connect(applet, &Plasma::Applet::destroyedChanged, this, [this, qmlObj](bool destroyed) {
if (!destroyed) {
return;
}
QMutableListIterator<KDeclarative::QmlObjectSharedEngine *> it(m_alternativesObjects);
while (it.hasNext()) {
KDeclarative::QmlObjectSharedEngine *obj = it.next();
if (obj == qmlObj) {
it.remove();
obj->deleteLater();
}
}
});
}
void Corona::alternativesVisibilityChanged(bool visible)
{
if (visible) {
return;
}
QObject *root = sender();
QMutableListIterator<KDeclarative::QmlObjectSharedEngine *> it(m_alternativesObjects);
while (it.hasNext()) {
KDeclarative::QmlObjectSharedEngine *obj = it.next();
if (obj->rootObject() == root) {
it.remove();
obj->deleteLater();
}
}
}
void Corona::addViewForLayout(QString layoutName)
{
qDebug() << "loading default layout";
//! Setting mutable for create a containment
setImmutability(Plasma::Types::Mutable);
QVariantList args;
auto defaultContainment = createContainmentDelayed("org.kde.latte.containment", args);
defaultContainment->setContainmentType(Plasma::Types::PanelContainment);
defaultContainment->init();
if (!defaultContainment || !defaultContainment->kPackage().isValid()) {
qWarning() << "the requested containment plugin can not be located or loaded";
return;
}
auto config = defaultContainment->config();
defaultContainment->restore(config);
using Plasma::Types;
QList<Types::Location> edges{Types::BottomEdge, Types::LeftEdge,
Types::TopEdge, Types::RightEdge};
Layout::GenericLayout *currentLayout = m_layoutManager->layout(layoutName);
if (currentLayout) {
edges = currentLayout->freeEdges(defaultContainment->screen());
}
if ((edges.count() > 0)) {
defaultContainment->setLocation(edges.at(0));
} else {
defaultContainment->setLocation(Plasma::Types::BottomEdge);
}
if (m_layoutManager->memoryUsage() == Latte::Types::MultipleLayouts) {
config.writeEntry("layoutId", layoutName);
}
defaultContainment->updateConstraints(Plasma::Types::StartupCompletedConstraint);
defaultContainment->save(config);
requestConfigSync();
defaultContainment->flushPendingConstraintsEvents();
emit containmentAdded(defaultContainment);
emit containmentCreated(defaultContainment);
defaultContainment->createApplet(QStringLiteral("org.kde.latte.plasmoid"));
defaultContainment->createApplet(QStringLiteral("org.kde.plasma.analogclock"));
}
void Corona::loadDefaultLayout()
{
addViewForLayout(m_layoutManager->currentLayoutName());
}
QStringList Corona::containmentsIds()
{
QStringList ids;
for(const auto containment : containments()) {
ids << QString::number(containment->id());
}
return ids;
}
QStringList Corona::appletsIds()
{
QStringList ids;
for(const auto containment : containments()) {
auto applets = containment->config().group("Applets");
ids << applets.groupList();
}
return ids;
}
//! Activate launcher menu through dbus interface
void Corona::activateLauncherMenu()
{
m_globalShortcuts->activateLauncherMenu();
}
void Corona::windowColorScheme(QString windowIdAndScheme)
{
int firstSlash = windowIdAndScheme.indexOf("-");
QString windowIdStr = windowIdAndScheme.mid(0, firstSlash);
QString schemeStr = windowIdAndScheme.mid(firstSlash + 1);
if (KWindowSystem::isPlatformWayland()) {
QTimer::singleShot(200, [this, schemeStr]() {
//! [Wayland Case] - give the time to be informed correctly for the active window id
//! otherwise the active window id may not be the same with the one trigerred
//! the color scheme dbus signal
QString windowIdStr = m_wm->activeWindow().toString();
m_wm->setColorSchemeForWindow(windowIdStr.toUInt(), schemeStr);
});
} else {
m_wm->setColorSchemeForWindow(windowIdStr.toUInt(), schemeStr);
}
}
//! update badge for specific view item
void Corona::updateDockItemBadge(QString identifier, QString value)
{
m_globalShortcuts->updateViewItemBadge(identifier, value);
}
void Corona::switchToLayout(QString layout)
{
m_layoutManager->switchToLayout(layout);
}
void Corona::showSettingsWindow(int page)
{
Types::LatteConfigPage p = Types::LayoutPage;
if (page >= Types::LayoutPage && page <= Types::PreferencesPage) {
p = static_cast<Types::LatteConfigPage>(page);
}
m_layoutManager->showLatteSettingsDialog(p);
}
void Corona::setContextMenuView(int id)
{
//! set context menu view id
m_contextMenuViewId = id;
}
QStringList Corona::contextMenuData()
{
QStringList data;
Types::ViewType viewType{Types::DockView};
Latte::CentralLayout *currentLayout = m_layoutManager->currentLayout();
if (currentLayout) {
viewType = currentLayout->latteViewType(m_contextMenuViewId);
}
data << QString::number((int)m_layoutManager->memoryUsage());
data << m_layoutManager->currentLayoutName();
data << QString::number((int)viewType);
for(const auto &layoutName : m_layoutManager->menuLayouts()) {
if (m_layoutManager->centralLayout(layoutName)) {
data << QString("1," + layoutName);
} else {
data << QString("0," + layoutName);
}
}
//! reset context menu view id
m_contextMenuViewId = -1;
return data;
}
void Corona::setBackgroundFromBroadcast(QString activity, QString screenName, QString filename)
{
if (filename.startsWith("file://")) {
filename = filename.remove(0,7);
}
QMetaObject::invokeMethod(m_backgroundTracer->rootObject(),
"setBackgroundFromBroadcast",
Q_ARG(QVariant, activity),
Q_ARG(QVariant, screenName),
Q_ARG(QVariant, filename));
}
void Corona::setBroadcastedBackgroundsEnabled(QString activity, QString screenName, bool enabled)
{
QMetaObject::invokeMethod(m_backgroundTracer->rootObject(),
"setBroadcastedBackgroundsEnabled",
Q_ARG(QVariant, activity),
Q_ARG(QVariant, screenName),
Q_ARG(QVariant, enabled));
}
inline void Corona::qmlRegisterTypes() const
{
qmlRegisterType<QScreen>();
qmlRegisterType<Latte::View>();
}
}