diff --git a/libtaskmanager/abstracttasksmodel.h b/libtaskmanager/abstracttasksmodel.h index b0b10dbdc..761d97c2c 100644 --- a/libtaskmanager/abstracttasksmodel.h +++ b/libtaskmanager/abstracttasksmodel.h @@ -1,279 +1,280 @@ /******************************************************************** Copyright 2016 Eike Hein This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) version 3, or any later version accepted by the membership of KDE e.V. (or its successor approved by the membership of KDE e.V.), which shall act as a proxy defined in Section 6 of version 3 of the license. This library 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library. If not, see . *********************************************************************/ #ifndef ABSTRACTTASKSMODEL_H #define ABSTRACTTASKSMODEL_H #include "abstracttasksmodeliface.h" #include #include "taskmanager_export.h" namespace TaskManager { /** * @short An abstract base class for (flat) tasks models. * * This class serves as abstract base class for flat tasks model implementations. * It provides data roles and no-op default implementations of methods in the * AbstractTasksModelIface interface. * * @author Eike Hein **/ class TASKMANAGER_EXPORT AbstractTasksModel : public QAbstractListModel, public AbstractTasksModelIface { Q_OBJECT public: enum AdditionalRoles { AppId = Qt::UserRole + 1, /**< KService storage id (.desktop name sans extension). */ AppName, /**< Application name. */ GenericName, /**< Generic application name. */ LauncherUrl, /**< URL that can be used to launch this application (.desktop or executable). */ LauncherUrlWithoutIcon, /**< Special path to get a launcher URL while skipping fallback icon encoding. Used as speed optimization. */ LegacyWinIdList, /**< X11 window ids. Stopgap until we have something better. */ MimeType, /**< MIME type for this task (window, window group), needed for DND. */ MimeData, /**< Data for MimeType. */ IsWindow, /**< This is a window task. */ IsStartup, /**< This is a startup task. */ IsLauncher, /**< This is a launcher task. */ IsGroupParent, /**< This is a parent item for a group of child tasks. */ IsGroupable, /**< Whether this task is being ignored by grouping or not. */ IsActive, /**< This is the currently active task. */ IsClosable, /**< requestClose (see below) available. */ IsMovable, /**< requestMove (see below) available. */ IsResizable, /**< requestResize (see below) available. */ IsMaximizable, /**< requestToggleMaximize (see below) available. */ IsMaximized, /**< Task (i.e. window) is maximized. */ IsMinimizable, /**< requestToggleMinimize (see below) available. */ IsMinimized, /**< Task (i.e. window) is minimized. */ IsKeepAbove, /**< Task (i.e. window) is keep-above. */ IsKeepBelow, /**< Task (i.e. window) is keep-below. */ IsFullScreenable, /**< requestToggleFullScreen (see below) available. */ IsFullScreen, /**< Task (i.e. window) is fullscreen. */ IsShadeable, /**< requestToggleShade (see below) available. */ IsShaded, /**< Task (i.e. window) is shaded. */ IsVirtualDesktopChangeable, /**< requestVirtualDesktop (see below) available. */ VirtualDesktop, /**< Virtual desktop for the task (i.e. window). */ IsOnAllVirtualDesktops, /**< Task is on all virtual desktops. */ Geometry, /**< The task's geometry (i.e. the window's). */ ScreenGeometry, /**< Screen geometry for the task (i.e. the window's screen). */ Activities, /**< Activities for the task (i.e. window). */ IsDemandingAttention, /**< Task is demanding attention. */ SkipTaskbar, /**< Task should not be shown in a 'task bar' user interface. */ SkipPager, /**< Task should not to be shown in a 'pager' user interface. */ + AppPid, /**< Application Process ID */ }; Q_ENUM(AdditionalRoles) explicit AbstractTasksModel(QObject *parent = nullptr); virtual ~AbstractTasksModel(); QHash roleNames() const override; virtual QModelIndex index(int row, int column = 0, const QModelIndex &parent = QModelIndex()) const override; /** * Request activation of the task at the given index. Derived classes are * free to interpret the meaning of "activate" themselves depending on * the nature and state of the task, e.g. launch or raise a window task. * * This base implementation does nothing. * * @param index An index in this tasks model. **/ virtual void requestActivate(const QModelIndex &index) override; /** * Request an additional instance of the application backing the task * at the given index. * * This base implementation does nothing. * * @param index An index in this tasks model. **/ virtual void requestNewInstance(const QModelIndex &index) override; /** * Requests to open the given URLs with the application backing the task * at the given index. * * This base implementation does nothing. * * @param index An index in this tasks model. * @param urls The URLs to be passed to the application. **/ virtual void requestOpenUrls(const QModelIndex &index, const QList &urls) override; /** * Request the task at the given index be closed. * * This base implementation does nothing. * * @param index An index in this tasks model. **/ virtual void requestClose(const QModelIndex &index) override; /** * Request starting an interactive move for the task at the given index. * * This is meant for tasks that have an associated window, and may be * a no-op when there is no window. * * This base implementation does nothing. * * @param index An index in this tasks model. **/ virtual void requestMove(const QModelIndex &index) override; /** * Request starting an interactive resize for the task at the given index. * * This is meant for tasks that have an associated window, and may be a * no-op when there is no window. * * This base implementation does nothing. * * @param index An index in this tasks model. **/ virtual void requestResize(const QModelIndex &index) override; /** * Request toggling the minimized state of the task at the given index. * * This is meant for tasks that have an associated window, and may be * a no-op when there is no window. * * This base implementation does nothing. * * @param index An index in this tasks model. **/ virtual void requestToggleMinimized(const QModelIndex &index) override; /** * Request toggling the maximized state of the task at the given index. * * This is meant for tasks that have an associated window, and may be * a no-op when there is no window. * * This base implementation does nothing. * * @param index An index in this tasks model. **/ virtual void requestToggleMaximized(const QModelIndex &index) override; /** * Request toggling the keep-above state of the task at the given index. * * This is meant for tasks that have an associated window, and may be * a no-op when there is no window. * * This base implementation does nothing. * * @param index An index in this tasks model. **/ virtual void requestToggleKeepAbove(const QModelIndex &index) override; /** * Request toggling the keep-below state of the task at the given index. * * This is meant for tasks that have an associated window, and may be * a no-op when there is no window. * * This base implementation does nothing. * * @param index An index in this tasks model. **/ virtual void requestToggleKeepBelow(const QModelIndex &index) override; /** * Request toggling the fullscreen state of the task at the given index. * * This is meant for tasks that have an associated window, and may be * a no-op when there is no window. * * This base implementation does nothing. * * @param index An index in this tasks model. **/ virtual void requestToggleFullScreen(const QModelIndex &index) override; /** * Request toggling the shaded state of the task at the given index. * * This is meant for tasks that have an associated window, and may be * a no-op when there is no window. * * This base implementation does nothing. * * @param index An index in this tasks model. **/ virtual void requestToggleShaded(const QModelIndex &index) override; /** * Request moving the task at the given index to the specified virtual * desktop. * * This is meant for tasks that have an associated window, and may be * a no-op when there is no window. * * This base implementation does nothing. * * @param index An index in this tasks model. * @param desktop A virtual desktop number. **/ virtual void requestVirtualDesktop(const QModelIndex &index, qint32 desktop) override; /** * Request moving the task at the given index to the specified activities. * * This is meant for tasks that have an associated window, and may be * a no-op when there is no window. * * This base implementation does nothing. * * @param index An index in this tasks model. * @param activities The new list of activities. **/ virtual void requestActivities(const QModelIndex &index, const QStringList &activities) override; /** * Request informing the window manager of new geometry for a visual * delegate for the task at the given index. The geometry should be in * screen coordinates. * * This base implementation does nothing. * * @param index An index in this tasks model. * @param geometry Visual delegate geometry in screen coordinates. * @param delegate The delegate. Implementations are on their own with * regard to extracting information from this, and should take care to * reject invalid objects. **/ virtual void requestPublishDelegateGeometry(const QModelIndex &index, const QRect &geometry, QObject *delegate = nullptr) override; }; } #endif diff --git a/libtaskmanager/waylandtasksmodel.cpp b/libtaskmanager/waylandtasksmodel.cpp index 5f8229220..37f6340f1 100644 --- a/libtaskmanager/waylandtasksmodel.cpp +++ b/libtaskmanager/waylandtasksmodel.cpp @@ -1,544 +1,546 @@ /******************************************************************** Copyright 2016 Eike Hein This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) version 3, or any later version accepted by the membership of KDE e.V. (or its successor approved by the membership of KDE e.V.), which shall act as a proxy defined in Section 6 of version 3 of the license. This library 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library. If not, see . *********************************************************************/ #include "waylandtasksmodel.h" #include "tasktools.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace TaskManager { class WaylandTasksModel::Private { public: Private(WaylandTasksModel *q); QList windows; QHash appDataCache; KWayland::Client::PlasmaWindowManagement *windowManagement = nullptr; void initWayland(); void addWindow(KWayland::Client::PlasmaWindow *window); AppData appData(KWayland::Client::PlasmaWindow *window); void dataChanged(KWayland::Client::PlasmaWindow *window, int role); void dataChanged(KWayland::Client::PlasmaWindow *window, const QVector &roles); private: WaylandTasksModel *q; }; WaylandTasksModel::Private::Private(WaylandTasksModel *q) : q(q) { } void WaylandTasksModel::Private::initWayland() { if (!KWindowSystem::isPlatformWayland()) { return; } KWayland::Client::ConnectionThread *connection = KWayland::Client::ConnectionThread::fromApplication(q); if (!connection) { return; } KWayland::Client::Registry *registry = new KWayland::Client::Registry(q); registry->create(connection); QObject::connect(registry, &KWayland::Client::Registry::plasmaWindowManagementAnnounced, [this, registry] (quint32 name, quint32 version) { windowManagement = registry->createPlasmaWindowManagement(name, version, q); QObject::connect(windowManagement, &KWayland::Client::PlasmaWindowManagement::interfaceAboutToBeReleased, q, [this] { q->beginResetModel(); windows.clear(); q->endResetModel(); } ); QObject::connect(windowManagement, &KWayland::Client::PlasmaWindowManagement::windowCreated, q, [this](KWayland::Client::PlasmaWindow *window) { addWindow(window); } ); const auto windows = windowManagement->windows(); for (auto it = windows.constBegin(); it != windows.constEnd(); ++it) { addWindow(*it); } } ); registry->setup(); } void WaylandTasksModel::Private::addWindow(KWayland::Client::PlasmaWindow *window) { if (windows.indexOf(window) != -1) { return; } const int count = windows.count(); q->beginInsertRows(QModelIndex(), count, count); windows.append(window); q->endInsertRows(); auto removeWindow = [window, this] { const int row = windows.indexOf(window); if (row != -1) { q->beginRemoveRows(QModelIndex(), row, row); windows.removeAt(row); appDataCache.remove(window); q->endRemoveRows(); } }; QObject::connect(window, &KWayland::Client::PlasmaWindow::unmapped, q, removeWindow); QObject::connect(window, &QObject::destroyed, q, removeWindow); QObject::connect(window, &KWayland::Client::PlasmaWindow::titleChanged, q, [window, this] { dataChanged(window, Qt::DisplayRole); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::iconChanged, q, [window, this] { dataChanged(window, Qt::DecorationRole); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::appIdChanged, q, [window, this] { appDataCache.remove(window); dataChanged(window, QVector{AppId, AppName, GenericName, LauncherUrl, LauncherUrlWithoutIcon}); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::activeChanged, q, [window, this] { this->dataChanged(window, IsActive); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::closeableChanged, q, [window, this] { this->dataChanged(window, IsClosable); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::movableChanged, q, [window, this] { this->dataChanged(window, IsMovable); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::resizableChanged, q, [window, this] { this->dataChanged(window, IsResizable); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::fullscreenableChanged, q, [window, this] { this->dataChanged(window, IsFullScreenable); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::fullscreenChanged, q, [window, this] { this->dataChanged(window, IsFullScreen); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::maximizeableChanged, q, [window, this] { this->dataChanged(window, IsMaximizable); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::maximizedChanged, q, [window, this] { this->dataChanged(window, IsMaximized); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::minimizeableChanged, q, [window, this] { this->dataChanged(window, IsMinimizable); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::minimizedChanged, q, [window, this] { this->dataChanged(window, IsMinimized); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::keepAboveChanged, q, [window, this] { this->dataChanged(window, IsKeepAbove); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::keepBelowChanged, q, [window, this] { this->dataChanged(window, IsKeepBelow); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::shadeableChanged, q, [window, this] { this->dataChanged(window, IsShadeable); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::virtualDesktopChangeableChanged, q, [window, this] { this->dataChanged(window, IsVirtualDesktopChangeable); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::virtualDesktopChanged, q, [window, this] { this->dataChanged(window, VirtualDesktop); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::onAllDesktopsChanged, q, [window, this] { this->dataChanged(window, IsOnAllVirtualDesktops); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::geometryChanged, q, [window, this] { this->dataChanged(window, QVector{Geometry, ScreenGeometry}); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::demandsAttentionChanged, q, [window, this] { this->dataChanged(window, IsDemandingAttention); } ); QObject::connect(window, &KWayland::Client::PlasmaWindow::skipTaskbarChanged, q, [window, this] { this->dataChanged(window, SkipTaskbar); } ); } AppData WaylandTasksModel::Private::appData(KWayland::Client::PlasmaWindow *window) { const auto &it = appDataCache.constFind(window); if (it != appDataCache.constEnd()) { return *it; } const AppData &data = appDataFromAppId(window->appId()); appDataCache.insert(window, data); return data; } void WaylandTasksModel::Private::dataChanged(KWayland::Client::PlasmaWindow *window, int role) { QModelIndex idx = q->index(windows.indexOf(window)); emit q->dataChanged(idx, idx, QVector{role}); } void WaylandTasksModel::Private::dataChanged(KWayland::Client::PlasmaWindow *window, const QVector &roles) { QModelIndex idx = q->index(windows.indexOf(window)); emit q->dataChanged(idx, idx, roles); } WaylandTasksModel::WaylandTasksModel(QObject *parent) : AbstractTasksModel(parent) , d(new Private(this)) { d->initWayland(); } WaylandTasksModel::~WaylandTasksModel() = default; QVariant WaylandTasksModel::data(const QModelIndex &index, int role) const { if (!index.isValid() || index.row() >= d->windows.count()) { return QVariant(); } KWayland::Client::PlasmaWindow *window = d->windows.at(index.row()); if (role == Qt::DisplayRole) { return window->title(); } else if (role == Qt::DecorationRole) { return window->icon(); } else if (role == AppId) { return window->appId(); } else if (role == AppName) { return d->appData(window).name; } else if (role == GenericName) { return d->appData(window).genericName; } else if (role == LauncherUrl || role == LauncherUrlWithoutIcon) { return d->appData(window).url; } else if (role == IsWindow) { return true; } else if (role == IsActive) { return window->isActive(); } else if (role == IsClosable) { return window->isCloseable(); } else if (role == IsMovable) { return window->isMovable(); } else if (role == IsResizable) { return window->isResizable(); } else if (role == IsMaximizable) { return window->isMaximizeable(); } else if (role == IsMaximized) { return window->isMaximized(); } else if (role == IsMinimizable) { return window->isMinimizeable(); } else if (role == IsMinimized) { return window->isMinimized(); } else if (role == IsKeepAbove) { return window->isKeepAbove(); } else if (role == IsKeepBelow) { return window->isKeepBelow(); } else if (role == IsFullScreenable) { return window->isFullscreenable(); } else if (role == IsFullScreen) { return window->isFullscreen(); } else if (role == IsShadeable) { return window->isShadeable(); } else if (role == IsShaded) { return window->isShaded(); } else if (role == IsVirtualDesktopChangeable) { return window->isVirtualDesktopChangeable(); } else if (role == VirtualDesktop) { return window->virtualDesktop(); } else if (role == IsOnAllVirtualDesktops) { return window->isOnAllDesktops(); } else if (role == Geometry) { return window->geometry(); } else if (role == ScreenGeometry) { return screenGeometry(window->geometry().center()); } else if (role == Activities) { // FIXME Implement. } else if (role == IsDemandingAttention) { return window->isDemandingAttention(); } else if (role == SkipTaskbar) { return window->skipTaskbar(); } else if (role == SkipPager) { // FIXME Implement. + } else if (role == AppPid) { + // FIXME Implement. } return QVariant(); } int WaylandTasksModel::rowCount(const QModelIndex &parent) const { return parent.isValid() ? 0 : d->windows.count(); } QModelIndex WaylandTasksModel::index(int row, int column, const QModelIndex &parent) const { return hasIndex(row, column, parent) ? createIndex(row, column, d->windows.at(row)) : QModelIndex(); } void WaylandTasksModel::requestActivate(const QModelIndex &index) { // FIXME Lacks transient handling of the XWindows version. if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } d->windows.at(index.row())->requestActivate(); } void WaylandTasksModel::requestNewInstance(const QModelIndex &index) { if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } KWayland::Client::PlasmaWindow* window = d->windows.at(index.row()); if (d->appDataCache.contains(window)) { const AppData &data = d->appData(window); new KRun(data.url, 0, false); if (!data.id.isEmpty()) { KActivities::ResourceInstance::notifyAccessed(QUrl(QStringLiteral("applications:") + data.id), QStringLiteral("org.kde.libtaskmanager")); } } } void WaylandTasksModel::requestOpenUrls(const QModelIndex &index, const QList &urls) { if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count() || urls.isEmpty()) { return; } const QUrl &url = d->appData(d->windows.at(index.row())).url; const KService::Ptr service = KService::serviceByDesktopPath(url.toLocalFile()); if (service) { KRun::runApplication(*service, urls, nullptr, 0); KActivities::ResourceInstance::notifyAccessed(QUrl(QStringLiteral("applications:") + service->storageId()), QStringLiteral("org.kde.libtaskmanager")); } } void WaylandTasksModel::requestClose(const QModelIndex &index) { if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } d->windows.at(index.row())->requestClose(); } void WaylandTasksModel::requestMove(const QModelIndex &index) { // FIXME Move-to-desktop logic from XWindows version. (See also others.) if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } d->windows.at(index.row())->requestMove(); } void WaylandTasksModel::requestResize(const QModelIndex &index) { // FIXME Move-to-desktop logic from XWindows version. (See also others.) if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } d->windows.at(index.row())->requestResize(); } void WaylandTasksModel::requestToggleMinimized(const QModelIndex &index) { // FIXME Move-to-desktop logic from XWindows version. (See also others.) if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } d->windows.at(index.row())->requestToggleMinimized(); } void WaylandTasksModel::requestToggleMaximized(const QModelIndex &index) { // FIXME Move-to-desktop logic from XWindows version. (See also others.) if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } d->windows.at(index.row())->requestToggleMaximized(); } void WaylandTasksModel::requestToggleKeepAbove(const QModelIndex &index) { Q_UNUSED(index) // FIXME Implement. } void WaylandTasksModel::requestToggleKeepBelow(const QModelIndex &index) { Q_UNUSED(index) // FIXME Implement. } void WaylandTasksModel::requestToggleFullScreen(const QModelIndex &index) { Q_UNUSED(index) // FIXME Implement. } void WaylandTasksModel::requestToggleShaded(const QModelIndex &index) { if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } d->windows.at(index.row())->requestToggleShaded(); } void WaylandTasksModel::requestVirtualDesktop(const QModelIndex &index, qint32 desktop) { // FIXME Lacks add-new-desktop code from XWindows version. // FIXME Does this do the set-on-all-desktops stuff from the XWindows version? if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } d->windows.at(index.row())->requestVirtualDesktop(desktop); } void WaylandTasksModel::requestActivities(const QModelIndex &index, const QStringList &activities) { Q_UNUSED(index) Q_UNUSED(activities) } void WaylandTasksModel::requestPublishDelegateGeometry(const QModelIndex &index, const QRect &geometry, QObject *delegate) { /* FIXME: This introduces the dependency on Qt5::Quick. I might prefer reversing this and publishing the window pointer through the model, then calling PlasmaWindow::setMinimizeGeometry in the applet backend, rather than hand delegate items into the lib, keeping the lib more UI- agnostic. */ Q_UNUSED(geometry) if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } const QQuickItem *item = qobject_cast(delegate); if (!item || !item->parentItem() || !item->window()) { return; } QWindow *itemWindow = item->window(); if (!itemWindow) { return; } using namespace KWayland::Client; Surface *surface = Surface::fromWindow(itemWindow); if (!surface) { return; } QRect rect(item->x(), item->y(), item->width(), item->height()); rect.moveTopLeft(item->parentItem()->mapToScene(rect.topLeft()).toPoint()); KWayland::Client::PlasmaWindow *window = d->windows.at(index.row()); window->setMinimizedGeometry(surface, rect); } } diff --git a/libtaskmanager/xwindowtasksmodel.cpp b/libtaskmanager/xwindowtasksmodel.cpp index 662999597..2aacd2036 100644 --- a/libtaskmanager/xwindowtasksmodel.cpp +++ b/libtaskmanager/xwindowtasksmodel.cpp @@ -1,1361 +1,1363 @@ /******************************************************************** Copyright 2016 Eike Hein Copyright 2008 Aaron J. Seigo This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) version 3, or any later version accepted by the membership of KDE e.V. (or its successor approved by the membership of KDE e.V.), which shall act as a proxy defined in Section 6 of version 3 of the license. This library 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library. If not, see . *********************************************************************/ #include "xwindowtasksmodel.h" #include "tasktools.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace TaskManager { static const NET::Properties windowInfoFlags = NET::WMState | NET::XAWMState | NET::WMDesktop | - NET::WMVisibleName | NET::WMGeometry | NET::WMFrameExtents | NET::WMWindowType; + NET::WMVisibleName | NET::WMGeometry | NET::WMFrameExtents | NET::WMWindowType | NET::WMPid; static const NET::Properties2 windowInfoFlags2 = NET::WM2DesktopFileName | NET::WM2Activities | NET::WM2WindowClass | NET::WM2AllowedActions; class XWindowTasksModel::Private { public: Private(XWindowTasksModel *q); ~Private(); QVector windows; QSet transients; QHash transientsDemandingAttention; QHash windowInfoCache; QHash appDataCache; QHash delegateGeometries; WId activeWindow = -1; KSharedConfig::Ptr rulesConfig; KDirWatch *configWatcher = nullptr; QTimer sycocaChangeTimer; void init(); void addWindow(WId window); void removeWindow(WId window); void windowChanged(WId window, NET::Properties properties, NET::Properties2 properties2); void transientChanged(WId window, NET::Properties properties, NET::Properties2 properties2); void dataChanged(WId window, const QVector &roles); KWindowInfo* windowInfo(WId window); AppData appData(WId window); QIcon icon(WId window); static QString mimeType(); static QString groupMimeType(); QUrl windowUrl(WId window); QUrl launcherUrl(WId window, bool encodeFallbackIcon = true); QUrl serviceUrl(int pid, const QString &type, const QStringList &cmdRemovals); KService::List servicesFromPid(int pid); bool demandsAttention(WId window); private: XWindowTasksModel *q; }; XWindowTasksModel::Private::Private(XWindowTasksModel *q) : q(q) { } XWindowTasksModel::Private::~Private() { qDeleteAll(windowInfoCache); windowInfoCache.clear(); } void XWindowTasksModel::Private::init() { rulesConfig = KSharedConfig::openConfig(QStringLiteral("taskmanagerrulesrc")); configWatcher = new KDirWatch(q); foreach (const QString &location, QStandardPaths::standardLocations(QStandardPaths::ConfigLocation)) { configWatcher->addFile(location + QLatin1String("/taskmanagerrulesrc")); } QObject::connect(configWatcher, &KDirWatch::dirty, [this] { rulesConfig->reparseConfiguration(); }); QObject::connect(configWatcher, &KDirWatch::created, [this] { rulesConfig->reparseConfiguration(); }); QObject::connect(configWatcher, &KDirWatch::deleted, [this] { rulesConfig->reparseConfiguration(); }); sycocaChangeTimer.setSingleShot(true); sycocaChangeTimer.setInterval(100); QObject::connect(&sycocaChangeTimer, &QTimer::timeout, q, [this]() { if (!windows.count()) { return; } appDataCache.clear(); // Emit changes of all roles satisfied from app data cache. q->dataChanged(q->index(0, 0), q->index(windows.count() - 1, 0), QVector{Qt::DecorationRole, AbstractTasksModel::AppId, AbstractTasksModel::AppName, AbstractTasksModel::GenericName, AbstractTasksModel::LauncherUrl}); } ); void (KSycoca::*myDatabaseChangeSignal)(const QStringList &) = &KSycoca::databaseChanged; QObject::connect(KSycoca::self(), myDatabaseChangeSignal, q, [this](const QStringList &changedResources) { if (changedResources.contains(QLatin1String("services")) || changedResources.contains(QLatin1String("apps")) || changedResources.contains(QLatin1String("xdgdata-apps"))) { sycocaChangeTimer.start(); } } ); QObject::connect(KWindowSystem::self(), &KWindowSystem::windowAdded, q, [this](WId window) { addWindow(window); } ); QObject::connect(KWindowSystem::self(), &KWindowSystem::windowRemoved, q, [this](WId window) { removeWindow(window); } ); void (KWindowSystem::*myWindowChangeSignal)(WId window, NET::Properties properties, NET::Properties2 properties2) = &KWindowSystem::windowChanged; QObject::connect(KWindowSystem::self(), myWindowChangeSignal, q, [this](WId window, NET::Properties properties, NET::Properties2 properties2) { windowChanged(window, properties, properties2); } ); // Update IsActive for previously- and newly-active windows. QObject::connect(KWindowSystem::self(), &KWindowSystem::activeWindowChanged, q, [this](WId window) { const WId oldActiveWindow = activeWindow; activeWindow = window; int row = windows.indexOf(oldActiveWindow); if (row != -1) { dataChanged(oldActiveWindow, QVector{IsActive}); } row = windows.indexOf(window); if (row != -1) { dataChanged(window, QVector{IsActive}); } } ); activeWindow = KWindowSystem::activeWindow(); // Add existing windows. foreach(const WId window, KWindowSystem::windows()) { addWindow(window); } } void XWindowTasksModel::Private::addWindow(WId window) { // Don't add window twice. if (windows.contains(window)) { return; } KWindowInfo info(window, NET::WMWindowType | NET::WMState | NET::WMName | NET::WMVisibleName, NET::WM2TransientFor); NET::WindowType wType = info.windowType(NET::NormalMask | NET::DesktopMask | NET::DockMask | NET::ToolbarMask | NET::MenuMask | NET::DialogMask | NET::OverrideMask | NET::TopMenuMask | NET::UtilityMask | NET::SplashMask); const WId leader = info.transientFor(); // Handle transient. if (leader > 0 && leader != window && leader != QX11Info::appRootWindow() && !transients.contains(window) && windows.contains(leader)) { transients.insert(window); // Update demands attention state for leader. if (info.hasState(NET::DemandsAttention) && windows.contains(leader)) { transientsDemandingAttention.insertMulti(leader, window); dataChanged(leader, QVector{IsDemandingAttention}); } return; } // Ignore NET::Tool and other special window types; they are not considered tasks. if (wType != NET::Normal && wType != NET::Override && wType != NET::Unknown && wType != NET::Dialog && wType != NET::Utility) { return; } const int count = windows.count(); q->beginInsertRows(QModelIndex(), count, count); windows.append(window); q->endInsertRows(); } void XWindowTasksModel::Private::removeWindow(WId window) { const int row = windows.indexOf(window); if (row != -1) { q->beginRemoveRows(QModelIndex(), row, row); windows.removeAt(row); transientsDemandingAttention.remove(window); windowInfoCache.remove(window); appDataCache.remove(window); delegateGeometries.remove(window); q->endRemoveRows(); } else { // Could be a transient. // Removing a transient might change the demands attention state of the leader. if (transients.remove(window)) { QMutableHashIterator i(transientsDemandingAttention); WId leader = 0; while (i.hasNext()) { i.next(); if (i.value() == window) { if (leader == 0) { leader = i.key(); } i.remove(); } } if (leader != 0) { dataChanged(leader, QVector{IsDemandingAttention}); } } } if (activeWindow == window) { activeWindow = -1; } } void XWindowTasksModel::Private::transientChanged(WId window, NET::Properties properties, NET::Properties2 properties2) { // Changes to a transient's state might change demands attention state for leader. if (properties & (NET::WMState | NET::XAWMState)) { const KWindowInfo info(window, NET::WMState | NET::XAWMState, NET::WM2TransientFor); const WId leader = info.transientFor(); if (!windows.contains(leader)) { return; } if (info.hasState(NET::DemandsAttention)) { if (!transientsDemandingAttention.values(leader).contains(window)) { transientsDemandingAttention.insertMulti(leader, window); dataChanged(leader, QVector{IsDemandingAttention}); } } else if (transientsDemandingAttention.remove(window)) { dataChanged(leader, QVector{IsDemandingAttention}); } // Leader might have changed. } else if (properties2 & NET::WM2TransientFor) { const KWindowInfo info(window, NET::WMState | NET::XAWMState, NET::WM2TransientFor); if (info.hasState(NET::DemandsAttention)) { WId oldLeader = info.transientFor(); QMutableHashIterator i(transientsDemandingAttention); while (i.hasNext()) { i.next(); if (i.value() == window) { i.remove(); oldLeader = i.key(); } } if (oldLeader != 0) { const WId leader = info.transientFor(); transientsDemandingAttention.insertMulti(leader, window); dataChanged(oldLeader, QVector{IsDemandingAttention}); dataChanged(leader, QVector{IsDemandingAttention}); } } } } void XWindowTasksModel::Private::windowChanged(WId window, NET::Properties properties, NET::Properties2 properties2) { if (transients.contains(window)) { transientChanged(window, properties, properties2); return; } bool wipeInfoCache = false; bool wipeAppDataCache = false; QVector changedRoles; if (properties & (NET::WMName | NET::WMVisibleName | NET::WMPid) || properties2 & (NET::WM2DesktopFileName | NET::WM2WindowClass)) { wipeInfoCache = true; wipeAppDataCache = true; - changedRoles << Qt::DisplayRole << Qt::DecorationRole << AppId << AppName << GenericName << LauncherUrl; + changedRoles << Qt::DisplayRole << Qt::DecorationRole << AppId << AppName << GenericName << LauncherUrl << AppPid; } if ((properties & NET::WMIcon) && !changedRoles.contains(Qt::DecorationRole)) { changedRoles << Qt::DecorationRole; } // FIXME TODO: It might be worth keeping track of which windows were demanding // attention (or not) to avoid emitting this role on every state change, as // TaskGroupingProxyModel needs to check for group-ability when a change to it // is announced and the queried state is false. if (properties & (NET::WMState | NET::XAWMState)) { wipeInfoCache = true; changedRoles << IsFullScreen << IsMaximized << IsMinimized << IsKeepAbove << IsKeepBelow; changedRoles << IsShaded << IsDemandingAttention << SkipTaskbar << SkipPager; } if (properties & NET::WMWindowType) { wipeInfoCache = true; changedRoles << SkipTaskbar; } if (properties2 & NET::WM2AllowedActions) { wipeInfoCache = true; changedRoles << IsClosable << IsMovable << IsResizable << IsMaximizable << IsMinimizable; changedRoles << IsFullScreenable << IsShadeable << IsVirtualDesktopChangeable; } if (properties & NET::WMDesktop) { wipeInfoCache = true; changedRoles << VirtualDesktop << IsOnAllVirtualDesktops; } if (properties & NET::WMGeometry) { wipeInfoCache = true; changedRoles << Geometry << ScreenGeometry; } if (properties2 & NET::WM2Activities) { changedRoles << Activities; } if (wipeInfoCache) { delete windowInfoCache.take(window); } if (wipeAppDataCache) { appDataCache.remove(window); } if (!changedRoles.isEmpty()) { dataChanged(window, changedRoles); } } void XWindowTasksModel::Private::dataChanged(WId window, const QVector &roles) { const int i = windows.indexOf(window); if (i == -1) { return; } QModelIndex idx = q->index(i); emit q->dataChanged(idx, idx, roles); } KWindowInfo* XWindowTasksModel::Private::windowInfo(WId window) { const auto &it = windowInfoCache.constFind(window); if (it != windowInfoCache.constEnd()) { return *it; } KWindowInfo *info = new KWindowInfo(window, windowInfoFlags, windowInfoFlags2); windowInfoCache.insert(window, info); return info; } AppData XWindowTasksModel::Private::appData(WId window) { const auto &it = appDataCache.constFind(window); if (it != appDataCache.constEnd()) { return *it; } const AppData &data = appDataFromUrl(windowUrl(window)); // If we weren't able to derive a launcher URL from the window meta data, // fall back to WM_CLASS Class string as app id. This helps with apps we // can't map to an URL due to existing outside the regular system // environment, e.g. wine clients. if (data.id.isEmpty() && data.url.isEmpty()) { AppData dataCopy = data; dataCopy.id = windowInfo(window)->windowClassClass(); appDataCache.insert(window, dataCopy); return dataCopy; } appDataCache.insert(window, data); return data; } QIcon XWindowTasksModel::Private::icon(WId window) { const AppData &app = appData(window); if (!app.icon.isNull()) { return app.icon; } QIcon icon; icon.addPixmap(KWindowSystem::icon(window, KIconLoader::SizeSmall, KIconLoader::SizeSmall, false)); icon.addPixmap(KWindowSystem::icon(window, KIconLoader::SizeSmallMedium, KIconLoader::SizeSmallMedium, false)); icon.addPixmap(KWindowSystem::icon(window, KIconLoader::SizeMedium, KIconLoader::SizeMedium, false)); icon.addPixmap(KWindowSystem::icon(window, KIconLoader::SizeLarge, KIconLoader::SizeLarge, false)); return icon; } QString XWindowTasksModel::Private::mimeType() { return QStringLiteral("windowsystem/winid"); } QString XWindowTasksModel::Private::groupMimeType() { return QStringLiteral("windowsystem/multiple-winids"); } QUrl XWindowTasksModel::Private::windowUrl(WId window) { QUrl url; const KWindowInfo *info = windowInfo(window); QString desktopFile = QString::fromUtf8(info->desktopFileName()); if (!desktopFile.isEmpty()) { KService::Ptr service = KService::serviceByStorageId(desktopFile); if (service) { return QUrl::fromLocalFile(service->entryPath()); } if (!desktopFile.endsWith(QLatin1String(".desktop"))) { desktopFile.append(QLatin1String(".desktop")); } if (KDesktopFile::isDesktopFile(desktopFile) && QFile::exists(desktopFile)) { return QUrl::fromLocalFile(desktopFile); } } const QString &classClass = info->windowClassClass(); const QString &className = info->windowClassName(); KService::List services; bool triedPid = false; if (!(classClass.isEmpty() && className.isEmpty())) { int pid = NETWinInfo(QX11Info::connection(), window, QX11Info::appRootWindow(), NET::WMPid, 0).pid(); // For KCModules, if we matched on window class, etc, we would end up matching // to kcmshell5 itself - but we are more than likely interested in the actual // control module. Therefore we obtain this via the commandline. This commandline // may contain "kdeinit4:" or "[kdeinit]", so we remove these first. if (classClass == "kcmshell5") { url = serviceUrl(pid, QStringLiteral("KCModule"), QStringList() << QStringLiteral("kdeinit5:") << QStringLiteral("[kdeinit]")); if (!url.isEmpty()) { return url; } } // Check to see if this wmClass matched a saved one ... KConfigGroup grp(rulesConfig, "Mapping"); KConfigGroup set(rulesConfig, "Settings"); // Some apps have different launchers depending upon command line ... QStringList matchCommandLineFirst = set.readEntry("MatchCommandLineFirst", QStringList()); if (!classClass.isEmpty() && matchCommandLineFirst.contains(classClass)) { triedPid = true; services = servicesFromPid(pid); } // Try to match using className also. if (!className.isEmpty() && matchCommandLineFirst.contains("::"+className)) { triedPid = true; services = servicesFromPid(pid); } // If the user has manually set a mapping, respect this first... QString mapped(grp.readEntry(classClass + "::" + className, QString())); if (mapped.endsWith(QLatin1String(".desktop"))) { url = QUrl(mapped); return url; } if (!classClass.isEmpty()) { if (mapped.isEmpty()) { mapped = grp.readEntry(classClass, QString()); if (mapped.endsWith(QLatin1String(".desktop"))) { url = QUrl(mapped); return url; } } // Some apps, such as Wine, cannot use className to map to launcher name - as Wine itself is not a GUI app // So, Settings/ManualOnly lists window classes where the user will always have to manualy set the launcher ... QStringList manualOnly = set.readEntry("ManualOnly", QStringList()); if (!classClass.isEmpty() && manualOnly.contains(classClass)) { return url; } KConfigGroup rewriteRulesGroup(rulesConfig, QStringLiteral("Rewrite Rules")); if (rewriteRulesGroup.hasGroup(classClass)) { KConfigGroup rewriteGroup(&rewriteRulesGroup, classClass); const QStringList &rules = rewriteGroup.groupList(); for (const QString &rule : rules) { KConfigGroup ruleGroup(&rewriteGroup, rule); const QString propertyConfig = ruleGroup.readEntry(QStringLiteral("Property"), QString()); QString matchProperty; if (propertyConfig == QLatin1String("ClassClass")) { matchProperty = classClass; } else if (propertyConfig == QLatin1String("ClassName")) { matchProperty = className; } if (matchProperty.isEmpty()) { continue; } const QString serviceSearchIdentifier = ruleGroup.readEntry(QStringLiteral("Identifier"), QString()); if (serviceSearchIdentifier.isEmpty()) { continue; } QRegularExpression regExp(ruleGroup.readEntry(QStringLiteral("Match"))); const auto match = regExp.match(matchProperty); if (match.hasMatch()) { const QString actualMatch = match.captured(QStringLiteral("match")); if (actualMatch.isEmpty()) { continue; } const QString rewrittenString = ruleGroup.readEntry(QStringLiteral("Target")).arg(actualMatch); services = KServiceTypeTrader::self()->query(QStringLiteral("Application"), QStringLiteral("exist Exec and ('%1' =~ %2)").arg(rewrittenString, serviceSearchIdentifier)); if (!services.isEmpty()) { break; } } } } if (!mapped.isEmpty() && services.empty()) { services = KServiceTypeTrader::self()->query(QStringLiteral("Application"), QStringLiteral("exist Exec and ('%1' =~ DesktopEntryName)").arg(mapped)); } if (!mapped.isEmpty() && services.empty()) { services = KServiceTypeTrader::self()->query(QStringLiteral("Application"), QStringLiteral("exist Exec and ('%1' =~ Name)").arg(mapped)); } // To match other docks (docky, unity, etc.) attempt to match on DesktopEntryName first ... if (services.empty()) { services = KServiceTypeTrader::self()->query(QStringLiteral("Application"), QStringLiteral("exist Exec and ('%1' =~ DesktopEntryName)").arg(classClass)); } // Try StartupWMClass. if (services.empty()) { services = KServiceTypeTrader::self()->query(QStringLiteral("Application"), QStringLiteral("exist Exec and ('%1' =~ StartupWMClass)").arg(classClass)); } // Try 'Name' - unfortunately this can be translated, so has a good chance of failing! (As it does for KDE's own "System Settings" (even in English!!)) if (services.empty()) { services = KServiceTypeTrader::self()->query(QStringLiteral("Application"), QStringLiteral("exist Exec and ('%1' =~ Name)").arg(classClass)); } } // Ok, absolute *last* chance, try matching via pid (but only if we have not already tried this!) ... if (services.empty() && !triedPid) { services = servicesFromPid(pid); } } // Try to improve on a possible from-binary fallback. // If no services were found or we got a fake-service back from getServicesViaPid() // we attempt to improve on this by adding a loosely matched reverse-domain-name // DesktopEntryName. Namely anything that is '*.classClass.desktop' would qualify here. // // Illustrative example of a case where the above heuristics would fail to produce // a reasonable result: // - org.kde.dragonplayer.desktop // - binary is 'dragon' // - qapp appname and thus classClass is 'dragonplayer' // - classClass cannot directly match the desktop file because of RDN // - classClass also cannot match the binary because of name mismatch // - in the following code *.classClass can match org.kde.dragonplayer though if (services.empty() || services.at(0)->desktopEntryName().isEmpty()) { auto matchingServices = KServiceTypeTrader::self()->query(QStringLiteral("Application"), QStringLiteral("exist Exec and ('%1' ~~ DesktopEntryName)").arg(classClass)); QMutableListIterator it(matchingServices); while (it.hasNext()) { auto service = it.next(); if (!service->desktopEntryName().endsWith("." + classClass)) { it.remove(); } } // Exactly one match is expected, otherwise we discard the results as to reduce // the likelihood of false-positive mappings. Since we essentially eliminate the // uniqueness that RDN is meant to bring to the table we could potentially end // up with more than one match here. if (matchingServices.length() == 1) { services = matchingServices; } } if (!services.empty()) { QString path = services[0]->entryPath(); if (path.isEmpty()) { path = services[0]->exec(); } if (!path.isEmpty()) { url = QUrl::fromLocalFile(path); } } return url; } QUrl XWindowTasksModel::Private::launcherUrl(WId window, bool encodeFallbackIcon) { const AppData &data = appData(window); if (!encodeFallbackIcon || !data.icon.name().isEmpty()) { return data.url; } QUrl url = data.url; // Forego adding the window icon pixmap if the URL is otherwise empty. if (!url.isValid()) { return QUrl(); } const QPixmap pixmap = KWindowSystem::icon(window, KIconLoader::SizeLarge, KIconLoader::SizeLarge, false); if (pixmap.isNull()) { return data.url; } QUrlQuery uQuery(url); QByteArray bytes; QBuffer buffer(&bytes); buffer.open(QIODevice::WriteOnly); pixmap.save(&buffer, "PNG"); uQuery.addQueryItem(QStringLiteral("iconData"), bytes.toBase64(QByteArray::Base64UrlEncoding)); url.setQuery(uQuery); return url; } QUrl XWindowTasksModel::Private::serviceUrl(int pid, const QString &type, const QStringList &cmdRemovals = QStringList()) { if (pid == 0) { return QUrl(); } KSysGuard::Processes procs; procs.updateOrAddProcess(pid); KSysGuard::Process *proc = procs.getProcess(pid); QString cmdline = proc ? proc->command().simplified() : QString(); // proc->command has a trailing space??? if (cmdline.isEmpty()) { return QUrl(); } foreach (const QString & r, cmdRemovals) { cmdline.replace(r, QLatin1String("")); } KService::List services = KServiceTypeTrader::self()->query(type, QStringLiteral("exist Exec and ('%1' =~ Exec)").arg(cmdline)); if (services.empty()) { // Could not find with complete command line, so strip out path part ... int slash = cmdline.lastIndexOf('/', cmdline.indexOf(' ')); if (slash > 0) { services = KServiceTypeTrader::self()->query(type, QStringLiteral("exist Exec and ('%1' =~ Exec)").arg(cmdline.mid(slash + 1))); } if (services.empty()) { return QUrl(); } } if (!services.isEmpty()) { QString path = services[0]->entryPath(); if (!QDir::isAbsolutePath(path)) { QString absolutePath = QStandardPaths::locate(QStandardPaths::GenericDataLocation, "kservices5/"+path); if (!absolutePath.isEmpty()) path = absolutePath; } if (QFile::exists(path)) { return QUrl::fromLocalFile(path); } } return QUrl(); } KService::List XWindowTasksModel::Private::servicesFromPid(int pid) { // Attempt to find using commandline... KService::List services; if (pid == 0) { return services; } KSysGuard::Processes procs; procs.updateOrAddProcess(pid); KSysGuard::Process *proc = procs.getProcess(pid); QString cmdline = proc ? proc->command().simplified() : QString(); // proc->command has a trailing space??? if (cmdline.isEmpty()) { return services; } const int firstSpace = cmdline.indexOf(' '); services = KServiceTypeTrader::self()->query(QStringLiteral("Application"), QStringLiteral("exist Exec and ('%1' =~ Exec)").arg(cmdline)); if (services.empty()) { // Could not find with complete commandline, so strip out path part... int slash = cmdline.lastIndexOf('/', firstSpace); if (slash > 0) { services = KServiceTypeTrader::self()->query(QStringLiteral("Application"), QStringLiteral("exist Exec and ('%1' =~ Exec)").arg(cmdline.mid(slash + 1))); } } if (services.empty() && firstSpace > 0) { // Could not find with arguments, so try without... cmdline = cmdline.left(firstSpace); services = KServiceTypeTrader::self()->query(QStringLiteral("Application"), QStringLiteral("exist Exec and ('%1' =~ Exec)").arg(cmdline)); int slash = cmdline.lastIndexOf('/'); if (slash > 0) { services = KServiceTypeTrader::self()->query(QStringLiteral("Application"), QStringLiteral("exist Exec and ('%1' =~ Exec)").arg(cmdline.mid(slash + 1))); } } if (services.empty() && proc && !QStandardPaths::findExecutable(cmdline).isEmpty()) { // cmdline now exists without arguments if there were any services << QExplicitlySharedDataPointer(new KService(proc->name(), cmdline, QString())); } return services; } bool XWindowTasksModel::Private::demandsAttention(WId window) { if (windows.contains(window)) { return ((windowInfo(window)->hasState(NET::DemandsAttention)) || transientsDemandingAttention.contains(window)); } return false; } XWindowTasksModel::XWindowTasksModel(QObject *parent) : AbstractTasksModel(parent) , d(new Private(this)) { d->init(); } XWindowTasksModel::~XWindowTasksModel() { } QVariant XWindowTasksModel::data(const QModelIndex &index, int role) const { if (!index.isValid() || index.row() >= d->windows.count()) { return QVariant(); } const WId window = d->windows.at(index.row()); if (role == Qt::DisplayRole) { return d->windowInfo(window)->visibleName(); } else if (role == Qt::DecorationRole) { return d->icon(window); } else if (role == AppId) { return d->appData(window).id; } else if (role == AppName) { return d->appData(window).name; } else if (role == GenericName) { return d->appData(window).genericName; } else if (role == LauncherUrl) { return d->launcherUrl(window); } else if (role == LauncherUrlWithoutIcon) { return d->launcherUrl(window, false /* encodeFallbackIcon */); } else if (role == LegacyWinIdList) { return QVariantList() << window; } else if (role == MimeType) { return d->mimeType(); } else if (role == MimeData) { return QByteArray((char*)&window, sizeof(window));; } else if (role == IsWindow) { return true; } else if (role == IsActive) { return (window == d->activeWindow); } else if (role == IsClosable) { return d->windowInfo(window)->actionSupported(NET::ActionClose); } else if (role == IsMovable) { return d->windowInfo(window)->actionSupported(NET::ActionMove); } else if (role == IsResizable) { return d->windowInfo(window)->actionSupported(NET::ActionResize); } else if (role == IsMaximizable) { return d->windowInfo(window)->actionSupported(NET::ActionMax); } else if (role == IsMaximized) { const KWindowInfo *info = d->windowInfo(window); return info->hasState(NET::MaxHoriz) && info->hasState(NET::MaxVert); } else if (role == IsMinimizable) { return d->windowInfo(window)->actionSupported(NET::ActionMinimize); } else if (role == IsMinimized) { return d->windowInfo(window)->isMinimized(); } else if (role == IsKeepAbove) { return d->windowInfo(window)->hasState(NET::StaysOnTop); } else if (role == IsKeepBelow) { return d->windowInfo(window)->hasState(NET::KeepBelow); } else if (role == IsFullScreenable) { return d->windowInfo(window)->actionSupported(NET::ActionFullScreen); } else if (role == IsFullScreen) { return d->windowInfo(window)->hasState(NET::FullScreen); } else if (role == IsShadeable) { return d->windowInfo(window)->actionSupported(NET::ActionShade); } else if (role == IsShaded) { return d->windowInfo(window)->hasState(NET::Shaded); } else if (role == IsVirtualDesktopChangeable) { return d->windowInfo(window)->actionSupported(NET::ActionChangeDesktop); } else if (role == VirtualDesktop) { return d->windowInfo(window)->desktop(); } else if (role == IsOnAllVirtualDesktops) { return d->windowInfo(window)->onAllDesktops(); } else if (role == Geometry) { return d->windowInfo(window)->frameGeometry(); } else if (role == ScreenGeometry) { return screenGeometry(d->windowInfo(window)->frameGeometry().center()); } else if (role == Activities) { return d->windowInfo(window)->activities(); } else if (role == IsDemandingAttention) { return d->demandsAttention(window); } else if (role == SkipTaskbar) { const KWindowInfo *info = d->windowInfo(window); // _NET_WM_WINDOW_TYPE_UTILITY type windows should not be on task bars, // but they should be shown on pagers. return (info->hasState(NET::SkipTaskbar) || info->windowType(NET::UtilityMask) == NET::Utility); } else if (role == SkipPager) { return d->windowInfo(window)->hasState(NET::SkipPager); + } else if (role == AppPid) { + return d->windowInfo(window)->pid(); } return QVariant(); } int XWindowTasksModel::rowCount(const QModelIndex &parent) const { return parent.isValid() ? 0 : d->windows.count(); } void XWindowTasksModel::requestActivate(const QModelIndex &index) { if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } if (index.row() >= 0 && index.row() < d->windows.count()) { WId window = d->windows.at(index.row()); // Pull forward any transient demanding attention. if (d->transientsDemandingAttention.contains(window)) { window = d->transientsDemandingAttention.value(window); // Quote from legacy libtaskmanager: // "this is a work around for (at least?) kwin where a shaded transient will prevent the main // window from being brought forward unless the transient is actually pulled forward, most // easily reproduced by opening a modal file open/save dialog on an app then shading the file // dialog and trying to bring the window forward by clicking on it in a tasks widget // TODO: do we need to check all the transients for shaded?" } else if (!d->transients.isEmpty()) { foreach (const WId transient, d->transients) { KWindowInfo info(transient, NET::WMState, NET::WM2TransientFor); if (info.valid(true) && info.hasState(NET::Shaded) && info.transientFor() == window) { window = transient; break; } } } KWindowSystem::forceActiveWindow(window); } } void XWindowTasksModel::requestNewInstance(const QModelIndex &index) { if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } const AppData &data = d->appData(d->windows.at(index.row())); if (data.url.isValid()) { new KRun(data.url, 0, false, KStartupInfo::createNewStartupIdForTimestamp(QX11Info::appUserTime())); if (!data.id.isEmpty()) { KActivities::ResourceInstance::notifyAccessed(QUrl(QStringLiteral("applications:") + data.id), QStringLiteral("org.kde.libtaskmanager")); } } } void XWindowTasksModel::requestOpenUrls(const QModelIndex &index, const QList &urls) { if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count() || urls.isEmpty()) { return; } const QUrl &url = d->appData(d->windows.at(index.row())).url; const KService::Ptr service = KService::serviceByDesktopPath(url.toLocalFile()); if (service) { KRun::runApplication(*service, urls, nullptr, 0, {}, KStartupInfo::createNewStartupIdForTimestamp(QX11Info::appUserTime())); KActivities::ResourceInstance::notifyAccessed(QUrl(QStringLiteral("applications:") + service->storageId()), QStringLiteral("org.kde.libtaskmanager")); } } void XWindowTasksModel::requestClose(const QModelIndex &index) { if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } NETRootInfo ri(QX11Info::connection(), NET::CloseWindow); ri.closeWindowRequest(d->windows.at(index.row())); } void XWindowTasksModel::requestMove(const QModelIndex &index) { if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } const WId window = d->windows.at(index.row()); const KWindowInfo *info = d->windowInfo(window); bool onCurrent = info->isOnCurrentDesktop(); if (!onCurrent) { KWindowSystem::setCurrentDesktop(info->desktop()); KWindowSystem::forceActiveWindow(window); } if (info->isMinimized()) { KWindowSystem::unminimizeWindow(window); } const QRect &geom = info->geometry(); NETRootInfo ri(QX11Info::connection(), NET::WMMoveResize); ri.moveResizeRequest(window, geom.center().x(), geom.center().y(), NET::Move); } void XWindowTasksModel::requestResize(const QModelIndex &index) { if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } const WId window = d->windows.at(index.row()); const KWindowInfo *info = d->windowInfo(window); bool onCurrent = info->isOnCurrentDesktop(); if (!onCurrent) { KWindowSystem::setCurrentDesktop(info->desktop()); KWindowSystem::forceActiveWindow(window); } if (info->isMinimized()) { KWindowSystem::unminimizeWindow(window); } const QRect &geom = info->geometry(); NETRootInfo ri(QX11Info::connection(), NET::WMMoveResize); ri.moveResizeRequest(window, geom.bottomRight().x(), geom.bottomRight().y(), NET::BottomRight); } void XWindowTasksModel::requestToggleMinimized(const QModelIndex &index) { if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } const WId window = d->windows.at(index.row()); const KWindowInfo *info = d->windowInfo(window); if (info->isMinimized()) { bool onCurrent = info->isOnCurrentDesktop(); // FIXME: Move logic up into proxy? (See also others.) if (!onCurrent) { KWindowSystem::setCurrentDesktop(info->desktop()); } KWindowSystem::unminimizeWindow(window); if (onCurrent) { KWindowSystem::forceActiveWindow(window); } } else { KWindowSystem::minimizeWindow(window); } } void XWindowTasksModel::requestToggleMaximized(const QModelIndex &index) { if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } const WId window = d->windows.at(index.row()); const KWindowInfo *info = d->windowInfo(window); bool onCurrent = info->isOnCurrentDesktop(); bool restore = (info->hasState(NET::MaxHoriz) && info->hasState(NET::MaxVert)); // FIXME: Move logic up into proxy? (See also others.) if (!onCurrent) { KWindowSystem::setCurrentDesktop(info->desktop()); } if (info->isMinimized()) { KWindowSystem::unminimizeWindow(window); } NETWinInfo ni(QX11Info::connection(), window, QX11Info::appRootWindow(), NET::WMState, 0); if (restore) { ni.setState(0, NET::Max); } else { ni.setState(NET::Max, NET::Max); } if (!onCurrent) { KWindowSystem::forceActiveWindow(window); } } void XWindowTasksModel::requestToggleKeepAbove(const QModelIndex &index) { if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } const WId window = d->windows.at(index.row()); const KWindowInfo *info = d->windowInfo(window); NETWinInfo ni(QX11Info::connection(), window, QX11Info::appRootWindow(), NET::WMState, 0); if (info->hasState(NET::StaysOnTop)) { ni.setState(0, NET::StaysOnTop); } else { ni.setState(NET::StaysOnTop, NET::StaysOnTop); } } void XWindowTasksModel::requestToggleKeepBelow(const QModelIndex &index) { if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } const WId window = d->windows.at(index.row()); const KWindowInfo *info = d->windowInfo(window); NETWinInfo ni(QX11Info::connection(), window, QX11Info::appRootWindow(), NET::WMState, 0); if (info->hasState(NET::KeepBelow)) { ni.setState(0, NET::KeepBelow); } else { ni.setState(NET::KeepBelow, NET::KeepBelow); } } void XWindowTasksModel::requestToggleFullScreen(const QModelIndex &index) { if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } const WId window = d->windows.at(index.row()); const KWindowInfo *info = d->windowInfo(window); NETWinInfo ni(QX11Info::connection(), window, QX11Info::appRootWindow(), NET::WMState, 0); if (info->hasState(NET::FullScreen)) { ni.setState(0, NET::FullScreen); } else { ni.setState(NET::FullScreen, NET::FullScreen); } } void XWindowTasksModel::requestToggleShaded(const QModelIndex &index) { if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } const WId window = d->windows.at(index.row()); const KWindowInfo *info = d->windowInfo(window); NETWinInfo ni(QX11Info::connection(), window, QX11Info::appRootWindow(), NET::WMState, 0); if (info->hasState(NET::Shaded)) { ni.setState(0, NET::Shaded); } else { ni.setState(NET::Shaded, NET::Shaded); } } void XWindowTasksModel::requestVirtualDesktop(const QModelIndex &index, qint32 desktop) { if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } const WId window = d->windows.at(index.row()); const KWindowInfo *info = d->windowInfo(window); if (desktop == 0) { if (info->onAllDesktops()) { KWindowSystem::setOnDesktop(window, KWindowSystem::currentDesktop()); KWindowSystem::forceActiveWindow(window); } else { KWindowSystem::setOnAllDesktops(window, true); } return; // FIXME Move add-new-desktop logic up into proxy. } else if (desktop > KWindowSystem::numberOfDesktops()) { desktop = KWindowSystem::numberOfDesktops() + 1; // FIXME Arbitrary limit of 20 copied from old code. if (desktop > 20) { return; } NETRootInfo ri(QX11Info::connection(), NET::NumberOfDesktops); ri.setNumberOfDesktops(desktop); } KWindowSystem::setOnDesktop(window, desktop); if (desktop == KWindowSystem::currentDesktop()) { KWindowSystem::forceActiveWindow(window); } } void XWindowTasksModel::requestActivities(const QModelIndex &index, const QStringList &activities) { if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } const WId window = d->windows.at(index.row()); KWindowSystem::setOnActivities(window, activities); } void XWindowTasksModel::requestPublishDelegateGeometry(const QModelIndex &index, const QRect &geometry, QObject *delegate) { Q_UNUSED(delegate) if (!index.isValid() || index.model() != this || index.row() < 0 || index.row() >= d->windows.count()) { return; } const WId window = d->windows.at(index.row()); if (d->delegateGeometries.contains(window) && d->delegateGeometries.value(window) == geometry) { return; } NETWinInfo ni(QX11Info::connection(), window, QX11Info::appRootWindow(), 0, 0); NETRect rect; if (geometry.isValid()) { rect.pos.x = geometry.x(); rect.pos.y = geometry.y(); rect.size.width = geometry.width(); rect.size.height = geometry.height(); d->delegateGeometries.insert(window, geometry); } else { d->delegateGeometries.remove(window); } ni.setIconGeometry(rect); } WId XWindowTasksModel::winIdFromMimeData(const QMimeData *mimeData, bool *ok) { Q_ASSERT(mimeData); if (ok) { *ok = false; } if (!mimeData->hasFormat(Private::mimeType())) { return 0; } QByteArray data(mimeData->data(Private::mimeType())); if (data.size() != sizeof(WId)) { return 0; } WId id; memcpy(&id, data.data(), sizeof(WId)); if (ok) { *ok = true; } return id; } QList XWindowTasksModel::winIdsFromMimeData(const QMimeData *mimeData, bool *ok) { Q_ASSERT(mimeData); QList ids; if (ok) { *ok = false; } if (!mimeData->hasFormat(Private::groupMimeType())) { // Try to extract single window id. bool singularOk; WId id = winIdFromMimeData(mimeData, &singularOk); if (ok) { *ok = singularOk; } if (singularOk) { ids << id; } return ids; } QByteArray data(mimeData->data(Private::groupMimeType())); if ((unsigned int)data.size() < sizeof(int) + sizeof(WId)) { return ids; } int count = 0; memcpy(&count, data.data(), sizeof(int)); if (count < 1 || (unsigned int)data.size() < sizeof(int) + sizeof(WId) * count) { return ids; } WId id; for (int i = 0; i < count; ++i) { memcpy(&id, data.data() + sizeof(int) + sizeof(WId) * i, sizeof(WId)); ids << id; } if (ok) { *ok = true; } return ids; } }