kwin/shell_client.cpp
Vlad Zagorodniy 30b257be08 [autotests] Test popup open/close animations
Summary:
The new test is similar to testToplevelOpenCloseAnimation. The
main purpose of this test is to verify that the Fading Popups effect
animates all sorts of popups, e.g. popup menus, tooltips, etc.

testAnimateUserActionsPopup is skipped for now because stuff
that animates unmapped clients is broken.

Reviewers: #kwin, davidedmundson

Reviewed By: #kwin, davidedmundson

Subscribers: kwin

Tags: #kwin

Differential Revision: https://phabricator.kde.org/D17992
2019-01-08 15:48:22 +02:00

1997 lines
65 KiB
C++

/********************************************************************
KWin - the KDE window manager
This file is part of the KDE project.
Copyright (C) 2015 Martin Gräßlin <mgraesslin@kde.org>
Copyright (C) 2018 David Edmundson <davidedmundson@kde.org>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*********************************************************************/
#include "shell_client.h"
#include "composite.h"
#include "cursor.h"
#include "deleted.h"
#include "placement.h"
#include "screenedge.h"
#include "screens.h"
#include "wayland_server.h"
#include "workspace.h"
#include "virtualdesktops.h"
#include "screens.h"
#include "decorations/decorationbridge.h"
#include "decorations/decoratedclient.h"
#include <KDecoration2/Decoration>
#include <KDecoration2/DecoratedClient>
#include <KWayland/Client/surface.h>
#include <KWayland/Server/display.h>
#include <KWayland/Server/clientconnection.h>
#include <KWayland/Server/seat_interface.h>
#include <KWayland/Server/shell_interface.h>
#include <KWayland/Server/surface_interface.h>
#include <KWayland/Server/buffer_interface.h>
#include <KWayland/Server/plasmashell_interface.h>
#include <KWayland/Server/shadow_interface.h>
#include <KWayland/Server/server_decoration_interface.h>
#include <KWayland/Server/qtsurfaceextension_interface.h>
#include <KWayland/Server/plasmawindowmanagement_interface.h>
#include <KWayland/Server/appmenu_interface.h>
#include <KWayland/Server/server_decoration_palette_interface.h>
#include <KWayland/Server/xdgdecoration_interface.h>
#include <KDesktopFile>
#include <QFileInfo>
#include <QOpenGLFramebufferObject>
#include <QWindow>
#include <sys/types.h>
#include <unistd.h>
#include <signal.h>
using namespace KWayland::Server;
static const QByteArray s_skipClosePropertyName = QByteArrayLiteral("KWIN_SKIP_CLOSE_ANIMATION");
namespace KWin
{
ShellClient::ShellClient(ShellSurfaceInterface *surface)
: AbstractClient()
, m_shellSurface(surface)
, m_xdgShellSurface(nullptr)
, m_xdgShellPopup(nullptr)
, m_internal(surface->client() == waylandServer()->internalConnection())
{
setSurface(surface->surface());
init();
}
ShellClient::ShellClient(XdgShellSurfaceInterface *surface)
: AbstractClient()
, m_shellSurface(nullptr)
, m_xdgShellSurface(surface)
, m_xdgShellPopup(nullptr)
, m_internal(surface->client() == waylandServer()->internalConnection())
{
setSurface(surface->surface());
init();
}
ShellClient::ShellClient(XdgShellPopupInterface *surface)
: AbstractClient()
, m_shellSurface(nullptr)
, m_xdgShellSurface(nullptr)
, m_xdgShellPopup(surface)
, m_internal(surface->client() == waylandServer()->internalConnection())
{
setSurface(surface->surface());
init();
}
ShellClient::~ShellClient() = default;
template <class T>
void ShellClient::initSurface(T *shellSurface)
{
m_caption = shellSurface->title().simplified();
// delay till end of init
QTimer::singleShot(0, this, &ShellClient::updateCaption);
connect(shellSurface, &T::destroyed, this, &ShellClient::destroyClient);
connect(shellSurface, &T::titleChanged, this,
[this] (const QString &s) {
const auto oldSuffix = m_captionSuffix;
m_caption = s.simplified();
updateCaption();
if (m_captionSuffix == oldSuffix) {
// don't emit caption change twice
// it already got emitted by the changing suffix
emit captionChanged();
}
}
);
connect(shellSurface, &T::moveRequested, this,
[this] {
// TODO: check the seat and serial
performMouseCommand(Options::MouseMove, Cursor::pos());
}
);
// determine the resource name, this is inspired from ICCCM 4.1.2.5
// the binary name of the invoked client
QFileInfo info{shellSurface->client()->executablePath()};
QByteArray resourceName;
if (info.exists()) {
resourceName = info.fileName().toUtf8();
}
setResourceClass(resourceName, shellSurface->windowClass());
connect(shellSurface, &T::windowClassChanged, this,
[this, resourceName] (const QByteArray &windowClass) {
setResourceClass(resourceName, windowClass);
if (!m_internal) {
setupWindowRules(true);
applyWindowRules();
}
setDesktopFileName(windowClass);
}
);
connect(shellSurface, &T::resizeRequested, this,
[this] (SeatInterface *seat, quint32 serial, Qt::Edges edges) {
// TODO: check the seat and serial
Q_UNUSED(seat)
Q_UNUSED(serial)
if (!isResizable() || isShade()) {
return;
}
if (isMoveResize()) {
finishMoveResize(false);
}
setMoveResizePointerButtonDown(true);
setMoveOffset(Cursor::pos() - pos()); // map from global
setInvertedMoveOffset(rect().bottomRight() - moveOffset());
setUnrestrictedMoveResize(false);
auto toPosition = [edges] {
Position pos = PositionCenter;
if (edges.testFlag(Qt::TopEdge)) {
pos = PositionTop;
} else if (edges.testFlag(Qt::BottomEdge)) {
pos = PositionBottom;
}
if (edges.testFlag(Qt::LeftEdge)) {
pos = Position(pos | PositionLeft);
} else if (edges.testFlag(Qt::RightEdge)) {
pos = Position(pos | PositionRight);
}
return pos;
};
setMoveResizePointerMode(toPosition());
if (!startMoveResize())
setMoveResizePointerButtonDown(false);
updateCursor();
}
);
connect(shellSurface, &T::maximizedChanged, this,
[this] (bool maximized) {
if (m_shellSurface && isFullScreen()) {
// ignore for wl_shell - there it is mutual exclusive and messes with the geometry
return;
}
maximize(maximized ? MaximizeFull : MaximizeRestore);
}
);
// TODO: consider output!
connect(shellSurface, &T::fullscreenChanged, this, &ShellClient::clientFullScreenChanged);
connect(shellSurface, &T::transientForChanged, this, &ShellClient::setTransient);
connect(this, &ShellClient::geometryChanged, this, &ShellClient::updateClientOutputs);
connect(screens(), &Screens::changed, this, &ShellClient::updateClientOutputs);
if (!m_internal) {
setupWindowRules(false);
}
setDesktopFileName(rules()->checkDesktopFile(shellSurface->windowClass(), true).toUtf8());
}
void ShellClient::init()
{
connect(this, &ShellClient::desktopFileNameChanged, this, &ShellClient::updateIcon);
findInternalWindow();
createWindowId();
setupCompositing();
updateIcon();
SurfaceInterface *s = surface();
Q_ASSERT(s);
if (s->buffer()) {
setReadyForPainting();
if (shouldExposeToWindowManagement()) {
setupWindowManagementInterface();
}
m_unmapped = false;
m_clientSize = s->size();
} else {
ready_for_painting = false;
}
if (m_internalWindow) {
updateInternalWindowGeometry();
updateDecoration(true);
} else {
doSetGeometry(QRect(QPoint(0, 0), m_clientSize));
}
if (waylandServer()->inputMethodConnection() == s->client()) {
m_windowType = NET::OnScreenDisplay;
}
connect(s, &SurfaceInterface::sizeChanged, this,
[this] {
m_clientSize = surface()->size();
doSetGeometry(QRect(geom.topLeft(), m_clientSize + QSize(borderLeft() + borderRight(), borderTop() + borderBottom())));
}
);
connect(s, &SurfaceInterface::unmapped, this, &ShellClient::unmap);
connect(s, &SurfaceInterface::unbound, this, &ShellClient::destroyClient);
connect(s, &SurfaceInterface::destroyed, this, &ShellClient::destroyClient);
if (m_shellSurface) {
initSurface(m_shellSurface);
auto setPopup = [this] {
// TODO: verify grab serial
m_hasPopupGrab = m_shellSurface->isPopup();
};
connect(m_shellSurface, &ShellSurfaceInterface::popupChanged, this, setPopup);
setPopup();
} else if (m_xdgShellSurface) {
initSurface(m_xdgShellSurface);
auto global = static_cast<XdgShellInterface *>(m_xdgShellSurface->global());
connect(global, &XdgShellInterface::pingDelayed,
this, [this](qint32 serial) {
auto it = m_pingSerials.find(serial);
if (it != m_pingSerials.end()) {
qCDebug(KWIN_CORE) << "First ping timeout:" << caption();
setUnresponsive(true);
}
});
connect(m_xdgShellSurface, &XdgShellSurfaceInterface::configureAcknowledged, this, [this](int serial) {
m_lastAckedConfigureRequest = serial;
});
connect(global, &XdgShellInterface::pingTimeout,
this, [this](qint32 serial) {
auto it = m_pingSerials.find(serial);
if (it != m_pingSerials.end()) {
if (it.value() == PingReason::CloseWindow) {
qCDebug(KWIN_CORE) << "Final ping timeout on a close attempt, asking to kill:" << caption();
//for internal windows, killing the window will delete this
QPointer<QObject> guard(this);
killWindow();
if (!guard) {
return;
}
}
m_pingSerials.erase(it);
}
});
connect(global, &XdgShellInterface::pongReceived,
this, [this](qint32 serial){
auto it = m_pingSerials.find(serial);
if (it != m_pingSerials.end()) {
setUnresponsive(false);
m_pingSerials.erase(it);
}
});
connect(m_xdgShellSurface, &XdgShellSurfaceInterface::windowMenuRequested, this,
[this] (SeatInterface *seat, quint32 serial, const QPoint &surfacePos) {
// TODO: check serial on seat
Q_UNUSED(seat)
Q_UNUSED(serial)
performMouseCommand(Options::MouseOperationsMenu, pos() + surfacePos);
}
);
connect(m_xdgShellSurface, &XdgShellSurfaceInterface::minimizeRequested, this,
[this] {
performMouseCommand(Options::MouseMinimize, Cursor::pos());
}
);
auto configure = [this] {
if (m_closing) {
return;
}
if (m_requestGeometryBlockCounter != 0 || areGeometryUpdatesBlocked()) {
return;
}
m_xdgShellSurface->configure(xdgSurfaceStates(), m_requestedClientSize);
};
configure();
connect(this, &AbstractClient::activeChanged, this, configure);
connect(this, &AbstractClient::clientStartUserMovedResized, this, configure);
connect(this, &AbstractClient::clientFinishUserMovedResized, this, configure);
} else if (m_xdgShellPopup) {
connect(m_xdgShellPopup, &XdgShellPopupInterface::grabRequested, this, [this](SeatInterface *seat, quint32 serial) {
Q_UNUSED(seat)
Q_UNUSED(serial)
//TODO - should check the parent had focus
m_hasPopupGrab = true;
});
connect(m_xdgShellPopup, &XdgShellPopupInterface::configureAcknowledged, this, [this](int serial) {
m_lastAckedConfigureRequest = serial;
});
QRect position = QRect(m_xdgShellPopup->transientOffset(), m_xdgShellPopup->initialSize());
m_xdgShellPopup->configure(position);
connect(m_xdgShellPopup, &XdgShellPopupInterface::destroyed, this, &ShellClient::destroyClient);
}
// set initial desktop
setDesktop(rules()->checkDesktop(m_internal ? int(NET::OnAllDesktops) : VirtualDesktopManager::self()->current(), true));
// TODO: merge in checks from Client::manage?
if (rules()->checkMinimize(false, true)) {
minimize(true); // No animation
}
setSkipTaskbar(rules()->checkSkipTaskbar(m_plasmaShellSurface ? m_plasmaShellSurface->skipTaskbar() : false, true));
setSkipPager(rules()->checkSkipPager(false, true));
setSkipSwitcher(rules()->checkSkipSwitcher(false, true));
setKeepAbove(rules()->checkKeepAbove(false, true));
setKeepBelow(rules()->checkKeepBelow(false, true));
setShortcut(rules()->checkShortcut(QString(), true));
// setup shadow integration
getShadow();
connect(s, &SurfaceInterface::shadowChanged, this, &Toplevel::getShadow);
connect(waylandServer(), &WaylandServer::foreignTransientChanged, this, [this](KWayland::Server::SurfaceInterface *child) {
if (child == surface()) {
setTransient();
}
});
setTransient();
// check whether we have a ServerSideDecoration
if (ServerSideDecorationInterface *deco = ServerSideDecorationInterface::get(s)) {
installServerSideDecoration(deco);
}
AbstractClient::updateColorScheme(QString());
if (!m_internal) {
discardTemporaryRules();
applyWindowRules(); // Just in case
RuleBook::self()->discardUsed(this, false); // Remove ApplyNow rules
updateWindowRules(Rules::All); // Was blocked while !isManaged()
}
}
void ShellClient::destroyClient()
{
m_closing = true;
Deleted *del = nullptr;
if (workspace()) {
del = Deleted::create(this);
}
emit windowClosed(this, del);
destroyWindowManagementInterface();
destroyDecoration();
if (workspace()) {
StackingUpdatesBlocker blocker(workspace());
if (transientFor()) {
transientFor()->removeTransient(this);
}
for (auto it = transients().constBegin(); it != transients().constEnd();) {
if ((*it)->transientFor() == this) {
removeTransient(*it);
it = transients().constBegin(); // restart, just in case something more has changed with the list
} else {
++it;
}
}
}
waylandServer()->removeClient(this);
if (del) {
del->unrefWindow();
}
m_shellSurface = nullptr;
m_xdgShellSurface = nullptr;
m_xdgShellPopup = nullptr;
deleteClient(this);
}
void ShellClient::deleteClient(ShellClient *c)
{
delete c;
}
QStringList ShellClient::activities() const
{
// TODO: implement
return QStringList();
}
QPoint ShellClient::clientContentPos() const
{
return -1 * clientPos();
}
QSize ShellClient::clientSize() const
{
return m_clientSize;
}
void ShellClient::debug(QDebug &stream) const
{
stream.nospace();
stream << "\'ShellClient:" << surface() << ";WMCLASS:" << resourceClass() << ":"
<< resourceName() << ";Caption:" << caption() << "\'";
}
Layer ShellClient::layerForDock() const
{
if (m_plasmaShellSurface) {
switch (m_plasmaShellSurface->panelBehavior()) {
case PlasmaShellSurfaceInterface::PanelBehavior::WindowsCanCover:
return NormalLayer;
case PlasmaShellSurfaceInterface::PanelBehavior::AutoHide:
return AboveLayer;
case PlasmaShellSurfaceInterface::PanelBehavior::WindowsGoBelow:
case PlasmaShellSurfaceInterface::PanelBehavior::AlwaysVisible:
return DockLayer;
default:
Q_UNREACHABLE();
break;
}
}
return AbstractClient::layerForDock();
}
QRect ShellClient::transparentRect() const
{
// TODO: implement
return QRect();
}
NET::WindowType ShellClient::windowType(bool direct, int supported_types) const
{
// TODO: implement
Q_UNUSED(direct)
Q_UNUSED(supported_types)
return m_windowType;
}
double ShellClient::opacity() const
{
return m_opacity;
}
void ShellClient::setOpacity(double opacity)
{
const qreal newOpacity = qBound(0.0, opacity, 1.0);
if (newOpacity == m_opacity) {
return;
}
const qreal oldOpacity = m_opacity;
m_opacity = newOpacity;
addRepaintFull();
emit opacityChanged(this, oldOpacity);
}
void ShellClient::addDamage(const QRegion &damage)
{
auto s = surface();
if (s->size().isValid()) {
m_clientSize = s->size();
updatePendingGeometry();
}
markAsMapped();
setDepth((s->buffer()->hasAlphaChannel() && !isDesktop()) ? 32 : 24);
repaints_region += damage.translated(clientPos());
Toplevel::addDamage(damage);
}
void ShellClient::setInternalFramebufferObject(const QSharedPointer<QOpenGLFramebufferObject> &fbo)
{
if (fbo.isNull()) {
unmap();
return;
}
//Kwin currently scales internal windows to 1, so this is currently always correct
//when that changes, this needs adjusting
m_clientSize = fbo->size();
markAsMapped();
doSetGeometry(QRect(geom.topLeft(), m_clientSize));
Toplevel::setInternalFramebufferObject(fbo);
Toplevel::addDamage(QRegion(0, 0, width(), height()));
}
void ShellClient::markAsMapped()
{
if (!m_unmapped) {
return;
}
m_unmapped = false;
if (!ready_for_painting) {
setReadyForPainting();
} else {
addRepaintFull();
emit windowShown(this);
}
if (shouldExposeToWindowManagement()) {
setupWindowManagementInterface();
}
updateShowOnScreenEdge();
}
void ShellClient::createDecoration(const QRect &oldGeom)
{
KDecoration2::Decoration *decoration = Decoration::DecorationBridge::self()->createDecoration(this);
if (decoration) {
QMetaObject::invokeMethod(decoration, "update", Qt::QueuedConnection);
connect(decoration, &KDecoration2::Decoration::shadowChanged, this, &Toplevel::getShadow);
connect(decoration, &KDecoration2::Decoration::bordersChanged, this,
[this]() {
GeometryUpdatesBlocker blocker(this);
RequestGeometryBlocker requestBlocker(this);
QRect oldgeom = geometry();
if (!isShade())
checkWorkspacePosition(oldgeom);
emit geometryShapeChanged(this, oldgeom);
}
);
}
setDecoration(decoration);
// TODO: ensure the new geometry still fits into the client area (e.g. maximized windows)
doSetGeometry(QRect(oldGeom.topLeft(), m_clientSize + (decoration ? QSize(decoration->borderLeft() + decoration->borderRight(),
decoration->borderBottom() + decoration->borderTop()) : QSize())));
emit geometryShapeChanged(this, oldGeom);
}
void ShellClient::updateDecoration(bool check_workspace_pos, bool force)
{
if (!force &&
((!isDecorated() && noBorder()) || (isDecorated() && !noBorder())))
return;
QRect oldgeom = geometry();
QRect oldClientGeom = oldgeom.adjusted(borderLeft(), borderTop(), -borderRight(), -borderBottom());
blockGeometryUpdates(true);
if (force)
destroyDecoration();
if (!noBorder()) {
createDecoration(oldgeom);
} else
destroyDecoration();
if (m_serverDecoration && isDecorated()) {
m_serverDecoration->setMode(KWayland::Server::ServerSideDecorationManagerInterface::Mode::Server);
}
if (m_xdgDecoration) {
auto mode = isDecorated() ? XdgDecorationInterface::Mode::ServerSide: XdgDecorationInterface::Mode::ClientSide;
m_xdgDecoration->configure(mode);
m_xdgShellSurface->configure(xdgSurfaceStates(), m_requestedClientSize);
}
getShadow();
if (check_workspace_pos)
checkWorkspacePosition(oldgeom, -2, oldClientGeom);
blockGeometryUpdates(false);
}
void ShellClient::setGeometry(int x, int y, int w, int h, ForceGeometry_t force)
{
if (areGeometryUpdatesBlocked()) {
// when the GeometryUpdateBlocker exits the current geom is passed to setGeometry
// thus we need to set it here.
geom = QRect(x, y, w, h);
if (pendingGeometryUpdate() == PendingGeometryForced)
{} // maximum, nothing needed
else if (force == ForceGeometrySet)
setPendingGeometryUpdate(PendingGeometryForced);
else
setPendingGeometryUpdate(PendingGeometryNormal);
return;
}
if (pendingGeometryUpdate() != PendingGeometryNone) {
// reset geometry to the one before blocking, so that we can compare properly
geom = geometryBeforeUpdateBlocking();
}
// TODO: better merge with Client's implementation
const QSize requestedClientSize = QSize(w, h) - QSize(borderLeft() + borderRight(), borderTop() + borderBottom());
if (requestedClientSize == m_clientSize && !isWaitingForMoveResizeSync()) {
// size didn't change, update directly
doSetGeometry(QRect(x, y, w, h));
updateMaximizeMode(m_requestedMaximizeMode);
} else {
// size did change, Client needs to provide a new buffer
requestGeometry(QRect(x, y, w, h));
}
}
void ShellClient::doSetGeometry(const QRect &rect)
{
if (geom == rect && pendingGeometryUpdate() == PendingGeometryNone) {
return;
}
if (!m_unmapped) {
addWorkspaceRepaint(visibleRect());
}
geom = rect;
if (m_unmapped && m_geomMaximizeRestore.isEmpty() && !geom.isEmpty()) {
// use first valid geometry as restore geometry
m_geomMaximizeRestore = geom;
}
if (!m_unmapped) {
addWorkspaceRepaint(visibleRect());
}
syncGeometryToInternalWindow();
if (hasStrut()) {
workspace()->updateClientArea();
}
const auto old = geometryBeforeUpdateBlocking();
updateGeometryBeforeUpdateBlocking();
emit geometryShapeChanged(this, old);
if (isResize()) {
performMoveResize();
}
}
void ShellClient::doMove(int x, int y)
{
Q_UNUSED(x)
Q_UNUSED(y)
syncGeometryToInternalWindow();
}
void ShellClient::syncGeometryToInternalWindow()
{
if (!m_internalWindow) {
return;
}
const QRect windowRect = QRect(geom.topLeft() + QPoint(borderLeft(), borderTop()),
geom.size() - QSize(borderLeft() + borderRight(), borderTop() + borderBottom()));
if (m_internalWindow->geometry() != windowRect) {
// delay to end of cycle to prevent freeze, see BUG 384441
QTimer::singleShot(0, m_internalWindow, std::bind(static_cast<void (QWindow::*)(const QRect&)>(&QWindow::setGeometry), m_internalWindow, windowRect));
}
}
QByteArray ShellClient::windowRole() const
{
return QByteArray();
}
bool ShellClient::belongsToSameApplication(const AbstractClient *other, SameApplicationChecks checks) const
{
if (checks.testFlag(SameApplicationCheck::AllowCrossProcesses)) {
if (other->desktopFileName() == desktopFileName()) {
return true;
}
}
if (auto s = other->surface()) {
return s->client() == surface()->client();
}
return false;
}
void ShellClient::blockActivityUpdates(bool b)
{
Q_UNUSED(b)
}
void ShellClient::updateCaption()
{
const QString oldSuffix = m_captionSuffix;
const auto shortcut = shortcutCaptionSuffix();
m_captionSuffix = shortcut;
if ((!isSpecialWindow() || isToolbar()) && findClientWithSameCaption()) {
int i = 2;
do {
m_captionSuffix = shortcut + QLatin1String(" <") + QString::number(i) + QLatin1Char('>');
i++;
} while (findClientWithSameCaption());
}
if (m_captionSuffix != oldSuffix) {
emit captionChanged();
}
}
void ShellClient::closeWindow()
{
if (m_xdgShellSurface && isCloseable()) {
m_xdgShellSurface->close();
const qint32 pingSerial = static_cast<XdgShellInterface *>(m_xdgShellSurface->global())->ping(m_xdgShellSurface);
m_pingSerials.insert(pingSerial, PingReason::CloseWindow);
} else if (m_qtExtendedSurface && isCloseable()) {
m_qtExtendedSurface->close();
} else if (m_internalWindow) {
m_internalWindow->hide();
}
}
AbstractClient *ShellClient::findModal(bool allow_itself)
{
Q_UNUSED(allow_itself)
return nullptr;
}
bool ShellClient::isCloseable() const
{
if (m_windowType == NET::Desktop || m_windowType == NET::Dock) {
return false;
}
if (m_xdgShellSurface) {
return true;
}
if (m_internal) {
return true;
}
return m_qtExtendedSurface ? true : false;
}
bool ShellClient::isFullScreen() const
{
return m_fullScreen;
}
bool ShellClient::isMaximizable() const
{
if (m_internal) {
return false;
}
return true;
}
bool ShellClient::isMinimizable() const
{
if (m_internal) {
return false;
}
return (!m_plasmaShellSurface || m_plasmaShellSurface->role() == PlasmaShellSurfaceInterface::Role::Normal);
}
bool ShellClient::isMovable() const
{
if (m_plasmaShellSurface) {
return m_plasmaShellSurface->role() == PlasmaShellSurfaceInterface::Role::Normal;
}
if (m_xdgShellPopup) {
return false;
}
return true;
}
bool ShellClient::isMovableAcrossScreens() const
{
if (m_plasmaShellSurface) {
return m_plasmaShellSurface->role() == PlasmaShellSurfaceInterface::Role::Normal;
}
if (m_xdgShellPopup) {
return false;
}
return true;
}
bool ShellClient::isResizable() const
{
if (m_plasmaShellSurface) {
return m_plasmaShellSurface->role() == PlasmaShellSurfaceInterface::Role::Normal;
}
if (m_xdgShellPopup) {
return false;
}
return true;
}
bool ShellClient::isShown(bool shaded_is_shown) const
{
Q_UNUSED(shaded_is_shown)
return !m_closing && !m_unmapped && !isMinimized() && !m_hidden;
}
void ShellClient::hideClient(bool hide)
{
if (m_hidden == hide) {
return;
}
m_hidden = hide;
if (hide) {
addWorkspaceRepaint(visibleRect());
workspace()->clientHidden(this);
emit windowHidden(this);
} else {
emit windowShown(this);
}
}
static bool changeMaximizeRecursion = false;
void ShellClient::changeMaximize(bool horizontal, bool vertical, bool adjust)
{
if (changeMaximizeRecursion) {
return;
}
if (!isResizable()) {
return;
}
const QRect clientArea = isElectricBorderMaximizing() ?
workspace()->clientArea(MaximizeArea, Cursor::pos(), desktop()) :
workspace()->clientArea(MaximizeArea, this);
const MaximizeMode oldMode = m_requestedMaximizeMode;
const QRect oldGeometry = geometry();
StackingUpdatesBlocker blocker(workspace());
RequestGeometryBlocker geometryBlocker(this);
// 'adjust == true' means to update the size only, e.g. after changing workspace size
if (!adjust) {
if (vertical)
m_requestedMaximizeMode = MaximizeMode(m_requestedMaximizeMode ^ MaximizeVertical);
if (horizontal)
m_requestedMaximizeMode = MaximizeMode(m_requestedMaximizeMode ^ MaximizeHorizontal);
}
// TODO: add more checks as in Client
// call into decoration update borders
if (isDecorated() && decoration()->client() && !(options->borderlessMaximizedWindows() && m_requestedMaximizeMode == KWin::MaximizeFull)) {
changeMaximizeRecursion = true;
const auto c = decoration()->client().data();
if ((m_requestedMaximizeMode & MaximizeVertical) != (oldMode & MaximizeVertical)) {
emit c->maximizedVerticallyChanged(m_requestedMaximizeMode & MaximizeVertical);
}
if ((m_requestedMaximizeMode & MaximizeHorizontal) != (oldMode & MaximizeHorizontal)) {
emit c->maximizedHorizontallyChanged(m_requestedMaximizeMode & MaximizeHorizontal);
}
if ((m_requestedMaximizeMode == MaximizeFull) != (oldMode == MaximizeFull)) {
emit c->maximizedChanged(m_requestedMaximizeMode & MaximizeFull);
}
changeMaximizeRecursion = false;
}
if (options->borderlessMaximizedWindows()) {
// triggers a maximize change.
// The next setNoBorder interation will exit since there's no change but the first recursion pullutes the restore geometry
changeMaximizeRecursion = true;
setNoBorder(rules()->checkNoBorder(m_requestedMaximizeMode == MaximizeFull));
changeMaximizeRecursion = false;
}
// Conditional quick tiling exit points
const auto oldQuickTileMode = quickTileMode();
if (quickTileMode() != QuickTileMode(QuickTileFlag::None)) {
if (oldMode == MaximizeFull &&
!clientArea.contains(m_geomMaximizeRestore.center())) {
// Not restoring on the same screen
// TODO: The following doesn't work for some reason
//quick_tile_mode = QuickTileNone; // And exit quick tile mode manually
} else if ((oldMode == MaximizeVertical && m_requestedMaximizeMode == MaximizeRestore) ||
(oldMode == MaximizeFull && m_requestedMaximizeMode == MaximizeHorizontal)) {
// Modifying geometry of a tiled window
updateQuickTileMode(QuickTileFlag::None); // Exit quick tile mode without restoring geometry
}
}
// TODO: check rules
if (m_requestedMaximizeMode == MaximizeFull) {
m_geomMaximizeRestore = oldGeometry;
// TODO: Client has more checks
if (options->electricBorderMaximize()) {
updateQuickTileMode(QuickTileFlag::Maximize);
} else {
updateQuickTileMode(QuickTileFlag::None);
}
if (quickTileMode() != oldQuickTileMode) {
emit quickTileModeChanged();
}
setGeometry(workspace()->clientArea(MaximizeArea, this));
workspace()->raiseClient(this);
} else {
if (m_requestedMaximizeMode == MaximizeRestore) {
updateQuickTileMode(QuickTileFlag::None);
}
if (quickTileMode() != oldQuickTileMode) {
emit quickTileModeChanged();
}
if (m_geomMaximizeRestore.isValid()) {
setGeometry(m_geomMaximizeRestore);
} else {
setGeometry(workspace()->clientArea(PlacementArea, this));
}
}
}
MaximizeMode ShellClient::maximizeMode() const
{
return m_maximizeMode;
}
MaximizeMode ShellClient::requestedMaximizeMode() const
{
return m_requestedMaximizeMode;
}
bool ShellClient::noBorder() const
{
if (isInternal()) {
return m_internalWindowFlags.testFlag(Qt::FramelessWindowHint) || m_internalWindowFlags.testFlag(Qt::Popup);
}
if (m_serverDecoration) {
if (m_serverDecoration->mode() == ServerSideDecorationManagerInterface::Mode::Server) {
return m_userNoBorder || isFullScreen();
}
}
if (m_xdgDecoration && m_xdgDecoration->requestedMode() != XdgDecorationInterface::Mode::ClientSide) {
return m_userNoBorder || isFullScreen();
}
return true;
}
void ShellClient::setFullScreen(bool set, bool user)
{
if (!isFullScreen() && !set)
return;
if (user && !userCanSetFullScreen())
return;
set = rules()->checkFullScreen(set && !isSpecialWindow());
setShade(ShadeNone);
bool was_fs = isFullScreen();
if (was_fs) {
workspace()->updateFocusMousePosition(Cursor::pos()); // may cause leave event
} else {
// in shell surface, maximise mode and fullscreen are exclusive
// fullscreen->toplevel should restore the state we had before maximising
if (m_shellSurface && m_maximizeMode == MaximizeMode::MaximizeFull) {
m_geomFsRestore = m_geomMaximizeRestore;
} else {
m_geomFsRestore = geometry();
}
}
m_fullScreen = set;
if (was_fs == isFullScreen())
return;
if (set) {
untab();
workspace()->raiseClient(this);
}
RequestGeometryBlocker requestBlocker(this);
StackingUpdatesBlocker blocker1(workspace());
GeometryUpdatesBlocker blocker2(this);
workspace()->updateClientLayer(this); // active fullscreens get different layer
updateDecoration(false, false);
if (isFullScreen()) {
setGeometry(workspace()->clientArea(FullScreenArea, this));
} else {
if (!m_geomFsRestore.isNull()) {
int currentScreen = screen();
setGeometry(QRect(m_geomFsRestore.topLeft(), adjustedSize(m_geomFsRestore.size())));
if( currentScreen != screen())
workspace()->sendClientToScreen( this, currentScreen );
} else {
// does this ever happen?
setGeometry(workspace()->clientArea(MaximizeArea, this));
}
}
updateWindowRules(Rules::Fullscreen|Rules::Position|Rules::Size);
if (was_fs != isFullScreen()) {
emit fullScreenChanged();
}
}
void ShellClient::setNoBorder(bool set)
{
if (!userCanSetNoBorder()) {
return;
}
set = rules()->checkNoBorder(set);
if (m_userNoBorder == set) {
return;
}
m_userNoBorder = set;
updateDecoration(true, false);
updateWindowRules(Rules::NoBorder);
}
void ShellClient::setOnAllActivities(bool set)
{
Q_UNUSED(set)
}
void ShellClient::takeFocus()
{
if (rules()->checkAcceptFocus(wantsInput())) {
if (m_xdgShellSurface) {
const qint32 pingSerial = static_cast<XdgShellInterface *>(m_xdgShellSurface->global())->ping(m_xdgShellSurface);
m_pingSerials.insert(pingSerial, PingReason::FocusWindow);
}
setActive(true);
}
bool breakShowingDesktop = !keepAbove() && !isOnScreenDisplay();
if (breakShowingDesktop) {
// check that it doesn't belong to the desktop
const auto &clients = waylandServer()->clients();
for (auto c: clients) {
if (!belongsToSameApplication(c, SameApplicationChecks())) {
continue;
}
if (c->isDesktop()) {
breakShowingDesktop = false;
break;
}
}
}
if (breakShowingDesktop)
workspace()->setShowingDesktop(false);
}
void ShellClient::doSetActive()
{
if (!isActive()) {
return;
}
StackingUpdatesBlocker blocker(workspace());
workspace()->focusToNull();
}
bool ShellClient::userCanSetFullScreen() const
{
if (m_xdgShellSurface) {
return true;
}
return false;
}
bool ShellClient::userCanSetNoBorder() const
{
if (m_serverDecoration && m_serverDecoration->mode() == ServerSideDecorationManagerInterface::Mode::Server) {
return !isFullScreen() && !isShade() && !tabGroup();
}
if (m_xdgDecoration && m_xdgDecoration->requestedMode() != XdgDecorationInterface::Mode::ClientSide) {
return !isFullScreen() && !isShade() && !tabGroup();
}
if (m_internal) {
return !m_internalWindowFlags.testFlag(Qt::FramelessWindowHint) || m_internalWindowFlags.testFlag(Qt::Popup);
}
return false;
}
bool ShellClient::wantsInput() const
{
return rules()->checkAcceptFocus(acceptsFocus());
}
bool ShellClient::acceptsFocus() const
{
if (isInternal()) {
return false;
}
if (waylandServer()->inputMethodConnection() == surface()->client()) {
return false;
}
if (m_plasmaShellSurface) {
if (m_plasmaShellSurface->role() == PlasmaShellSurfaceInterface::Role::OnScreenDisplay ||
m_plasmaShellSurface->role() == PlasmaShellSurfaceInterface::Role::ToolTip ||
m_plasmaShellSurface->role() == PlasmaShellSurfaceInterface::Role::Notification) {
return false;
}
}
if (m_closing) {
// a closing window does not accept focus
return false;
}
if (m_unmapped) {
// an unmapped window does not accept focus
return false;
}
if (m_shellSurface) {
if (m_shellSurface->isPopup()) {
return false;
}
return m_shellSurface->acceptsKeyboardFocus();
}
if (m_xdgShellSurface) {
// TODO: proper
return true;
}
return false;
}
void ShellClient::createWindowId()
{
if (m_internalWindow) {
m_windowId = m_internalWindow->winId();
} else {
m_windowId = waylandServer()->createWindowId(surface());
}
}
void ShellClient::findInternalWindow()
{
if (surface()->client() != waylandServer()->internalConnection()) {
return;
}
const QWindowList windows = kwinApp()->topLevelWindows();
for (QWindow *w: windows) {
auto s = KWayland::Client::Surface::fromWindow(w);
if (!s) {
continue;
}
if (s->id() != surface()->id()) {
continue;
}
m_internalWindow = w;
m_internalWindowFlags = m_internalWindow->flags();
connect(m_internalWindow, &QWindow::xChanged, this, &ShellClient::updateInternalWindowGeometry);
connect(m_internalWindow, &QWindow::yChanged, this, &ShellClient::updateInternalWindowGeometry);
connect(m_internalWindow, &QWindow::destroyed, this, [this] { m_internalWindow = nullptr; });
connect(m_internalWindow, &QWindow::opacityChanged, this, &ShellClient::setOpacity);
// Try reading the window type from the QWindow. PlasmaCore.Dialog provides a dynamic type property
// let's check whether it exists, if it does it's our window type
const QVariant windowType = m_internalWindow->property("type");
if (!windowType.isNull()) {
m_windowType = static_cast<NET::WindowType>(windowType.toInt());
}
setOpacity(m_internalWindow->opacity());
// skip close animation support
setSkipCloseAnimation(m_internalWindow->property(s_skipClosePropertyName).toBool());
m_internalWindow->installEventFilter(this);
return;
}
}
void ShellClient::updateInternalWindowGeometry()
{
if (!m_internalWindow) {
return;
}
doSetGeometry(QRect(m_internalWindow->geometry().topLeft() - QPoint(borderLeft(), borderTop()),
m_internalWindow->geometry().size() + QSize(borderLeft() + borderRight(), borderTop() + borderBottom())));
}
pid_t ShellClient::pid() const
{
return surface()->client()->processId();
}
bool ShellClient::isInternal() const
{
return m_internal;
}
bool ShellClient::isLockScreen() const
{
if (m_internalWindow) {
return m_internalWindow->property("org_kde_ksld_emergency").toBool();
}
return surface()->client() == waylandServer()->screenLockerClientConnection();
}
bool ShellClient::isInputMethod() const
{
if (m_internal && m_internalWindow) {
return m_internalWindow->property("__kwin_input_method").toBool();
}
return surface()->client() == waylandServer()->inputMethodConnection();
}
void ShellClient::requestGeometry(const QRect &rect)
{
if (m_requestGeometryBlockCounter != 0) {
m_blockedRequestGeometry = rect;
return;
}
PendingConfigureRequest configureRequest;
configureRequest.positionAfterResize = rect.topLeft();
configureRequest.maximizeMode = m_requestedMaximizeMode;
const QSize size = rect.size() - QSize(borderLeft() + borderRight(), borderTop() + borderBottom());
m_requestedClientSize = size;
if (m_shellSurface) {
m_shellSurface->requestSize(size);
}
if (m_xdgShellSurface) {
configureRequest.serialId = m_xdgShellSurface->configure(xdgSurfaceStates(), size);
}
if (m_xdgShellPopup) {
auto parent = transientFor();
if (parent) {
const QPoint globalClientContentPos = parent->geometry().topLeft() + parent->clientPos();
const QPoint relativeOffset = rect.topLeft() -globalClientContentPos;
configureRequest.serialId = m_xdgShellPopup->configure(QRect(relativeOffset, rect.size()));
}
}
m_pendingConfigureRequests.append(configureRequest);
m_blockedRequestGeometry = QRect();
if (m_internal) {
m_internalWindow->setGeometry(QRect(rect.topLeft() + QPoint(borderLeft(), borderTop()), rect.size() - QSize(borderLeft() + borderRight(), borderTop() + borderBottom())));
}
}
void ShellClient::updatePendingGeometry()
{
QPoint position = geom.topLeft();
MaximizeMode maximizeMode = m_maximizeMode;
for (auto it = m_pendingConfigureRequests.begin(); it != m_pendingConfigureRequests.end(); it++) {
if (it->serialId > m_lastAckedConfigureRequest) {
//this serial is not acked yet, therefore we know all future serials are not
break;
}
if (it->serialId == m_lastAckedConfigureRequest) {
if (position != it->positionAfterResize) {
addLayerRepaint(geometry());
}
position = it->positionAfterResize;
maximizeMode = it->maximizeMode;
m_pendingConfigureRequests.erase(m_pendingConfigureRequests.begin(), ++it);
break;
}
//else serialId < m_lastAckedConfigureRequest and the state is now irrelevant and can be ignored
}
doSetGeometry(QRect(position, m_clientSize + QSize(borderLeft() + borderRight(), borderTop() + borderBottom())));
updateMaximizeMode(maximizeMode);
}
void ShellClient::clientFullScreenChanged(bool fullScreen)
{
setFullScreen(fullScreen, false);
}
void ShellClient::resizeWithChecks(int w, int h, ForceGeometry_t force)
{
Q_UNUSED(force)
QRect area = workspace()->clientArea(WorkArea, this);
// don't allow growing larger than workarea
if (w > area.width()) {
w = area.width();
}
if (h > area.height()) {
h = area.height();
}
if (m_shellSurface) {
m_shellSurface->requestSize(QSize(w, h));
}
if (m_xdgShellSurface) {
m_xdgShellSurface->configure(xdgSurfaceStates(), QSize(w, h));
}
if (m_internal) {
m_internalWindow->setGeometry(QRect(pos() + QPoint(borderLeft(), borderTop()), QSize(w, h) - QSize(borderLeft() + borderRight(), borderTop() + borderBottom())));
}
}
void ShellClient::unmap()
{
m_unmapped = true;
m_requestedClientSize = QSize(0, 0);
destroyWindowManagementInterface();
if (Workspace::self()) {
addWorkspaceRepaint(visibleRect());
workspace()->clientHidden(this);
}
emit windowHidden(this);
}
void ShellClient::installPlasmaShellSurface(PlasmaShellSurfaceInterface *surface)
{
m_plasmaShellSurface = surface;
auto updatePosition = [this, surface] {
QRect rect = QRect(surface->position(), m_clientSize + QSize(borderLeft() + borderRight(), borderTop() + borderBottom()));
// Shell surfaces of internal windows are sometimes desync to current value.
// Make sure to not set window geometry of internal windows to invalid values (bug 386304)
if (!m_internal || rect.isValid()) {
doSetGeometry(rect);
}
};
auto updateRole = [this, surface] {
NET::WindowType type = NET::Unknown;
switch (surface->role()) {
case PlasmaShellSurfaceInterface::Role::Desktop:
type = NET::Desktop;
break;
case PlasmaShellSurfaceInterface::Role::Panel:
type = NET::Dock;
break;
case PlasmaShellSurfaceInterface::Role::OnScreenDisplay:
type = NET::OnScreenDisplay;
break;
case PlasmaShellSurfaceInterface::Role::Notification:
type = NET::Notification;
break;
case PlasmaShellSurfaceInterface::Role::ToolTip:
type = NET::Tooltip;
break;
case PlasmaShellSurfaceInterface::Role::Normal:
default:
type = NET::Normal;
break;
}
if (type != m_windowType) {
m_windowType = type;
if (m_windowType == NET::Desktop || type == NET::Dock || type == NET::OnScreenDisplay || type == NET::Notification || type == NET::Tooltip) {
setOnAllDesktops(true);
}
workspace()->updateClientArea();
}
};
connect(surface, &PlasmaShellSurfaceInterface::positionChanged, this, updatePosition);
connect(surface, &PlasmaShellSurfaceInterface::roleChanged, this, updateRole);
connect(surface, &PlasmaShellSurfaceInterface::panelBehaviorChanged, this,
[this] {
updateShowOnScreenEdge();
workspace()->updateClientArea();
}
);
connect(surface, &PlasmaShellSurfaceInterface::panelAutoHideHideRequested, this,
[this] {
hideClient(true);
m_plasmaShellSurface->hideAutoHidingPanel();
updateShowOnScreenEdge();
}
);
connect(surface, &PlasmaShellSurfaceInterface::panelAutoHideShowRequested, this,
[this] {
hideClient(false);
ScreenEdges::self()->reserve(this, ElectricNone);
m_plasmaShellSurface->showAutoHidingPanel();
}
);
updatePosition();
updateRole();
updateShowOnScreenEdge();
connect(this, &ShellClient::geometryChanged, this, &ShellClient::updateShowOnScreenEdge);
setSkipTaskbar(surface->skipTaskbar());
connect(surface, &PlasmaShellSurfaceInterface::skipTaskbarChanged, this, [this] {
setSkipTaskbar(m_plasmaShellSurface->skipTaskbar());
});
setSkipSwitcher(surface->skipSwitcher());
connect(surface, &PlasmaShellSurfaceInterface::skipSwitcherChanged, this, [this] {
setSkipSwitcher(m_plasmaShellSurface->skipSwitcher());
});
}
void ShellClient::updateShowOnScreenEdge()
{
if (!ScreenEdges::self()) {
return;
}
if (m_unmapped || !m_plasmaShellSurface || m_plasmaShellSurface->role() != PlasmaShellSurfaceInterface::Role::Panel) {
ScreenEdges::self()->reserve(this, ElectricNone);
return;
}
if ((m_plasmaShellSurface->panelBehavior() == PlasmaShellSurfaceInterface::PanelBehavior::AutoHide && m_hidden) ||
m_plasmaShellSurface->panelBehavior() == PlasmaShellSurfaceInterface::PanelBehavior::WindowsCanCover) {
// screen edge API requires an edge, thus we need to figure out which edge the window borders
Qt::Edges edges;
for (int i = 0; i < screens()->count(); i++) {
const auto &screenGeo = screens()->geometry(i);
if (screenGeo.x() == geom.x()) {
edges |= Qt::LeftEdge;
}
if (screenGeo.x() + screenGeo.width() == geom.x() + geom.width()) {
edges |= Qt::RightEdge;
}
if (screenGeo.y() == geom.y()) {
edges |= Qt::TopEdge;
}
if (screenGeo.y() + screenGeo.height() == geom.y() + geom.height()) {
edges |= Qt::BottomEdge;
}
}
// a panel might border multiple screen edges. E.g. a horizontal panel at the bottom will
// also border the left and right edge
// let's remove such cases
if (edges.testFlag(Qt::LeftEdge) && edges.testFlag(Qt::RightEdge)) {
edges = edges & (~(Qt::LeftEdge | Qt::RightEdge));
}
if (edges.testFlag(Qt::TopEdge) && edges.testFlag(Qt::BottomEdge)) {
edges = edges & (~(Qt::TopEdge | Qt::BottomEdge));
}
// it's still possible that a panel borders two edges, e.g. bottom and left
// in that case the one which is sharing more with the edge wins
auto check = [this](Qt::Edges edges, Qt::Edge horiz, Qt::Edge vert) {
if (edges.testFlag(horiz) && edges.testFlag(vert)) {
if (geom.width() >= geom.height()) {
return edges & ~horiz;
} else {
return edges & ~vert;
}
}
return edges;
};
edges = check(edges, Qt::LeftEdge, Qt::TopEdge);
edges = check(edges, Qt::LeftEdge, Qt::BottomEdge);
edges = check(edges, Qt::RightEdge, Qt::TopEdge);
edges = check(edges, Qt::RightEdge, Qt::BottomEdge);
ElectricBorder border = ElectricNone;
if (edges.testFlag(Qt::LeftEdge)) {
border = ElectricLeft;
}
if (edges.testFlag(Qt::RightEdge)) {
border = ElectricRight;
}
if (edges.testFlag(Qt::TopEdge)) {
border = ElectricTop;
}
if (edges.testFlag(Qt::BottomEdge)) {
border = ElectricBottom;
}
ScreenEdges::self()->reserve(this, border);
} else {
ScreenEdges::self()->reserve(this, ElectricNone);
}
}
bool ShellClient::isInitialPositionSet() const
{
if (m_plasmaShellSurface) {
return m_plasmaShellSurface->isPositionSet();
}
return false;
}
void ShellClient::installQtExtendedSurface(QtExtendedSurfaceInterface *surface)
{
m_qtExtendedSurface = surface;
connect(m_qtExtendedSurface.data(), &QtExtendedSurfaceInterface::raiseRequested, this, [this]() {
workspace()->raiseClientRequest(this);
});
connect(m_qtExtendedSurface.data(), &QtExtendedSurfaceInterface::lowerRequested, this, [this]() {
workspace()->lowerClientRequest(this);
});
m_qtExtendedSurface->installEventFilter(this);
}
void ShellClient::installAppMenu(AppMenuInterface *menu)
{
m_appMenuInterface = menu;
auto updateMenu = [this](AppMenuInterface::InterfaceAddress address) {
updateApplicationMenuServiceName(address.serviceName);
updateApplicationMenuObjectPath(address.objectPath);
};
connect(m_appMenuInterface, &AppMenuInterface::addressChanged, this, [=](AppMenuInterface::InterfaceAddress address) {
updateMenu(address);
});
updateMenu(menu->address());
}
void ShellClient::installPalette(ServerSideDecorationPaletteInterface *palette)
{
m_paletteInterface = palette;
auto updatePalette = [this](const QString &palette) {
AbstractClient::updateColorScheme(rules()->checkDecoColor(palette));
};
connect(m_paletteInterface, &ServerSideDecorationPaletteInterface::paletteChanged, this, [=](const QString &palette) {
updatePalette(palette);
});
connect(m_paletteInterface, &QObject::destroyed, this, [=]() {
updatePalette(QString());
});
updatePalette(palette->palette());
}
bool ShellClient::eventFilter(QObject *watched, QEvent *event)
{
if (watched == m_internalWindow && event->type() == QEvent::DynamicPropertyChange) {
QDynamicPropertyChangeEvent *pe = static_cast<QDynamicPropertyChangeEvent*>(event);
if (pe->propertyName() == s_skipClosePropertyName) {
setSkipCloseAnimation(m_internalWindow->property(s_skipClosePropertyName).toBool());
}
}
return false;
}
void ShellClient::updateColorScheme()
{
if (m_paletteInterface) {
AbstractClient::updateColorScheme(rules()->checkDecoColor(m_paletteInterface->palette()));
} else {
AbstractClient::updateColorScheme(rules()->checkDecoColor(QString()));
}
}
void ShellClient::updateMaximizeMode(MaximizeMode maximizeMode)
{
if (maximizeMode == m_maximizeMode) {
return;
}
m_maximizeMode = maximizeMode;
emit clientMaximizedStateChanged(this, m_maximizeMode);
emit clientMaximizedStateChanged(this, m_maximizeMode & MaximizeHorizontal, m_maximizeMode & MaximizeVertical);
}
bool ShellClient::hasStrut() const
{
if (!isShown(true)) {
return false;
}
if (!m_plasmaShellSurface) {
return false;
}
if (m_plasmaShellSurface->role() != PlasmaShellSurfaceInterface::Role::Panel) {
return false;
}
return m_plasmaShellSurface->panelBehavior() == PlasmaShellSurfaceInterface::PanelBehavior::AlwaysVisible;
}
void ShellClient::updateIcon()
{
const QString waylandIconName = QStringLiteral("wayland");
const QString dfIconName = iconFromDesktopFile();
const QString iconName = dfIconName.isEmpty() ? waylandIconName : dfIconName;
if (iconName == icon().name()) {
return;
}
setIcon(QIcon::fromTheme(iconName));
}
bool ShellClient::isTransient() const
{
return m_transient;
}
void ShellClient::setTransient()
{
SurfaceInterface *s = nullptr;
if (m_shellSurface) {
s = m_shellSurface->transientFor().data();
}
if (m_xdgShellSurface) {
if (auto transient = m_xdgShellSurface->transientFor().data()) {
s = transient->surface();
}
}
if (m_xdgShellPopup) {
s = m_xdgShellPopup->transientFor().data();
}
if (!s) {
s = waylandServer()->findForeignTransientForSurface(surface());
}
auto t = waylandServer()->findClient(s);
if (t != transientFor()) {
// remove from main client
if (transientFor())
transientFor()->removeTransient(this);
setTransientFor(t);
if (t) {
t->addTransient(this);
}
}
m_transient = (s != nullptr);
}
bool ShellClient::hasTransientPlacementHint() const
{
return isTransient() && transientFor() != nullptr &&
(m_shellSurface || m_xdgShellPopup);
}
QRect ShellClient::transientPlacement(const QRect &bounds) const
{
QRect anchorRect;
Qt::Edges anchorEdge;
Qt::Edges gravity;
QPoint offset;
PositionerConstraints constraintAdjustments;
const QPoint parentClientPos = transientFor()->pos() + transientFor()->clientPos();
QRect popupPosition;
// returns if a target is within the supplied bounds, optional edges argument states which side to check
auto inBounds = [bounds](const QRect &target, Qt::Edges edges = Qt::LeftEdge | Qt::RightEdge | Qt::TopEdge | Qt::BottomEdge) -> bool {
if (edges & Qt::LeftEdge && target.left() < bounds.left()) {
return false;
}
if (edges & Qt::TopEdge && target.top() < bounds.top()) {
return false;
}
if (edges & Qt::RightEdge && target.right() > bounds.right()) {
//normal QRect::right issue cancels out
return false;
}
if (edges & Qt::BottomEdge && target.bottom() > bounds.bottom()) {
return false;
}
return true;
};
if (m_shellSurface) {
anchorRect = QRect(m_shellSurface->transientOffset(), QSize(1,1));
anchorEdge = Qt::TopEdge | Qt::LeftEdge;
gravity = Qt::BottomEdge | Qt::RightEdge; //our single point represents the top left of the popup
constraintAdjustments = (PositionerConstraint::SlideX | PositionerConstraint::SlideY);
} else if (m_xdgShellPopup) {
anchorRect = m_xdgShellPopup->anchorRect();
anchorEdge = m_xdgShellPopup->anchorEdge();
gravity = m_xdgShellPopup->gravity();
offset = m_xdgShellPopup->anchorOffset();
constraintAdjustments = m_xdgShellPopup->constraintAdjustments();
} else {
Q_UNREACHABLE();
}
//initial position
popupPosition = QRect(popupOffset(anchorRect, anchorEdge, gravity) + offset + parentClientPos, geometry().size());
//if that fits, we don't need to do anything
if (inBounds(popupPosition)) {
return popupPosition;
}
//otherwise apply constraint adjustment per axis in order XDG Shell Popup states
if (constraintAdjustments & PositionerConstraint::FlipX) {
if (!inBounds(popupPosition, Qt::LeftEdge | Qt::RightEdge)) {
//flip both edges (if either bit is set, XOR both)
auto flippedAnchorEdge = anchorEdge;
if (flippedAnchorEdge & (Qt::LeftEdge | Qt::RightEdge)) {
flippedAnchorEdge ^= (Qt::LeftEdge | Qt::RightEdge);
}
auto flippedGravity = gravity;
if (flippedGravity & (Qt::LeftEdge | Qt::RightEdge)) {
flippedGravity ^= (Qt::LeftEdge | Qt::RightEdge);
}
auto flippedPopupPosition = QRect(popupOffset(anchorRect, flippedAnchorEdge, flippedGravity) + offset + parentClientPos, geometry().size());
//if it still doesn't fit we should continue with the unflipped version
if (inBounds(flippedPopupPosition, Qt::LeftEdge | Qt::RightEdge)) {
popupPosition.setX(flippedPopupPosition.x());
}
}
}
if (constraintAdjustments & PositionerConstraint::SlideX) {
if (!inBounds(popupPosition, Qt::LeftEdge)) {
popupPosition.setX(bounds.x());
}
if (!inBounds(popupPosition, Qt::RightEdge)) {
popupPosition.setX(bounds.x() + bounds.width() - geometry().width());
}
}
if (constraintAdjustments & PositionerConstraint::ResizeX) {
//TODO
//but we need to sort out when this is run as resize should only happen before first configure
}
if (constraintAdjustments & PositionerConstraint::FlipY) {
if (!inBounds(popupPosition, Qt::TopEdge | Qt::BottomEdge)) {
//flip both edges (if either bit is set, XOR both)
auto flippedAnchorEdge = anchorEdge;
if (flippedAnchorEdge & (Qt::TopEdge | Qt::BottomEdge)) {
flippedAnchorEdge ^= (Qt::TopEdge | Qt::BottomEdge);
}
auto flippedGravity = gravity;
if (flippedGravity & (Qt::TopEdge | Qt::BottomEdge)) {
flippedGravity ^= (Qt::TopEdge | Qt::BottomEdge);
}
auto flippedPopupPosition = QRect(popupOffset(anchorRect, flippedAnchorEdge, flippedGravity) + offset + parentClientPos, geometry().size());
//if it still doesn't fit we should continue with the unflipped version
if (inBounds(flippedPopupPosition, Qt::TopEdge | Qt::BottomEdge)) {
popupPosition.setY(flippedPopupPosition.y());
}
}
}
if (constraintAdjustments & PositionerConstraint::SlideY) {
if (!inBounds(popupPosition, Qt::TopEdge)) {
popupPosition.setY(bounds.y());
}
if (!inBounds(popupPosition, Qt::BottomEdge)) {
popupPosition.setY(bounds.y() + bounds.height() - geometry().height());
}
}
if (constraintAdjustments & PositionerConstraint::ResizeY) {
//TODO
}
return popupPosition;
}
QPoint ShellClient::popupOffset(const QRect &anchorRect, const Qt::Edges anchorEdge, const Qt::Edges gravity) const
{
const QSize popupSize = geometry().size();
QPoint anchorPoint;
switch (anchorEdge & (Qt::LeftEdge | Qt::RightEdge)) {
case Qt::LeftEdge:
anchorPoint.setX(anchorRect.x());
break;
case Qt::RightEdge:
anchorPoint.setX(anchorRect.x() + anchorRect.width());
break;
default:
anchorPoint.setX(qRound(anchorRect.x() + anchorRect.width() / 2.0));
}
switch (anchorEdge & (Qt::TopEdge | Qt::BottomEdge)) {
case Qt::TopEdge:
anchorPoint.setY(anchorRect.y());
break;
case Qt::BottomEdge:
anchorPoint.setY(anchorRect.y() + anchorRect.height());
break;
default:
anchorPoint.setY(qRound(anchorRect.y() + anchorRect.height() / 2.0));
}
// calculate where the top left point of the popup will end up with the applied gravity
// gravity indicates direction. i.e if gravitating towards the top the popup's bottom edge
// will next to the anchor point
QPoint popupPosAdjust;
switch (gravity & (Qt::LeftEdge | Qt::RightEdge)) {
case Qt::LeftEdge:
popupPosAdjust.setX(-popupSize.width());
break;
case Qt::RightEdge:
popupPosAdjust.setX(0);
break;
default:
popupPosAdjust.setX(qRound(-popupSize.width() / 2.0));
}
switch (gravity & (Qt::TopEdge | Qt::BottomEdge)) {
case Qt::TopEdge:
popupPosAdjust.setY(-popupSize.height());
break;
case Qt::BottomEdge:
popupPosAdjust.setY(0);
break;
default:
popupPosAdjust.setY(qRound(-popupSize.height() / 2.0));
}
return anchorPoint + popupPosAdjust;
}
bool ShellClient::isWaitingForMoveResizeSync() const
{
return !m_pendingConfigureRequests.isEmpty();
}
void ShellClient::doResizeSync()
{
requestGeometry(moveResizeGeometry());
}
QMatrix4x4 ShellClient::inputTransformation() const
{
QMatrix4x4 m = Toplevel::inputTransformation();
m.translate(-borderLeft(), -borderTop());
return m;
}
void ShellClient::installServerSideDecoration(KWayland::Server::ServerSideDecorationInterface *deco)
{
if (m_serverDecoration == deco) {
return;
}
m_serverDecoration = deco;
connect(m_serverDecoration, &ServerSideDecorationInterface::destroyed, this,
[this] {
m_serverDecoration = nullptr;
if (m_closing || !Workspace::self()) {
return;
}
if (!m_unmapped) {
// maybe delay to next event cycle in case the ShellClient is getting destroyed, too
updateDecoration(true);
}
}
);
if (!m_unmapped) {
updateDecoration(true);
}
connect(m_serverDecoration, &ServerSideDecorationInterface::modeRequested, this,
[this] (ServerSideDecorationManagerInterface::Mode mode) {
const bool changed = mode != m_serverDecoration->mode();
if (changed && !m_unmapped) {
updateDecoration(false);
}
}
);
}
void ShellClient::installXdgDecoration(XdgDecorationInterface *deco)
{
Q_ASSERT(m_xdgShellSurface);
m_xdgDecoration = deco;
connect(m_xdgDecoration, &QObject::destroyed, this,
[this] {
m_xdgDecoration = nullptr;
if (m_closing || !Workspace::self()) {
return;
}
updateDecoration(true);
}
);
connect(m_xdgDecoration, &XdgDecorationInterface::modeRequested, this,
[this] () {
//force is true as we must send a new configure response
updateDecoration(false, true);
});
}
bool ShellClient::shouldExposeToWindowManagement()
{
if (isInternal()) {
return false;
}
if (isLockScreen()) {
return false;
}
if (m_xdgShellPopup) {
return false;
}
if (m_shellSurface) {
if (m_shellSurface->isTransient() && !m_shellSurface->acceptsKeyboardFocus()) {
return false;
}
}
return true;
}
KWayland::Server::XdgShellSurfaceInterface::States ShellClient::xdgSurfaceStates() const
{
XdgShellSurfaceInterface::States states;
if (isActive()) {
states |= XdgShellSurfaceInterface::State::Activated;
}
if (isFullScreen()) {
states |= XdgShellSurfaceInterface::State::Fullscreen;
}
if (m_requestedMaximizeMode == MaximizeMode::MaximizeFull) {
states |= XdgShellSurfaceInterface::State::Maximized;
}
if (isResize()) {
states |= XdgShellSurfaceInterface::State::Resizing;
}
return states;
}
void ShellClient::doMinimize()
{
if (isMinimized()) {
workspace()->clientHidden(this);
} else {
emit windowShown(this);
}
workspace()->updateMinimizedOfTransients(this);
}
bool ShellClient::setupCompositing()
{
if (m_compositingSetup) {
return true;
}
m_compositingSetup = Toplevel::setupCompositing();
return m_compositingSetup;
}
void ShellClient::finishCompositing(ReleaseReason releaseReason)
{
m_compositingSetup = false;
Toplevel::finishCompositing(releaseReason);
}
void ShellClient::placeIn(QRect &area)
{
Placement::self()->place(this, area);
setGeometryRestore(geometry());
}
void ShellClient::showOnScreenEdge()
{
if (!m_plasmaShellSurface || m_unmapped) {
return;
}
hideClient(false);
workspace()->raiseClient(this);
if (m_plasmaShellSurface->panelBehavior() == PlasmaShellSurfaceInterface::PanelBehavior::AutoHide) {
m_plasmaShellSurface->showAutoHidingPanel();
}
}
bool ShellClient::dockWantsInput() const
{
if (m_plasmaShellSurface) {
if (m_plasmaShellSurface->role() == PlasmaShellSurfaceInterface::Role::Panel) {
return m_plasmaShellSurface->panelTakesFocus();
}
}
return false;
}
void ShellClient::killWindow()
{
if (isInternal()) {
return;
}
if (!surface()) {
return;
}
auto c = surface()->client();
if (c->processId() == getpid() || c->processId() == 0) {
c->destroy();
return;
}
::kill(c->processId(), SIGTERM);
// give it time to terminate and only if terminate fails, try destroy Wayland connection
QTimer::singleShot(5000, c, &ClientConnection::destroy);
}
bool ShellClient::hasPopupGrab() const
{
return m_hasPopupGrab;
}
void ShellClient::popupDone()
{
if (m_shellSurface) {
m_shellSurface->popupDone();
}
if (m_xdgShellPopup) {
m_xdgShellPopup->popupDone();
}
}
void ShellClient::updateClientOutputs()
{
QVector<OutputInterface*> clientOutputs;
const auto outputs = waylandServer()->display()->outputs();
for (OutputInterface* output: qAsConst(outputs)) {
const QRect outputGeom(output->globalPosition(), output->pixelSize() / output->scale());
if (geometry().intersects(outputGeom)) {
clientOutputs << output;
}
}
surface()->setOutputs(clientOutputs);
}
bool ShellClient::isPopupWindow() const
{
if (Toplevel::isPopupWindow()) {
return true;
}
if (isInternal()) {
return m_internalWindowFlags.testFlag(Qt::Popup);
}
if (m_shellSurface != nullptr) {
return m_shellSurface->isPopup();
}
if (m_xdgShellPopup != nullptr) {
return true;
}
return false;
}
}