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kwin/tabbox/tabbox.cpp
Martin Gräßlin 24bdfc6317 Make Toplevel::window() no longer virtual and introduce ::windowId() 
Summary:
Toplevel::window() is the actual X11 window. This makes it difficult
to use as the generic identifier for both X11 and Wayland. The Wayland
ShellClient already had a windowId() which is now added to Toplevel as
a virtual method. On X11 (Toplevel default) it returns the window().

The method window() now returns XCB_WINDOW_NONE for classes without
the Toplevel::m_client, such as ShellClient. Thus it allows to properly
check whether we are on Wayland or X11.

The code is adjusted to use windowId where a generic id is needed and
to properly check whether the window is valid before using it where
a window() is used.

This also fixes at least one additional unknown issue in
Workspace::setActiveClient

where the windowId of a Wayland client was passed to X11.

Reviewers: #plasma

Subscribers: plasma-devel

Projects: #plasma

Differential Revision: https://phabricator.kde.org/D1527
2016-05-17 14:13:24 +02:00

1661 lines
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/********************************************************************
KWin - the KDE window manager
This file is part of the KDE project.
Copyright (C) 1999, 2000 Matthias Ettrich <ettrich@kde.org>
Copyright (C) 2003 Lubos Lunak <l.lunak@kde.org>
Copyright (C) 2009 Martin Gräßlin <mgraesslin@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/>.
*********************************************************************/
//#define QT_CLEAN_NAMESPACE
// own
#include "tabbox.h"
// tabbox
#include "tabbox/clientmodel.h"
#include "tabbox/desktopmodel.h"
#include "tabbox/tabboxconfig.h"
#include "tabbox/desktopchain.h"
#include "tabbox/tabbox_logging.h"
// kwin
#ifdef KWIN_BUILD_ACTIVITIES
#include "activities.h"
#endif
#include "client.h"
#include "effects.h"
#include "input.h"
#include "focuschain.h"
#include "screenedge.h"
#include "screens.h"
#include "unmanaged.h"
#include "virtualdesktops.h"
#include "workspace.h"
#include "xcbutils.h"
// Qt
#include <QAction>
#include <QKeyEvent>
// KDE
#include <KConfig>
#include <KConfigGroup>
#include <KGlobalAccel>
#include <KLocalizedString>
#include <kkeyserver.h>
// X11
#include <X11/keysym.h>
#include <X11/keysymdef.h>
// xcb
#include <xcb/xcb_keysyms.h>
// specify externals before namespace
namespace KWin
{
namespace TabBox
{
TabBoxHandlerImpl::TabBoxHandlerImpl(TabBox* tabBox)
: TabBoxHandler(tabBox)
, m_tabBox(tabBox)
, m_desktopFocusChain(new DesktopChainManager(this))
{
// connects for DesktopFocusChainManager
VirtualDesktopManager *vds = VirtualDesktopManager::self();
connect(vds, SIGNAL(countChanged(uint,uint)), m_desktopFocusChain, SLOT(resize(uint,uint)));
connect(vds, SIGNAL(currentChanged(uint,uint)), m_desktopFocusChain, SLOT(addDesktop(uint,uint)));
#ifdef KWIN_BUILD_ACTIVITIES
if (Activities::self()) {
connect(Activities::self(), SIGNAL(currentChanged(QString)), m_desktopFocusChain, SLOT(useChain(QString)));
}
#endif
}
TabBoxHandlerImpl::~TabBoxHandlerImpl()
{
}
int TabBoxHandlerImpl::activeScreen() const
{
return screens()->current();
}
int TabBoxHandlerImpl::currentDesktop() const
{
return VirtualDesktopManager::self()->current();
}
QString TabBoxHandlerImpl::desktopName(TabBoxClient* client) const
{
if (TabBoxClientImpl* c = static_cast< TabBoxClientImpl* >(client)) {
if (!c->client()->isOnAllDesktops())
return VirtualDesktopManager::self()->name(c->client()->desktop());
}
return VirtualDesktopManager::self()->name(VirtualDesktopManager::self()->current());
}
QString TabBoxHandlerImpl::desktopName(int desktop) const
{
return VirtualDesktopManager::self()->name(desktop);
}
QWeakPointer<TabBoxClient> TabBoxHandlerImpl::nextClientFocusChain(TabBoxClient* client) const
{
if (TabBoxClientImpl* c = static_cast< TabBoxClientImpl* >(client)) {
auto next = FocusChain::self()->nextMostRecentlyUsed(c->client());
if (next)
return next->tabBoxClient();
}
return QWeakPointer<TabBoxClient>();
}
QWeakPointer< TabBoxClient > TabBoxHandlerImpl::firstClientFocusChain() const
{
if (auto c = FocusChain::self()->firstMostRecentlyUsed()) {
return QWeakPointer<TabBoxClient>(c->tabBoxClient());
} else {
return QWeakPointer<TabBoxClient>();
}
}
bool TabBoxHandlerImpl::isInFocusChain(TabBoxClient *client) const
{
if (TabBoxClientImpl *c = static_cast<TabBoxClientImpl*>(client)) {
return FocusChain::self()->contains(c->client());
}
return false;
}
int TabBoxHandlerImpl::nextDesktopFocusChain(int desktop) const
{
return m_desktopFocusChain->next(desktop);
}
int TabBoxHandlerImpl::numberOfDesktops() const
{
return VirtualDesktopManager::self()->count();
}
QWeakPointer<TabBoxClient> TabBoxHandlerImpl::activeClient() const
{
if (Workspace::self()->activeClient())
return Workspace::self()->activeClient()->tabBoxClient();
else
return QWeakPointer<TabBoxClient>();
}
bool TabBoxHandlerImpl::checkDesktop(TabBoxClient* client, int desktop) const
{
auto current = (static_cast< TabBoxClientImpl* >(client))->client();
switch (config().clientDesktopMode()) {
case TabBoxConfig::AllDesktopsClients:
return true;
case TabBoxConfig::ExcludeCurrentDesktopClients:
return !current->isOnDesktop(desktop);
default: // TabBoxConfig::OnlyCurrentDesktopClients
return current->isOnDesktop(desktop);
}
}
bool TabBoxHandlerImpl::checkActivity(TabBoxClient* client) const
{
auto current = (static_cast< TabBoxClientImpl* >(client))->client();
switch (config().clientActivitiesMode()) {
case TabBoxConfig::AllActivitiesClients:
return true;
case TabBoxConfig::ExcludeCurrentActivityClients:
return !current->isOnCurrentActivity();
default: // TabBoxConfig::OnlyCurrentActivityClients
return current->isOnCurrentActivity();
}
}
bool TabBoxHandlerImpl::checkApplications(TabBoxClient* client) const
{
auto current = (static_cast< TabBoxClientImpl* >(client))->client();
TabBoxClientImpl* c;
QListIterator< QWeakPointer<TabBoxClient> > i(clientList());
switch (config().clientApplicationsMode()) {
case TabBoxConfig::OneWindowPerApplication:
// check if the list already contains an entry of this application
while (i.hasNext()) {
QSharedPointer<TabBoxClient> client = i.next().toStrongRef();
if (!client) {
continue;
}
if ((c = dynamic_cast< TabBoxClientImpl* >(client.data()))) {
if (c->client()->resourceClass() == current->resourceClass()) {
return false;
}
}
}
return true;
case TabBoxConfig::AllWindowsCurrentApplication: {
QSharedPointer<TabBoxClient> pointer = tabBox->activeClient().toStrongRef();
if (!pointer) {
return false;
}
if ((c = dynamic_cast< TabBoxClientImpl* >(pointer.data()))) {
if (c->client()->resourceClass() == current->resourceClass()) {
return true;
}
}
return false;
}
default: // TabBoxConfig::AllWindowsAllApplications
return true;
}
}
bool TabBoxHandlerImpl::checkMinimized(TabBoxClient* client) const
{
switch (config().clientMinimizedMode()) {
case TabBoxConfig::ExcludeMinimizedClients:
return !client->isMinimized();
case TabBoxConfig::OnlyMinimizedClients:
return client->isMinimized();
default: // TabBoxConfig::IgnoreMinimizedStatus
return true;
}
}
bool TabBoxHandlerImpl::checkMultiScreen(TabBoxClient* client) const
{
auto current = (static_cast< TabBoxClientImpl* >(client))->client();
switch (config().clientMultiScreenMode()) {
case TabBoxConfig::IgnoreMultiScreen:
return true;
case TabBoxConfig::ExcludeCurrentScreenClients:
return current->screen() != screens()->current();
default: // TabBoxConfig::OnlyCurrentScreenClients
return current->screen() == screens()->current();
}
}
QWeakPointer<TabBoxClient> TabBoxHandlerImpl::clientToAddToList(TabBoxClient* client, int desktop) const
{
if (!client) {
return QWeakPointer<TabBoxClient>();
}
AbstractClient* ret = nullptr;
AbstractClient* current = (static_cast< TabBoxClientImpl* >(client))->client();
bool addClient = checkDesktop(client, desktop)
&& checkActivity(client)
&& checkApplications(client)
&& checkMinimized(client)
&& checkMultiScreen(client);
addClient = addClient && current->wantsTabFocus() && !current->skipSwitcher();
if (addClient) {
// don't add windows that have modal dialogs
AbstractClient* modal = current->findModal();
if (modal == nullptr || modal == current)
ret = current;
else if (!clientList().contains(modal->tabBoxClient()))
ret = modal;
else {
// nothing
}
}
if (ret)
return ret->tabBoxClient();
else
return QWeakPointer<TabBoxClient>();
}
TabBoxClientList TabBoxHandlerImpl::stackingOrder() const
{
ToplevelList stacking = Workspace::self()->stackingOrder();
TabBoxClientList ret;
foreach (Toplevel *toplevel, stacking) {
if (Client *client = qobject_cast<Client*>(toplevel)) {
ret.append(client->tabBoxClient());
}
}
return ret;
}
bool TabBoxHandlerImpl::isKWinCompositing() const {
return Workspace::self()->compositing();
}
void TabBoxHandlerImpl::raiseClient(TabBoxClient* c) const
{
Workspace::self()->raiseClient(static_cast<TabBoxClientImpl*>(c)->client());
}
void TabBoxHandlerImpl::restack(TabBoxClient *c, TabBoxClient *under)
{
Workspace::self()->restack(static_cast<TabBoxClientImpl*>(c)->client(),
static_cast<TabBoxClientImpl*>(under)->client(), true);
}
void TabBoxHandlerImpl::elevateClient(TabBoxClient *c, QWindow *tabbox, bool b) const
{
auto cl = static_cast<TabBoxClientImpl*>(c)->client();
cl->elevate(b);
if (Toplevel *w = Workspace::self()->findInternal(tabbox))
w->elevate(b);
}
void TabBoxHandlerImpl::shadeClient(TabBoxClient *c, bool b) const
{
Client *cl = dynamic_cast<Client*>(static_cast<TabBoxClientImpl*>(c)->client());
if (!cl) {
// shading is X11 specific
return;
}
cl->cancelShadeHoverTimer(); // stop core shading action
if (!b && cl->shadeMode() == ShadeNormal)
cl->setShade(ShadeHover);
else if (b && cl->shadeMode() == ShadeHover)
cl->setShade(ShadeNormal);
}
QWeakPointer<TabBoxClient> TabBoxHandlerImpl::desktopClient() const
{
foreach (Toplevel *toplevel, Workspace::self()->stackingOrder()) {
Client *client = qobject_cast<Client*>(toplevel);
if (client && client->isDesktop() && client->isOnCurrentDesktop() && client->screen() == screens()->current()) {
return client->tabBoxClient();
}
}
return QWeakPointer<TabBoxClient>();
}
void TabBoxHandlerImpl::activateAndClose()
{
m_tabBox->accept();
}
/*********************************************************
* TabBoxClientImpl
*********************************************************/
TabBoxClientImpl::TabBoxClientImpl(AbstractClient *client)
: TabBoxClient()
, m_client(client)
{
}
TabBoxClientImpl::~TabBoxClientImpl()
{
}
QString TabBoxClientImpl::caption() const
{
if (m_client->isDesktop())
return i18nc("Special entry in alt+tab list for minimizing all windows",
"Show Desktop");
return m_client->caption();
}
QIcon TabBoxClientImpl::icon() const
{
if (m_client->isDesktop()) {
return QIcon::fromTheme(QStringLiteral("user-desktop"));
}
return m_client->icon();
}
WId TabBoxClientImpl::window() const
{
return m_client->windowId();
}
bool TabBoxClientImpl::isMinimized() const
{
return m_client->isMinimized();
}
int TabBoxClientImpl::x() const
{
return m_client->x();
}
int TabBoxClientImpl::y() const
{
return m_client->y();
}
int TabBoxClientImpl::width() const
{
return m_client->width();
}
int TabBoxClientImpl::height() const
{
return m_client->height();
}
bool TabBoxClientImpl::isCloseable() const
{
return m_client->isCloseable();
}
void TabBoxClientImpl::close()
{
m_client->closeWindow();
}
bool TabBoxClientImpl::isFirstInTabBox() const
{
return m_client->isFirstInTabBox();
}
/*********************************************************
* TabBox
*********************************************************/
TabBox *TabBox::s_self = nullptr;
TabBox *TabBox::create(QObject *parent)
{
Q_ASSERT(!s_self);
s_self = new TabBox(parent);
return s_self;
}
TabBox::TabBox(QObject *parent)
: QObject(parent)
, m_displayRefcount(0)
, m_desktopGrab(false)
, m_tabGrab(false)
, m_noModifierGrab(false)
, m_forcedGlobalMouseGrab(false)
, m_ready(false)
{
m_isShown = false;
m_defaultConfig = TabBoxConfig();
m_defaultConfig.setTabBoxMode(TabBoxConfig::ClientTabBox);
m_defaultConfig.setClientDesktopMode(TabBoxConfig::OnlyCurrentDesktopClients);
m_defaultConfig.setClientActivitiesMode(TabBoxConfig::OnlyCurrentActivityClients);
m_defaultConfig.setClientApplicationsMode(TabBoxConfig::AllWindowsAllApplications);
m_defaultConfig.setClientMinimizedMode(TabBoxConfig::IgnoreMinimizedStatus);
m_defaultConfig.setShowDesktopMode(TabBoxConfig::DoNotShowDesktopClient);
m_defaultConfig.setClientMultiScreenMode(TabBoxConfig::IgnoreMultiScreen);
m_defaultConfig.setClientSwitchingMode(TabBoxConfig::FocusChainSwitching);
m_alternativeConfig = TabBoxConfig();
m_alternativeConfig.setTabBoxMode(TabBoxConfig::ClientTabBox);
m_alternativeConfig.setClientDesktopMode(TabBoxConfig::AllDesktopsClients);
m_alternativeConfig.setClientActivitiesMode(TabBoxConfig::OnlyCurrentActivityClients);
m_alternativeConfig.setClientApplicationsMode(TabBoxConfig::AllWindowsAllApplications);
m_alternativeConfig.setClientMinimizedMode(TabBoxConfig::IgnoreMinimizedStatus);
m_alternativeConfig.setShowDesktopMode(TabBoxConfig::DoNotShowDesktopClient);
m_alternativeConfig.setClientMultiScreenMode(TabBoxConfig::IgnoreMultiScreen);
m_alternativeConfig.setClientSwitchingMode(TabBoxConfig::FocusChainSwitching);
m_defaultCurrentApplicationConfig = m_defaultConfig;
m_defaultCurrentApplicationConfig.setClientApplicationsMode(TabBoxConfig::AllWindowsCurrentApplication);
m_alternativeCurrentApplicationConfig = m_alternativeConfig;
m_alternativeCurrentApplicationConfig.setClientApplicationsMode(TabBoxConfig::AllWindowsCurrentApplication);
m_desktopConfig = TabBoxConfig();
m_desktopConfig.setTabBoxMode(TabBoxConfig::DesktopTabBox);
m_desktopConfig.setShowTabBox(true);
m_desktopConfig.setShowDesktopMode(TabBoxConfig::DoNotShowDesktopClient);
m_desktopConfig.setDesktopSwitchingMode(TabBoxConfig::MostRecentlyUsedDesktopSwitching);
m_desktopListConfig = TabBoxConfig();
m_desktopListConfig.setTabBoxMode(TabBoxConfig::DesktopTabBox);
m_desktopListConfig.setShowTabBox(true);
m_desktopListConfig.setShowDesktopMode(TabBoxConfig::DoNotShowDesktopClient);
m_desktopListConfig.setDesktopSwitchingMode(TabBoxConfig::StaticDesktopSwitching);
m_tabBox = new TabBoxHandlerImpl(this);
QTimer::singleShot(0, this, SLOT(handlerReady()));
m_tabBoxMode = TabBoxDesktopMode; // init variables
connect(&m_delayedShowTimer, SIGNAL(timeout()), this, SLOT(show()));
connect(Workspace::self(), SIGNAL(configChanged()), this, SLOT(reconfigure()));
connect(input(), &InputRedirection::keyboardModifiersChanged, this, &TabBox::modifiersChanged);
}
TabBox::~TabBox()
{
s_self = nullptr;
}
void TabBox::handlerReady()
{
m_tabBox->setConfig(m_defaultConfig);
reconfigure();
m_ready = true;
}
template <typename Slot>
void TabBox::key(const char *actionName, Slot slot, const QKeySequence &shortcut)
{
QAction *a = new QAction(this);
a->setObjectName(QString::fromUtf8(actionName));
a->setText(i18n(actionName));
KGlobalAccel::self()->setShortcut(a, QList<QKeySequence>() << shortcut);
input()->registerShortcut(shortcut, a, TabBox::self(), slot);
auto cuts = KGlobalAccel::self()->shortcut(a);
globalShortcutChanged(a, cuts.isEmpty() ? QKeySequence() : cuts.first());
}
static const char s_windows[] = I18N_NOOP("Walk Through Windows");
static const char s_windowsRev[] = I18N_NOOP("Walk Through Windows (Reverse)");
static const char s_windowsAlt[] = I18N_NOOP("Walk Through Windows Alternative");
static const char s_windowsAltRev[] = I18N_NOOP("Walk Through Windows Alternative (Reverse)");
static const char s_app[] = I18N_NOOP("Walk Through Windows of Current Application");
static const char s_appRev[] = I18N_NOOP("Walk Through Windows of Current Application (Reverse)");
static const char s_appAlt[] = I18N_NOOP("Walk Through Windows of Current Application Alternative");
static const char s_appAltRev[] = I18N_NOOP("Walk Through Windows of Current Application Alternative (Reverse)");
static const char s_desktops[] = I18N_NOOP("Walk Through Desktops");
static const char s_desktopsRev[] = I18N_NOOP("Walk Through Desktops (Reverse)");
static const char s_desktopList[] = I18N_NOOP("Walk Through Desktop List");
static const char s_desktopListRev[] = I18N_NOOP("Walk Through Desktop List (Reverse)");
void TabBox::initShortcuts()
{
key(s_windows, &TabBox::slotWalkThroughWindows, Qt::ALT + Qt::Key_Tab);
key(s_windowsRev, &TabBox::slotWalkBackThroughWindows, Qt::ALT + Qt::SHIFT + Qt::Key_Backtab);
key(s_app, &TabBox::slotWalkThroughCurrentAppWindows, Qt::ALT + Qt::Key_QuoteLeft);
key(s_appRev, &TabBox::slotWalkBackThroughCurrentAppWindows, Qt::ALT + Qt::Key_AsciiTilde);
key(s_windowsAlt, &TabBox::slotWalkThroughWindowsAlternative);
key(s_windowsAltRev, &TabBox::slotWalkBackThroughWindowsAlternative);
key(s_appAlt, &TabBox::slotWalkThroughCurrentAppWindowsAlternative);
key(s_appAltRev, &TabBox::slotWalkBackThroughCurrentAppWindowsAlternative);
key(s_desktops, &TabBox::slotWalkThroughDesktops);
key(s_desktopsRev, &TabBox::slotWalkBackThroughDesktops);
key(s_desktopList, &TabBox::slotWalkThroughDesktopList);
key(s_desktopListRev, &TabBox::slotWalkBackThroughDesktopList);
connect(KGlobalAccel::self(), &KGlobalAccel::globalShortcutChanged, this, &TabBox::globalShortcutChanged);
}
void TabBox::globalShortcutChanged(QAction *action, const QKeySequence &seq)
{
if (qstrcmp(qPrintable(action->objectName()), s_windows) == 0) {
m_cutWalkThroughWindows = seq;
} else if (qstrcmp(qPrintable(action->objectName()), s_windowsRev) == 0) {
m_cutWalkThroughWindowsReverse = seq;
} else if (qstrcmp(qPrintable(action->objectName()), s_app) == 0) {
m_cutWalkThroughCurrentAppWindows = seq;
} else if (qstrcmp(qPrintable(action->objectName()), s_appRev) == 0) {
m_cutWalkThroughCurrentAppWindowsReverse = seq;
} else if (qstrcmp(qPrintable(action->objectName()), s_windowsAlt) == 0) {
m_cutWalkThroughWindowsAlternative = seq;
} else if (qstrcmp(qPrintable(action->objectName()), s_windowsAltRev) == 0) {
m_cutWalkThroughWindowsAlternativeReverse = seq;
} else if (qstrcmp(qPrintable(action->objectName()), s_appAlt) == 0) {
m_cutWalkThroughCurrentAppWindowsAlternative = seq;
} else if (qstrcmp(qPrintable(action->objectName()), s_appAltRev) == 0) {
m_cutWalkThroughCurrentAppWindowsAlternativeReverse = seq;
} else if (qstrcmp(qPrintable(action->objectName()), s_desktops) == 0) {
m_cutWalkThroughDesktops = seq;
} else if (qstrcmp(qPrintable(action->objectName()), s_desktopsRev) == 0) {
m_cutWalkThroughDesktopsReverse = seq;
} else if (qstrcmp(qPrintable(action->objectName()), s_desktopList) == 0) {
m_cutWalkThroughDesktopList = seq;
} else if (qstrcmp(qPrintable(action->objectName()), s_desktopListRev) == 0) {
m_cutWalkThroughDesktopListReverse = seq;
}
}
/*!
Sets the current mode to \a mode, either TabBoxDesktopListMode or TabBoxWindowsMode
\sa mode()
*/
void TabBox::setMode(TabBoxMode mode)
{
m_tabBoxMode = mode;
switch(mode) {
case TabBoxWindowsMode:
m_tabBox->setConfig(m_defaultConfig);
break;
case TabBoxWindowsAlternativeMode:
m_tabBox->setConfig(m_alternativeConfig);
break;
case TabBoxCurrentAppWindowsMode:
m_tabBox->setConfig(m_defaultCurrentApplicationConfig);
break;
case TabBoxCurrentAppWindowsAlternativeMode:
m_tabBox->setConfig(m_alternativeCurrentApplicationConfig);
break;
case TabBoxDesktopMode:
m_tabBox->setConfig(m_desktopConfig);
break;
case TabBoxDesktopListMode:
m_tabBox->setConfig(m_desktopListConfig);
break;
}
}
/*!
Resets the tab box to display the active client in TabBoxWindowsMode, or the
current desktop in TabBoxDesktopListMode
*/
void TabBox::reset(bool partial_reset)
{
switch(m_tabBox->config().tabBoxMode()) {
case TabBoxConfig::ClientTabBox:
m_tabBox->createModel(partial_reset);
if (!partial_reset) {
if (Workspace::self()->activeClient())
setCurrentClient(Workspace::self()->activeClient());
// it's possible that the active client is not part of the model
// in that case the index is invalid
if (!m_tabBox->currentIndex().isValid())
setCurrentIndex(m_tabBox->first());
} else {
if (!m_tabBox->currentIndex().isValid() || !m_tabBox->client(m_tabBox->currentIndex()))
setCurrentIndex(m_tabBox->first());
}
break;
case TabBoxConfig::DesktopTabBox:
m_tabBox->createModel();
if (!partial_reset)
setCurrentDesktop(VirtualDesktopManager::self()->current());
break;
}
emit tabBoxUpdated();
}
/*!
Shows the next or previous item, depending on \a next
*/
void TabBox::nextPrev(bool next)
{
setCurrentIndex(m_tabBox->nextPrev(next), false);
emit tabBoxUpdated();
}
/*!
Returns the currently displayed client ( only works in TabBoxWindowsMode ).
Returns 0 if no client is displayed.
*/
AbstractClient* TabBox::currentClient()
{
if (TabBoxClientImpl* client = static_cast< TabBoxClientImpl* >(m_tabBox->client(m_tabBox->currentIndex()))) {
if (!Workspace::self()->hasClient(client->client()))
return nullptr;
return client->client();
} else
return nullptr;
}
/*!
Returns the list of clients potentially displayed ( only works in
TabBoxWindowsMode ).
Returns an empty list if no clients are available.
*/
QList<AbstractClient*> TabBox::currentClientList()
{
TabBoxClientList list = m_tabBox->clientList();
QList<AbstractClient*> ret;
foreach (const QWeakPointer<TabBoxClient> &clientPointer, list) {
QSharedPointer<TabBoxClient> client = clientPointer.toStrongRef();
if (!client)
continue;
if (const TabBoxClientImpl* c = static_cast< const TabBoxClientImpl* >(client.data()))
ret.append(c->client());
}
return ret;
}
/*!
Returns the currently displayed virtual desktop ( only works in
TabBoxDesktopListMode )
Returns -1 if no desktop is displayed.
*/
int TabBox::currentDesktop()
{
return m_tabBox->desktop(m_tabBox->currentIndex());
}
/*!
Returns the list of desktops potentially displayed ( only works in
TabBoxDesktopListMode )
Returns an empty list if no are available.
*/
QList< int > TabBox::currentDesktopList()
{
return m_tabBox->desktopList();
}
/*!
Change the currently selected client, and notify the effects.
\sa setCurrentDesktop()
*/
void TabBox::setCurrentClient(AbstractClient *newClient)
{
setCurrentIndex(m_tabBox->index(newClient->tabBoxClient()));
}
/*!
Change the currently selected desktop, and notify the effects.
\sa setCurrentClient()
*/
void TabBox::setCurrentDesktop(int newDesktop)
{
setCurrentIndex(m_tabBox->desktopIndex(newDesktop));
}
void TabBox::setCurrentIndex(QModelIndex index, bool notifyEffects)
{
if (!index.isValid())
return;
m_tabBox->setCurrentIndex(index);
if (notifyEffects) {
emit tabBoxUpdated();
}
}
/*!
Notify effects that the tab box is being shown, and only display the
default tab box QFrame if no effect has referenced the tab box.
*/
void TabBox::show()
{
emit tabBoxAdded(m_tabBoxMode);
if (isDisplayed()) {
m_isShown = false;
return;
}
workspace()->setShowingDesktop(false);
reference();
m_isShown = true;
m_tabBox->show();
}
/*!
Notify effects that the tab box is being hidden.
*/
void TabBox::hide(bool abort)
{
m_delayedShowTimer.stop();
if (m_isShown) {
m_isShown = false;
unreference();
}
emit tabBoxClosed();
if (isDisplayed())
qCDebug(KWIN_TABBOX) << "Tab box was not properly closed by an effect";
m_tabBox->hide(abort);
Xcb::sync();
}
void TabBox::reconfigure()
{
KSharedConfigPtr c = kwinApp()->config();
KConfigGroup config = c->group("TabBox");
loadConfig(c->group("TabBox"), m_defaultConfig);
loadConfig(c->group("TabBoxAlternative"), m_alternativeConfig);
m_defaultCurrentApplicationConfig = m_defaultConfig;
m_defaultCurrentApplicationConfig.setClientApplicationsMode(TabBoxConfig::AllWindowsCurrentApplication);
m_alternativeCurrentApplicationConfig = m_alternativeConfig;
m_alternativeCurrentApplicationConfig.setClientApplicationsMode(TabBoxConfig::AllWindowsCurrentApplication);
m_tabBox->setConfig(m_defaultConfig);
m_delayShow = config.readEntry<bool>("ShowDelay", true);
m_delayShowTime = config.readEntry<int>("DelayTime", 90);
const QString defaultDesktopLayout = QStringLiteral("org.kde.breeze.desktop");
m_desktopConfig.setLayoutName(config.readEntry("DesktopLayout", defaultDesktopLayout));
m_desktopListConfig.setLayoutName(config.readEntry("DesktopListLayout", defaultDesktopLayout));
QList<ElectricBorder> *borders = &m_borderActivate;
QString borderConfig = QStringLiteral("BorderActivate");
for (int i = 0; i < 2; ++i) {
foreach (ElectricBorder border, *borders) {
ScreenEdges::self()->unreserve(border, this);
}
borders->clear();
QStringList list = config.readEntry(borderConfig, QStringList());
foreach (const QString &s, list) {
bool ok;
const int i = s.toInt(&ok);
if (!ok)
continue;
borders->append(ElectricBorder(i));
ScreenEdges::self()->reserve(ElectricBorder(i), this, "toggle");
}
borders = &m_borderAlternativeActivate;
borderConfig = QStringLiteral("BorderAlternativeActivate");
}
}
void TabBox::loadConfig(const KConfigGroup& config, TabBoxConfig& tabBoxConfig)
{
tabBoxConfig.setClientDesktopMode(TabBoxConfig::ClientDesktopMode(
config.readEntry<int>("DesktopMode", TabBoxConfig::defaultDesktopMode())));
tabBoxConfig.setClientActivitiesMode(TabBoxConfig::ClientActivitiesMode(
config.readEntry<int>("ActivitiesMode", TabBoxConfig::defaultActivitiesMode())));
tabBoxConfig.setClientApplicationsMode(TabBoxConfig::ClientApplicationsMode(
config.readEntry<int>("ApplicationsMode", TabBoxConfig::defaultApplicationsMode())));
tabBoxConfig.setClientMinimizedMode(TabBoxConfig::ClientMinimizedMode(
config.readEntry<int>("MinimizedMode", TabBoxConfig::defaultMinimizedMode())));
tabBoxConfig.setShowDesktopMode(TabBoxConfig::ShowDesktopMode(
config.readEntry<int>("ShowDesktopMode", TabBoxConfig::defaultShowDesktopMode())));
tabBoxConfig.setClientMultiScreenMode(TabBoxConfig::ClientMultiScreenMode(
config.readEntry<int>("MultiScreenMode", TabBoxConfig::defaultMultiScreenMode())));
tabBoxConfig.setClientSwitchingMode(TabBoxConfig::ClientSwitchingMode(
config.readEntry<int>("SwitchingMode", TabBoxConfig::defaultSwitchingMode())));
tabBoxConfig.setShowTabBox(config.readEntry<bool>("ShowTabBox",
TabBoxConfig::defaultShowTabBox()));
tabBoxConfig.setHighlightWindows(config.readEntry<bool>("HighlightWindows",
TabBoxConfig::defaultHighlightWindow()));
tabBoxConfig.setLayoutName(config.readEntry<QString>("LayoutName", TabBoxConfig::defaultLayoutName()));
}
/*!
Rikkus: please document! (Matthias)
Ok, here's the docs :)
You call delayedShow() instead of show() directly.
If the 'ShowDelay' setting is false, show() is simply called.
Otherwise, we start a timer for the delay given in the settings and only
do a show() when it times out.
This means that you can alt-tab between windows and you don't see the
tab box immediately. Not only does this make alt-tabbing faster, it gives
less 'flicker' to the eyes. You don't need to see the tab box if you're
just quickly switching between 2 or 3 windows. It seems to work quite
nicely.
*/
void TabBox::delayedShow()
{
if (isDisplayed() || m_delayedShowTimer.isActive())
// already called show - no need to call it twice
return;
if (!m_delayShowTime) {
show();
return;
}
m_delayedShowTimer.setSingleShot(true);
m_delayedShowTimer.start(m_delayShowTime);
}
bool TabBox::handleMouseEvent(xcb_button_press_event_t *e)
{
xcb_allow_events(connection(), XCB_ALLOW_ASYNC_POINTER, XCB_CURRENT_TIME);
if (!m_isShown && isDisplayed()) {
// tabbox has been replaced, check effects
if (effects && static_cast<EffectsHandlerImpl*>(effects)->checkInputWindowEvent(e))
return true;
}
if ((e->response_type & ~0x80) == XCB_BUTTON_PRESS) {
// press outside Tabbox?
QPoint pos(e->root_x, e->root_y);
if ((!m_isShown && isDisplayed())
|| (!m_tabBox->containsPos(pos) &&
(e->detail == XCB_BUTTON_INDEX_1 || e->detail == XCB_BUTTON_INDEX_2 || e->detail == XCB_BUTTON_INDEX_3))) {
close(); // click outside closes tab
return true;
}
if (e->detail == XCB_BUTTON_INDEX_5 || e->detail == XCB_BUTTON_INDEX_4) {
// mouse wheel event
const QModelIndex index = m_tabBox->nextPrev(e->detail == XCB_BUTTON_INDEX_5);
if (index.isValid()) {
setCurrentIndex(index);
}
return true;
}
}
return false;
}
bool TabBox::handleMouseEvent(xcb_motion_notify_event_t *e)
{
xcb_allow_events(connection(), XCB_ALLOW_ASYNC_POINTER, XCB_CURRENT_TIME);
if (!m_isShown && isDisplayed()) {
// tabbox has been replaced, check effects
if (effects && static_cast<EffectsHandlerImpl*>(effects)->checkInputWindowEvent(e))
return true;
}
return false;
}
bool TabBox::handleMouseEvent(QMouseEvent *event)
{
if (!m_isShown && isDisplayed()) {
// tabbox has been replaced, check effects
if (effects && static_cast<EffectsHandlerImpl*>(effects)->checkInputWindowEvent(event)) {
return true;
}
}
switch (event->type()) {
case QEvent::MouseMove:
if (!m_tabBox->containsPos(event->globalPos())) {
// filter out all events which are not on the TabBox window.
// We don't want windows to react on the mouse events
return true;
}
return false;
case QEvent::MouseButtonPress:
if ((!m_isShown && isDisplayed()) || !m_tabBox->containsPos(event->globalPos())) {
close(); // click outside closes tab
return true;
}
// fall through
case QEvent::MouseButtonRelease:
default:
// we do not filter it out, the intenal filter takes care
return false;
}
return false;
}
bool TabBox::handleWheelEvent(QWheelEvent *event)
{
if (!m_isShown && isDisplayed()) {
// tabbox has been replaced, check effects
if (effects && static_cast<EffectsHandlerImpl*>(effects)->checkInputWindowEvent(event)) {
return true;
}
}
if (event->angleDelta().y() == 0) {
return false;
}
const QModelIndex index = m_tabBox->nextPrev(event->angleDelta().y() > 0);
if (index.isValid()) {
setCurrentIndex(index);
}
return true;
}
void TabBox::grabbedKeyEvent(QKeyEvent* event)
{
emit tabBoxKeyEvent(event);
if (!m_isShown && isDisplayed()) {
// tabbox has been replaced, check effects
return;
}
if (m_noModifierGrab) {
if (event->key() == Qt::Key_Enter || event->key() == Qt::Key_Return || event->key() == Qt::Key_Space) {
accept();
return;
}
}
m_tabBox->grabbedKeyEvent(event);
}
struct KeySymbolsDeleter
{
static inline void cleanup(xcb_key_symbols_t *symbols)
{
xcb_key_symbols_free(symbols);
}
};
/*!
Handles alt-tab / control-tab
*/
static bool areKeySymXsDepressed(bool bAll, const uint keySyms[], int nKeySyms) {
qCDebug(KWIN_TABBOX) << "areKeySymXsDepressed: " << (bAll ? "all of " : "any of ") << nKeySyms;
Xcb::QueryKeymap keys;
QScopedPointer<xcb_key_symbols_t, KeySymbolsDeleter> symbols(xcb_key_symbols_alloc(connection()));
if (symbols.isNull() || !keys) {
return false;
}
const auto keymap = keys->keys;
for (int iKeySym = 0; iKeySym < nKeySyms; iKeySym++) {
uint keySymX = keySyms[ iKeySym ];
xcb_keycode_t *keyCodes = xcb_key_symbols_get_keycode(symbols.data(), keySymX);
if (!keyCodes) {
continue;
}
xcb_keycode_t keyCodeX = keyCodes[0];
free(keyCodes);
if (keyCodeX == XCB_NO_SYMBOL) {
continue;
}
int i = keyCodeX / 8;
char mask = 1 << (keyCodeX - (i * 8));
// Abort if bad index value,
if (i < 0 || i >= 32)
return false;
qCDebug(KWIN_TABBOX) << iKeySym << ": keySymX=0x" << QString::number(keySymX, 16)
<< " i=" << i << " mask=0x" << QString::number(mask, 16)
<< " keymap[i]=0x" << QString::number(keymap[i], 16);
// If ALL keys passed need to be depressed,
if (bAll) {
if ((keymap[i] & mask) == 0)
return false;
} else {
// If we are looking for ANY key press, and this key is depressed,
if (keymap[i] & mask)
return true;
}
}
// If we were looking for ANY key press, then none was found, return false,
// If we were looking for ALL key presses, then all were found, return true.
return bAll;
}
static bool areModKeysDepressedX11(const QKeySequence &seq)
{
uint rgKeySyms[10];
int nKeySyms = 0;
int mod = seq[seq.count()-1] & Qt::KeyboardModifierMask;
if (mod & Qt::SHIFT) {
rgKeySyms[nKeySyms++] = XK_Shift_L;
rgKeySyms[nKeySyms++] = XK_Shift_R;
}
if (mod & Qt::CTRL) {
rgKeySyms[nKeySyms++] = XK_Control_L;
rgKeySyms[nKeySyms++] = XK_Control_R;
}
if (mod & Qt::ALT) {
rgKeySyms[nKeySyms++] = XK_Alt_L;
rgKeySyms[nKeySyms++] = XK_Alt_R;
}
if (mod & Qt::META) {
// It would take some code to determine whether the Win key
// is associated with Super or Meta, so check for both.
// See bug #140023 for details.
rgKeySyms[nKeySyms++] = XK_Super_L;
rgKeySyms[nKeySyms++] = XK_Super_R;
rgKeySyms[nKeySyms++] = XK_Meta_L;
rgKeySyms[nKeySyms++] = XK_Meta_R;
}
return areKeySymXsDepressed(false, rgKeySyms, nKeySyms);
}
static bool areModKeysDepressedWayland(const QKeySequence &seq)
{
const int mod = seq[seq.count()-1] & Qt::KeyboardModifierMask;
const Qt::KeyboardModifiers mods = input()->keyboardModifiers();
if ((mod & Qt::SHIFT) && mods.testFlag(Qt::ShiftModifier)) {
return true;
}
if ((mod & Qt::CTRL) && mods.testFlag(Qt::ControlModifier)) {
return true;
}
if ((mod & Qt::ALT) && mods.testFlag(Qt::AltModifier)) {
return true;
}
if ((mod & Qt::META) && mods.testFlag(Qt::MetaModifier)) {
return true;
}
return false;
}
static bool areModKeysDepressed(const QKeySequence& seq) {
if (seq.isEmpty())
return false;
if (kwinApp()->shouldUseWaylandForCompositing()) {
return areModKeysDepressedWayland(seq);
} else {
return areModKeysDepressedX11(seq);
}
}
void TabBox::navigatingThroughWindows(bool forward, const QKeySequence &shortcut, TabBoxMode mode)
{
if (!m_ready || isGrabbed() || !Workspace::self()->isOnCurrentHead()) {
return;
}
if (!options->focusPolicyIsReasonable()) {
//ungrabXKeyboard(); // need that because of accelerator raw mode
// CDE style raise / lower
CDEWalkThroughWindows(forward);
} else {
if (areModKeysDepressed(shortcut)) {
if (startKDEWalkThroughWindows(mode))
KDEWalkThroughWindows(forward);
} else
// if the shortcut has no modifiers, don't show the tabbox,
// don't grab, but simply go to the next window
KDEOneStepThroughWindows(forward, mode);
}
}
void TabBox::slotWalkThroughWindows()
{
navigatingThroughWindows(true, m_cutWalkThroughWindows, TabBoxWindowsMode);
}
void TabBox::slotWalkBackThroughWindows()
{
navigatingThroughWindows(false, m_cutWalkThroughWindowsReverse, TabBoxWindowsMode);
}
void TabBox::slotWalkThroughWindowsAlternative()
{
navigatingThroughWindows(true, m_cutWalkThroughWindowsAlternative, TabBoxWindowsAlternativeMode);
}
void TabBox::slotWalkBackThroughWindowsAlternative()
{
navigatingThroughWindows(false, m_cutWalkThroughWindowsAlternativeReverse, TabBoxWindowsAlternativeMode);
}
void TabBox::slotWalkThroughCurrentAppWindows()
{
navigatingThroughWindows(true, m_cutWalkThroughCurrentAppWindows, TabBoxCurrentAppWindowsMode);
}
void TabBox::slotWalkBackThroughCurrentAppWindows()
{
navigatingThroughWindows(false, m_cutWalkThroughCurrentAppWindowsReverse, TabBoxCurrentAppWindowsMode);
}
void TabBox::slotWalkThroughCurrentAppWindowsAlternative()
{
navigatingThroughWindows(true, m_cutWalkThroughCurrentAppWindowsAlternative, TabBoxCurrentAppWindowsAlternativeMode);
}
void TabBox::slotWalkBackThroughCurrentAppWindowsAlternative()
{
navigatingThroughWindows(false, m_cutWalkThroughCurrentAppWindowsAlternativeReverse, TabBoxCurrentAppWindowsAlternativeMode);
}
void TabBox::slotWalkThroughDesktops()
{
if (!m_ready || isGrabbed() || !Workspace::self()->isOnCurrentHead()) {
return;
}
if (areModKeysDepressed(m_cutWalkThroughDesktops)) {
if (startWalkThroughDesktops())
walkThroughDesktops(true);
} else {
oneStepThroughDesktops(true);
}
}
void TabBox::slotWalkBackThroughDesktops()
{
if (!m_ready || isGrabbed() || !Workspace::self()->isOnCurrentHead()) {
return;
}
if (areModKeysDepressed(m_cutWalkThroughDesktopsReverse)) {
if (startWalkThroughDesktops())
walkThroughDesktops(false);
} else {
oneStepThroughDesktops(false);
}
}
void TabBox::slotWalkThroughDesktopList()
{
if (!m_ready || isGrabbed() || !Workspace::self()->isOnCurrentHead()) {
return;
}
if (areModKeysDepressed(m_cutWalkThroughDesktopList)) {
if (startWalkThroughDesktopList())
walkThroughDesktops(true);
} else {
oneStepThroughDesktopList(true);
}
}
void TabBox::slotWalkBackThroughDesktopList()
{
if (!m_ready || isGrabbed() || !Workspace::self()->isOnCurrentHead()) {
return;
}
if (areModKeysDepressed(m_cutWalkThroughDesktopListReverse)) {
if (startWalkThroughDesktopList())
walkThroughDesktops(false);
} else {
oneStepThroughDesktopList(false);
}
}
void TabBox::shadeActivate(AbstractClient *c)
{
if ((c->shadeMode() == ShadeNormal || c->shadeMode() == ShadeHover) && options->isShadeHover())
c->setShade(ShadeActivated);
}
bool TabBox::toggle(ElectricBorder eb)
{
if (!options->focusPolicyIsReasonable())
return false; // not supported.
if (isDisplayed()) {
accept();
return true;
}
if (!establishTabBoxGrab())
return false;
m_noModifierGrab = m_tabGrab = true;
if (m_borderAlternativeActivate.contains(eb))
setMode(TabBoxWindowsAlternativeMode);
else
setMode(TabBoxWindowsMode);
reset();
show();
return true;
}
bool TabBox::startKDEWalkThroughWindows(TabBoxMode mode)
{
if (!establishTabBoxGrab())
return false;
m_tabGrab = true;
m_noModifierGrab = false;
setMode(mode);
reset();
return true;
}
bool TabBox::startWalkThroughDesktops(TabBoxMode mode)
{
if (!establishTabBoxGrab())
return false;
m_desktopGrab = true;
m_noModifierGrab = false;
setMode(mode);
reset();
return true;
}
bool TabBox::startWalkThroughDesktops()
{
return startWalkThroughDesktops(TabBoxDesktopMode);
}
bool TabBox::startWalkThroughDesktopList()
{
return startWalkThroughDesktops(TabBoxDesktopListMode);
}
void TabBox::KDEWalkThroughWindows(bool forward)
{
nextPrev(forward);
delayedShow();
}
void TabBox::walkThroughDesktops(bool forward)
{
nextPrev(forward);
delayedShow();
}
void TabBox::CDEWalkThroughWindows(bool forward)
{
Client* c = nullptr;
// this function find the first suitable client for unreasonable focus
// policies - the topmost one, with some exceptions (can't be keepabove/below,
// otherwise it gets stuck on them)
// Q_ASSERT(Workspace::self()->block_stacking_updates == 0);
for (int i = Workspace::self()->stackingOrder().size() - 1;
i >= 0 ;
--i) {
Client* it = qobject_cast<Client*>(Workspace::self()->stackingOrder().at(i));
if (it && it->isOnCurrentActivity() && it->isOnCurrentDesktop() && !it->isSpecialWindow()
&& it->isShown(false) && it->wantsTabFocus()
&& !it->keepAbove() && !it->keepBelow()) {
c = it;
break;
}
}
Client* nc = c;
bool options_traverse_all;
{
KConfigGroup group(kwinApp()->config(), "TabBox");
options_traverse_all = group.readEntry("TraverseAll", false);
}
Client* firstClient = nullptr;
do {
nc = forward ? nextClientStatic(nc) : previousClientStatic(nc);
if (!firstClient) {
// When we see our first client for the second time,
// it's time to stop.
firstClient = nc;
} else if (nc == firstClient) {
// No candidates found.
nc = nullptr;
break;
}
} while (nc && nc != c &&
((!options_traverse_all && !nc->isOnDesktop(currentDesktop())) ||
nc->isMinimized() || !nc->wantsTabFocus() || nc->keepAbove() || nc->keepBelow() || !nc->isOnCurrentActivity()));
if (nc) {
if (c && c != nc)
Workspace::self()->lowerClient(c);
if (options->focusPolicyIsReasonable()) {
Workspace::self()->activateClient(nc);
shadeActivate(nc);
} else {
if (!nc->isOnDesktop(currentDesktop()))
setCurrentDesktop(nc->desktop());
Workspace::self()->raiseClient(nc);
}
}
}
void TabBox::KDEOneStepThroughWindows(bool forward, TabBoxMode mode)
{
setMode(mode);
reset();
nextPrev(forward);
if (AbstractClient* c = currentClient()) {
Workspace::self()->activateClient(c);
shadeActivate(c);
}
}
void TabBox::oneStepThroughDesktops(bool forward, TabBoxMode mode)
{
setMode(mode);
reset();
nextPrev(forward);
if (currentDesktop() != -1)
setCurrentDesktop(currentDesktop());
}
void TabBox::oneStepThroughDesktops(bool forward)
{
oneStepThroughDesktops(forward, TabBoxDesktopMode);
}
void TabBox::oneStepThroughDesktopList(bool forward)
{
oneStepThroughDesktops(forward, TabBoxDesktopListMode);
}
/*!
Handles holding alt-tab / control-tab
*/
void TabBox::keyPress(int keyQt)
{
enum Direction { Backward = -1, Steady = 0, Forward = 1 };
Direction direction(Steady);
auto contains = [](const QKeySequence &shortcut, int key) -> bool {
for (int i = 0; i < shortcut.count(); ++i) {
if (shortcut[i] == key) {
return true;
}
}
return false;
};
// tests whether a shortcut matches and handles pitfalls on ShiftKey invocation
auto directionFor = [keyQt, contains](const QKeySequence &forward, const QKeySequence &backward) -> Direction {
if (contains(forward, keyQt))
return Forward;
if (contains(backward, keyQt))
return Backward;
if (!(keyQt & Qt::ShiftModifier))
return Steady;
// Before testing the unshifted key (Ctrl+A vs. Ctrl+Shift+a etc.), see whether this is +Shift+Tab
// and check that against +Shift+Backtab (as well)
Qt::KeyboardModifiers mods = Qt::ShiftModifier|Qt::ControlModifier|Qt::AltModifier|Qt::MetaModifier|Qt::KeypadModifier|Qt::GroupSwitchModifier;
mods &= keyQt;
if ((keyQt & ~mods) == Qt::Key_Tab) {
if (contains(forward, mods | Qt::Key_Backtab))
return Forward;
if (contains(backward, mods | Qt::Key_Backtab))
return Backward;
}
// if the shortcuts do not match, try matching again after filtering the shift key from keyQt
// it is needed to handle correctly the ALT+~ shorcut for example as it is coded as ALT+SHIFT+~ in keyQt
if (contains(forward, keyQt & ~Qt::ShiftModifier))
return Forward;
if (contains(backward, keyQt & ~Qt::ShiftModifier))
return Backward;
return Steady;
};
if (m_tabGrab) {
static const int ModeCount = 4;
static const TabBoxMode modes[ModeCount] = {
TabBoxWindowsMode, TabBoxWindowsAlternativeMode,
TabBoxCurrentAppWindowsMode, TabBoxCurrentAppWindowsAlternativeMode
};
static const QKeySequence cuts[2*ModeCount] = {
// forward
m_cutWalkThroughWindows, m_cutWalkThroughWindowsAlternative,
m_cutWalkThroughCurrentAppWindows, m_cutWalkThroughCurrentAppWindowsAlternative,
// backward
m_cutWalkThroughWindowsReverse, m_cutWalkThroughWindowsAlternativeReverse,
m_cutWalkThroughCurrentAppWindowsReverse, m_cutWalkThroughCurrentAppWindowsAlternativeReverse
};
bool testedCurrent = false; // in case of collision, prefer to stay in the current mode
int i = 0, j = 0;
while (true) {
if (!testedCurrent && modes[i] != mode()) {
++j;
i = (i+1) % ModeCount;
continue;
}
if (testedCurrent && modes[i] == mode()) {
break;
}
testedCurrent = true;
direction = directionFor(cuts[i], cuts[i+ModeCount]);
if (direction != Steady) {
if (modes[i] != mode()) {
accept(false);
setMode(modes[i]);
auto replayWithChangedTabboxMode = [this, direction]() {
reset();
nextPrev(direction == Forward);
};
QTimer::singleShot(50, this, replayWithChangedTabboxMode);
}
break;
} else if (++j > ModeCount) { // guarding counter for invalid modes
qCDebug(KWIN_TABBOX) << "Invalid TabBoxMode";
return;
}
i = (i+1) % ModeCount;
}
if (direction != Steady) {
qCDebug(KWIN_TABBOX) << "== " << cuts[i].toString() << " or " << cuts[i+ModeCount].toString();
KDEWalkThroughWindows(direction == Forward);
}
} else if (m_desktopGrab) {
direction = directionFor(m_cutWalkThroughDesktops, m_cutWalkThroughDesktopsReverse);
if (direction == Steady)
direction = directionFor(m_cutWalkThroughDesktopList, m_cutWalkThroughDesktopListReverse);
if (direction != Steady)
walkThroughDesktops(direction == Forward);
}
if (m_desktopGrab || m_tabGrab) {
if (((keyQt & ~Qt::KeyboardModifierMask) == Qt::Key_Escape) && direction == Steady) {
// if Escape is part of the shortcut, don't cancel
close(true);
} else if (direction == Steady) {
QKeyEvent* event = new QKeyEvent(QEvent::KeyPress, keyQt & ~Qt::KeyboardModifierMask, Qt::NoModifier);
grabbedKeyEvent(event);
}
}
}
void TabBox::close(bool abort)
{
if (isGrabbed()) {
removeTabBoxGrab();
}
hide(abort);
m_tabGrab = false;
m_desktopGrab = false;
m_noModifierGrab = false;
}
void TabBox::accept(bool closeTabBox)
{
AbstractClient *c = currentClient();
if (closeTabBox)
close();
if (c) {
Workspace::self()->activateClient(c);
shadeActivate(c);
if (c->isDesktop())
Workspace::self()->setShowingDesktop(!Workspace::self()->showingDesktop());
}
}
/*!
Handles alt-tab / control-tab releasing
*/
void TabBox::keyRelease(const xcb_key_release_event_t *ev)
{
if (m_noModifierGrab) {
return;
}
unsigned int mk = ev->state &
(KKeyServer::modXShift() |
KKeyServer::modXCtrl() |
KKeyServer::modXAlt() |
KKeyServer::modXMeta());
// ev.state is state before the key release, so just checking mk being 0 isn't enough
// using XQueryPointer() also doesn't seem to work well, so the check that all
// modifiers are released: only one modifier is active and the currently released
// key is this modifier - if yes, release the grab
int mod_index = -1;
for (int i = XCB_MAP_INDEX_SHIFT;
i <= XCB_MAP_INDEX_5;
++i)
if ((mk & (1 << i)) != 0) {
if (mod_index >= 0)
return;
mod_index = i;
}
bool release = false;
if (mod_index == -1)
release = true;
else {
Xcb::ModifierMapping xmk;
if (xmk) {
xcb_keycode_t *keycodes = xmk.keycodes();
const int maxIndex = xmk.size();
for (int i = 0; i < xmk->keycodes_per_modifier; ++i) {
const int index = xmk->keycodes_per_modifier * mod_index + i;
if (index >= maxIndex) {
continue;
}
if (keycodes[index] == ev->detail) {
release = true;
}
}
}
}
if (!release)
return;
if (m_tabGrab) {
bool old_control_grab = m_desktopGrab;
accept();
m_desktopGrab = old_control_grab;
}
if (m_desktopGrab) {
bool old_tab_grab = m_tabGrab;
int desktop = currentDesktop();
close();
m_tabGrab = old_tab_grab;
if (desktop != -1) {
setCurrentDesktop(desktop);
VirtualDesktopManager::self()->setCurrent(desktop);
}
}
}
void TabBox::modifiersChanged(Qt::KeyboardModifiers mods)
{
if (m_noModifierGrab || !(!mods)) {
return;
}
if (m_tabGrab) {
bool old_control_grab = m_desktopGrab;
accept();
m_desktopGrab = old_control_grab;
}
if (m_desktopGrab) {
bool old_tab_grab = m_tabGrab;
int desktop = currentDesktop();
close();
m_tabGrab = old_tab_grab;
if (desktop != -1) {
setCurrentDesktop(desktop);
VirtualDesktopManager::self()->setCurrent(desktop);
}
}
}
int TabBox::nextDesktopStatic(int iDesktop) const
{
DesktopNext functor;
return functor(iDesktop, true);
}
int TabBox::previousDesktopStatic(int iDesktop) const
{
DesktopPrevious functor;
return functor(iDesktop, true);
}
/*!
auxiliary functions to travers all clients according to the static
order. Useful for the CDE-style Alt-tab feature.
*/
Client* TabBox::nextClientStatic(Client* c) const
{
if (!c || Workspace::self()->clientList().isEmpty())
return 0;
int pos = Workspace::self()->clientList().indexOf(c);
if (pos == -1)
return Workspace::self()->clientList().first();
++pos;
if (pos == Workspace::self()->clientList().count())
return Workspace::self()->clientList().first();
return Workspace::self()->clientList()[ pos ];
}
/*!
auxiliary functions to travers all clients according to the static
order. Useful for the CDE-style Alt-tab feature.
*/
Client* TabBox::previousClientStatic(Client* c) const
{
if (!c || Workspace::self()->clientList().isEmpty())
return 0;
int pos = Workspace::self()->clientList().indexOf(c);
if (pos == -1)
return Workspace::self()->clientList().last();
if (pos == 0)
return Workspace::self()->clientList().last();
--pos;
return Workspace::self()->clientList()[ pos ];
}
bool TabBox::establishTabBoxGrab()
{
if (kwinApp()->shouldUseWaylandForCompositing()) {
m_forcedGlobalMouseGrab = true;
return true;
}
updateXTime();
if (!grabXKeyboard())
return false;
// Don't try to establish a global mouse grab using XGrabPointer, as that would prevent
// using Alt+Tab while DND (#44972). However force passive grabs on all windows
// in order to catch MouseRelease events and close the tabbox (#67416).
// All clients already have passive grabs in their wrapper windows, so check only
// the active client, which may not have it.
assert(!m_forcedGlobalMouseGrab);
m_forcedGlobalMouseGrab = true;
if (Workspace::self()->activeClient() != nullptr)
Workspace::self()->activeClient()->updateMouseGrab();
return true;
}
void TabBox::removeTabBoxGrab()
{
if (kwinApp()->shouldUseWaylandForCompositing()) {
m_forcedGlobalMouseGrab = false;
return;
}
updateXTime();
ungrabXKeyboard();
assert(m_forcedGlobalMouseGrab);
m_forcedGlobalMouseGrab = false;
if (Workspace::self()->activeClient() != nullptr)
Workspace::self()->activeClient()->updateMouseGrab();
}
} // namespace TabBox
} // namespace
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