/***************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 1999, 2000 Matthias Ettrich Copyright (C) 2003 Lubos Lunak You can Freely distribute this program under the GNU General Public License. See the file "COPYING" for the exact licensing terms. ******************************************************************/ //#define QT_CLEAN_NAMESPACE #include "tabbox.h" #include "workspace.h" #include "effects.h" #include "client.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // specify externals before namespace namespace KWin { extern QPixmap* kwin_get_menu_pix_hack(); TabBox::TabBox( Workspace *ws ) : QFrame( 0, Qt::X11BypassWindowManagerHint ) , wspace(ws) , client(0) , display_refcount( 0 ) { setFrameStyle(QFrame::StyledPanel); setFrameShadow(QFrame::Plain); setBackgroundRole(QPalette::Base); setLineWidth(2); setContentsMargins( 2, 2, 2, 2 ); showMiniIcon = false; no_tasks = i18n("*** No Windows ***"); m = TabBoxDesktopMode; // init variables reconfigure(); reset(); connect(&delayedShowTimer, SIGNAL(timeout()), this, SLOT(show())); } TabBox::~TabBox() { } /*! Sets the current mode to \a mode, either TabBoxDesktopListMode or TabBoxWindowsMode \sa mode() */ void TabBox::setMode( TabBoxMode mode ) { m = mode; } /*! Create list of clients on specified desktop, starting with client c */ void TabBox::createClientList(ClientList &list, int desktop /*-1 = all*/, Client *c, bool chain) { ClientList::size_type idx = 0; list.clear(); Client* start = c; if ( chain ) c = workspace()->nextClientFocusChain(c); else c = workspace()->stackingOrder().first(); Client* stop = c; while ( c ) { Client* add = NULL; if ( ((desktop == -1) || c->isOnDesktop(desktop)) && c->wantsTabFocus() ) { // don't add windows that have modal dialogs Client* modal = c->findModal(); if( modal == NULL || modal == c ) add = c; else if( !list.contains( modal )) add = modal; else { // nothing } } if( options->separateScreenFocus && options->xineramaEnabled ) { if( c->screen() != workspace()->activeScreen()) add = NULL; } if( add != NULL ) { if ( start == add ) { list.removeAll( add ); list.prepend( add ); } else list += add; } if ( chain ) c = workspace()->nextClientFocusChain( c ); else { if ( idx >= (workspace()->stackingOrder().size()-1) ) c = 0; else c = workspace()->stackingOrder()[++idx]; } if ( c == stop ) break; } } /*! Create list of desktops, starting with desktop start */ void TabBox::createDesktopList(QList< int > &list, int start, SortOrder order) { list.clear(); int iDesktop = start; for( int i = 1; i <= workspace()->numberOfDesktops(); i++ ) { list.append( iDesktop ); if ( order == StaticOrder ) { iDesktop = workspace()->nextDesktopStatic( iDesktop ); } else { // MostRecentlyUsedOrder iDesktop = workspace()->nextDesktopFocusChain( iDesktop ); } } } /*! Resets the tab box to display the active client in TabBoxWindowsMode, or the current desktop in TabBoxDesktopListMode */ void TabBox::reset( bool partial_reset ) { int w, h, cw = 0, wmax = 0; QRect r = workspace()->screenGeometry( workspace()->activeScreen()); // calculate height of 1 line // fontheight + 1 pixel above + 1 pixel below, or 32x32 icon + 2 pixel above + below lineHeight = qMax(fontMetrics().height() + 2, 32 + 4); if ( mode() == TabBoxWindowsMode ) { Client* starting_client = 0; if( partial_reset && clients.count() != 0 ) starting_client = clients.first(); else client = starting_client = workspace()->activeClient(); // get all clients to show createClientList(clients, options_traverse_all ? -1 : workspace()->currentDesktop(), starting_client, true); // calculate maximum caption width cw = fontMetrics().width(no_tasks)+20; for (ClientList::ConstIterator it = clients.begin(); it != clients.end(); ++it) { cw = fontMetrics().width( (*it)->caption() ); if ( cw > wmax ) wmax = cw; } // calculate height for the popup if ( clients.count() == 0 ) // height for the "not tasks" text { QFont f = font(); f.setBold( true ); f.setPointSize( 14 ); h = QFontMetrics(f).height()*4; } else { showMiniIcon = false; h = clients.count() * lineHeight; if ( h > (r.height()-(2*frameWidth())) ) // if too high, use mini icons { showMiniIcon = true; // fontheight + 1 pixel above + 1 pixel below, or 16x16 icon + 1 pixel above + below lineHeight = qMax(fontMetrics().height() + 2, 16 + 2); h = clients.count() * lineHeight; if ( h > (r.height()-(2*frameWidth())) ) // if still too high, remove some clients { // how many clients to remove int howMany = (h - (r.height()-(2*frameWidth())))/lineHeight; for (; howMany; howMany--) clients.removeAll(clients.last()); h = clients.count() * lineHeight; } } } } else { int starting_desktop; if( mode() == TabBoxDesktopListMode ) { starting_desktop = 1; createDesktopList(desktops, starting_desktop, StaticOrder ); } else { // TabBoxDesktopMode starting_desktop = workspace()->currentDesktop(); createDesktopList(desktops, starting_desktop, MostRecentlyUsedOrder ); } if( !partial_reset ) desk = workspace()->currentDesktop(); showMiniIcon = false; foreach (int it, desktops) { cw = fontMetrics().width( workspace()->desktopName(it) ); if ( cw > wmax ) wmax = cw; } // calculate height for the popup (max. 16 desktops always fit in a 800x600 screen) h = desktops.count() * lineHeight; } // height, width for the popup h += 2 * frameWidth(); w = 2*frameWidth() + 5*2 + ( showMiniIcon ? 16 : 32 ) + 8 + wmax; // 5*2=margins, ()=icon, 8=space between icon+text w = qBound( r.width()/3 , w, r.width() * 4 / 5 ); setGeometry( (r.width()-w)/2 + r.x(), (r.height()-h)/2+ r.y(), w, h ); if( effects ) static_cast(effects)->tabBoxUpdated(); } /*! Shows the next or previous item, depending on \a next */ void TabBox::nextPrev( bool next) { if ( mode() == TabBoxWindowsMode ) { Client* firstClient = 0; Client* newClient = client; do { if ( next ) newClient = workspace()->nextClientFocusChain(newClient); else newClient = workspace()->previousClientFocusChain(newClient); if (!firstClient) { // When we see our first client for the second time, // it's time to stop. firstClient = newClient; } else if (newClient == firstClient) { // No candidates found. newClient = 0; break; } } while ( newClient && !clients.contains( newClient )); setCurrentClient( newClient ); } else if( mode() == TabBoxDesktopMode ) { setCurrentDesktop ( next ? workspace()->nextDesktopFocusChain( desk ) : workspace()->previousDesktopFocusChain( desk ) ); } else { // TabBoxDesktopListMode setCurrentDesktop ( next ? workspace()->nextDesktopStatic( desk ) : workspace()->previousDesktopStatic( desk )) ; } if( effects ) static_cast(effects)->tabBoxUpdated(); update(); } /*! Returns the currently displayed client ( only works in TabBoxWindowsMode ). Returns 0 if no client is displayed. */ Client* TabBox::currentClient() { if ( mode() != TabBoxWindowsMode ) return 0; if (!workspace()->hasClient( client )) return 0; return client; } /*! Returns the list of clients potentially displayed ( only works in TabBoxWindowsMode ). Returns an empty list if no clients are available. */ ClientList TabBox::currentClientList() { if( mode() != TabBoxWindowsMode ) return ClientList(); return clients; } /*! Returns the currently displayed virtual desktop ( only works in TabBoxDesktopListMode ) Returns -1 if no desktop is displayed. */ int TabBox::currentDesktop() { if ( mode() == TabBoxDesktopListMode || mode() == TabBoxDesktopMode ) return desk; return -1; } /*! Returns the list of desktops potentially displayed ( only works in TabBoxDesktopListMode ) Returns an empty list if no desktops are available. */ QList< int > TabBox::currentDesktopList() { if ( mode() == TabBoxDesktopListMode || mode() == TabBoxDesktopMode ) return desktops; return QList< int >(); } /*! Change the currently selected client, and notify the effects. \sa setCurrentDesktop() */ void TabBox::setCurrentClient( Client* newClient ) { client = newClient; if( effects ) static_cast(effects)->tabBoxUpdated(); } /*! Change the currently selected desktop, and notify the effects. \sa setCurrentClient() */ void TabBox::setCurrentDesktop( int newDesktop ) { desk = newDesktop; if( effects ) static_cast(effects)->tabBoxUpdated(); } /*! Reimplemented to raise the tab box as well */ void TabBox::showEvent( QShowEvent* ) { raise(); } /*! hide the icon box if necessary */ void TabBox::hideEvent( QHideEvent* ) { } /*! Paints the tab box */ void TabBox::paintEvent( QPaintEvent* e ) { QFrame::paintEvent( e ); QPainter p( this ); QRect r( contentsRect()); QPixmap* menu_pix = kwin_get_menu_pix_hack(); int iconWidth = showMiniIcon ? 16 : 32; int x = r.x(); int y = r.y(); if ( mode () == TabBoxWindowsMode ) { if ( !currentClient() ) { QFont f = font(); f.setBold( true ); f.setPointSize( 14 ); p.setFont(f); p.drawText( r, Qt::AlignCenter, no_tasks); } else { for (ClientList::ConstIterator it = clients.begin(); it != clients.end(); ++it) { if ( workspace()->hasClient( *it ) ) // safety { // draw highlight background if ( (*it) == currentClient() ) p.fillRect(x, y, r.width(), lineHeight, palette().brush( QPalette::Highlight )); // draw icon QPixmap icon; if ( showMiniIcon ) { if ( !(*it)->miniIcon().isNull() ) icon = (*it)->miniIcon(); } else if ( !(*it)->icon().isNull() ) icon = (*it)->icon(); else if ( menu_pix ) icon = *menu_pix; if( !icon.isNull()) { if( (*it)->isMinimized()) KIconEffect::semiTransparent( icon ); p.drawPixmap( x+5, y + (lineHeight - iconWidth)/2, icon ); } // generate text to display QString s; if ( !(*it)->isOnDesktop(workspace()->currentDesktop()) ) s = workspace()->desktopName((*it)->desktop()) + ": "; if ( (*it)->isMinimized() ) s += '(' + (*it)->caption() + ')'; else s += (*it)->caption(); s = fontMetrics().elidedText( s, Qt::ElideMiddle, r.width() - 5 - iconWidth - 8 ); // draw text if ( (*it) == currentClient() ) p.setPen(palette().color( QPalette::HighlightedText )); else if( (*it)->isMinimized()) { QColor c1 = palette().color( QPalette::Text ); QColor c2 = palette().color( QPalette::Background ); // from kicker's TaskContainer::blendColors() int r1, g1, b1; int r2, g2, b2; c1.getRgb( &r1, &g1, &b1 ); c2.getRgb( &r2, &g2, &b2 ); r1 += (int) ( .5 * ( r2 - r1 ) ); g1 += (int) ( .5 * ( g2 - g1 ) ); b1 += (int) ( .5 * ( b2 - b1 ) ); p.setPen(QColor( r1, g1, b1 )); } else p.setPen(palette().color( QPalette::Text )); p.drawText(x+5 + iconWidth + 8, y, r.width() - 5 - iconWidth - 8, lineHeight, Qt::AlignLeft | Qt::AlignVCenter | Qt::TextSingleLine, s); y += lineHeight; } if ( y >= r.height() ) break; } } } else { // TabBoxDesktopMode || TabBoxDesktopListMode int iconHeight = iconWidth; // get widest desktop name/number QFont f(font()); f.setBold(true); f.setPixelSize(iconHeight - 4); // pixel, not point because I need to know the pixels QFontMetrics fm(f); int wmax = 0; foreach (int it, desktops) { wmax = qMax(wmax, fontMetrics().width(workspace()->desktopName(it))); // calculate max width of desktop-number text QString num = QString::number(it); iconWidth = qMax(iconWidth - 4, fm.boundingRect(num).width()) + 4; } foreach (int it, desktops) { // draw highlight background if ( it == desk ) // current desktop p.fillRect(x, y, r.width(), lineHeight, palette().brush( QPalette::Highlight )); p.save(); // draw "icon" (here: number of desktop) p.fillRect(x+5, y+2, iconWidth, iconHeight, palette().brush( QPalette::Base )); p.setPen(palette().color( QPalette::Text )); p.drawRect(x+5, y+2, iconWidth, iconHeight); // draw desktop-number p.setFont(f); QString num = QString::number(it); p.drawText(x+5, y+2, iconWidth, iconHeight, Qt::AlignCenter, num); p.restore(); // draw desktop name text if ( it == desk ) p.setPen(palette().color( QPalette::HighlightedText )); else p.setPen(palette().color( QPalette::Text )); p.drawText(x+5 + iconWidth + 8, y, r.width() - 5 - iconWidth - 8, lineHeight, Qt::AlignLeft | Qt::AlignVCenter | Qt::TextSingleLine, workspace()->desktopName(it)); // show mini icons from that desktop aligned to each other int x1 = x + 5 + iconWidth + 8 + wmax + 5; ClientList list; createClientList(list, it, 0, false); // clients are in reversed stacking order for ( int i = list.size() - 1; i>=0; i-- ) { if ( !list.at( i )->miniIcon().isNull() ) { if ( x1+18 >= x+r.width() ) // only show full icons break; p.drawPixmap( x1, y + (lineHeight - 16)/2, list.at( i )->miniIcon() ); x1 += 18; } } // next desktop y += lineHeight; if ( y >= r.height() ) break; } } } /*! 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() { if( effects ) static_cast(effects)->tabBoxAdded( mode()); if( isDisplayed()) return; refDisplay(); QWidget::show(); } /*! Notify effects that the tab box is being hidden. */ void TabBox::hide() { delayedShowTimer.stop(); if( isVisible()) unrefDisplay(); if( effects ) static_cast(effects)->tabBoxClosed(); if( isDisplayed()) kDebug( 1212 ) << "Tab box was not properly closed by an effect"; QWidget::hide(); QApplication::syncX(); XEvent otherEvent; while (XCheckTypedEvent (display(), EnterNotify, &otherEvent ) ) ; } /*! Decrease the reference count. Only when the reference count is 0 will the default tab box be shown. */ void TabBox::unrefDisplay() { --display_refcount; } void TabBox::reconfigure() { KSharedConfigPtr c(KGlobal::config()); options_traverse_all = c->group("TabBox").readEntry("TraverseAll", false ); } /*! 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() { KSharedConfigPtr c(KGlobal::config()); KConfigGroup cg(c, "TabBox"); bool delay = cg.readEntry("ShowDelay", true); if (!delay) { show(); return; } int delayTime = cg.readEntry("DelayTime", 90); delayedShowTimer.setSingleShot(true); delayedShowTimer.start(delayTime); } void TabBox::handleMouseEvent( XEvent* e ) { XAllowEvents( display(), AsyncPointer, xTime() ); if( !isVisible() && isDisplayed()) { // tabbox has been replaced, check effects if( effects && static_cast(effects)->checkInputWindowEvent( e )) return; } if( e->type != ButtonPress ) return; QPoint pos( e->xbutton.x_root, e->xbutton.y_root ); QPoint widgetPos = mapFromGlobal( pos ); // inside tabbox if(( !isVisible() && isDisplayed()) || !geometry().contains( pos )) { workspace()->closeTabBox(); // click outside closes tab return; } int num = (widgetPos.y()-frameWidth()) / lineHeight; if( mode() == TabBoxWindowsMode ) { for( ClientList::ConstIterator it = clients.begin(); it != clients.end(); ++it) { if( workspace()->hasClient( *it ) && (num == 0) ) // safety { setCurrentClient( *it ); break; } num--; } } else { foreach( int it, desktops ) { if( num == 0 ) { setCurrentDesktop( it ); break; } num--; } } update(); } //******************************* // Workspace //******************************* /*! Handles alt-tab / control-tab */ static bool areKeySymXsDepressed( bool bAll, const uint keySyms[], int nKeySyms ) { char keymap[32]; kDebug(125) << "areKeySymXsDepressed: " << (bAll ? "all of " : "any of ") << nKeySyms; XQueryKeymap( display(), keymap ); for( int iKeySym = 0; iKeySym < nKeySyms; iKeySym++ ) { uint keySymX = keySyms[ iKeySym ]; uchar keyCodeX = XKeysymToKeycode( display(), keySymX ); int i = keyCodeX / 8; char mask = 1 << (keyCodeX - (i * 8)); // Abort if bad index value, if( i < 0 || i >= 32 ) return false; kDebug(125) << iKeySym << ": keySymX=0x" << QString::number( keySymX, 16 ) << " i=" << i << " mask=0x" << QString::number( mask, 16 ) << " keymap[i]=0x" << QString::number( keymap[i], 16 ) << endl; // 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 areModKeysDepressed( const QKeySequence& seq ) { uint rgKeySyms[10]; int nKeySyms = 0; if( seq.isEmpty()) return false; 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 areModKeysDepressed( const KShortcut& cut ) { if( areModKeysDepressed( cut.primary()) || areModKeysDepressed( cut.alternate()) ) return true; return false; } void Workspace::slotWalkThroughWindows() { if ( tab_grab || control_grab ) return; if ( options->altTabStyle == Options::CDE || !options->focusPolicyIsReasonable()) { //ungrabXKeyboard(); // need that because of accelerator raw mode // CDE style raise / lower CDEWalkThroughWindows( true ); } else { if ( areModKeysDepressed( cutWalkThroughWindows ) ) { if ( startKDEWalkThroughWindows() ) KDEWalkThroughWindows( true ); } else // if the shortcut has no modifiers, don't show the tabbox, // don't grab, but simply go to the next window KDEOneStepThroughWindows( true ); } } void Workspace::slotWalkBackThroughWindows() { if( tab_grab || control_grab ) return; if ( options->altTabStyle == Options::CDE || !options->focusPolicyIsReasonable()) { // CDE style raise / lower CDEWalkThroughWindows( false ); } else { if ( areModKeysDepressed( cutWalkThroughWindowsReverse ) ) { if ( startKDEWalkThroughWindows() ) KDEWalkThroughWindows( false ); } else { KDEOneStepThroughWindows( false ); } } } void Workspace::slotWalkThroughDesktops() { if( tab_grab || control_grab ) return; if ( areModKeysDepressed( cutWalkThroughDesktops ) ) { if ( startWalkThroughDesktops() ) walkThroughDesktops( true ); } else { oneStepThroughDesktops( true ); } } void Workspace::slotWalkBackThroughDesktops() { if( tab_grab || control_grab ) return; if ( areModKeysDepressed( cutWalkThroughDesktopsReverse ) ) { if ( startWalkThroughDesktops() ) walkThroughDesktops( false ); } else { oneStepThroughDesktops( false ); } } void Workspace::slotWalkThroughDesktopList() { if( tab_grab || control_grab ) return; if ( areModKeysDepressed( cutWalkThroughDesktopList ) ) { if ( startWalkThroughDesktopList() ) walkThroughDesktops( true ); } else { oneStepThroughDesktopList( true ); } } void Workspace::slotWalkBackThroughDesktopList() { if( tab_grab || control_grab ) return; if ( areModKeysDepressed( cutWalkThroughDesktopListReverse ) ) { if ( startWalkThroughDesktopList() ) walkThroughDesktops( false ); } else { oneStepThroughDesktopList( false ); } } void Workspace::modalActionsSwitch( bool enabled ) { QList collections; collections.append( keys ); collections.append( disable_shortcuts_keys ); collections.append( client_keys ); foreach (KActionCollection* collection, collections) foreach (QAction *action, collection->actions()) action->setEnabled(enabled); } bool Workspace::startKDEWalkThroughWindows() { if( !establishTabBoxGrab()) return false; tab_grab = true; modalActionsSwitch( false ); tab_box->setMode( TabBoxWindowsMode ); tab_box->reset(); return true; } bool Workspace::startWalkThroughDesktops( TabBoxMode mode ) { if( !establishTabBoxGrab()) return false; control_grab = true; modalActionsSwitch( false ); tab_box->setMode( mode ); tab_box->reset(); return true; } bool Workspace::startWalkThroughDesktops() { return startWalkThroughDesktops( TabBoxDesktopMode ); } bool Workspace::startWalkThroughDesktopList() { return startWalkThroughDesktops( TabBoxDesktopListMode ); } void Workspace::KDEWalkThroughWindows( bool forward ) { tab_box->nextPrev( forward ); tab_box->delayedShow(); } void Workspace::walkThroughDesktops( bool forward ) { tab_box->nextPrev( forward ); tab_box->delayedShow(); } void Workspace::CDEWalkThroughWindows( bool forward ) { Client* c = NULL; // 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( block_stacking_updates == 0 ); for( int i = stacking_order.size() - 1; i >= 0 ; --i ) { Client* it = stacking_order.at( i ); if ( 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( KGlobal::config(), "TabBox" ); options_traverse_all = group.readEntry("TraverseAll", false ); } Client* firstClient = 0; 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 = 0; break; } } while (nc && nc != c && (( !options_traverse_all && !nc->isOnDesktop(currentDesktop())) || nc->isMinimized() || !nc->wantsTabFocus() || nc->keepAbove() || nc->keepBelow() ) ); if (nc) { if (c && c != nc) lowerClient( c ); if ( options->focusPolicyIsReasonable() ) { activateClient( nc ); if( nc->isShade() && options->shadeHover ) nc->setShade( ShadeActivated ); } else { if( !nc->isOnDesktop( currentDesktop())) setCurrentDesktop( nc->desktop()); raiseClient( nc ); } } } void Workspace::KDEOneStepThroughWindows( bool forward ) { tab_box->setMode( TabBoxWindowsMode ); tab_box->reset(); tab_box->nextPrev( forward ); if( Client* c = tab_box->currentClient() ) { activateClient( c ); if( c->isShade() && options->shadeHover ) c->setShade( ShadeActivated ); } } void Workspace::oneStepThroughDesktops( bool forward, TabBoxMode mode ) { tab_box->setMode( mode ); tab_box->reset(); tab_box->nextPrev( forward ); if ( tab_box->currentDesktop() != -1 ) setCurrentDesktop( tab_box->currentDesktop() ); } void Workspace::oneStepThroughDesktops( bool forward ) { oneStepThroughDesktops( forward, TabBoxDesktopMode ); } void Workspace::oneStepThroughDesktopList( bool forward ) { oneStepThroughDesktops( forward, TabBoxDesktopListMode ); } /*! Handles holding alt-tab / control-tab */ void Workspace::tabBoxKeyPress( int keyQt ) { bool forward = false; bool backward = false; if (tab_grab) { forward = cutWalkThroughWindows.contains( keyQt ); backward = cutWalkThroughWindowsReverse.contains( keyQt ); if (forward || backward) { kDebug(125) << "== " << cutWalkThroughWindows.toString() << " or " << cutWalkThroughWindowsReverse.toString() << endl; KDEWalkThroughWindows( forward ); } } else if (control_grab) { forward = cutWalkThroughDesktops.contains( keyQt ) || cutWalkThroughDesktopList.contains( keyQt ); backward = cutWalkThroughDesktopsReverse.contains( keyQt ) || cutWalkThroughDesktopListReverse.contains( keyQt ); if (forward || backward) walkThroughDesktops(forward); } if (control_grab || tab_grab) { if ( ((keyQt & ~Qt::KeyboardModifierMask) == Qt::Key_Escape) && !(forward || backward) ) { // if Escape is part of the shortcut, don't cancel closeTabBox(); } } } void Workspace::refTabBox() { if( tab_box ) tab_box->refDisplay(); } void Workspace::unrefTabBox() { if( tab_box ) tab_box->unrefDisplay(); } void Workspace::closeTabBox() { removeTabBoxGrab(); tab_box->hide(); modalActionsSwitch( true ); tab_grab = false; control_grab = false; } /*! Handles alt-tab / control-tab releasing */ void Workspace::tabBoxKeyRelease( const XKeyEvent& ev ) { 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 = ShiftMapIndex; i <= Mod5MapIndex; ++i ) if(( mk & ( 1 << i )) != 0 ) { if( mod_index >= 0 ) return; mod_index = i; } bool release = false; if( mod_index == -1 ) release = true; else { XModifierKeymap* xmk = XGetModifierMapping(display()); for (int i=0; imax_keypermod; i++) if (xmk->modifiermap[xmk->max_keypermod * mod_index + i] == ev.keycode) release = true; XFreeModifiermap(xmk); } if( !release ) return; if (tab_grab) { bool old_control_grab = control_grab; closeTabBox(); control_grab = old_control_grab; if( Client* c = tab_box->currentClient()) { activateClient( c ); if( c->isShade() && options->shadeHover ) c->setShade( ShadeActivated ); } } if (control_grab) { bool old_tab_grab = tab_grab; closeTabBox(); tab_grab = old_tab_grab; if ( tab_box->currentDesktop() != -1 ) { setCurrentDesktop( tab_box->currentDesktop() ); } } } int Workspace::nextDesktopFocusChain( int iDesktop ) const { int i = desktop_focus_chain.indexOf( iDesktop ); if( i >= 0 && i+1 < (int)desktop_focus_chain.size() ) return desktop_focus_chain[i+1]; else if( desktop_focus_chain.size() > 0 ) return desktop_focus_chain[ 0 ]; else return 1; } int Workspace::previousDesktopFocusChain( int iDesktop ) const { int i = desktop_focus_chain.indexOf( iDesktop ); if( i-1 >= 0 ) return desktop_focus_chain[i-1]; else if( desktop_focus_chain.size() > 0 ) return desktop_focus_chain[desktop_focus_chain.size()-1]; else return numberOfDesktops(); } int Workspace::nextDesktopStatic( int iDesktop ) const { int i = ++iDesktop; if( i > numberOfDesktops()) i = 1; return i; } int Workspace::previousDesktopStatic( int iDesktop ) const { int i = --iDesktop; if( i < 1 ) i = numberOfDesktops(); return i; } /*! auxiliary functions to travers all clients according the focus order. Useful for kwms Alt-tab feature. */ Client* Workspace::nextClientFocusChain( Client* c ) const { if ( global_focus_chain.isEmpty() ) return 0; int pos = global_focus_chain.indexOf( c ); if ( pos == -1 ) return global_focus_chain.last(); if ( pos == 0 ) return global_focus_chain.last(); pos--; return global_focus_chain[ pos ]; } /*! auxiliary functions to travers all clients according the focus order. Useful for kwms Alt-tab feature. */ Client* Workspace::previousClientFocusChain( Client* c ) const { if ( global_focus_chain.isEmpty() ) return 0; int pos = global_focus_chain.indexOf( c ); if ( pos == -1 ) return global_focus_chain.first(); pos++; if ( pos == global_focus_chain.count() ) return global_focus_chain.first(); return global_focus_chain[ pos ]; } /*! auxiliary functions to travers all clients according the static order. Useful for the CDE-style Alt-tab feature. */ Client* Workspace::nextClientStatic( Client* c ) const { if ( !c || clients.isEmpty() ) return 0; int pos = clients.indexOf( c ); if ( pos == -1 ) return clients.first(); ++pos; if ( pos == clients.count() ) return clients.first(); return clients[ pos ]; } /*! auxiliary functions to travers all clients according the static order. Useful for the CDE-style Alt-tab feature. */ Client* Workspace::previousClientStatic( Client* c ) const { if ( !c || clients.isEmpty() ) return 0; int pos = clients.indexOf( c ); if ( pos == -1 ) return clients.last(); if ( pos == 0 ) return clients.last(); --pos; return clients[ pos ]; } Client* Workspace::currentTabBoxClient() const { if( !tab_box ) return 0; return tab_box->currentClient(); } ClientList Workspace::currentTabBoxClientList() const { if( !tab_box ) return ClientList(); return tab_box->currentClientList(); } int Workspace::currentTabBoxDesktop() const { if( !tab_box ) return -1; return tab_box->currentDesktop(); } QList< int > Workspace::currentTabBoxDesktopList() const { if( !tab_box ) return QList< int >(); return tab_box->currentDesktopList(); } void Workspace::setTabBoxClient( Client* c ) { if( tab_box ) tab_box->setCurrentClient( c ); } void Workspace::setTabBoxDesktop( int iDesktop ) { if( tab_box ) tab_box->setCurrentDesktop( iDesktop ); } bool Workspace::establishTabBoxGrab() { // The KDED Global Shortcuts Server will have used XGrabKey and // XUngrabKeyboard as part of handling the shortcut for activating the // tabbox. Make sure to update our current X time, or else it will be // older than the Server's grab/ungrab. 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( !forced_global_mouse_grab ); forced_global_mouse_grab = true; if( active_client != NULL ) active_client->updateMouseGrab(); return true; } void Workspace::removeTabBoxGrab() { ungrabXKeyboard(); assert( forced_global_mouse_grab ); forced_global_mouse_grab = false; if( active_client != NULL ) active_client->updateMouseGrab(); } } // namespace #include "tabbox.moc"