/******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 1999, 2000 Matthias Ettrich Copyright (C) 2003 Lubos Lunak 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 . *********************************************************************/ //#define QT_CLEAN_NAMESPACE #include "workspace.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "client.h" #include "tabbox.h" #include "desktopchangeosd.h" #include "atoms.h" #include "placement.h" #include "notifications.h" #include "group.h" #include "rules.h" #include "kwinadaptor.h" #include "unmanaged.h" #include "scene.h" #include "deleted.h" #include "effects.h" #include #include #include #include #include #include #include #include #include #include namespace KWin { extern int screen_number; Workspace* Workspace::_self = 0; //----------------------------------------------------------------------------- // Rikkus: This class is too complex. It needs splitting further. // It's a nightmare to understand, especially with so few comments :( // // Matthias: Feel free to ask me questions about it. Feel free to add // comments. I dissagree that further splittings makes it easier. 2500 // lines are not too much. It's the task that is complex, not the // code. //----------------------------------------------------------------------------- Workspace::Workspace( bool restore ) : QObject( 0 ) // Desktop layout , desktopCount_( 0 ) // This is an invalid state , desktopGridSize_( 1, 2 ) // Default to two rows , desktopGrid_( new int[2] ) , currentDesktop_( 0 ) , desktopLayoutDynamicity_( false ) // Unsorted , active_popup( NULL ) , active_popup_client( NULL ) , temporaryRulesMessages( "_KDE_NET_WM_TEMPORARY_RULES", NULL, false ) , rules_updates_disabled( false ) , active_client( 0 ) , last_active_client( 0 ) , most_recently_raised( 0 ) , movingClient( 0 ) , pending_take_activity( NULL ) , active_screen( 0 ) , delayfocus_client( 0 ) , force_restacking( false ) , x_stacking_dirty( true ) , showing_desktop( false ) , block_showing_desktop( 0 ) , was_user_interaction( false ) , session_saving( false ) , control_grab( false ) , tab_grab( false ) , mouse_emulation( false ) , block_focus( 0 ) , tab_box( 0 ) , desktop_change_osd( 0 ) , popup( 0 ) , advanced_popup( 0 ) , trans_popup( 0 ) , desk_popup( 0 ) , keys( 0 ) , client_keys( NULL ) , client_keys_dialog( NULL ) , client_keys_client( NULL ) , disable_shortcuts_keys( NULL ) , global_shortcuts_disabled( false ) , global_shortcuts_disabled_for_client( false ) , workspaceInit( true ) , startup( 0 ) , managing_topmenus( false ) , topmenu_selection( NULL ) , topmenu_watcher( NULL ) , topmenu_height( 0 ) , topmenu_space( NULL ) , set_active_client_recursion( 0 ) , block_stacking_updates( 0 ) , forced_global_mouse_grab( false ) , cm_selection( NULL ) , compositingSuspended( false ) , compositeRate( 0 ) , xrrRefreshRate( 0 ) , overlay( None ) , overlay_visible( true ) , overlay_shown( false ) , transSlider( NULL ) , transButton( NULL ) , forceUnredirectCheck( true ) { (void) new KWinAdaptor( this ); QDBusConnection dbus = QDBusConnection::sessionBus(); dbus.registerObject( "/KWin", this ); dbus.connect( QString(), "/KWin", "org.kde.KWin", "reloadConfig", this, SLOT( slotReloadConfig() )); dbus.connect( QString(), "/KWin", "org.kde.KWin", "reinitCompositing", this, SLOT( slotReinitCompositing() )); // Initialize desktop grid array desktopGrid_[0] = 0; desktopGrid_[1] = 0; _self = this; mgr = new PluginMgr; QX11Info info; default_colormap = DefaultColormap( display(), info.screen() ); installed_colormap = default_colormap; for( int i = 0; i < ELECTRIC_COUNT; ++i ) { electric_reserved[i] = 0; electric_windows[i] = None; } connect( &temporaryRulesMessages, SIGNAL( gotMessage(const QString&) ), this, SLOT( gotTemporaryRulesMessage(const QString&) )); connect( &rulesUpdatedTimer, SIGNAL( timeout() ), this, SLOT( writeWindowRules() )); connect( &unredirectTimer, SIGNAL( timeout() ), this, SLOT( delayedCheckUnredirect() )); connect( &compositeResetTimer, SIGNAL( timeout()), this, SLOT( resetCompositing())); unredirectTimer.setSingleShot( true ); compositeResetTimer.setSingleShot( true ); updateXTime(); // Needed for proper initialization of user_time in Client ctor delayFocusTimer = 0; if( restore ) loadSessionInfo(); loadWindowRules(); // Call this before XSelectInput() on the root window startup = new KStartupInfo( KStartupInfo::DisableKWinModule | KStartupInfo::AnnounceSilenceChanges, this ); // Select windowmanager privileges XSelectInput( display(), rootWindow(), KeyPressMask | PropertyChangeMask | ColormapChangeMask | SubstructureRedirectMask | SubstructureNotifyMask | FocusChangeMask | // For NotifyDetailNone ExposureMask ); Extensions::init(); setupCompositing(); // Compatibility long data = 1; XChangeProperty( display(), rootWindow(), atoms->kwin_running, atoms->kwin_running, 32, PropModeAppend, (unsigned char*)( &data ), 1 ); client_keys = new KActionCollection( this ); initShortcuts(); tab_box = new TabBox::TabBox( this ); desktop_change_osd = new DesktopChangeOSD( this ); init(); connect( Kephal::Screens::self(), SIGNAL( screenAdded(Kephal::Screen*) ), SLOT( desktopResized() )); connect( Kephal::Screens::self(), SIGNAL( screenRemoved(int) ), SLOT( desktopResized() )); connect( Kephal::Screens::self(), SIGNAL( screenResized(Kephal::Screen*, QSize, QSize) ), SLOT( desktopResized() )); connect( Kephal::Screens::self(), SIGNAL( screenMoved(Kephal::Screen*, QPoint, QPoint) ), SLOT( desktopResized() )); } void Workspace::init() { reserveElectricBorderActions( true ); if( options->electricBorders() == Options::ElectricAlways ) reserveElectricBorderSwitching( true ); updateElectricBorders(); // Not used yet //topDock = 0L; //maximizedWindowCounter = 0; supportWindow = new QWidget( NULL, Qt::X11BypassWindowManagerHint ); XLowerWindow( display(), supportWindow->winId() ); // See usage in layers.cpp XSetWindowAttributes attr; attr.override_redirect = 1; null_focus_window = XCreateWindow( display(), rootWindow(), -1,-1, 1, 1, 0, CopyFromParent, InputOnly, CopyFromParent, CWOverrideRedirect, &attr ); XMapWindow( display(), null_focus_window ); unsigned long protocols[5] = { NET::Supported | NET::SupportingWMCheck | NET::ClientList | NET::ClientListStacking | NET::DesktopGeometry | NET::NumberOfDesktops | NET::CurrentDesktop | NET::ActiveWindow | NET::WorkArea | NET::CloseWindow | NET::DesktopNames | NET::WMName | NET::WMVisibleName | NET::WMDesktop | NET::WMWindowType | NET::WMState | NET::WMStrut | NET::WMIconGeometry | NET::WMIcon | NET::WMPid | NET::WMMoveResize | NET::WMFrameExtents | NET::WMPing , NET::NormalMask | NET::DesktopMask | NET::DockMask | NET::ToolbarMask | NET::MenuMask | NET::DialogMask | NET::OverrideMask | NET::TopMenuMask | NET::UtilityMask | NET::SplashMask | // No compositing window types here unless we support them also as managed window types 0 , NET::Modal | //NET::Sticky | // Large desktops not supported (and probably never will be) NET::MaxVert | NET::MaxHoriz | NET::Shaded | NET::SkipTaskbar | NET::KeepAbove | //NET::StaysOnTop | // The same like KeepAbove NET::SkipPager | NET::Hidden | NET::FullScreen | NET::KeepBelow | NET::DemandsAttention | 0 , NET::WM2UserTime | NET::WM2StartupId | NET::WM2AllowedActions | NET::WM2RestackWindow | NET::WM2MoveResizeWindow | NET::WM2ExtendedStrut | NET::WM2KDETemporaryRules | NET::WM2ShowingDesktop | NET::WM2DesktopLayout | NET::WM2FullPlacement | NET::WM2FullscreenMonitors | 0 , NET::ActionMove | NET::ActionResize | NET::ActionMinimize | NET::ActionShade | //NET::ActionStick | // Sticky state is not supported NET::ActionMaxVert | NET::ActionMaxHoriz | NET::ActionFullScreen | NET::ActionChangeDesktop | NET::ActionClose | 0 , }; QX11Info info; rootInfo = new RootInfo( this, display(), supportWindow->winId(), "KWin", protocols, 5, info.screen() ); loadDesktopSettings(); updateDesktopLayout(); desktop_change_osd->numberDesktopsChanged(); // Extra NETRootInfo instance in Client mode is needed to get the values of the properties NETRootInfo client_info( display(), NET::ActiveWindow | NET::CurrentDesktop ); int initial_desktop; if( !kapp->isSessionRestored() ) initial_desktop = client_info.currentDesktop(); else { KConfigGroup group( kapp->sessionConfig(), "Session" ); initial_desktop = group.readEntry( "desktop", 1 ); } if( !setCurrentDesktop( initial_desktop )) setCurrentDesktop( 1 ); // Now we know how many desktops we'll have, thus we initialize the positioning object initPositioning = new Placement( this ); reconfigureTimer.setSingleShot( true ); updateToolWindowsTimer.setSingleShot( true ); connect( &reconfigureTimer, SIGNAL( timeout() ), this, SLOT( slotReconfigure() )); connect( &updateToolWindowsTimer, SIGNAL( timeout() ), this, SLOT( slotUpdateToolWindows() )); connect( &compositeTimer, SIGNAL( timeout() ), SLOT( performCompositing() )); connect( &mousePollingTimer, SIGNAL( timeout() ), SLOT( performMousePoll() )); connect( KGlobalSettings::self(), SIGNAL( appearanceChanged() ), this, SLOT( reconfigure() )); connect( KGlobalSettings::self(), SIGNAL( settingsChanged(int) ), this, SLOT( slotSettingsChanged(int) )); connect( KGlobalSettings::self(), SIGNAL( blockShortcuts(int) ), this, SLOT( slotBlockShortcuts(int) )); active_client = NULL; rootInfo->setActiveWindow( None ); focusToNull(); if( !kapp->isSessionRestored() ) ++block_focus; // Because it will be set below char nm[100]; sprintf( nm, "_KDE_TOPMENU_OWNER_S%d", DefaultScreen( display())); Atom topmenu_atom = XInternAtom( display(), nm, False ); topmenu_selection = new KSelectionOwner( topmenu_atom ); topmenu_watcher = new KSelectionWatcher( topmenu_atom ); //TODO: grabXServer(); // Where exactly put this? topmenu selection claiming down belong must be before { // Begin updates blocker block StackingUpdatesBlocker blocker( this ); if( options->topMenuEnabled() && topmenu_selection->claim( false )) setupTopMenuHandling(); // This can call updateStackingOrder() else lostTopMenuSelection(); unsigned int i, nwins; Window root_return, parent_return; Window* wins; XQueryTree( display(), rootWindow(), &root_return, &parent_return, &wins, &nwins ); bool fixoffset = KCmdLineArgs::parsedArgs()->getOption( "crashes" ).toInt() > 0; for( i = 0; i < nwins; i++ ) { XWindowAttributes attr; XGetWindowAttributes( display(), wins[i], &attr ); if( attr.override_redirect ) { createUnmanaged( wins[i] ); continue; } if( topmenu_space && topmenu_space->winId() == wins[i] ) continue; if( attr.map_state != IsUnmapped ) { if( fixoffset ) fixPositionAfterCrash( wins[ i ], attr ); createClient( wins[i], true ); } } if( wins ) XFree( (void*)( wins )); // Propagate clients, will really happen at the end of the updates blocker block updateStackingOrder( true ); updateClientArea(); // NETWM spec says we have to set it to (0,0) if we don't support it NETPoint* viewports = new NETPoint[numberOfDesktops()]; rootInfo->setDesktopViewport( numberOfDesktops(), *viewports ); delete[] viewports; QRect geom = Kephal::ScreenUtils::desktopGeometry(); NETSize desktop_geometry; desktop_geometry.width = geom.width(); desktop_geometry.height = geom.height(); rootInfo->setDesktopGeometry( -1, desktop_geometry ); setShowingDesktop( false ); } // End updates blocker block Client* new_active_client = NULL; if( !kapp->isSessionRestored() ) { --block_focus; new_active_client = findClient( WindowMatchPredicate( client_info.activeWindow() )); } if( new_active_client == NULL && activeClient() == NULL && should_get_focus.count() == 0 ) { // No client activated in manage() if( new_active_client == NULL ) new_active_client = topClientOnDesktop( currentDesktop(), -1 ); if( new_active_client == NULL && !desktops.isEmpty() ) new_active_client = findDesktop( true, currentDesktop() ); } if( new_active_client != NULL ) activateClient( new_active_client ); // outline windows for electric border maximize window mode outline_left = XCreateWindow( QX11Info::display(), QX11Info::appRootWindow(), 0, 0, 1, 1, 0, CopyFromParent, CopyFromParent, CopyFromParent, CWOverrideRedirect, &attr ); outline_right = XCreateWindow( QX11Info::display(), QX11Info::appRootWindow(), 0, 0, 1, 1, 0, CopyFromParent, CopyFromParent, CopyFromParent, CWOverrideRedirect, &attr ); outline_top = XCreateWindow( QX11Info::display(), QX11Info::appRootWindow(), 0, 0, 1, 1, 0, CopyFromParent, CopyFromParent, CopyFromParent, CWOverrideRedirect, &attr ); outline_bottom = XCreateWindow( QX11Info::display(), QX11Info::appRootWindow(), 0, 0, 1, 1, 0, CopyFromParent, CopyFromParent, CopyFromParent, CWOverrideRedirect, &attr ); // SELI TODO: This won't work with unreasonable focus policies, // and maybe in rare cases also if the selected client doesn't // want focus workspaceInit = false; // TODO: ungrabXServer() } Workspace::~Workspace() { finishCompositing(); blockStackingUpdates( true ); // TODO: grabXServer(); // Use stacking_order, so that kwin --replace keeps stacking order for( ClientList::ConstIterator it = stacking_order.constBegin(); it != stacking_order.constEnd(); ++it ) { // Only release the window (*it)->releaseWindow( true ); // No removeClient() is called, it does more than just removing. // However, remove from some lists to e.g. prevent performTransiencyCheck() // from crashing. clients.removeAll( *it ); desktops.removeAll( *it ); } for( UnmanagedList::ConstIterator it = unmanaged.constBegin(); it != unmanaged.constEnd(); ++it ) (*it)->release(); delete tab_box; delete desktop_change_osd; discardPopup(); XDeleteProperty( display(), rootWindow(), atoms->kwin_running ); writeWindowRules(); KGlobal::config()->sync(); // destroy outline windows for electric border maximize window mode XDestroyWindow( QX11Info::display(), outline_left ); XDestroyWindow( QX11Info::display(), outline_right ); XDestroyWindow( QX11Info::display(), outline_top ); XDestroyWindow( QX11Info::display(), outline_bottom ); delete rootInfo; delete supportWindow; delete mgr; delete startup; delete initPositioning; delete topmenu_watcher; delete topmenu_selection; delete topmenu_space; delete client_keys_dialog; while( !rules.isEmpty() ) { delete rules.front(); rules.pop_front(); } foreach( SessionInfo* s, session ) delete s; XDestroyWindow( display(), null_focus_window ); // TODO: ungrabXServer(); delete[] desktopGrid_; _self = 0; } Client* Workspace::createClient( Window w, bool is_mapped ) { StackingUpdatesBlocker blocker( this ); Client* c = new Client( this ); if( !c->manage( w, is_mapped )) { Client::deleteClient( c, Allowed ); return NULL; } addClient( c, Allowed ); if( scene ) scene->windowAdded( c ); if( effects ) static_cast( effects )->windowAdded( c->effectWindow() ); return c; } Unmanaged* Workspace::createUnmanaged( Window w ) { if( w == overlay ) return NULL; Unmanaged* c = new Unmanaged( this ); if( !c->track( w )) { Unmanaged::deleteUnmanaged( c, Allowed ); return NULL; } addUnmanaged( c, Allowed ); if( scene ) scene->windowAdded( c ); if( effects ) static_cast( effects )->windowAdded( c->effectWindow() ); return c; } void Workspace::addClient( Client* c, allowed_t ) { Group* grp = findGroup( c->window() ); if( grp != NULL ) grp->gotLeader( c ); if( c->isDesktop() ) { desktops.append( c ); if( active_client == NULL && should_get_focus.isEmpty() && c->isOnCurrentDesktop() ) requestFocus( c ); // TODO: Make sure desktop is active after startup if there's no other window active } else { updateFocusChains( c, FocusChainUpdate ); // Add to focus chain if not already there clients.append( c ); } if( !unconstrained_stacking_order.contains( c )) unconstrained_stacking_order.append( c ); // Raise if it hasn't got any stacking position yet if( !stacking_order.contains( c )) // It'll be updated later, and updateToolWindows() requires stacking_order.append( c ); // c to be in stacking_order if( c->isTopMenu()) addTopMenu( c ); x_stacking_dirty = true; updateClientArea(); // This cannot be in manage(), because the client got added only now updateClientLayer( c ); if( c->isDesktop()) { raiseClient( c ); // If there's no active client, make this desktop the active one if( activeClient() == NULL && should_get_focus.count() == 0 ) activateClient( findDesktop( true, currentDesktop() )); } c->checkActiveModal(); checkTransients( c->window() ); // SELI TODO: Does this really belong here? updateStackingOrder( true ); // Propagate new client if( c->isUtility() || c->isMenu() || c->isToolbar() ) updateToolWindows( true ); checkNonExistentClients(); if( tab_grab ) tab_box->reset( true ); } void Workspace::addUnmanaged( Unmanaged* c, allowed_t ) { unmanaged.append( c ); x_stacking_dirty = true; } /** * Destroys the client \a c */ void Workspace::removeClient( Client* c, allowed_t ) { if (c == active_popup_client) closeActivePopup(); if( client_keys_client == c ) setupWindowShortcutDone( false ); if( !c->shortcut().isEmpty() ) { c->setShortcut( QString() ); // Remove from client_keys clientShortcutUpdated( c ); // Needed, since this is otherwise delayed by setShortcut() and wouldn't run } if( c->isDialog()) Notify::raise( Notify::TransDelete ); if( c->isNormalWindow()) Notify::raise( Notify::Delete ); if( tab_grab && tab_box->currentClient() == c ) tab_box->nextPrev( true ); Q_ASSERT( clients.contains( c ) || desktops.contains( c )); clients.removeAll( c ); desktops.removeAll( c ); unconstrained_stacking_order.removeAll( c ); stacking_order.removeAll( c ); x_stacking_dirty = true; for( int i = 1; i <= numberOfDesktops(); ++i ) focus_chain[i].removeAll( c ); global_focus_chain.removeAll( c ); attention_chain.removeAll( c ); showing_desktop_clients.removeAll( c ); if( c->isTopMenu() ) removeTopMenu( c ); Group* group = findGroup( c->window()); if( group != NULL ) group->lostLeader(); if( c == most_recently_raised ) most_recently_raised = 0; should_get_focus.removeAll( c ); Q_ASSERT( c != active_client ); if( c == last_active_client ) last_active_client = 0; if( c == pending_take_activity ) pending_take_activity = NULL; if( c == delayfocus_client ) cancelDelayFocus(); updateStackingOrder( true ); if( tab_grab ) tab_box->reset( true ); updateClientArea(); } void Workspace::removeUnmanaged( Unmanaged* c, allowed_t ) { assert( unmanaged.contains( c )); unmanaged.removeAll( c ); x_stacking_dirty = true; } void Workspace::addDeleted( Deleted* c, allowed_t ) { assert( !deleted.contains( c )); deleted.append( c ); x_stacking_dirty = true; } void Workspace::removeDeleted( Deleted* c, allowed_t ) { assert( deleted.contains( c )); if( scene ) scene->windowDeleted( c ); if( effects ) static_cast( effects )->windowDeleted( c->effectWindow() ); deleted.removeAll( c ); x_stacking_dirty = true; } void Workspace::updateFocusChains( Client* c, FocusChainChange change ) { if( !c->wantsTabFocus() ) // Doesn't want tab focus, remove { for( int i = 1; i <= numberOfDesktops(); ++i ) focus_chain[i].removeAll( c ); global_focus_chain.removeAll( c ); return; } if( c->desktop() == NET::OnAllDesktops ) { // Now on all desktops, add it to focus_chains it is not already in for( int i = 1; i <= numberOfDesktops(); i++) { // Making first/last works only on current desktop, don't affect all desktops if( i == currentDesktop() && ( change == FocusChainMakeFirst || change == FocusChainMakeLast )) { focus_chain[i].removeAll( c ); if( change == FocusChainMakeFirst ) focus_chain[i].append( c ); else focus_chain[i].prepend( c ); } else if( !focus_chain[i].contains( c )) { // Add it after the active one if( active_client != NULL && active_client != c && !focus_chain[i].isEmpty() && focus_chain[i].last() == active_client ) focus_chain[i].insert( focus_chain[i].size() - 1, c ); else focus_chain[i].append( c ); // Otherwise add as the first one } } } else // Now only on desktop, remove it anywhere else { for( int i = 1; i <= numberOfDesktops(); i++) { if( i == c->desktop() ) { if( change == FocusChainMakeFirst ) { focus_chain[i].removeAll( c ); focus_chain[i].append( c ); } else if( change == FocusChainMakeLast ) { focus_chain[i].removeAll( c ); focus_chain[i].prepend( c ); } else if( !focus_chain[i].contains( c )) { // Add it after the active one if( active_client != NULL && active_client != c && !focus_chain[i].isEmpty() && focus_chain[i].last() == active_client ) focus_chain[i].insert( focus_chain[i].size() - 1, c ); else focus_chain[i].append( c ); // Otherwise add as the first one } } else focus_chain[i].removeAll( c ); } } if( change == FocusChainMakeFirst ) { global_focus_chain.removeAll( c ); global_focus_chain.append( c ); } else if( change == FocusChainMakeLast ) { global_focus_chain.removeAll( c ); global_focus_chain.prepend( c ); } else if( !global_focus_chain.contains( c )) { // Add it after the active one if( active_client != NULL && active_client != c && !global_focus_chain.isEmpty() && global_focus_chain.last() == active_client ) global_focus_chain.insert( global_focus_chain.size() - 1, c ); else global_focus_chain.append( c ); // Otherwise add as the first one } } void Workspace::updateCurrentTopMenu() { if( !managingTopMenus() ) return; // toplevel menubar handling Client* menubar = 0; bool block_desktop_menubar = false; if( active_client ) { // Show the new menu bar first... Client* menu_client = active_client; for( ;; ) { if( menu_client->isFullScreen() ) block_desktop_menubar = true; for( ClientList::ConstIterator it = menu_client->transients().constBegin(); it != menu_client->transients().constEnd(); ++it ) if( (*it)->isTopMenu() ) { menubar = *it; break; } if( menubar != NULL || !menu_client->isTransient() ) break; if( menu_client->isModal() || menu_client->transientFor() == NULL ) break; // Don't use mainwindow's menu if this is modal or group transient menu_client = menu_client->transientFor(); } if( !menubar ) { // Try to find any topmenu from the application (#72113) for( ClientList::ConstIterator it = active_client->group()->members().constBegin(); it != active_client->group()->members().constEnd(); ++it ) if( (*it)->isTopMenu() ) { menubar = *it; break; } } } if( !menubar && !block_desktop_menubar && options->desktopTopMenu() ) { // Find the menubar of the desktop Client* desktop = findDesktop( true, currentDesktop() ); if( desktop != NULL ) { for( ClientList::ConstIterator it = desktop->transients().constBegin(); it != desktop->transients().constEnd(); ++it ) if( (*it)->isTopMenu() ) { menubar = *it; break; } } // TODO: To be cleaned app with window grouping // Without qt-copy patch #0009, the topmenu and desktop are not in the same group, // thus the topmenu is not transient for it :-/. if( menubar == NULL ) { for( ClientList::ConstIterator it = topmenus.constBegin(); it != topmenus.constEnd(); ++it ) // kdesktop's topmenu has WM_TRANSIENT_FOR set pointing to the root window // to recognize it here. Also, with the xroot hack in kdesktop, there's // no NET::Desktop window to be transient for. if( (*it)->wasOriginallyGroupTransient() ) { menubar = *it; break; } } } //kDebug( 1212 ) << "CURRENT TOPMENU:" << menubar << ":" << active_client; if( menubar ) { if( active_client && !menubar->isOnDesktop( active_client->desktop() )) menubar->setDesktop( active_client->desktop() ); menubar->hideClient( false ); topmenu_space->hide(); // Make it appear like it's been raised manually - it's in the Dock layer anyway, // and not raising it could mess up stacking order of topmenus within one application, // and thus break raising of mainclients in raiseClient() unconstrained_stacking_order.removeAll( menubar ); unconstrained_stacking_order.append( menubar ); } else if( !block_desktop_menubar ) { // No topmenu active - show the space window, so that there's not empty space topmenu_space->show(); } // ... Then hide the other ones. Avoids flickers. for( ClientList::ConstIterator it = clients.constBegin(); it != clients.constEnd(); ++it ) if( (*it)->isTopMenu() && (*it) != menubar ) (*it)->hideClient( true ); } void Workspace::updateToolWindows( bool also_hide ) { // TODO: What if Client's transiency/group changes? should this be called too? (I'm paranoid, am I not?) if( !options->hideUtilityWindowsForInactive ) { for( ClientList::ConstIterator it = clients.constBegin(); it != clients.constEnd(); ++it ) (*it)->hideClient( false ); return; } const Group* group = NULL; const Client* client = active_client; // Go up in transiency hiearchy, if the top is found, only tool transients for the top mainwindow // will be shown; if a group transient is group, all tools in the group will be shown while( client != NULL ) { if( !client->isTransient()) break; if( client->groupTransient()) { group = client->group(); break; } client = client->transientFor(); } // Use stacking order only to reduce flicker, it doesn't matter if block_stacking_updates == 0, // I.e. if it's not up to date // SELI TODO: But maybe it should - what if a new client has been added that's not in stacking order yet? ClientList to_show, to_hide; for( ClientList::ConstIterator it = stacking_order.constBegin(); it != stacking_order.constEnd(); ++it ) { if( (*it)->isUtility() || (*it)->isMenu() || (*it)->isToolbar() ) { bool show = true; if( !(*it)->isTransient() ) { if( (*it)->group()->members().count() == 1 ) // Has its own group, keep always visible show = true; else if( client != NULL && (*it)->group() == client->group() ) show = true; else show = false; } else { if( group != NULL && (*it)->group() == group ) show = true; else if( client != NULL && client->hasTransient( (*it), true )) show = true; else show = false; } if( !show && also_hide ) { const ClientList mainclients = (*it)->mainClients(); // Don't hide utility windows which are standalone(?) or // have e.g. kicker as mainwindow if( mainclients.isEmpty()) show = true; for( ClientList::ConstIterator it2 = mainclients.constBegin(); it2 != mainclients.constEnd(); ++it2 ) { if( (*it2)->isSpecialWindow() ) show = true; } if( !show ) to_hide.append( *it ); } if( show ) to_show.append( *it ); } } // First show new ones, then hide for( int i = to_show.size() - 1; i >= 0; --i ) // From topmost // TODO: Since this is in stacking order, the order of taskbar entries changes :( to_show.at( i )->hideClient( false ); if( also_hide ) { for( ClientList::ConstIterator it = to_hide.constBegin(); it != to_hide.constEnd(); ++it ) // From bottommost (*it)->hideClient( true ); updateToolWindowsTimer.stop(); } else // setActiveClient() is after called with NULL client, quickly followed // by setting a new client, which would result in flickering updateToolWindowsTimer.start( 50 ); } void Workspace::slotUpdateToolWindows() { updateToolWindows( true ); } /** * Updates the current colormap according to the currently active client */ void Workspace::updateColormap() { Colormap cmap = default_colormap; if( activeClient() && activeClient()->colormap() != None ) cmap = activeClient()->colormap(); if( cmap != installed_colormap ) { XInstallColormap( display(), cmap ); installed_colormap = cmap; } } void Workspace::slotReloadConfig() { reconfigure(); } void Workspace::reconfigure() { reconfigureTimer.start( 200 ); } /** * This D-Bus call is used by the compositing kcm. Since the reconfigure() * D-Bus call delays the actual reconfiguring, it is not possible to immediately * call compositingActive(). Therefore the kcm will instead call this to ensure * the reconfiguring has already happened. */ bool Workspace::waitForCompositingSetup() { if( reconfigureTimer.isActive() ) { reconfigureTimer.stop(); slotReconfigure(); } return compositingActive(); } void Workspace::slotSettingsChanged( int category ) { kDebug( 1212 ) << "Workspace::slotSettingsChanged()"; if( category == KGlobalSettings::SETTINGS_SHORTCUTS ) readShortcuts(); } /** * Reread settings */ KWIN_PROCEDURE( CheckBorderSizesProcedure, Client, cl->checkBorderSizes( true )); void Workspace::slotReconfigure() { kDebug( 1212 ) << "Workspace::slotReconfigure()"; reconfigureTimer.stop(); reserveElectricBorderActions( false ); if( options->electricBorders() == Options::ElectricAlways ) reserveElectricBorderSwitching( false ); KGlobal::config()->reparseConfiguration(); unsigned long changed = options->updateSettings(); tab_box->reconfigure(); desktop_change_osd->reconfigure(); initPositioning->reinitCascading( 0 ); readShortcuts(); forEachClient( CheckIgnoreFocusStealingProcedure()); updateToolWindows( true ); if( mgr->reset( changed )) { // Decorations need to be recreated // This actually seems to make things worse now //QWidget curtain; //curtain.setBackgroundMode( NoBackground ); //curtain.setGeometry( Kephal::ScreenUtils::desktopGeometry() ); //curtain.show(); for( ClientList::ConstIterator it = clients.constBegin(); it != clients.constEnd(); ++it ) (*it)->updateDecoration( true, true ); mgr->destroyPreviousPlugin(); } else { forEachClient( CheckBorderSizesProcedure() ); foreach( Client* c, clients ) c->triggerDecorationRepaint(); } reserveElectricBorderActions( true ); if( options->electricBorders() == Options::ElectricAlways ) reserveElectricBorderSwitching( true ); updateElectricBorders(); if( options->topMenuEnabled() && !managingTopMenus() ) { if( topmenu_selection->claim( false )) setupTopMenuHandling(); else lostTopMenuSelection(); } else if( !options->topMenuEnabled() && managingTopMenus() ) { topmenu_selection->release(); lostTopMenuSelection(); } topmenu_height = 0; // Invalidate used menu height if( managingTopMenus() ) { updateTopMenuGeometry(); updateCurrentTopMenu(); } if( options->useCompositing && !compositingSuspended ) { setupCompositing(); if( effects ) // setupCompositing() may fail effects->reconfigure(); addRepaintFull(); } else finishCompositing(); loadWindowRules(); for( ClientList::Iterator it = clients.begin(); it != clients.end(); ++it ) { (*it)->setupWindowRules( true ); (*it)->applyWindowRules(); discardUsedWindowRules( *it, false ); } } void Workspace::slotReinitCompositing() { // Reparse config. Config options will be reloaded by setupCompositing() KGlobal::config()->reparseConfiguration(); options->updateSettings(); // Update any settings that can be set in the compositing kcm. updateElectricBorders(); // Restart compositing finishCompositing(); // resume compositing if suspended compositingSuspended = false; setupCompositing(); KDecorationFactory* factory = mgr->factory(); factory->reset(SettingCompositing); if( effects ) // setupCompositing() may fail { effects->reconfigure(); emit compositingToggled( true ); } } void Workspace::loadDesktopSettings() { KSharedConfig::Ptr c = KGlobal::config(); QString groupname; if( screen_number == 0 ) groupname = "Desktops"; else groupname.sprintf( "Desktops-screen-%d", screen_number ); KConfigGroup group( c, groupname ); int n = group.readEntry( "Number", 4 ); desktopCount_ = n; workarea.clear(); workarea.resize( n + 1 ); restrictedmovearea.clear(); restrictedmovearea.resize( n + 1 ); oldrestrictedmovearea.clear(); oldrestrictedmovearea.resize( n + 1 ); screenarea.clear(); rootInfo->setNumberOfDesktops( n ); desktop_focus_chain.resize( n ); // Make it +1, so that it can be accessed as [1..numberofdesktops] focus_chain.resize( n + 1 ); for( int i = 1; i <= n; i++ ) { QString s = group.readEntry( QString( "Name_%1" ).arg( i ), i18n( "Desktop %1", i )); rootInfo->setDesktopName( i, s.toUtf8().data() ); desktop_focus_chain[i-1] = i; } } void Workspace::saveDesktopSettings() { KSharedConfig::Ptr c = KGlobal::config(); QString groupname; if (screen_number == 0) groupname = "Desktops"; else groupname.sprintf( "Desktops-screen-%d", screen_number ); KConfigGroup group( c, groupname ); group.writeEntry( "Number", numberOfDesktops() ); for( int i = 1; i <= numberOfDesktops(); i++ ) { QString s = desktopName( i ); QString defaultvalue = i18n( "Desktop %1", i ); if( s.isEmpty() ) { s = defaultvalue; rootInfo->setDesktopName( i, s.toUtf8().data() ); } if( s != defaultvalue ) { group.writeEntry( QString( "Name_%1" ).arg( i ), s ); } else { QString currentvalue = group.readEntry( QString( "Name_%1" ).arg( i ), QString() ); if( currentvalue != defaultvalue ) group.writeEntry( QString( "Name_%1" ).arg( i ), "" ); } } // Save to disk group.sync(); } QStringList Workspace::configModules( bool controlCenter ) { QStringList args; args << "kwindecoration"; if( controlCenter ) args << "kwinoptions"; else if( KAuthorized::authorizeControlModule( "kde-kwinoptions.desktop" )) args << "kwinactions" << "kwinfocus" << "kwinmoving" << "kwinadvanced" << "kwinrules" << "kwincompositing" << "kwintabbox"; return args; } void Workspace::configureWM() { QStringList args; args << "--icon" << "preferences-system-windows" << configModules( false ); KToolInvocation::kdeinitExec( "kcmshell4", args ); } /** * Avoids managing a window with title \a title */ void Workspace::doNotManage( const QString& title ) { doNotManageList.append( title ); } /** * Hack for java applets */ bool Workspace::isNotManaged( const QString& title ) { for( QStringList::Iterator it = doNotManageList.begin(); it != doNotManageList.end(); ++it ) { QRegExp r( (*it) ); if( r.indexIn(title) != -1 ) { doNotManageList.erase( it ); return true; } } return false; } /** * Refreshes all the client windows */ void Workspace::refresh() { QWidget w( NULL, Qt::X11BypassWindowManagerHint ); w.setGeometry( Kephal::ScreenUtils::desktopGeometry() ); w.show(); w.hide(); QApplication::flush(); } /** * During virt. desktop switching, desktop areas covered by windows that are * going to be hidden are first obscured by new windows with no background * ( i.e. transparent ) placed right below the windows. These invisible windows * are removed after the switch is complete. * Reduces desktop ( wallpaper ) repaints during desktop switching */ class ObscuringWindows { public: ~ObscuringWindows(); void create( Client* c ); private: QList obscuring_windows; static QList* cached; static unsigned int max_cache_size; }; QList* ObscuringWindows::cached = 0; unsigned int ObscuringWindows::max_cache_size = 0; void ObscuringWindows::create( Client* c ) { if( compositing() ) return; // Not needed with compositing if( cached == 0 ) cached = new QList; Window obs_win; XWindowChanges chngs; int mask = CWSibling | CWStackMode; if( cached->count() > 0 ) { cached->removeAll( obs_win = cached->first() ); chngs.x = c->x(); chngs.y = c->y(); chngs.width = c->width(); chngs.height = c->height(); mask |= CWX | CWY | CWWidth | CWHeight; } else { XSetWindowAttributes a; a.background_pixmap = None; a.override_redirect = True; obs_win = XCreateWindow( display(), rootWindow(), c->x(), c->y(), c->width(), c->height(), 0, CopyFromParent, InputOutput, CopyFromParent, CWBackPixmap | CWOverrideRedirect, &a ); } chngs.sibling = c->frameId(); chngs.stack_mode = Below; XConfigureWindow( display(), obs_win, mask, &chngs ); XMapWindow( display(), obs_win ); obscuring_windows.append( obs_win ); } ObscuringWindows::~ObscuringWindows() { max_cache_size = qMax( int( max_cache_size ), obscuring_windows.count() + 4 ) - 1; for( QList::ConstIterator it = obscuring_windows.constBegin(); it != obscuring_windows.constEnd(); ++it ) { XUnmapWindow( display(), *it ); if( cached->count() < int( max_cache_size )) cached->prepend( *it ); else XDestroyWindow( display(), *it ); } } /** * Sets the current desktop to \a new_desktop * * Shows/Hides windows according to the stacking order and finally * propages the new desktop to the world */ bool Workspace::setCurrentDesktop( int new_desktop ) { if( new_desktop < 1 || new_desktop > numberOfDesktops() ) return false; closeActivePopup(); ++block_focus; // TODO: Q_ASSERT( block_stacking_updates == 0 ); // Make sure stacking_order is up to date StackingUpdatesBlocker blocker( this ); int old_desktop = currentDesktop(); if (new_desktop != currentDesktop() ) { ++block_showing_desktop; // Optimized Desktop switching: unmapping done from back to front // mapping done from front to back => less exposure events Notify::raise((Notify::Event) (Notify::DesktopChange+new_desktop)); ObscuringWindows obs_wins; currentDesktop_ = new_desktop; // Change the desktop (so that Client::updateVisibility() works) for( ClientList::ConstIterator it = stacking_order.constBegin(); it != stacking_order.constEnd(); ++it ) if( !(*it)->isOnDesktop( new_desktop ) && (*it) != movingClient ) { if( (*it)->isShown( true ) && (*it)->isOnDesktop( old_desktop )) obs_wins.create( *it ); (*it)->updateVisibility(); } // Now propagate the change, after hiding, before showing rootInfo->setCurrentDesktop( currentDesktop() ); if( movingClient && !movingClient->isOnDesktop( new_desktop )) movingClient->setDesktop( new_desktop ); for( int i = stacking_order.size() - 1; i >= 0 ; --i ) if( stacking_order.at( i )->isOnDesktop( new_desktop )) stacking_order.at( i )->updateVisibility(); --block_showing_desktop; if( showingDesktop() ) // Do this only after desktop change to avoid flicker resetShowingDesktop( false ); } // Restore the focus on this desktop --block_focus; Client* c = 0; if( options->focusPolicyIsReasonable() ) { // Search in focus chain if( movingClient != NULL && active_client == movingClient && focus_chain[currentDesktop()].contains( active_client ) && active_client->isShown( true ) && active_client->isOnCurrentDesktop()) c = active_client; // The requestFocus below will fail, as the client is already active if( !c ) { for( int i = focus_chain[currentDesktop()].size() - 1; i >= 0; --i ) { if( focus_chain[currentDesktop()].at( i )->isShown( false ) && focus_chain[currentDesktop()].at( i )->isOnCurrentDesktop() ) { c = focus_chain[currentDesktop()].at( i ); break; } } } } // If "unreasonable focus policy" and active_client is on_all_desktops and // under mouse (Hence == old_active_client), conserve focus. // (Thanks to Volker Schatz ) else if( active_client && active_client->isShown( true ) && active_client->isOnCurrentDesktop() ) c = active_client; if( c == NULL && !desktops.isEmpty() ) c = findDesktop( true, currentDesktop() ); if( c != active_client ) setActiveClient( NULL, Allowed ); if ( c ) requestFocus( c ); else if( !desktops.isEmpty() ) requestFocus( findDesktop( true, currentDesktop() )); else focusToNull(); updateCurrentTopMenu(); // Update focus chain: // If input: chain = { 1, 2, 3, 4 } and currentDesktop() = 3, // Output: chain = { 3, 1, 2, 4 }. //kDebug(1212) << QString("Switching to desktop #%1, at focus_chain index %2\n") // .arg(currentDesktop()).arg(desktop_focus_chain.find( currentDesktop() )); for( int i = desktop_focus_chain.indexOf( currentDesktop() ); i > 0; i-- ) desktop_focus_chain[i] = desktop_focus_chain[i-1]; desktop_focus_chain[0] = currentDesktop(); //QString s = "desktop_focus_chain[] = { "; //for( uint i = 0; i < desktop_focus_chain.size(); i++ ) // s += QString::number( desktop_focus_chain[i] ) + ", "; //kDebug( 1212 ) << s << "}\n"; // Not for the very first time, only if something changed and there are more than 1 desktops if( old_desktop != 0 && old_desktop != new_desktop && numberOfDesktops() > 1 ) desktop_change_osd->desktopChanged( old_desktop ); if( effects != NULL && old_desktop != 0 && old_desktop != new_desktop ) static_cast( effects )->desktopChanged( old_desktop ); if( compositing()) addRepaintFull(); return true; } /** * Called only from D-Bus */ void Workspace::nextDesktop() { int desktop = currentDesktop() + 1; setCurrentDesktop( desktop > numberOfDesktops() ? 1 : desktop ); } /** * Called only from D-Bus */ void Workspace::previousDesktop() { int desktop = currentDesktop() - 1; setCurrentDesktop( desktop > 0 ? desktop : numberOfDesktops() ); } /** * Sets the number of virtual desktops to \a n */ void Workspace::setNumberOfDesktops( int n ) { if( n == numberOfDesktops() ) return; int old_number_of_desktops = numberOfDesktops(); desktopCount_ = n; updateDesktopLayout(); // Make sure the layout is still valid if( currentDesktop() > numberOfDesktops() ) setCurrentDesktop( numberOfDesktops() ); // If increasing the number, do the resizing now, otherwise // after the moving of windows to still existing desktops if( old_number_of_desktops < numberOfDesktops() ) { rootInfo->setNumberOfDesktops( numberOfDesktops() ); NETPoint* viewports = new NETPoint[numberOfDesktops()]; rootInfo->setDesktopViewport( numberOfDesktops(), *viewports ); delete[] viewports; updateClientArea( true ); focus_chain.resize( numberOfDesktops() + 1 ); } // If the number of desktops decreased, move all windows // that would be hidden to the last visible desktop if( old_number_of_desktops > numberOfDesktops() ) { for( ClientList::ConstIterator it = clients.constBegin(); it != clients.constEnd(); ++it) if( !(*it)->isOnAllDesktops() && (*it)->desktop() > numberOfDesktops() ) sendClientToDesktop( *it, numberOfDesktops(), true ); } if( old_number_of_desktops > numberOfDesktops() ) { rootInfo->setNumberOfDesktops( numberOfDesktops() ); NETPoint* viewports = new NETPoint[numberOfDesktops()]; rootInfo->setDesktopViewport( numberOfDesktops(), *viewports ); delete[] viewports; updateClientArea( true ); focus_chain.resize( numberOfDesktops() + 1 ); } saveDesktopSettings(); // Resize and reset the desktop focus chain. desktop_focus_chain.resize( n ); for( int i = 0; i < int( desktop_focus_chain.size() ); i++ ) desktop_focus_chain[i] = i+1; // reset the desktop change osd desktop_change_osd->numberDesktopsChanged(); } /** * Sends client \a c to desktop \a desk. * * Takes care of transients as well. */ void Workspace::sendClientToDesktop( Client* c, int desk, bool dont_activate ) { bool was_on_desktop = c->isOnDesktop( desk ) || c->isOnAllDesktops(); c->setDesktop( desk ); if( c->desktop() != desk ) // No change or desktop forced return; desk = c->desktop(); // Client did range checking if( c->isOnDesktop( currentDesktop() )) { if( c->wantsTabFocus() && options->focusPolicyIsReasonable() && !was_on_desktop && // for stickyness changes !dont_activate ) requestFocus( c ); else restackClientUnderActive( c ); } else raiseClient( c ); ClientList transients_stacking_order = ensureStackingOrder( c->transients() ); for( ClientList::ConstIterator it = transients_stacking_order.constBegin(); it != transients_stacking_order.constEnd(); ++it ) sendClientToDesktop( *it, desk, dont_activate ); updateClientArea(); } int Workspace::numScreens() const { if( !options->xineramaEnabled ) return 1; return Kephal::ScreenUtils::numScreens(); } int Workspace::activeScreen() const { if( !options->xineramaEnabled ) return 0; if( !options->activeMouseScreen ) { if( activeClient() != NULL && !activeClient()->isOnScreen( active_screen )) return activeClient()->screen(); return active_screen; } return Kephal::ScreenUtils::screenId( cursorPos()); } /** * Check whether a client moved completely out of what's considered the active screen, * if yes, set a new active screen. */ void Workspace::checkActiveScreen( const Client* c ) { if( !options->xineramaEnabled ) return; if( !c->isActive()) return; if( !c->isOnScreen( active_screen )) active_screen = c->screen(); } /** * Called e.g. when a user clicks on a window, set active screen to be the screen * where the click occurred */ void Workspace::setActiveScreenMouse( const QPoint& mousepos ) { if( !options->xineramaEnabled ) return; active_screen = Kephal::ScreenUtils::screenId( mousepos ); } QRect Workspace::screenGeometry( int screen ) const { if( !options->xineramaEnabled ) return Kephal::ScreenUtils::desktopGeometry(); return Kephal::ScreenUtils::screenGeometry( screen ); } int Workspace::screenNumber( const QPoint& pos ) const { if( !options->xineramaEnabled ) return 0; return Kephal::ScreenUtils::screenId( pos ); } void Workspace::sendClientToScreen( Client* c, int screen ) { if( c->screen() == screen ) // Don't use isOnScreen(), that's true even when only partially return; GeometryUpdatesBlocker blocker( c ); QRect old_sarea = clientArea( MaximizeArea, c ); QRect sarea = clientArea( MaximizeArea, screen, c->desktop() ); c->setGeometry( sarea.x() - old_sarea.x() + c->x(), sarea.y() - old_sarea.y() + c->y(), c->size().width(), c->size().height() ); c->checkWorkspacePosition(); ClientList transients_stacking_order = ensureStackingOrder( c->transients() ); for( ClientList::ConstIterator it = transients_stacking_order.constBegin(); it != transients_stacking_order.constEnd(); ++it ) sendClientToScreen( *it, screen ); if( c->isActive() ) active_screen = screen; } void Workspace::killWindowId( Window window_to_kill ) { if( window_to_kill == None ) return; Window window = window_to_kill; Client* client = NULL; for( ;; ) { client = findClient( FrameIdMatchPredicate( window )); if( client != NULL ) break; // Found the client Window parent, root; Window* children; unsigned int children_count; XQueryTree( display(), window, &root, &parent, &children, &children_count ); if( children != NULL ) XFree( children ); if( window == root ) // We didn't find the client, probably an override-redirect window break; window = parent; // Go up } if( client != NULL ) client->killWindow(); else XKillClient( display(), window_to_kill ); } void Workspace::sendPingToWindow( Window window, Time timestamp ) { rootInfo->sendPing( window, timestamp ); } void Workspace::sendTakeActivity( Client* c, Time timestamp, long flags ) { rootInfo->takeActivity( c->window(), timestamp, flags ); pending_take_activity = c; } /** * Takes a screenshot of the current window and puts it in the clipboard. */ void Workspace::slotGrabWindow() { if ( active_client ) { QPixmap snapshot = QPixmap::grabWindow( active_client->frameId() ); // No XShape - no work. if( Extensions::shapeAvailable() ) { // As the first step, get the mask from XShape. int count, order; XRectangle* rects = XShapeGetRectangles( display(), active_client->frameId(), ShapeBounding, &count, &order); // The ShapeBounding region is the outermost shape of the window; // ShapeBounding - ShapeClipping is defined to be the border. // Since the border area is part of the window, we use bounding // to limit our work region if( rects ) { // Create a QRegion from the rectangles describing the bounding mask. QRegion contents; for( int pos = 0; pos < count; pos++ ) contents += QRegion( rects[pos].x, rects[pos].y, rects[pos].width, rects[pos].height); XFree( rects ); // Create the bounding box. QRegion bbox( 0, 0, snapshot.width(), snapshot.height() ); // Get the masked away area. QRegion maskedAway = bbox - contents; QVector maskedAwayRects = maskedAway.rects(); // Construct a bitmap mask from the rectangles QBitmap mask( snapshot.width(), snapshot.height() ); QPainter p( &mask ); p.fillRect( 0, 0, mask.width(), mask.height(), Qt::color1 ); for( int pos = 0; pos < maskedAwayRects.count(); pos++ ) p.fillRect( maskedAwayRects[pos], Qt::color0 ); p.end(); snapshot.setMask( mask ); } } QClipboard* cb = QApplication::clipboard(); cb->setPixmap( snapshot ); } else slotGrabDesktop(); } /** * Takes a screenshot of the whole desktop and puts it in the clipboard. */ void Workspace::slotGrabDesktop() { QPixmap p = QPixmap::grabWindow( rootWindow() ); QClipboard* cb = QApplication::clipboard(); cb->setPixmap( p ); } /** * Invokes keyboard mouse emulation */ void Workspace::slotMouseEmulation() { if( mouse_emulation ) { ungrabXKeyboard(); mouse_emulation = false; return; } if( grabXKeyboard() ) { mouse_emulation = true; mouse_emulation_state = 0; mouse_emulation_window = 0; } } /** * Returns the child window under the mouse and activates the * respective client if necessary. * * Auxiliary function for the mouse emulation system. */ WId Workspace::getMouseEmulationWindow() { Window root; Window child = rootWindow(); int root_x, root_y, lx, ly; uint state; Window w; Client * c = 0; do { w = child; if( !c ) c = findClient( FrameIdMatchPredicate( w )); XQueryPointer( display(), w, &root, &child, &root_x, &root_y, &lx, &ly, &state ); } while ( child != None && child != w ); if( c && !c->isActive() ) activateClient( c ); return WId( w ); } /** * Sends a faked mouse event to the specified window. Returns the new button state. */ unsigned int Workspace::sendFakedMouseEvent( const QPoint& pos, WId w, MouseEmulation type, int button, unsigned int state ) { if ( !w ) return state; QWidget* widget = QWidget::find( w ); if(( !widget || qobject_cast( widget )) && !findClient( WindowMatchPredicate( w ))) { int x, y; Window xw; XTranslateCoordinates( display(), rootWindow(), w, pos.x(), pos.y(), &x, &y, &xw ); if( type == EmuMove ) { // Motion notify events XEvent e; e.type = MotionNotify; e.xmotion.window = w; e.xmotion.root = rootWindow(); e.xmotion.subwindow = w; e.xmotion.time = xTime(); e.xmotion.x = x; e.xmotion.y = y; e.xmotion.x_root = pos.x(); e.xmotion.y_root = pos.y(); e.xmotion.state = state; e.xmotion.is_hint = NotifyNormal; XSendEvent( display(), w, true, ButtonMotionMask, &e ); } else { XEvent e; e.type = type == EmuRelease ? ButtonRelease : ButtonPress; e.xbutton.window = w; e.xbutton.root = rootWindow(); e.xbutton.subwindow = w; e.xbutton.time = xTime(); e.xbutton.x = x; e.xbutton.y = y; e.xbutton.x_root = pos.x(); e.xbutton.y_root = pos.y(); e.xbutton.state = state; e.xbutton.button = button; XSendEvent( display(), w, true, ButtonPressMask, &e ); if( type == EmuPress ) { switch( button ) { case 2: state |= Button2Mask; break; case 3: state |= Button3Mask; break; default: // 1 state |= Button1Mask; break; } } else { switch( button ) { case 2: state &= ~Button2Mask; break; case 3: state &= ~Button3Mask; break; default: // 1 state &= ~Button1Mask; break; } } } } return state; } /** * Handles keypress event during mouse emulation */ bool Workspace::keyPressMouseEmulation( XKeyEvent& ev ) { int kc = XKeycodeToKeysym( display(), ev.keycode, 0 ); int km = ev.state & ( ControlMask | Mod1Mask | ShiftMask ); bool is_control = km & ControlMask; bool is_alt = km & Mod1Mask; bool is_shift = km & ShiftMask; int delta = is_control ? 1 : ( is_alt ? 32 : 8 ); QPoint pos = cursorPos(); switch( kc ) { case XK_Left: case XK_KP_Left: pos.rx() -= delta; break; case XK_Right: case XK_KP_Right: pos.rx() += delta; break; case XK_Up: case XK_KP_Up: pos.ry() -= delta; break; case XK_Down: case XK_KP_Down: pos.ry() += delta; break; case XK_F1: if( !mouse_emulation_state ) mouse_emulation_window = getMouseEmulationWindow(); if(( mouse_emulation_state & Button1Mask ) == 0 ) mouse_emulation_state = sendFakedMouseEvent( pos, mouse_emulation_window, EmuPress, Button1, mouse_emulation_state ); if( !is_shift ) mouse_emulation_state = sendFakedMouseEvent( pos, mouse_emulation_window, EmuRelease, Button1, mouse_emulation_state ); break; case XK_F2: if( !mouse_emulation_state ) mouse_emulation_window = getMouseEmulationWindow(); if(( mouse_emulation_state & Button2Mask ) == 0 ) mouse_emulation_state = sendFakedMouseEvent( pos, mouse_emulation_window, EmuPress, Button2, mouse_emulation_state ); if( !is_shift ) mouse_emulation_state = sendFakedMouseEvent( pos, mouse_emulation_window, EmuRelease, Button2, mouse_emulation_state ); break; case XK_F3: if( !mouse_emulation_state ) mouse_emulation_window = getMouseEmulationWindow(); if(( mouse_emulation_state & Button3Mask ) == 0 ) mouse_emulation_state = sendFakedMouseEvent( pos, mouse_emulation_window, EmuPress, Button3, mouse_emulation_state ); if( !is_shift ) mouse_emulation_state = sendFakedMouseEvent( pos, mouse_emulation_window, EmuRelease, Button3, mouse_emulation_state ); break; case XK_Return: case XK_space: case XK_KP_Enter: case XK_KP_Space: { if( !mouse_emulation_state ) { // Nothing was pressed, fake a LMB click mouse_emulation_window = getMouseEmulationWindow(); mouse_emulation_state = sendFakedMouseEvent( pos, mouse_emulation_window, EmuPress, Button1, mouse_emulation_state ); mouse_emulation_state = sendFakedMouseEvent( pos, mouse_emulation_window, EmuRelease, Button1, mouse_emulation_state ); } else { // Release all if( mouse_emulation_state & Button1Mask ) mouse_emulation_state = sendFakedMouseEvent( pos, mouse_emulation_window, EmuRelease, Button1, mouse_emulation_state ); if( mouse_emulation_state & Button2Mask ) mouse_emulation_state = sendFakedMouseEvent( pos, mouse_emulation_window, EmuRelease, Button2, mouse_emulation_state ); if( mouse_emulation_state & Button3Mask ) mouse_emulation_state = sendFakedMouseEvent( pos, mouse_emulation_window, EmuRelease, Button3, mouse_emulation_state ); } } // Fall through case XK_Escape: ungrabXKeyboard(); mouse_emulation = false; return true; default: return false; } QCursor::setPos( pos ); if( mouse_emulation_state ) mouse_emulation_state = sendFakedMouseEvent( pos, mouse_emulation_window, EmuMove, 0, mouse_emulation_state ); return true; } /** * Delayed focus functions */ void Workspace::delayFocus() { requestFocus( delayfocus_client ); cancelDelayFocus(); } void Workspace::requestDelayFocus( Client* c ) { delayfocus_client = c; delete delayFocusTimer; delayFocusTimer = new QTimer( this ); connect( delayFocusTimer, SIGNAL( timeout() ), this, SLOT( delayFocus() ) ); delayFocusTimer->setSingleShot( true ); delayFocusTimer->start( options->delayFocusInterval ); } void Workspace::cancelDelayFocus() { delete delayFocusTimer; delayFocusTimer = 0; } //----------------------------------------------------------------------------- // Electric Borders //----------------------------------------------------------------------------- // Electric Border Window management. Electric borders allow a user to change // the virtual desktop or activate another features by moving the mouse pointer // to the borders or corners. Technically this is done with input only windows. //----------------------------------------------------------------------------- void Workspace::updateElectricBorders() { electric_time_first = xTime(); electric_time_last = xTime(); electric_time_last_trigger = xTime(); electric_current_border = ElectricNone; QRect r = Kephal::ScreenUtils::desktopGeometry(); electricTop = r.top(); electricBottom = r.bottom(); electricLeft = r.left(); electricRight = r.right(); for( int pos = 0; pos < ELECTRIC_COUNT; ++pos ) { if( electric_reserved[pos] == 0 ) { if( electric_windows[pos] != None ) XDestroyWindow( display(), electric_windows[pos] ); electric_windows[pos] = None; continue; } if( electric_windows[pos] != None ) continue; XSetWindowAttributes attributes; attributes.override_redirect = True; attributes.event_mask = EnterWindowMask | LeaveWindowMask; unsigned long valuemask = CWOverrideRedirect | CWEventMask; int xywh[ELECTRIC_COUNT][4] = { { r.left() + 1, r.top(), r.width() - 2, 1 }, // Top { r.right(), r.top(), 1, 1 }, // Top-right { r.right(), r.top() + 1, 1, r.height() - 2 }, // Etc. { r.right(), r.bottom(), 1, 1 }, { r.left() + 1, r.bottom(), r.width() - 2, 1 }, { r.left(), r.bottom(), 1, 1 }, { r.left(), r.top() + 1, 1, r.height() - 2 }, { r.left(), r.top(), 1, 1 } }; electric_windows[pos] = XCreateWindow( display(), rootWindow(), xywh[pos][0], xywh[pos][1], xywh[pos][2], xywh[pos][3], 0, CopyFromParent, InputOnly, CopyFromParent, valuemask, &attributes ); XMapWindow( display(), electric_windows[pos] ); // Set XdndAware on the windows, so that DND enter events are received (#86998) Atom version = 4; // XDND version XChangeProperty( display(), electric_windows[pos], atoms->xdnd_aware, XA_ATOM, 32, PropModeReplace, (unsigned char*)( &version ), 1 ); } } void Workspace::destroyElectricBorders() { for( int pos = 0; pos < ELECTRIC_COUNT; ++pos ) { if( electric_windows[pos] != None ) XDestroyWindow( display(), electric_windows[pos] ); electric_windows[pos] = None; } } void Workspace::reserveElectricBorderActions( bool reserve ) { for( int pos = 0; pos < ELECTRIC_COUNT; ++pos ) if( options->electricBorderAction( static_cast( pos ))) { if( reserve ) reserveElectricBorder( static_cast( pos )); else unreserveElectricBorder( static_cast( pos )); } } void Workspace::reserveElectricBorderSwitching( bool reserve ) { for( int pos = 0; pos < ELECTRIC_COUNT; ++pos ) if( reserve ) reserveElectricBorder( static_cast( pos )); else unreserveElectricBorder( static_cast( pos )); } void Workspace::reserveElectricBorder( ElectricBorder border ) { if( border == ElectricNone ) return; if( electric_reserved[border]++ == 0 ) QTimer::singleShot( 0, this, SLOT( updateElectricBorders() )); } void Workspace::unreserveElectricBorder( ElectricBorder border ) { if( border == ElectricNone ) return; assert( electric_reserved[border] > 0 ); if( --electric_reserved[border] == 0 ) QTimer::singleShot( 0, this, SLOT( updateElectricBorders() )); } void Workspace::checkElectricBorder(const QPoint& pos, Time now) { if(( pos.x() != electricLeft ) && ( pos.x() != electricRight ) && ( pos.y() != electricTop ) && ( pos.y() != electricBottom )) return; bool have_borders = false; for( int i = 0; i < ELECTRIC_COUNT; ++i ) if( electric_windows[i] != None ) have_borders = true; if( !have_borders ) return; Time treshold_set = options->electricBorderDelay(); // Set timeout Time treshold_reset = 250; // Reset timeout Time treshold_trigger = options->electricBorderCooldown(); // Minimum time between triggers int distance_reset = 30; // Mouse should not move more than this many pixels int pushback_pixels = options->electricBorderPushbackPixels(); ElectricBorder border; if( pos.x() == electricLeft && pos.y() == electricTop ) border = ElectricTopLeft; else if( pos.x() == electricRight && pos.y() == electricTop ) border = ElectricTopRight; else if( pos.x() == electricLeft && pos.y() == electricBottom ) border = ElectricBottomLeft; else if( pos.x() == electricRight && pos.y() == electricBottom ) border = ElectricBottomRight; else if( pos.x() == electricLeft ) border = ElectricLeft; else if( pos.x() == electricRight ) border = ElectricRight; else if( pos.y() == electricTop ) border = ElectricTop; else if( pos.y() == electricBottom ) border = ElectricBottom; else abort(); if( electric_windows[border] == None ) return; if( pushback_pixels == 0 ) { // no pushback so we have to activate at once electric_time_last = now; } if(( electric_current_border == border ) && ( timestampDiff( electric_time_last, now ) < treshold_reset ) && ( timestampDiff( electric_time_last_trigger, now ) > treshold_trigger ) && (( pos-electric_push_point ).manhattanLength() < distance_reset )) { electric_time_last = now; if( timestampDiff( electric_time_first, now ) > treshold_set ) { electric_current_border = ElectricNone; electric_time_last_trigger = now; if( movingClient ) { // If moving a client or have force doing the desktop switch if( options->electricBorders() != Options::ElectricDisabled ) { electricBorderSwitchDesktop( border, pos ); return; // Don't reset cursor position } // maximize only when not using for switch if( options->electricBorderMaximize() && border == ElectricTop && movingClient->isMaximizable() ) { bool enable = !movingClient->isElectricBorderMaximizing(); movingClient->setElectricBorderMode( ElectricMaximizeMode ); movingClient->setElectricBorderMaximizing( enable ); // stronger push back pushback_pixels = 10; } if( options->electricBorderTiling() ) { bool enable = !movingClient->isElectricBorderMaximizing(); bool activate = false; if( border == ElectricLeft ) { movingClient->setElectricBorderMode( ElectricLeftMode ); activate = true; } else if( border == ElectricRight ) { movingClient->setElectricBorderMode( ElectricRightMode ); activate = true; } if( activate ) { movingClient->setElectricBorderMaximizing( enable ); // stronger push back pushback_pixels = 10; } } else return; // Don't reset cursor position } else { if( options->electricBorders() == Options::ElectricAlways && ( border == ElectricTop || border == ElectricRight || border == ElectricBottom || border == ElectricLeft )) { // If desktop switching is always enabled don't apply it to the corners if // an effect is applied to it (We will check that later). electricBorderSwitchDesktop( border, pos ); return; // Don't reset cursor position } switch( options->electricBorderAction( border )) { case ElectricActionDashboard: // Display Plasma dashboard { QDBusInterface plasmaApp( "org.kde.plasma-desktop", "/App" ); plasmaApp.call( "toggleDashboard" ); } break; case ElectricActionShowDesktop: { setShowingDesktop( !showingDesktop() ); break; } case ElectricActionNone: // Either desktop switching or an effect default: { if( effects && static_cast( effects )->borderActivated( border )) {} // Handled by effects else { electricBorderSwitchDesktop( border, pos ); return; // Don't reset cursor position } } } } } } else { electric_current_border = border; electric_time_first = now; electric_time_last = now; electric_push_point = pos; } // Reset the pointer to find out whether the user is really pushing // (the direction back from which it came, starting from top clockwise) const int xdiff[ELECTRIC_COUNT] = { 0, -pushback_pixels, -pushback_pixels, -pushback_pixels, 0, pushback_pixels, pushback_pixels, pushback_pixels }; const int ydiff[ELECTRIC_COUNT] = { pushback_pixels, pushback_pixels, 0, -pushback_pixels, -pushback_pixels, -pushback_pixels, 0, pushback_pixels }; QCursor::setPos( pos.x() + xdiff[border], pos.y() + ydiff[border] ); } void Workspace::electricBorderSwitchDesktop( ElectricBorder border, const QPoint& _pos ) { QPoint pos = _pos; int desk = currentDesktop(); const int OFFSET = 2; if( border == ElectricLeft || border == ElectricTopLeft || border == ElectricBottomLeft ) { desk = desktopToLeft( desk, options->rollOverDesktops ); pos.setX( displayWidth() - 1 - OFFSET ); } if( border == ElectricRight || border == ElectricTopRight || border == ElectricBottomRight ) { desk = desktopToRight( desk, options->rollOverDesktops ); pos.setX( OFFSET ); } if( border == ElectricTop || border == ElectricTopLeft || border == ElectricTopRight ) { desk = desktopAbove( desk, options->rollOverDesktops ); pos.setY( displayHeight() - 1 - OFFSET ); } if( border == ElectricBottom || border == ElectricBottomLeft || border == ElectricBottomRight ) { desk = desktopBelow( desk, options->rollOverDesktops ); pos.setY( OFFSET ); } int desk_before = currentDesktop(); setCurrentDesktop( desk ); if( currentDesktop() != desk_before ) QCursor::setPos( pos ); } /** * Called when the user entered an electric border with the mouse. * It may switch to another virtual desktop. */ bool Workspace::electricBorderEvent( XEvent* e ) { if( e->type == EnterNotify ) { for( int i = 0; i < ELECTRIC_COUNT; ++i ) if( electric_windows[i] != None && e->xcrossing.window == electric_windows[i] ) { // The user entered an electric border checkElectricBorder( QPoint( e->xcrossing.x_root, e->xcrossing.y_root ), e->xcrossing.time ); return true; } } if( e->type == ClientMessage ) { if( e->xclient.message_type == atoms->xdnd_position ) { for( int i = 0; i < ELECTRIC_COUNT; ++i ) if( electric_windows[i] != None && e->xclient.window == electric_windows[i] ) { updateXTime(); checkElectricBorder( QPoint( e->xclient.data.l[2]>>16, e->xclient.data.l[2]&0xffff), xTime() ); return true; } } } return false; } void Workspace::showElectricBorderWindowOutline() { if( !movingClient ) return; // code copied from TabBox::updateOutline() in tabbox.cpp QRect c = movingClient->electricBorderMaximizeGeometry(); // left/right parts are between top/bottom, they don't reach as far as the corners XMoveResizeWindow( QX11Info::display(), outline_left, c.x(), c.y() + 5, 5, c.height() - 10 ); XMoveResizeWindow( QX11Info::display(), outline_right, c.x() + c.width() - 5, c.y() + 5, 5, c.height() - 10 ); XMoveResizeWindow( QX11Info::display(), outline_top, c.x(), c.y(), c.width(), 5 ); XMoveResizeWindow( QX11Info::display(), outline_bottom, c.x(), c.y() + c.height() - 5, c.width(), 5 ); { QPixmap pix( 5, c.height() - 10 ); QPainter p( &pix ); p.setPen( Qt::white ); p.drawLine( 0, 0, 0, pix.height() - 1 ); p.drawLine( 4, 0, 4, pix.height() - 1 ); p.setPen( Qt::gray ); p.drawLine( 1, 0, 1, pix.height() - 1 ); p.drawLine( 3, 0, 3, pix.height() - 1 ); p.setPen( Qt::black ); p.drawLine( 2, 0, 2, pix.height() - 1 ); p.end(); XSetWindowBackgroundPixmap( QX11Info::display(), outline_left, pix.handle()); XSetWindowBackgroundPixmap( QX11Info::display(), outline_right, pix.handle()); } { QPixmap pix( c.width(), 5 ); QPainter p( &pix ); p.setPen( Qt::white ); p.drawLine( 0, 0, pix.width() - 1 - 0, 0 ); p.drawLine( 4, 4, pix.width() - 1 - 4, 4 ); p.drawLine( 0, 0, 0, 4 ); p.drawLine( pix.width() - 1 - 0, 0, pix.width() - 1 - 0, 4 ); p.setPen( Qt::gray ); p.drawLine( 1, 1, pix.width() - 1 - 1, 1 ); p.drawLine( 3, 3, pix.width() - 1 - 3, 3 ); p.drawLine( 1, 1, 1, 4 ); p.drawLine( 3, 3, 3, 4 ); p.drawLine( pix.width() - 1 - 1, 1, pix.width() - 1 - 1, 4 ); p.drawLine( pix.width() - 1 - 3, 3, pix.width() - 1 - 3, 4 ); p.setPen( Qt::black ); p.drawLine( 2, 2, pix.width() - 1 - 2, 2 ); p.drawLine( 2, 2, 2, 4 ); p.drawLine( pix.width() - 1 - 2, 2, pix.width() - 1 - 2, 4 ); p.end(); XSetWindowBackgroundPixmap( QX11Info::display(), outline_top, pix.handle()); } { QPixmap pix( c.width(), 5 ); QPainter p( &pix ); p.setPen( Qt::white ); p.drawLine( 4, 0, pix.width() - 1 - 4, 0 ); p.drawLine( 0, 4, pix.width() - 1 - 0, 4 ); p.drawLine( 0, 4, 0, 0 ); p.drawLine( pix.width() - 1 - 0, 4, pix.width() - 1 - 0, 0 ); p.setPen( Qt::gray ); p.drawLine( 3, 1, pix.width() - 1 - 3, 1 ); p.drawLine( 1, 3, pix.width() - 1 - 1, 3 ); p.drawLine( 3, 1, 3, 0 ); p.drawLine( 1, 3, 1, 0 ); p.drawLine( pix.width() - 1 - 3, 1, pix.width() - 1 - 3, 0 ); p.drawLine( pix.width() - 1 - 1, 3, pix.width() - 1 - 1, 0 ); p.setPen( Qt::black ); p.drawLine( 2, 2, pix.width() - 1 - 2, 2 ); p.drawLine( 2, 0, 2, 2 ); p.drawLine( pix.width() - 1 - 2, 0, pix.width() - 1 - 2, 2 ); p.end(); XSetWindowBackgroundPixmap( QX11Info::display(), outline_bottom, pix.handle()); } XClearWindow( QX11Info::display(), outline_left ); XClearWindow( QX11Info::display(), outline_right ); XClearWindow( QX11Info::display(), outline_top ); XClearWindow( QX11Info::display(), outline_bottom ); XMapWindow( QX11Info::display(), outline_left ); XMapWindow( QX11Info::display(), outline_right ); XMapWindow( QX11Info::display(), outline_top ); XMapWindow( QX11Info::display(), outline_bottom ); } void Workspace::hideElectricBorderWindowOutline() { XUnmapWindow( QX11Info::display(), outline_left ); XUnmapWindow( QX11Info::display(), outline_right ); XUnmapWindow( QX11Info::display(), outline_top ); XUnmapWindow( QX11Info::display(), outline_bottom ); } //----------------------------------------------------------------------------- // Top menu void Workspace::addTopMenu( Client* c ) { assert( c->isTopMenu() ); assert( !topmenus.contains( c )); topmenus.append( c ); if( managingTopMenus() ) { int minsize = c->minSize().height(); if( minsize > topMenuHeight() ) { topmenu_height = minsize; updateTopMenuGeometry(); } updateTopMenuGeometry( c ); updateCurrentTopMenu(); } //kDebug( 1212 ) << "NEW TOPMENU:" << c; } void Workspace::removeTopMenu( Client* c ) { //if( c->isTopMenu() ) // kDebug( 1212 ) << "REMOVE TOPMENU:" << c; assert( c->isTopMenu() ); assert( topmenus.contains( c )); topmenus.removeAll( c ); updateCurrentTopMenu(); // TODO: Reduce topMenuHeight() if possible? } void Workspace::lostTopMenuSelection() { //kDebug( 1212 ) << "lost TopMenu selection"; // Make sure this signal is always set when not owning the selection disconnect( topmenu_watcher, SIGNAL( lostOwner() ), this, SLOT( lostTopMenuOwner() )); connect( topmenu_watcher, SIGNAL( lostOwner() ), this, SLOT( lostTopMenuOwner() )); if( !managing_topmenus ) return; connect( topmenu_watcher, SIGNAL( lostOwner() ), this, SLOT( lostTopMenuOwner() )); disconnect( topmenu_selection, SIGNAL( lostOwnership() ), this, SLOT( lostTopMenuSelection() )); managing_topmenus = false; delete topmenu_space; topmenu_space = NULL; updateClientArea(); for( ClientList::ConstIterator it = topmenus.constBegin(); it != topmenus.constEnd(); ++it ) (*it)->checkWorkspacePosition(); } void Workspace::lostTopMenuOwner() { if( !options->topMenuEnabled()) return; //kDebug( 1212 ) << "TopMenu selection lost owner"; if( !topmenu_selection->claim( false )) { //kDebug( 1212 ) << "Failed to claim TopMenu selection"; return; } //kDebug( 1212 ) << "Claimed TopMenu selection"; setupTopMenuHandling(); } void Workspace::setupTopMenuHandling() { if( managing_topmenus ) return; connect( topmenu_selection, SIGNAL( lostOwnership() ), this, SLOT( lostTopMenuSelection() )); disconnect( topmenu_watcher, SIGNAL( lostOwner() ), this, SLOT( lostTopMenuOwner() )); managing_topmenus = true; topmenu_space = new QWidget( NULL, Qt::X11BypassWindowManagerHint ); Window stack[2]; stack[0] = supportWindow->winId(); stack[1] = topmenu_space->winId(); XRestackWindows( display(), stack, 2 ); updateTopMenuGeometry(); topmenu_space->show(); updateClientArea(); updateCurrentTopMenu(); } int Workspace::topMenuHeight() const { if( topmenu_height == 0 ) { // Simply create a dummy menubar and use its preferred height as the menu height KMenuBar tmpmenu; tmpmenu.addAction( "dummy" ); topmenu_height = tmpmenu.sizeHint().height(); } return topmenu_height; } KDecoration* Workspace::createDecoration( KDecorationBridge* bridge ) { return mgr->createDecoration( bridge ); } /** * Returns a list of all colors (KDecorationDefines::ColorType) the current * decoration supports */ QList Workspace::decorationSupportedColors() const { KDecorationFactory* factory = mgr->factory(); QList ret; for( Ability ab = ABILITYCOLOR_FIRST; ab < ABILITYCOLOR_END; ab = static_cast( ab + 1 )) if( factory->supports( ab )) ret << ab; return ret; } QString Workspace::desktopName( int desk ) const { return QString::fromUtf8( rootInfo->desktopName( desk )); } bool Workspace::checkStartupNotification( Window w, KStartupInfoId& id, KStartupInfoData& data ) { return startup->checkStartup( w, id, data ) == KStartupInfo::Match; } /** * Puts the focus on a dummy window * Just using XSetInputFocus() with None would block keyboard input */ void Workspace::focusToNull() { XSetInputFocus( display(), null_focus_window, RevertToPointerRoot, xTime() ); } void Workspace::helperDialog( const QString& message, const Client* c ) { QStringList args; QString type; if( message == "noborderaltf3" ) { KAction* action = qobject_cast( keys->action( "Window Operations Menu" )); assert( action != NULL ); QString shortcut = QString( "%1 (%2)" ).arg( action->text() ) .arg( action->globalShortcut().primary().toString( QKeySequence::NativeText )); args << "--msgbox" << i18n( "You have selected to show a window without its border.\n" "Without the border, you will not be able to enable the border " "again using the mouse: use the window operations menu instead, " "activated using the %1 keyboard shortcut.", shortcut ); type = "altf3warning"; } else if( message == "fullscreenaltf3" ) { KAction* action = qobject_cast( keys->action( "Window Operations Menu" )); assert( action != NULL ); QString shortcut = QString( "%1 (%2)" ).arg( action->text() ) .arg( action->globalShortcut().primary().toString( QKeySequence::NativeText )); args << "--msgbox" << i18n( "You have selected to show a window in fullscreen mode.\n" "If the application itself does not have an option to turn the fullscreen " "mode off you will not be able to disable it " "again using the mouse: use the window operations menu instead, " "activated using the %1 keyboard shortcut.", shortcut ); type = "altf3warning"; } else abort(); if( !type.isEmpty() ) { KConfig cfg( "kwin_dialogsrc" ); KConfigGroup cg(&cfg, "Notification Messages" ); // Depends on KMessageBox if( !cg.readEntry( type, true )) return; args << "--dontagain" << "kwin_dialogsrc:" + type; } if( c != NULL ) args << "--embed" << QString::number( c->window() ); KProcess::startDetached( "kdialog",args ); } void Workspace::setShowingDesktop( bool showing ) { rootInfo->setShowingDesktop( showing ); showing_desktop = showing; ++block_showing_desktop; if( showing_desktop ) { showing_desktop_clients.clear(); ++block_focus; ClientList cls = stackingOrder(); // Find them first, then minimize, otherwise transients may get minimized with the window // they're transient for for( ClientList::ConstIterator it = cls.constBegin(); it != cls.constEnd(); ++it ) if( (*it)->isOnCurrentDesktop() && (*it)->isShown( true ) && !(*it)->isSpecialWindow() ) showing_desktop_clients.prepend( *it ); // Topmost first to reduce flicker for( ClientList::ConstIterator it = showing_desktop_clients.constBegin(); it != showing_desktop_clients.constEnd(); ++it ) (*it)->minimize(); --block_focus; if( Client* desk = findDesktop( true, currentDesktop() )) requestFocus( desk ); } else { for( ClientList::ConstIterator it = showing_desktop_clients.constBegin(); it != showing_desktop_clients.constEnd(); ++it ) (*it)->unminimize(); if( showing_desktop_clients.count() > 0 ) requestFocus( showing_desktop_clients.first() ); showing_desktop_clients.clear(); } --block_showing_desktop; } /** * Following Kicker's behavior: * Changing a virtual desktop resets the state and shows the windows again. * Unminimizing a window resets the state but keeps the windows hidden (except * the one that was unminimized). * A new window resets the state and shows the windows again, with the new window * being active. Due to popular demand (#67406) by people who apparently * don't see a difference between "show desktop" and "minimize all", this is not * true if "showDesktopIsMinimizeAll" is set in kwinrc. In such case showing * a new window resets the state but doesn't show windows. */ void Workspace::resetShowingDesktop( bool keep_hidden ) { if( block_showing_desktop > 0 ) return; rootInfo->setShowingDesktop( false ); showing_desktop = false; ++block_showing_desktop; if( !keep_hidden ) { for( ClientList::ConstIterator it = showing_desktop_clients.constBegin(); it != showing_desktop_clients.constEnd(); ++it ) (*it)->unminimize(); } showing_desktop_clients.clear(); --block_showing_desktop; } /** * Activating/deactivating this feature works like this: * When nothing is active, and the shortcut is pressed, global shortcuts are disabled * (using global_shortcuts_disabled) * When a window that has disabling forced is activated, global shortcuts are disabled. * (using global_shortcuts_disabled_for_client) * When a shortcut is pressed and global shortcuts are disabled (either by a shortcut * or for a client), they are enabled again. */ void Workspace::slotDisableGlobalShortcuts() { if( global_shortcuts_disabled || global_shortcuts_disabled_for_client ) disableGlobalShortcuts( false ); else disableGlobalShortcuts( true ); } static bool pending_dfc = false; void Workspace::disableGlobalShortcutsForClient( bool disable ) { if( global_shortcuts_disabled_for_client == disable ) return; if( !global_shortcuts_disabled ) { if( disable ) pending_dfc = true; KGlobalSettings::self()->emitChange( KGlobalSettings::BlockShortcuts, disable ); // KWin will get the kipc message too } } void Workspace::disableGlobalShortcuts( bool disable ) { KGlobalSettings::self()->emitChange( KGlobalSettings::BlockShortcuts, disable ); // KWin will get the kipc message too } void Workspace::slotBlockShortcuts( int data ) { if( pending_dfc && data ) { global_shortcuts_disabled_for_client = true; pending_dfc = false; } else { global_shortcuts_disabled = data; global_shortcuts_disabled_for_client = false; } // Update also Alt+LMB actions etc. for( ClientList::ConstIterator it = clients.constBegin(); it != clients.constEnd(); ++it ) (*it)->updateMouseGrab(); } // Optimized version of QCursor::pos() that tries to avoid X roundtrips // by updating the value only when the X timestamp changes. static QPoint last_cursor_pos; static int last_buttons = 0; static Time last_cursor_timestamp = CurrentTime; static QTimer* last_cursor_timer; QPoint Workspace::cursorPos() const { if( last_cursor_timestamp == CurrentTime || last_cursor_timestamp != QX11Info::appTime() ) { last_cursor_timestamp = QX11Info::appTime(); Window root; Window child; int root_x, root_y, win_x, win_y; uint state; XQueryPointer( display(), rootWindow(), &root, &child, &root_x, &root_y, &win_x, &win_y, &state ); last_cursor_pos = QPoint( root_x, root_y ); last_buttons = state; if( last_cursor_timer == NULL ) { Workspace* ws = const_cast( this ); last_cursor_timer = new QTimer( ws ); last_cursor_timer->setSingleShot( true ); connect( last_cursor_timer, SIGNAL( timeout() ), ws, SLOT( resetCursorPosTime() )); } last_cursor_timer->start( 0 ); } return last_cursor_pos; } /** * Because of QTimer's and the impossibility to get events for all mouse * movements (at least I haven't figured out how) the position needs * to be also refetched after each return to the event loop. */ void Workspace::resetCursorPosTime() { last_cursor_timestamp = CurrentTime; } void Workspace::checkCursorPos() { QPoint last = last_cursor_pos; int lastb = last_buttons; cursorPos(); // Update if needed if( last != last_cursor_pos || lastb != last_buttons ) static_cast( effects )->mouseChanged( cursorPos(), last, x11ToQtMouseButtons( last_buttons ), x11ToQtMouseButtons( lastb ), x11ToQtKeyboardModifiers( last_buttons ), x11ToQtKeyboardModifiers( lastb )); } } // namespace #include "workspace.moc"