/******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 1999, 2000 Matthias Ettrich Copyright (C) 2003 Lubos Lunak Copyright (C) 2009 Lucas Murray 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 . *********************************************************************/ #ifndef KWIN_WORKSPACE_H #define KWIN_WORKSPACE_H // kwin #include #include "sm.h" #include "utils.h" // Qt #include #include // X #include // std #include // TODO: Cleanup the order of things in this .h file class QStringList; class KConfig; class KConfigGroup; class KActionCollection; class KShortcut; class KStartupInfo; class KStartupInfoId; class KStartupInfoData; namespace KWin { namespace Xcb { class Window; } class Client; class KillWindow; class ShortcutDialog; class UserActionsMenu; class Compositor; class MouseMotionCompressionTimer; class Workspace : public QObject, public KDecorationDefines { Q_OBJECT public: explicit Workspace(bool restore = false); virtual ~Workspace(); static Workspace* self() { return _self; } bool workspaceEvent(xcb_generic_event_t*); bool workspaceEvent(QEvent*); void scheduleMouseMotionCompression(const std::function &functor); bool hasClient(const Client*); template Client* findClient(T predicate) const; template void forEachClient(T1 procedure, T2 predicate); template void forEachClient(T procedure); void forEachClient(std::function func); template Unmanaged* findUnmanaged(T predicate) const; template void forEachUnmanaged(T1 procedure, T2 predicate); template void forEachUnmanaged(T procedure); void forEachUnmanaged(std::function func); QRect clientArea(clientAreaOption, const QPoint& p, int desktop) const; QRect clientArea(clientAreaOption, const Client* c) const; QRect clientArea(clientAreaOption, int screen, int desktop) const; QRegion restrictedMoveArea(int desktop, StrutAreas areas = StrutAreaAll) const; bool initializing() const; /** * Returns the active client, i.e. the client that has the focus (or None * if no client has the focus) */ Client* activeClient() const; /** * Client that was activated, but it's not yet really activeClient(), because * we didn't process yet the matching FocusIn event. Used mostly in focus * stealing prevention code. */ Client* mostRecentlyActivatedClient() const; Client* clientUnderMouse(int screen) const; void activateClient(Client*, bool force = false); void requestFocus(Client* c, bool force = false); void takeActivity(Client* c, int flags, bool handled); // Flags are ActivityFlags void handleTakeActivity(Client* c, xcb_timestamp_t timestamp, int flags); // Flags are ActivityFlags bool allowClientActivation(const Client* c, xcb_timestamp_t time = -1U, bool focus_in = false, bool ignore_desktop = false); void restoreFocus(); void gotFocusIn(const Client*); void setShouldGetFocus(Client*); bool activateNextClient(Client* c); bool focusChangeEnabled() { return block_focus == 0; } /** * Indicates that the client c is being moved around by the user. */ void setClientIsMoving(Client* c); QPoint adjustClientPosition(Client* c, QPoint pos, bool unrestricted, double snapAdjust = 1.0); QRect adjustClientSize(Client* c, QRect moveResizeGeom, int mode); void raiseClient(Client* c, bool nogroup = false); void lowerClient(Client* c, bool nogroup = false); void raiseClientRequest(Client* c, NET::RequestSource src, xcb_timestamp_t timestamp); void lowerClientRequest(Client* c, NET::RequestSource src, xcb_timestamp_t timestamp); void restackClientUnderActive(Client*); void restack(Client *c, Client *under); void updateClientLayer(Client* c); void raiseOrLowerClient(Client*); void resetUpdateToolWindowsTimer(); void restoreSessionStackingOrder(Client* c); void updateStackingOrder(bool propagate_new_clients = false); void forceRestacking(); void clientHidden(Client*); void clientAttentionChanged(Client* c, bool set); /** * @return List of clients currently managed by Workspace **/ const ClientList &clientList() const { return clients; } /** * @return List of unmanaged "clients" currently registered in Workspace **/ const UnmanagedList &unmanagedList() const { return unmanaged; } /** * @return List of desktop "clients" currently managed by Workspace **/ const ClientList &desktopList() const { return desktops; } /** * @return List of deleted "clients" currently managed by Workspace **/ const DeletedList &deletedList() const { return deleted; } #ifdef KWIN_BUILD_SCREENEDGES void stackScreenEdgesUnderOverrideRedirect(); #endif public: QPoint cascadeOffset(const Client *c) const; private: Compositor *m_compositor; //------------------------------------------------- // Unsorted public: bool isOnCurrentHead(); // True when performing Workspace::updateClientArea(). // The calls below are valid only in that case. bool inUpdateClientArea() const; QRegion previousRestrictedMoveArea(int desktop, StrutAreas areas = StrutAreaAll) const; QVector< QRect > previousScreenSizes() const; int oldDisplayWidth() const; int oldDisplayHeight() const; KActionCollection* actionCollection() const { return keys; } KActionCollection* disableShortcutsKeys() const { return disable_shortcuts_keys; } KActionCollection* clientKeys() const { return client_keys; } /** * Returns the list of clients sorted in stacking order, with topmost client * at the last position */ const ToplevelList& stackingOrder() const; ToplevelList xStackingOrder() const; ClientList ensureStackingOrder(const ClientList& clients) const; Client* topClientOnDesktop(int desktop, int screen, bool unconstrained = false, bool only_normal = true) const; Client* findDesktop(bool topmost, int desktop) const; void sendClientToDesktop(Client* c, int desktop, bool dont_activate); void windowToPreviousDesktop(Client* c); void windowToNextDesktop(Client* c); void sendClientToScreen(Client* c, int screen); /** * Shows the menu operations menu for the client and makes it active if * it's not already. */ void showWindowMenu(const QRect& pos, Client* cl); const UserActionsMenu *userActionsMenu() const { return m_userActionsMenu; } void updateMinimizedOfTransients(Client*); void updateOnAllDesktopsOfTransients(Client*); void checkTransients(xcb_window_t w); void storeSession(KConfig* config, SMSavePhase phase); void storeClient(KConfigGroup &cg, int num, Client *c); void storeSubSession(const QString &name, QSet sessionIds); void loadSubSessionInfo(const QString &name); SessionInfo* takeSessionInfo(Client*); // D-Bus interface bool waitForCompositingSetup(); QString supportInformation() const; void setCurrentScreen(int new_screen); void setShowingDesktop(bool showing); void resetShowingDesktop(bool keep_hidden); bool showingDesktop() const; void sendPingToWindow(xcb_window_t w, xcb_timestamp_t timestamp); // Called from Client::pingWindow() void sendTakeActivity(Client* c, xcb_timestamp_t timestamp, long flags); // Called from Client::takeActivity() void removeClient(Client*); // Only called from Client::destroyClient() or Client::releaseWindow() void setActiveClient(Client*); Group* findGroup(xcb_window_t leader) const; void addGroup(Group* group); void removeGroup(Group* group); Group* findClientLeaderGroup(const Client* c) const; void removeUnmanaged(Unmanaged*); // Only called from Unmanaged::release() void removeDeleted(Deleted*); void addDeleted(Deleted*, Toplevel*); bool checkStartupNotification(xcb_window_t w, KStartupInfoId& id, KStartupInfoData& data); void focusToNull(); // SELI TODO: Public? bool forcedGlobalMouseGrab() const; void clientShortcutUpdated(Client* c); bool shortcutAvailable(const KShortcut& cut, Client* ignore = NULL) const; bool globalShortcutsDisabled() const; void disableGlobalShortcutsForClient(bool disable); void sessionSaveStarted(); void sessionSaveDone(); void setWasUserInteraction(); bool wasUserInteraction() const; bool sessionSaving() const; int packPositionLeft(const Client* cl, int oldx, bool left_edge) const; int packPositionRight(const Client* cl, int oldx, bool right_edge) const; int packPositionUp(const Client* cl, int oldy, bool top_edge) const; int packPositionDown(const Client* cl, int oldy, bool bottom_edge) const; void cancelDelayFocus(); void requestDelayFocus(Client*); void updateFocusMousePosition(const QPoint& pos); QPoint focusMousePosition() const; Client* getMovingClient() { return movingClient; } /** * @returns Whether we have a Compositor and it is active (Scene created) **/ bool compositing() const; public Q_SLOTS: void performWindowOperation(KWin::Client* c, KDecorationDefines::WindowOperation op); // Keybindings //void slotSwitchToWindow( int ); void slotWindowToDesktop(); //void slotWindowToListPosition( int ); void slotSwitchToScreen(); void slotWindowToScreen(); void slotSwitchToNextScreen(); void slotWindowToNextScreen(); void slotSwitchToPrevScreen(); void slotWindowToPrevScreen(); void slotToggleShowDesktop(); void slotWindowMaximize(); void slotWindowMaximizeVertical(); void slotWindowMaximizeHorizontal(); void slotWindowMinimize(); void slotWindowShade(); void slotWindowRaise(); void slotWindowLower(); void slotWindowRaiseOrLower(); void slotActivateAttentionWindow(); void slotWindowPackLeft(); void slotWindowPackRight(); void slotWindowPackUp(); void slotWindowPackDown(); void slotWindowGrowHorizontal(); void slotWindowGrowVertical(); void slotWindowShrinkHorizontal(); void slotWindowShrinkVertical(); void slotWindowQuickTileLeft(); void slotWindowQuickTileRight(); void slotWindowQuickTileTopLeft(); void slotWindowQuickTileTopRight(); void slotWindowQuickTileBottomLeft(); void slotWindowQuickTileBottomRight(); void slotSwitchWindowUp(); void slotSwitchWindowDown(); void slotSwitchWindowRight(); void slotSwitchWindowLeft(); void slotIncreaseWindowOpacity(); void slotLowerWindowOpacity(); void slotWindowOperations(); void slotWindowClose(); void slotWindowMove(); void slotWindowResize(); void slotWindowAbove(); void slotWindowBelow(); void slotWindowOnAllDesktops(); void slotWindowFullScreen(); void slotWindowNoBorder(); void slotWindowToNextDesktop(); void slotWindowToPreviousDesktop(); void slotWindowToDesktopRight(); void slotWindowToDesktopLeft(); void slotWindowToDesktopUp(); void slotWindowToDesktopDown(); void slotSettingsChanged(int category); void reconfigure(); void slotReconfigure(); void slotKillWindow(); void slotSetupWindowShortcut(); void setupWindowShortcutDone(bool); void slotToggleCompositing(); void slotInvertScreen(); void updateClientArea(); void slotActivateNextTab(); // Slot to move left the active Client. void slotActivatePrevTab(); // Slot to move right the active Client. void slotUntab(); // Slot to remove the active client from its group. private Q_SLOTS: void desktopResized(); void slotUpdateToolWindows(); void delayFocus(); void slotBlockShortcuts(int data); void slotReloadConfig(); void updateCurrentActivity(const QString &new_activity); // virtual desktop handling void moveClientsFromRemovedDesktops(); void slotDesktopCountChanged(uint previousCount, uint newCount); void slotCurrentDesktopChanged(uint oldDesktop, uint newDesktop); Q_SIGNALS: /** * Emitted after the Workspace has setup the complete initialization process. * This can be used to connect to for performing post-workspace initialization. **/ void workspaceInitialized(); //Signals required for the scripting interface void desktopPresenceChanged(KWin::Client*, int); void currentDesktopChanged(int, KWin::Client*); void clientAdded(KWin::Client*); void clientRemoved(KWin::Client*); void clientActivated(KWin::Client*); void clientDemandsAttentionChanged(KWin::Client*, bool); void groupAdded(KWin::Group*); void unmanagedAdded(KWin::Unmanaged*); void deletedRemoved(KWin::Deleted*); void propertyNotify(long a); void configChanged(); void reinitializeCompositing(); /** * This signels is emitted when ever the stacking order is change, ie. a window is risen * or lowered */ void stackingOrderChanged(); private: void init(); void initShortcuts(); void setupWindowShortcut(Client* c); enum Direction { DirectionNorth, DirectionEast, DirectionSouth, DirectionWest }; void switchWindow(Direction direction); void propagateClients(bool propagate_new_clients); // Called only from updateStackingOrder ToplevelList constrainedStackingOrder(); void raiseClientWithinApplication(Client* c); void lowerClientWithinApplication(Client* c); bool allowFullClientRaising(const Client* c, xcb_timestamp_t timestamp); bool keepTransientAbove(const Client* mainwindow, const Client* transient); void blockStackingUpdates(bool block); void updateToolWindows(bool also_hide); void fixPositionAfterCrash(xcb_window_t w, const xcb_get_geometry_reply_t *geom); void saveOldScreenSizes(); /// This is the right way to create a new client Client* createClient(xcb_window_t w, bool is_mapped); void addClient(Client* c); Unmanaged* createUnmanaged(xcb_window_t w); void addUnmanaged(Unmanaged* c); //--------------------------------------------------------------------- void closeActivePopup(); void updateClientArea(bool force); void resetClientAreas(uint desktopCount); void updateClientVisibilityOnDesktopChange(uint oldDesktop, uint newDesktop); void activateClientOnNewDesktop(uint desktop); Client *findClientToActivateOnDesktop(uint desktop); QWidget* active_popup; Client* active_popup_client; void loadSessionInfo(); void addSessionInfo(KConfigGroup &cg); QList session; static const char* windowTypeToTxt(NET::WindowType type); static NET::WindowType txtToWindowType(const char* txt); static bool sessionInfoWindowTypeMatch(Client* c, SessionInfo* info); Client* active_client; Client* last_active_client; Client* most_recently_raised; // Used ONLY by raiseOrLowerClient() Client* movingClient; Client* pending_take_activity; // Delay(ed) window focus timer and client QTimer* delayFocusTimer; Client* delayfocus_client; QPoint focusMousePos; ClientList clients; ClientList desktops; UnmanagedList unmanaged; DeletedList deleted; ToplevelList unconstrained_stacking_order; // Topmost last ToplevelList stacking_order; // Topmost last bool force_restacking; mutable ToplevelList x_stacking; // From XQueryTree() mutable bool x_stacking_dirty; ClientList should_get_focus; // Last is most recent ClientList attention_chain; bool showing_desktop; ClientList showing_desktop_clients; int block_showing_desktop; GroupList groups; bool was_user_interaction; bool session_saving; int session_active_client; int session_desktop; int block_focus; /** * Holds the menu containing the user actions which is shown * on e.g. right click the window decoration. **/ UserActionsMenu *m_userActionsMenu; void modalActionsSwitch(bool enabled); KActionCollection* keys; KActionCollection* client_keys; KActionCollection* disable_shortcuts_keys; ShortcutDialog* client_keys_dialog; Client* client_keys_client; bool global_shortcuts_disabled_for_client; // Timer to collect requests for 'reconfigure' QTimer reconfigureTimer; QTimer updateToolWindowsTimer; static Workspace* _self; bool workspaceInit; KStartupInfo* startup; QVector workarea; // Array of workareas for virtual desktops // Array of restricted areas that window cannot be moved into QVector restrictedmovearea; // Array of the previous restricted areas that window cannot be moved into QVector oldrestrictedmovearea; QVector< QVector > screenarea; // Array of workareas per xinerama screen for all virtual desktops QVector< QRect > oldscreensizes; // array of previous sizes of xinerama screens QSize olddisplaysize; // previous sizes od displayWidth()/displayHeight() int set_active_client_recursion; int block_stacking_updates; // When > 0, stacking updates are temporarily disabled bool blocked_propagating_new_clients; // Propagate also new clients after enabling stacking updates? QScopedPointer m_nullFocus; bool forced_global_mouse_grab; friend class StackingUpdatesBlocker; QScopedPointer m_windowKiller; // compression of mouse motion events MouseMotionCompressionTimer *m_mouseMotionTimer; private: friend bool performTransiencyCheck(); friend Workspace *workspace(); }; /** * Helper for Workspace::blockStackingUpdates() being called in pairs (True/false) */ class StackingUpdatesBlocker { public: explicit StackingUpdatesBlocker(Workspace* w) : ws(w) { ws->blockStackingUpdates(true); } ~StackingUpdatesBlocker() { ws->blockStackingUpdates(false); } private: Workspace* ws; }; class ColorMapper : public QObject { Q_OBJECT public: ColorMapper(QObject *parent); virtual ~ColorMapper(); public Q_SLOTS: void update(); private: xcb_colormap_t m_default; xcb_colormap_t m_installed; }; class MouseMotionCompressionTimer : public QTimer { Q_OBJECT public: explicit MouseMotionCompressionTimer(QObject *parent = 0); virtual ~MouseMotionCompressionTimer(); void schedule(const std::function &functor); void cancel(); private: QMetaObject::Connection m_connection; }; //--------------------------------------------------------- // Unsorted inline bool Workspace::initializing() const { return workspaceInit; } inline Client* Workspace::activeClient() const { return active_client; } inline Client* Workspace::mostRecentlyActivatedClient() const { return should_get_focus.count() > 0 ? should_get_focus.last() : active_client; } inline void Workspace::addGroup(Group* group) { emit groupAdded(group); groups.append(group); } inline void Workspace::removeGroup(Group* group) { groups.removeAll(group); } inline const ToplevelList& Workspace::stackingOrder() const { // TODO: Q_ASSERT( block_stacking_updates == 0 ); return stacking_order; } inline void Workspace::setWasUserInteraction() { was_user_interaction = true; } inline bool Workspace::wasUserInteraction() const { return was_user_interaction; } inline void Workspace::sessionSaveStarted() { session_saving = true; } inline bool Workspace::sessionSaving() const { return session_saving; } inline bool Workspace::forcedGlobalMouseGrab() const { return forced_global_mouse_grab; } inline bool Workspace::showingDesktop() const { return showing_desktop; } inline bool Workspace::globalShortcutsDisabled() const { return global_shortcuts_disabled_for_client; } inline void Workspace::forceRestacking() { force_restacking = true; StackingUpdatesBlocker blocker(this); // Do restacking if not blocked } inline void Workspace::updateFocusMousePosition(const QPoint& pos) { focusMousePos = pos; } inline QPoint Workspace::focusMousePosition() const { return focusMousePos; } template< typename T > inline Client* Workspace::findClient(T predicate) const { if (Client* ret = findClientInList(clients, predicate)) return ret; if (Client* ret = findClientInList(desktops, predicate)) return ret; return NULL; } template< typename T1, typename T2 > inline void Workspace::forEachClient(T1 procedure, T2 predicate) { for (ClientList::ConstIterator it = clients.constBegin(); it != clients.constEnd(); ++it) if (predicate(const_cast(*it))) procedure(*it); for (ClientList::ConstIterator it = desktops.constBegin(); it != desktops.constEnd(); ++it) if (predicate(const_cast(*it))) procedure(*it); } inline void Workspace::forEachClient(std::function< void (Client*) > func) { std::for_each(clients.constBegin(), clients.constEnd(), func); std::for_each(desktops.constBegin(), desktops.constEnd(), func); } template< typename T > inline void Workspace::forEachClient(T procedure) { return forEachClient(procedure, TruePredicate()); } template< typename T > inline Unmanaged* Workspace::findUnmanaged(T predicate) const { return findUnmanagedInList(unmanaged, predicate); } template< typename T1, typename T2 > inline void Workspace::forEachUnmanaged(T1 procedure, T2 predicate) { for (UnmanagedList::ConstIterator it = unmanaged.constBegin(); it != unmanaged.constEnd(); ++it) if (predicate(const_cast(*it))) procedure(*it); } template< typename T > inline void Workspace::forEachUnmanaged(T procedure) { return forEachUnmanaged(procedure, TruePredicate()); } inline void Workspace::forEachUnmanaged(std::function< void (Unmanaged*) > func) { std::for_each(unmanaged.constBegin(), unmanaged.constEnd(), func); } KWIN_COMPARE_PREDICATE(ClientMatchPredicate, Client, const Client*, cl == value); inline bool Workspace::hasClient(const Client* c) { return findClient(ClientMatchPredicate(c)); } inline void Workspace::scheduleMouseMotionCompression(const std::function< void () > &functor) { m_mouseMotionTimer->schedule(functor); } inline Workspace *workspace() { return Workspace::_self; } } // namespace #endif