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DefaultKeyboardFocusManager.javaAPI DocJava SE 5 API50077Fri Aug 26 14:56:44 BST 2005java.awt

DefaultKeyboardFocusManager

public class DefaultKeyboardFocusManager extends KeyboardFocusManager
The default KeyboardFocusManager for AWT applications. Focus traversal is done in response to a Component's focus traversal keys, and using a Container's FocusTraversalPolicy.

Please see How to Use the Focus Subsystem, a section in The Java Tutorial, and the Focus Specification for more information.

author
David Mendenhall
version
1.33, 03/03/05
see
FocusTraversalPolicy
see
Component#setFocusTraversalKeys
see
Component#getFocusTraversalKeys
since
1.4

Fields Summary
private static final Logger
focusLog
private Window
realOppositeWindow
private Component
realOppositeComponent
private int
inSendMessage
private LinkedList
enqueuedKeyEvents
private LinkedList
typeAheadMarkers
private boolean
consumeNextKeyTyped
Constructors Summary
Methods Summary
voidclearMarkers()
Clears markers queue

since
1.5

        synchronized(this) {
            typeAheadMarkers.clear();
        }
    
private booleanconsumeProcessedKeyEvent(java.awt.event.KeyEvent e)

        if ((e.getID() == KeyEvent.KEY_TYPED) && consumeNextKeyTyped) {
            e.consume();
            consumeNextKeyTyped = false;
            return true;
        }
        return false;
    
private voidconsumeTraversalKey(java.awt.event.KeyEvent e)

        e.consume();
        consumeNextKeyTyped = (e.getID() == KeyEvent.KEY_PRESSED) && 
                              !e.isActionKey();
    
protected synchronized voiddequeueKeyEvents(long after, java.awt.Component untilFocused)
Releases for normal dispatching to the current focus owner all KeyEvents which were enqueued because of a call to enqueueKeyEvents with the same timestamp and Component. If the given timestamp is less than zero, the outstanding enqueue request for the given Component with the oldest timestamp (if any) should be cancelled.

param
after the timestamp specified in the call to enqueueKeyEvents, or any value < 0
param
untilFocused the Component specified in the call to enqueueKeyEvents
see
#enqueueKeyEvents
see
#discardKeyEvents

        if (untilFocused == null) {
            return;
        }

        TypeAheadMarker marker;
        ListIterator iter = typeAheadMarkers.listIterator
            ((after >= 0) ? typeAheadMarkers.size() : 0);

        if (after < 0) {
            while (iter.hasNext()) {
                marker = (TypeAheadMarker)iter.next();
                if (marker.untilFocused == untilFocused)
                {
                    iter.remove();
                    return;
                }
            }
        } else {
            while (iter.hasPrevious()) {
                marker = (TypeAheadMarker)iter.previous();
                if (marker.untilFocused == untilFocused &&
                    marker.after == after)
                {
                    iter.remove();
                    return;
                }
            }
        }
    
protected synchronized voiddiscardKeyEvents(java.awt.Component comp)
Discards all KeyEvents which were enqueued because of one or more calls to enqueueKeyEvents with the specified Component, or one of its descendants.

param
comp the Component specified in one or more calls to enqueueKeyEvents, or a parent of such a Component
see
#enqueueKeyEvents
see
#dequeueKeyEvents

        if (comp == null) {
            return;
        }

        long start = -1;

        for (Iterator iter = typeAheadMarkers.iterator(); iter.hasNext(); ) {
            TypeAheadMarker marker = (TypeAheadMarker)iter.next();
            Component toTest = marker.untilFocused;
            boolean match = (toTest == comp);
            while (!match && toTest != null && !(toTest instanceof Window)) {
                toTest = toTest.getParent();
                match = (toTest == comp);
            }
            if (match) {
                if (start < 0) {
                    start = marker.after;
                }
                iter.remove();
            } else if (start >= 0) {
                purgeStampedEvents(start, marker.after);
                start = -1;
            }
        }

        purgeStampedEvents(start, -1);
    
public booleandispatchEvent(java.awt.AWTEvent e)
This method is called by the AWT event dispatcher requesting that the current KeyboardFocusManager dispatch the specified event on its behalf. DefaultKeyboardFocusManagers dispatch all FocusEvents, all WindowEvents related to focus, and all KeyEvents. These events are dispatched based on the KeyboardFocusManager's notion of the focus owner and the focused and active Windows, sometimes overriding the source of the specified AWTEvent. If this method returns false, then the AWT event dispatcher will attempt to dispatch the event itself.

param
e the AWTEvent to be dispatched
return
true if this method dispatched the event; false otherwise

        if (focusLog.isLoggable(Level.FINE) && (e instanceof WindowEvent || e instanceof FocusEvent)) focusLog.fine("" + e);
        switch (e.getID()) {
            case WindowEvent.WINDOW_GAINED_FOCUS: {
                WindowEvent we = (WindowEvent)e;
                Window oldFocusedWindow = getGlobalFocusedWindow();
                Window newFocusedWindow = we.getWindow();
                if (newFocusedWindow == oldFocusedWindow) {
                    break;
                }

                // If there exists a current focused window, then notify it
                // that it has lost focus.
                if (oldFocusedWindow != null) {
                    boolean isEventDispatched = 
                        sendMessage(oldFocusedWindow,
                                new WindowEvent(oldFocusedWindow,
                                                WindowEvent.WINDOW_LOST_FOCUS,
                                                newFocusedWindow));
                    // Failed to dispatch, clear by ourselfves
                    if (!isEventDispatched) {
                        setGlobalFocusOwner(null);
                        setGlobalFocusedWindow(null);
                    }
                }

                // Because the native libraries do not post WINDOW_ACTIVATED
                // events, we need to synthesize one if the active Window
                // changed.
                Window newActiveWindow =
                    getOwningFrameDialog(newFocusedWindow);
                Window currentActiveWindow = getGlobalActiveWindow();
                if (newActiveWindow != currentActiveWindow) {
                    sendMessage(newActiveWindow,
                                new WindowEvent(newActiveWindow,
                                                WindowEvent.WINDOW_ACTIVATED,
                                                currentActiveWindow));
                    if (newActiveWindow != getGlobalActiveWindow()) {
                        // Activation change was rejected. Unlikely, but
                        // possible.
                        restoreFocus(we);
                        break;
                    }
                }

                setGlobalFocusedWindow(newFocusedWindow);

                if (newFocusedWindow != getGlobalFocusedWindow()) {
                    // Focus change was rejected. Will happen if
                    // newFocusedWindow is not a focusable Window.
                    restoreFocus(we);
                    break;
                }

                setNativeFocusedWindow(newFocusedWindow);
                // Restore focus to the Component which last held it. We do
                // this here so that client code can override our choice in
                // a WINDOW_GAINED_FOCUS handler.
                //
                // Make sure that the focus change request doesn't change the
                // focused Window in case we are no longer the focused Window
                // when the request is handled.
                if (inSendMessage == 0) {
                    // Identify which Component should initially gain focus 
                    // in the Window.
                    //
                    // * If we're in SendMessage, then this is a synthetic
                    //   WINDOW_GAINED_FOCUS message which was generated by a
                    //   the FOCUS_GAINED handler. Allow the Component to 
                    //   which the FOCUS_GAINED message was targeted to 
                    //   receive the focus.
                    // * Otherwise, look up the correct Component here. 
                    //   We don't use Window.getMostRecentFocusOwner because
                    //   window is focused now and 'null' will be returned


                    // Calculating of most recent focus owner and focus 
                    // request should be synchronized on KeyboardFocusManager.class
                    // to prevent from thread race when user will request
                    // focus between calculation and our request.
                    // But if focus transfer is synchronous, this synchronization
                    // may cause deadlock, thus we don't synchronize this block.
                    Component toFocus = KeyboardFocusManager.
                        getMostRecentFocusOwner(newFocusedWindow);
                    if ((toFocus == null) && 
                        newFocusedWindow.isFocusableWindow()) 
                    {
                        toFocus = newFocusedWindow.getFocusTraversalPolicy().
                            getInitialComponent(newFocusedWindow);
                    }
                    Component tempLost = null;
                    synchronized(KeyboardFocusManager.class) {
                        tempLost = newFocusedWindow.setTemporaryLostComponent(null);
                    }

                    // The component which last has the focus when this window was focused
                    // should receive focus first
                    if (focusLog.isLoggable(Level.FINER)) {
                        focusLog.log(Level.FINER, "tempLost {0}, toFocus {1}", 
                                     new Object[]{tempLost, toFocus});
                    }
                    if (tempLost != null) {
                        tempLost.requestFocusInWindow();
                    }

                    if (toFocus != null && toFocus != tempLost) {
                        // If there is a component which requested focus when this window
                        // was inactive it expects to receive focus after activation.
                        toFocus.requestFocusInWindow();
                    }
                }

                Window realOppositeWindow = this.realOppositeWindow;
                if (realOppositeWindow != we.getOppositeWindow()) {
                    we = new WindowEvent(newFocusedWindow,
                                         WindowEvent.WINDOW_GAINED_FOCUS,
                                         realOppositeWindow);
                }
                return typeAheadAssertions(newFocusedWindow, we);
            }

            case WindowEvent.WINDOW_ACTIVATED: {
                WindowEvent we = (WindowEvent)e;
                Window oldActiveWindow = getGlobalActiveWindow();
                Window newActiveWindow = we.getWindow();
                if (oldActiveWindow == newActiveWindow) {
                    break;
                }

                // If there exists a current active window, then notify it that
                // it has lost activation.
                if (oldActiveWindow != null) {
                    boolean isEventDispatched = 
                        sendMessage(oldActiveWindow,
                                new WindowEvent(oldActiveWindow,
                                                WindowEvent.WINDOW_DEACTIVATED,
                                                newActiveWindow));
                    // Failed to dispatch, clear by ourselfves
                    if (!isEventDispatched) {
                        setGlobalActiveWindow(null);
                    }
                    if (getGlobalActiveWindow() != null) {
                        // Activation change was rejected. Unlikely, but
                        // possible.
                        break;
                    }
                }

                setGlobalActiveWindow(newActiveWindow);

                if (newActiveWindow != getGlobalActiveWindow()) {
                    // Activation change was rejected. Unlikely, but
                    // possible.
                    break;
                }

                return typeAheadAssertions(newActiveWindow, we);
            }

            case FocusEvent.FOCUS_GAINED: {
                FocusEvent fe = (FocusEvent)e;
                Component oldFocusOwner = getGlobalFocusOwner();
                Component newFocusOwner = fe.getComponent();
                if (oldFocusOwner == newFocusOwner) {
                    if (focusLog.isLoggable(Level.FINE)) focusLog.log(Level.FINE, "Skipping {0} because focus owner is the same",
                                                                        new Object[] {e});
                    break;
                }

                // If there exists a current focus owner, then notify it that
                // it has lost focus.
                if (oldFocusOwner != null) {
                    boolean isEventDispatched =
                        sendMessage(oldFocusOwner,
                                    new FocusEvent(oldFocusOwner,
                                                   FocusEvent.FOCUS_LOST,
                                                   fe.isTemporary(),
                                                   newFocusOwner));
                    // Failed to dispatch, clear by ourselfves
                    if (!isEventDispatched) {
                        setGlobalFocusOwner(null);
                        if (!fe.isTemporary()) {
                            setGlobalPermanentFocusOwner(null);
                        }
                    }
                }

                // Because the native windowing system has a different notion
                // of the current focus and activation states, it is possible
                // that a Component outside of the focused Window receives a
                // FOCUS_GAINED event. We synthesize a WINDOW_GAINED_FOCUS
                // event in that case.
                Component newFocusedWindow = newFocusOwner;
                while (newFocusedWindow != null &&
                       !(newFocusedWindow instanceof Window)) {
                    newFocusedWindow = newFocusedWindow.parent;
                }
                Window currentFocusedWindow = getGlobalFocusedWindow();
                if (newFocusedWindow != null &&
                    newFocusedWindow != currentFocusedWindow)
                {
                    sendMessage(newFocusedWindow,
                                new WindowEvent((Window)newFocusedWindow,
                                        WindowEvent.WINDOW_GAINED_FOCUS,
                                                currentFocusedWindow));
                    if (newFocusedWindow != getGlobalFocusedWindow()) {
                        // Focus change was rejected. Will happen if
                        // newFocusedWindow is not a focusable Window.

                        // Need to recover type-ahead, but don't bother
                        // restoring focus. That was done by the
                        // WINDOW_GAINED_FOCUS handler
                        dequeueKeyEvents(-1, newFocusOwner);
                        break;
                    }
                }

                setGlobalFocusOwner(newFocusOwner);

                if (newFocusOwner != getGlobalFocusOwner()) {
                    // Focus change was rejected. Will happen if
                    // newFocusOwner is not focus traversable.
                    dequeueKeyEvents(-1, newFocusOwner);
                    restoreFocus(fe, (Window)newFocusedWindow);
                    break;
                }

                if (!fe.isTemporary()) {
                    setGlobalPermanentFocusOwner(newFocusOwner);

                    if (newFocusOwner != getGlobalPermanentFocusOwner()) {
                        // Focus change was rejected. Unlikely, but possible.
                        dequeueKeyEvents(-1, newFocusOwner);
                        restoreFocus(fe, (Window)newFocusedWindow);
                        break;
                    }
                }

                setNativeFocusOwner(getHeavyweight(newFocusOwner));

                Component realOppositeComponent = this.realOppositeComponent;
                if (realOppositeComponent != null &&
                    realOppositeComponent != fe.getOppositeComponent()) {
                    fe = new FocusEvent(newFocusOwner,
                                        FocusEvent.FOCUS_GAINED,
                                        fe.isTemporary(),
                                        realOppositeComponent);
                    ((AWTEvent) fe).isPosted = true;
                }
                return typeAheadAssertions(newFocusOwner, fe);
            }

            case FocusEvent.FOCUS_LOST: {
                FocusEvent fe = (FocusEvent)e;
                Component currentFocusOwner = getGlobalFocusOwner();
                if (currentFocusOwner == null) {
                    if (focusLog.isLoggable(Level.FINE)) focusLog.log(Level.FINE, "Skipping {0} because focus owner is null",
                                                                        new Object[] {e});
                    break;
                }
                // Ignore cases where a Component loses focus to itself.
                // If we make a mistake because of retargeting, then the
                // FOCUS_GAINED handler will correct it.
                if (currentFocusOwner == fe.getOppositeComponent()) {
                    if (focusLog.isLoggable(Level.FINE)) focusLog.log(Level.FINE, "Skipping {0} because current focus owner is equal to opposite",
                                                                      new Object[] {e});
                    break;
                }

                setGlobalFocusOwner(null);

                if (getGlobalFocusOwner() != null) {
                    // Focus change was rejected. Unlikely, but possible.
                    restoreFocus(currentFocusOwner, true);
                    break;
                }

                if (!fe.isTemporary()) {
                    setGlobalPermanentFocusOwner(null);

                    if (getGlobalPermanentFocusOwner() != null) {
                        // Focus change was rejected. Unlikely, but possible.
                        restoreFocus(currentFocusOwner, true);
                        break;
                    }
                } else {
                    Window owningWindow = currentFocusOwner.getContainingWindow();
                    if (owningWindow != null) {
                        owningWindow.setTemporaryLostComponent(currentFocusOwner);
                    }
                }

                setNativeFocusOwner(null);

                fe.setSource(currentFocusOwner);

                realOppositeComponent = (fe.getOppositeComponent() != null)
                    ? currentFocusOwner : null;

                return typeAheadAssertions(currentFocusOwner, fe);
            }

            case WindowEvent.WINDOW_DEACTIVATED: {
                WindowEvent we = (WindowEvent)e;
                Window currentActiveWindow = getGlobalActiveWindow();
                if (currentActiveWindow == null) {
                    break;
                }

                if (currentActiveWindow != e.getSource()) {
                    // The event is lost in time.
                    // Allow listeners to precess the event but do not 
                    // change any global states
                    break;
                }

                setGlobalActiveWindow(null);
                if (getGlobalActiveWindow() != null) {
                    // Activation change was rejected. Unlikely, but possible.
                    break;
                }

                we.setSource(currentActiveWindow);
                return typeAheadAssertions(currentActiveWindow, we);
            }

            case WindowEvent.WINDOW_LOST_FOCUS: {
                WindowEvent we = (WindowEvent)e;
                Window currentFocusedWindow = getGlobalFocusedWindow();
                Window losingFocusWindow = we.getWindow();
                Window activeWindow = getGlobalActiveWindow();
                Window oppositeWindow = we.getOppositeWindow();
                if (focusLog.isLoggable(Level.FINE)) focusLog.log(Level.FINE, "Active {0}, Current focused {1}, losing focus {2} opposite {3}", 
                                                                  new Object[] {activeWindow, currentFocusedWindow, 
                                                                                losingFocusWindow, oppositeWindow});
                if (currentFocusedWindow == null) {
                    break;
                }

                // Special case -- if the native windowing system posts an
                // event claiming that the active Window has lost focus to the
                // focused Window, then discard the event. This is an artifact
                // of the native windowing system not knowing which Window is
                // really focused.
                if (inSendMessage == 0 && losingFocusWindow == activeWindow &&
                    oppositeWindow == currentFocusedWindow)
                {
                    break;
                }

                Component currentFocusOwner = getGlobalFocusOwner();
                if (currentFocusOwner != null) {
                    // The focus owner should always receive a FOCUS_LOST event
                    // before the Window is defocused.
                    Component oppositeComp = null;
                    if (oppositeWindow != null) {
                        oppositeComp = oppositeWindow.getTemporaryLostComponent();
                        if (oppositeComp == null) {
                            oppositeComp = oppositeWindow.getMostRecentFocusOwner();
                        }
                    }
                    if (oppositeComp == null) {
                        oppositeComp = oppositeWindow;
                    }
                    sendMessage(currentFocusOwner,
                                new FocusEvent(currentFocusOwner,
                                               FocusEvent.FOCUS_LOST,
                                               true,
                                               oppositeComp));
                }

                setGlobalFocusedWindow(null);
                if (getGlobalFocusedWindow() != null) {
                    // Focus change was rejected. Unlikely, but possible.
                    restoreFocus(currentFocusedWindow, null, true);
                    break;
                }
                setNativeFocusedWindow(null);

                we.setSource(currentFocusedWindow);
                realOppositeWindow = (oppositeWindow != null)
                    ? currentFocusedWindow
                    : null;
                typeAheadAssertions(currentFocusedWindow, we);

                if (oppositeWindow == null) {
                    // Then we need to deactive the active Window as well.
                    // No need to synthesize in other cases, because
                    // WINDOW_ACTIVATED will handle it if necessary.
                    sendMessage(activeWindow,
                                new WindowEvent(activeWindow,
                                                WindowEvent.WINDOW_DEACTIVATED,
                                                null));
                    if (getGlobalActiveWindow() != null) {
                        // Activation change was rejected. Unlikely,
                        // but possible.
                        restoreFocus(currentFocusedWindow, null, true);
                    }
                }
                break;
            }

            case KeyEvent.KEY_TYPED:
            case KeyEvent.KEY_PRESSED:
            case KeyEvent.KEY_RELEASED:
                return typeAheadAssertions(null, e);

            default:
                return false;
        }

        return true;
    
public booleandispatchKeyEvent(java.awt.event.KeyEvent e)
Called by dispatchEvent if no other KeyEventDispatcher in the dispatcher chain dispatched the KeyEvent, or if no other KeyEventDispatchers are registered. If the event has not been consumed, its target is enabled, and the focus owner is not null, this method dispatches the event to its target. This method will also subsequently dispatch the event to all registered KeyEventPostProcessors. After all this operations are finished, the event is passed to peers for processing.

In all cases, this method returns true, since DefaultKeyboardFocusManager is designed so that neither dispatchEvent, nor the AWT event dispatcher, should take further action on the event in any situation.

param
e the KeyEvent to be dispatched
return
true
see
Component#dispatchEvent

        Component focusOwner = (((AWTEvent)e).isPosted) ? getFocusOwner() : e.getComponent();

        if (focusOwner != null && focusOwner.isShowing() &&
            focusOwner.isFocusable() && focusOwner.isEnabled()) {
            if (!e.isConsumed()) {
                Component comp = e.getComponent();
                if (comp != null && comp.isEnabled()) {
                    redispatchEvent(comp, e);
                }
            }
        }
        boolean stopPostProcessing = false;
        java.util.List processors = getKeyEventPostProcessors();
        if (processors != null) {
            for (java.util.Iterator iter = processors.iterator();
                 !stopPostProcessing && iter.hasNext(); )
            {
                stopPostProcessing = (((KeyEventPostProcessor)(iter.next())).
                            postProcessKeyEvent(e));
            }
        }
        if (!stopPostProcessing) {
            postProcessKeyEvent(e);
        }

        // Allow the peer to process KeyEvent
        Component source = e.getComponent();
        ComponentPeer peer = source.getPeer();

        if (peer == null || peer instanceof LightweightPeer) {
            // if focus owner is lightweight then its native container 
            // processes event
            Container target = source.getNativeContainer();
            if (target != null) {
                peer = target.getPeer();
            }
        }
        if (peer != null) {
            peer.handleEvent(e);
        }

        return true;
    
public voiddownFocusCycle(java.awt.Container aContainer)
Moves the focus down one focus traversal cycle. If aContainer is a focus cycle root, then the focus owner is set to aContainer's default Component to focus, and the current focus cycle root is set to aContainer. If aContainer is not a focus cycle root, then no focus traversal operation occurs.

param
aContainer the Container that is the basis for the focus traversal operation
see
Container#transferFocusDownCycle

        if (aContainer != null && aContainer.isFocusCycleRoot()) {
            aContainer.transferFocusDownCycle();
        }
    
voiddumpMarkers()
Dumps the list of type-ahead queue markers to stderr

        System.err.println(">>> Markers dump, time: " + System.currentTimeMillis());
        synchronized (this) {
            if (typeAheadMarkers.size() != 0) {
                Iterator iter = typeAheadMarkers.iterator();
                while (iter.hasNext()) {
                    TypeAheadMarker marker = (TypeAheadMarker)iter.next();
                    System.err.println(marker);
                }
            }
        }
        System.err.println("");
    
protected synchronized voidenqueueKeyEvents(long after, java.awt.Component untilFocused)
Delays dispatching of KeyEvents until the specified Component becomes the focus owner. KeyEvents with timestamps later than the specified timestamp will be enqueued until the specified Component receives a FOCUS_GAINED event, or the AWT cancels the delay request by invoking dequeueKeyEvents or discardKeyEvents.

param
after timestamp of current event, or the current, system time if the current event has no timestamp, or the AWT cannot determine which event is currently being handled
param
untilFocused Component which will receive a FOCUS_GAINED event before any pending KeyEvents
see
#dequeueKeyEvents
see
#discardKeyEvents

        if (untilFocused == null) {
            return;
        }

        int insertionIndex = 0,
            i = typeAheadMarkers.size();
        ListIterator iter = typeAheadMarkers.listIterator(i);

        for (; i > 0; i--) {
            TypeAheadMarker marker = (TypeAheadMarker)iter.previous();
            if (marker.after <= after) {
                insertionIndex = i;
                break;
            }
        }

        typeAheadMarkers.add(insertionIndex,
                             new TypeAheadMarker(after, untilFocused));
    
public voidfocusNextComponent(java.awt.Component aComponent)
Focuses the Component after aComponent, typically based on a FocusTraversalPolicy.

param
aComponent the Component that is the basis for the focus traversal operation
see
FocusTraversalPolicy
see
Component#transferFocus

        if (aComponent != null) {
            aComponent.transferFocus();
        }
    
public voidfocusPreviousComponent(java.awt.Component aComponent)
Focuses the Component before aComponent, typically based on a FocusTraversalPolicy.

param
aComponent the Component that is the basis for the focus traversal operation
see
FocusTraversalPolicy
see
Component#transferFocusBackward

        if (aComponent != null) {
            aComponent.transferFocusBackward();
        }
    
private java.awt.WindowgetOwningFrameDialog(java.awt.Window window)

        while (window != null && !(window instanceof Frame ||
                                   window instanceof Dialog)) {
            window = (Window)window.getParent();
        }
        return window;
    
private booleanhasMarker(java.awt.Component comp)
Returns true if there are some marker associated with component comp in a markers' queue

since
1.5

        for (Iterator iter = typeAheadMarkers.iterator(); iter.hasNext(); ) {
            if (((TypeAheadMarker)iter.next()).untilFocused == comp) {
                return true;
            }
        }
        return false;
    
public booleanpostProcessKeyEvent(java.awt.event.KeyEvent e)
This method will be called by dispatchKeyEvent. It will handle any unconsumed KeyEvents that map to an AWT MenuShortcut by consuming the event and activating the shortcut.

param
e the KeyEvent to post-process
return
true
see
#dispatchKeyEvent
see
MenuShortcut

        if (!e.isConsumed()) {
            Component target = e.getComponent();
            Container p = (Container)
                (target instanceof Container ? target : target.getParent());
            if (p != null) {
                p.postProcessKeyEvent(e);
            }
        }
        return true;
    
private booleanpreDispatchKeyEvent(java.awt.event.KeyEvent ke)

        if (((AWTEvent) ke).isPosted) {
            Component focusOwner = getFocusOwner();
            ke.setSource(((focusOwner != null) ? focusOwner : getFocusedWindow()));
        }
        if (ke.getSource() == null) {
            return true;
        }

        // Explicitly set the current event and most recent timestamp here in
        // addition to the call in Component.dispatchEventImpl. Because
        // KeyEvents can be delivered in response to a FOCUS_GAINED event, the
        // current timestamp may be incorrect. We need to set it here so that
        // KeyEventDispatchers will use the correct time.
        EventQueue.setCurrentEventAndMostRecentTime(ke);

        /**
         * Fix for 4495473.
         * This fix allows to correctly dispatch events when native
         * event proxying mechanism is active.
         * If it is active we should redispatch key events after
         * we detected its correct target.
         */
        if (KeyboardFocusManager.isProxyActive(ke)) {
            Component source = (Component)ke.getSource();
            Container target = source.getNativeContainer();
            if (target != null) {
                ComponentPeer peer = target.getPeer();
                if (peer != null) {
                    peer.handleEvent(ke);
                    /**
                     * Fix for 4478780 - consume event after it was dispatched by peer.
                     */
                    ke.consume();
                }
            }
            return true;
        }

        java.util.List dispatchers = getKeyEventDispatchers();
        if (dispatchers != null) {
            for (java.util.Iterator iter = dispatchers.iterator();
                 iter.hasNext(); )
             {
                 if (((KeyEventDispatcher)(iter.next())).
                     dispatchKeyEvent(ke))
                 {
                     return true;
                 }
             }
        }
        return dispatchKeyEvent(ke);
    
public voidprocessKeyEvent(java.awt.Component focusedComponent, java.awt.event.KeyEvent e)
This method initiates a focus traversal operation if and only if the KeyEvent represents a focus traversal key for the specified focusedComponent. It is expected that focusedComponent is the current focus owner, although this need not be the case. If it is not, focus traversal will nevertheless proceed as if focusedComponent were the focus owner.

param
focusedComponent the Component that is the basis for a focus traversal operation if the specified event represents a focus traversal key for the Component
param
e the event that may represent a focus traversal key

        // consume processed event if needed
        if (consumeProcessedKeyEvent(e)) {
            return;
        }

        // KEY_TYPED events cannot be focus traversal keys
        if (e.getID() == KeyEvent.KEY_TYPED) {
            return;
        }

        if (focusedComponent.getFocusTraversalKeysEnabled() &&
            !e.isConsumed())
        {
            AWTKeyStroke stroke = AWTKeyStroke.getAWTKeyStrokeForEvent(e),
                oppStroke = AWTKeyStroke.getAWTKeyStroke(stroke.getKeyCode(),
                                                 stroke.getModifiers(),
                                                 !stroke.isOnKeyRelease());
            Set toTest;
            boolean contains, containsOpp;

            toTest = focusedComponent.getFocusTraversalKeys(
                KeyboardFocusManager.FORWARD_TRAVERSAL_KEYS);
            contains = toTest.contains(stroke);
            containsOpp = toTest.contains(oppStroke);

            if (contains || containsOpp) {
                consumeTraversalKey(e);
                if (contains) {
                    focusNextComponent(focusedComponent);
                }
                return;
            }

            toTest = focusedComponent.getFocusTraversalKeys(
                KeyboardFocusManager.BACKWARD_TRAVERSAL_KEYS);
            contains = toTest.contains(stroke);
            containsOpp = toTest.contains(oppStroke);

            if (contains || containsOpp) {
                consumeTraversalKey(e);
                if (contains) {
                    focusPreviousComponent(focusedComponent);
                }
                return;
            }

            toTest = focusedComponent.getFocusTraversalKeys(
                KeyboardFocusManager.UP_CYCLE_TRAVERSAL_KEYS);
            contains = toTest.contains(stroke);
            containsOpp = toTest.contains(oppStroke);

            if (contains || containsOpp) {
                consumeTraversalKey(e);
                if (contains) {
                    upFocusCycle(focusedComponent);
                }
                return;
            }

            if (!((focusedComponent instanceof Container) &&
                  ((Container)focusedComponent).isFocusCycleRoot())) {
                return;
            }

            toTest = focusedComponent.getFocusTraversalKeys(
                KeyboardFocusManager.DOWN_CYCLE_TRAVERSAL_KEYS);
            contains = toTest.contains(stroke);
            containsOpp = toTest.contains(oppStroke);

            if (contains || containsOpp) {
                consumeTraversalKey(e);
                if (contains) {
                    downFocusCycle((Container)focusedComponent);
                }
            }
        }
    
private voidpumpApprovedKeyEvents()

        KeyEvent ke;
        do {
            ke = null;
            synchronized (this) {
                if (enqueuedKeyEvents.size() != 0) {
                    ke = (KeyEvent)enqueuedKeyEvents.getFirst();
                    if (typeAheadMarkers.size() != 0) {
                        TypeAheadMarker marker = (TypeAheadMarker)
                            typeAheadMarkers.getFirst();
                        if (ke.getWhen() > marker.after) {
                            ke = null;
                        }
                    }
                    if (ke != null) {
                        enqueuedKeyEvents.removeFirst();
                    }
                }
            }
            if (ke != null) {
                preDispatchKeyEvent(ke);
            }
        } while (ke != null);
    
private voidpurgeStampedEvents(long start, long end)

        if (start < 0) {
            return;
        }

        for (Iterator iter = enqueuedKeyEvents.iterator(); iter.hasNext(); ) {
            KeyEvent ke = (KeyEvent)iter.next();
            long time = ke.getWhen();

            if (start < time && (end < 0 || time <= end)) {
                iter.remove();
            }

            if (end >= 0 && time > end) {
                break;
            }
        }
    
private voidrestoreFocus(java.awt.event.FocusEvent fe, java.awt.Window newFocusedWindow)

        Component realOppositeComponent = this.realOppositeComponent;
        Component vetoedComponent = fe.getComponent();
        if (newFocusedWindow != null && restoreFocus(newFocusedWindow, 
                                                     vetoedComponent, false))
        {
        } else if (realOppositeComponent != null &&
                   restoreFocus(realOppositeComponent, false)) {
        } else if (fe.getOppositeComponent() != null &&
                   restoreFocus(fe.getOppositeComponent(), false)) {
        } else {
            clearGlobalFocusOwner();
        }
    
private voidrestoreFocus(java.awt.event.WindowEvent we)

        Window realOppositeWindow = this.realOppositeWindow;
        if (realOppositeWindow != null && restoreFocus(realOppositeWindow,
                                                       null, false)) {
        } else if (we.getOppositeWindow() != null &&
                   restoreFocus(we.getOppositeWindow(), null, false)) {
        } else {
            clearGlobalFocusOwner();
        }
    
private booleanrestoreFocus(java.awt.Window aWindow, java.awt.Component vetoedComponent, boolean clearOnFailure)

        Component toFocus =
            KeyboardFocusManager.getMostRecentFocusOwner(aWindow);
        if (toFocus != null && toFocus != vetoedComponent && restoreFocus(toFocus, false)) {
            return true;
        } else if (clearOnFailure) {
            clearGlobalFocusOwner();
            return true;
        } else {
            return false;
        }
    
private booleanrestoreFocus(java.awt.Component toFocus, boolean clearOnFailure)

        if (toFocus.isShowing() && toFocus.isFocusable() &&
            toFocus.requestFocus(false)) {
            return true;
        } else if (toFocus.nextFocusHelper()) {
            return true;
        } else if (clearOnFailure) {
            clearGlobalFocusOwner();
            return true;
        } else {
            return false;
        }
    
static booleansendMessage(java.awt.Component target, java.awt.AWTEvent e)
Sends a synthetic AWTEvent to a Component. If the Component is in the current AppContext, then the event is immediately dispatched. If the Component is in a different AppContext, then the event is posted to the other AppContext's EventQueue, and this method blocks until the event is handled or target AppContext is disposed. Returns true if successfuly dispatched event, false if failed to dispatch.

        e.isPosted = true;
        AppContext myAppContext = AppContext.getAppContext();
        final AppContext targetAppContext = target.appContext;
        final SentEvent se =
            new DefaultKeyboardFocusManagerSentEvent(e, myAppContext);

        if (myAppContext == targetAppContext) {
            se.dispatch();
        } else {
            if (targetAppContext.isDisposed()) {
                return false;
            }
            SunToolkit.postEvent(targetAppContext, se);
            if (EventQueue.isDispatchThread()) {
                EventDispatchThread edt = (EventDispatchThread)
                    Thread.currentThread();
                edt.pumpEvents(SentEvent.ID, new Conditional() {
                        public boolean evaluate() {
                            return !se.dispatched && !targetAppContext.isDisposed();
                        }
                    });
            } else {
                synchronized (se) {
                    while (!se.dispatched && !targetAppContext.isDisposed()) {
                        try {
                            se.wait(1000);
                        } catch (InterruptedException ie) {
                            break;
                        }
                    }
                }
            }
        }
        return se.dispatched;
    
private booleantypeAheadAssertions(java.awt.Component target, java.awt.AWTEvent e)


        // Clear any pending events here as well as in the FOCUS_GAINED
        // handler. We need this call here in case a marker was removed in
        // response to a call to dequeueKeyEvents.
        pumpApprovedKeyEvents();

        switch (e.getID()) {
            case KeyEvent.KEY_TYPED:
            case KeyEvent.KEY_PRESSED:
            case KeyEvent.KEY_RELEASED: {
                KeyEvent ke = (KeyEvent)e;
                synchronized (this) {
                    if (e.isPosted && typeAheadMarkers.size() != 0) {
                        TypeAheadMarker marker = (TypeAheadMarker)
                            typeAheadMarkers.getFirst();
                        if (ke.getWhen() > marker.after) {
                            enqueuedKeyEvents.addLast(ke);
                            return true;
                        }
                    }
                }

                // KeyEvent was posted before focus change request
                return preDispatchKeyEvent(ke);
            }

            case FocusEvent.FOCUS_GAINED:

                // Search the marker list for the first marker tied to
                // the Component which just gained focus. Then remove
                // that marker, any markers which immediately follow
                // and are tied to the same component, and all markers
                // that preceed it. This handles the case where
                // multiple focus requests were made for the same
                // Component in a row and when we lost some of the
                // earlier requests. Since FOCUS_GAINED events will
                // not be generated for these additional requests, we
                // need to clear those markers too.
                synchronized (this) {
                    boolean found = false;
                    if (hasMarker(target)) {
                        for (Iterator iter = typeAheadMarkers.iterator();
                             iter.hasNext(); )
                        {
                            if (((TypeAheadMarker)iter.next()).untilFocused ==
                                target)
                            {
                                found = true;
                            } else if (found) {
                                break;
                            }
                            iter.remove();
                        }
                    }
                }

                redispatchEvent(target, e);

                // Now, dispatch any pending KeyEvents which have been
                // released because of the FOCUS_GAINED event so that we don't
                // have to wait for another event to be posted to the queue.
                pumpApprovedKeyEvents();
                return true;

            default:
                redispatchEvent(target, e);
                return true;
        }
    
public voidupFocusCycle(java.awt.Component aComponent)
Moves the focus up one focus traversal cycle. Typically, the focus owner is set to aComponent's focus cycle root, and the current focus cycle root is set to the new focus owner's focus cycle root. If, however, aComponent's focus cycle root is a Window, then the focus owner is set to the focus cycle root's default Component to focus, and the current focus cycle root is unchanged.

param
aComponent the Component that is the basis for the focus traversal operation
see
Component#transferFocusUpCycle

        if (aComponent != null) {
            aComponent.transferFocusUpCycle();
        }