/*
 * Copyright (c) 2002, 2014, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code 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
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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package sun.awt.X11;

import java.awt.*;
import java.awt.event.*;
import java.awt.peer.*;
import java.beans.PropertyChangeListener;
import sun.awt.*;
import java.util.*;
import java.awt.dnd.DragSource;
import java.awt.dnd.DragGestureListener;
import java.awt.dnd.DragGestureEvent;
import java.awt.dnd.DragGestureRecognizer;
import java.awt.dnd.MouseDragGestureRecognizer;
import java.awt.dnd.InvalidDnDOperationException;
import java.awt.dnd.peer.DragSourceContextPeer;
import java.awt.image.*;
import java.security.*;
import java.awt.im.InputMethodHighlight;
import java.awt.im.spi.InputMethodDescriptor;
import java.awt.datatransfer.Clipboard;
import javax.swing.LookAndFeel;
import javax.swing.UIDefaults;
import java.util.logging.*;
import sun.font.FontManager;
import sun.misc.*;
import sun.print.PrintJob2D;
import sun.security.action.GetBooleanAction;
import sun.security.action.GetPropertyAction;

public class XToolkit extends UNIXToolkit implements Runnable, XConstants {
    private static Logger log = Logger.getLogger("sun.awt.X11.XToolkit");
    private static Logger eventLog = Logger.getLogger("sun.awt.X11.event.XToolkit");
    private static final Logger timeoutTaskLog = Logger.getLogger("sun.awt.X11.timeoutTask.XToolkit");
    private static Logger keyEventLog = Logger.getLogger("sun.awt.X11.kye.XToolkit");
    private static final Logger backingStoreLog = Logger.getLogger("sun.awt.X11.backingStore.XToolkit");

    static final boolean PRIMARY_LOOP = false;
    static final boolean SECONDARY_LOOP = true;

    private static String awtAppClassName = null;

    // the system clipboard - CLIPBOARD selection
    XClipboard clipboard;
    // the system selection - PRIMARY selection
    XClipboard selection;

    // Dynamic Layout Resize client code setting
    protected static boolean dynamicLayoutSetting = false;

    
True when the x settings have been loaded.
/** * True when the x settings have been loaded. */
private boolean loadedXSettings;
XSETTINGS for the default screen.

/** * XSETTINGS for the default screen. * <p> */
private XSettings xs; static int arrowCursor; static TreeMap winMap = new TreeMap(); static HashMap specialPeerMap = new HashMap(); static HashMap winToDispatcher = new HashMap(); private static long _display; static UIDefaults uidefaults; static X11GraphicsEnvironment localEnv; static X11GraphicsDevice device; static final X11GraphicsConfig config; static int awt_multiclick_time; static boolean securityWarningEnabled; // WeakSet should be used here, but there is no such class // in JDK (at least in JDK6 and earlier versions) private WeakHashMap<Window, Boolean> overrideRedirectWindows = new WeakHashMap<Window, Boolean>(); private static int screenWidth = -1, screenHeight = -1; // Dimensions of default screen static long awt_defaultFg; // Pixel private static XMouseInfoPeer xPeer; static { initSecurityWarning(); if (GraphicsEnvironment.isHeadless()) { config = null; } else { localEnv = (X11GraphicsEnvironment) GraphicsEnvironment .getLocalGraphicsEnvironment(); device = (X11GraphicsDevice) localEnv.getDefaultScreenDevice(); config = (X11GraphicsConfig) (device.getDefaultConfiguration()); if (device != null) { _display = device.getDisplay(); } setupModifierMap(); initIDs(); setBackingStoreType(); } noisyAwtHandler = AccessController.doPrivileged( new GetBooleanAction("sun.awt.noisyerrorhandler")); } //---- ERROR HANDLER CODE ----// /* * Error handler at the moment of XToolkit initialization */ private static long saved_error_handler; /* * XErrorEvent being handled */ static volatile XErrorEvent saved_error; /* * Current error handler or null if no error handler is set */ private static XErrorHandler current_error_handler; /* * Value of sun.awt.noisyerrorhandler system property */ private static boolean noisyAwtHandler; public static void WITH_XERROR_HANDLER(XErrorHandler handler) { saved_error = null; current_error_handler = handler; } public static void RESTORE_XERROR_HANDLER() { current_error_handler = null; } // Should be called under LOCK public static int SAVED_ERROR_HANDLER(long display, XErrorEvent error) { if (saved_error_handler != 0) { // Default XErrorHandler may just terminate the process. Don't call it. // return XlibWrapper.CallErrorHandler(saved_error_handler, display, error.pData); } if (log.isLoggable(Level.FINE)) { log.log(Level.FINE, "Unhandled XErrorEvent: " + "id=" + error.get_resourceid() + ", " + "serial=" + error.get_serial() + ", " + "ec=" + error.get_error_code() + ", " + "rc=" + error.get_request_code() + ", " + "mc=" + error.get_minor_code()); } return 0; } // Called from the native code when an error occurs private static int globalErrorHandler(long display, long event_ptr) { if (noisyAwtHandler) { XlibWrapper.PrintXErrorEvent(display, event_ptr); } XErrorEvent event = new XErrorEvent(event_ptr); saved_error = event; try { if (current_error_handler != null) { return current_error_handler.handleError(display, event); } else { return SAVED_ERROR_HANDLER(display, event); } } catch (Throwable z) { if (log.isLoggable(Level.FINE)) { log.log(Level.FINE, "Error in GlobalErrorHandler", z); } } return 0; } //---- END OF ERROR HANDLER CODE ----// private native static void initIDs(); native static void waitForEvents(long nextTaskTime); static Thread toolkitThread; static boolean isToolkitThread() { return Thread.currentThread() == toolkitThread; } static void initSecurityWarning() { // Enable warning only for internal builds String runtime = AccessController.doPrivileged( new GetPropertyAction("java.runtime.version")); securityWarningEnabled = (runtime != null && runtime.contains("internal")); } static boolean isSecurityWarningEnabled() { return securityWarningEnabled; } static native void awt_output_flush(); static final void awtFUnlock() { awtUnlock(); awt_output_flush(); } public native void nativeLoadSystemColors(int[] systemColors); static UIDefaults getUIDefaults() { if (uidefaults == null) { initUIDefaults(); } return uidefaults; } public void loadSystemColors(int[] systemColors) { nativeLoadSystemColors(systemColors); MotifColorUtilities.loadSystemColors(systemColors); } static void initUIDefaults() { try { // Load Defaults from MotifLookAndFeel // This dummy load is necessary to get SystemColor initialized. !!!!!! Color c = SystemColor.text; LookAndFeel lnf = new XAWTLookAndFeel(); uidefaults = lnf.getDefaults(); } catch (Exception e) { e.printStackTrace(); } } static Object displayLock = new Object(); public static long getDisplay() { return _display; } public static long getDefaultRootWindow() { awtLock(); try { long res = XlibWrapper.RootWindow(XToolkit.getDisplay(), XlibWrapper.DefaultScreen(XToolkit.getDisplay())); if (res == 0) { throw new IllegalStateException("Root window must not be null"); } return res; } finally { awtUnlock(); } } void init() { awtLock(); try { XlibWrapper.XSupportsLocale(); if (XlibWrapper.XSetLocaleModifiers("") == null) { if (log.isLoggable(Level.FINER)) { log.finer("X locale modifiers are not supported, using default"); } } tryXKB(); AwtScreenData defaultScreen = new AwtScreenData(XToolkit.getDefaultScreenData()); awt_defaultFg = defaultScreen.get_blackpixel(); arrowCursor = XlibWrapper.XCreateFontCursor(XToolkit.getDisplay(), XCursorFontConstants.XC_arrow); saved_error_handler = XlibWrapper.SetToolkitErrorHandler(); } finally { awtUnlock(); } PrivilegedAction<Void> a = new PrivilegedAction<Void>() { public Void run() { Thread shutdownThread = new Thread(ThreadGroupUtils.getRootThreadGroup(), "XToolkt-Shutdown-Thread") { public void run() { freeXKB(); if (log.isLoggable(Level.FINE)) { dumpPeers(); } } }; shutdownThread.setContextClassLoader(null); Runtime.getRuntime().addShutdownHook(shutdownThread); return null; } }; AccessController.doPrivileged(a); } static String getCorrectXIDString(String val) { if (val != null) { return val.replace('.', '-'); } else { return val; } } static native String getEnv(String key); static String getAWTAppClassName() { return awtAppClassName; } static final String DATA_TRANSFERER_CLASS_NAME = "sun.awt.X11.XDataTransferer"; public XToolkit() { super(); if (PerformanceLogger.loggingEnabled()) { PerformanceLogger.setTime("XToolkit construction"); } if (!GraphicsEnvironment.isHeadless()) { String mainClassName = null; StackTraceElement trace[] = (new Throwable()).getStackTrace(); int bottom = trace.length - 1; if (bottom >= 0) { mainClassName = trace[bottom].getClassName(); } if (mainClassName == null || mainClassName.equals("")) { mainClassName = "AWT"; } awtAppClassName = getCorrectXIDString(mainClassName); init(); XWM.init(); SunToolkit.setDataTransfererClassName(DATA_TRANSFERER_CLASS_NAME); PrivilegedAction<Thread> action = new PrivilegedAction() { public Thread run() { Thread thread = new Thread(ThreadGroupUtils.getRootThreadGroup(), XToolkit.this, "AWT-XAWT"); thread.setContextClassLoader(null); thread.setPriority(Thread.NORM_PRIORITY + 1); thread.setDaemon(true); return thread; } }; toolkitThread = AccessController.doPrivileged(action); toolkitThread.start(); } } public ButtonPeer createButton(Button target) { ButtonPeer peer = new XButtonPeer(target); targetCreatedPeer(target, peer); return peer; } public FramePeer createFrame(Frame target) { FramePeer peer = new XFramePeer(target); targetCreatedPeer(target, peer); return peer; } static void addToWinMap(long window, XBaseWindow xwin) { synchronized(winMap) { winMap.put(Long.valueOf(window),xwin); } } static void removeFromWinMap(long window, XBaseWindow xwin) { synchronized(winMap) { winMap.remove(Long.valueOf(window)); } } static XBaseWindow windowToXWindow(long window) { synchronized(winMap) { return (XBaseWindow) winMap.get(Long.valueOf(window)); } } static void addEventDispatcher(long window, XEventDispatcher dispatcher) { synchronized(winToDispatcher) { Long key = Long.valueOf(window); Collection dispatchers = (Collection)winToDispatcher.get(key); if (dispatchers == null) { dispatchers = new Vector(); winToDispatcher.put(key, dispatchers); } dispatchers.add(dispatcher); } } static void removeEventDispatcher(long window, XEventDispatcher dispatcher) { synchronized(winToDispatcher) { Long key = Long.valueOf(window); Collection dispatchers = (Collection)winToDispatcher.get(key); if (dispatchers != null) { dispatchers.remove(dispatcher); } } } private Point lastCursorPos;
Returns whether there is last remembered cursor position. The position is remembered from X mouse events on our peers. The position is stored in p.
Returns:true, if there is remembered last cursor position, false otherwise
/** * Returns whether there is last remembered cursor position. The * position is remembered from X mouse events on our peers. The * position is stored in <code>p</code>. * @return true, if there is remembered last cursor position, * false otherwise */
boolean getLastCursorPos(Point p) { awtLock(); try { if (lastCursorPos == null) { return false; } p.setLocation(lastCursorPos); return true; } finally { awtUnlock(); } } private void processGlobalMotionEvent(XEvent e) { // Only our windows guaranteely generate MotionNotify, so we // should track enter/leave, to catch the moment when to // switch to XQueryPointer if (e.get_type() == MotionNotify) { XMotionEvent ev = e.get_xmotion(); awtLock(); try { if (lastCursorPos == null) { lastCursorPos = new Point(ev.get_x_root(), ev.get_y_root()); } else { lastCursorPos.setLocation(ev.get_x_root(), ev.get_y_root()); } } finally { awtUnlock(); } } else if (e.get_type() == LeaveNotify) { // Leave from our window awtLock(); try { lastCursorPos = null; } finally { awtUnlock(); } } else if (e.get_type() == EnterNotify) { // Entrance into our window XCrossingEvent ev = e.get_xcrossing(); awtLock(); try { if (lastCursorPos == null) { lastCursorPos = new Point(ev.get_x_root(), ev.get_y_root()); } else { lastCursorPos.setLocation(ev.get_x_root(), ev.get_y_root()); } } finally { awtUnlock(); } } } public interface XEventListener { public void eventProcessed(XEvent e); } private Collection<XEventListener> listeners = new LinkedList<XEventListener>(); public void addXEventListener(XEventListener listener) { synchronized (listeners) { listeners.add(listener); } } private void notifyListeners(XEvent xev) { synchronized (listeners) { if (listeners.size() == 0) return; XEvent copy = xev.clone(); try { for (XEventListener listener : listeners) { listener.eventProcessed(copy); } } finally { copy.dispose(); } } } private void dispatchEvent(XEvent ev) { final XAnyEvent xany = ev.get_xany(); if (windowToXWindow(xany.get_window()) != null && (ev.get_type() == MotionNotify || ev.get_type() == EnterNotify || ev.get_type() == LeaveNotify)) { processGlobalMotionEvent(ev); } if( ev.get_type() == XConstants.MappingNotify ) { // The 'window' field in this event is unused. // This application itself does nothing to initiate such an event // (no calls of XChangeKeyboardMapping etc.). // SunRay server sends this event to the application once on every // keyboard (not just layout) change which means, quite seldom. XlibWrapper.XRefreshKeyboardMapping(ev.pData); resetKeyboardSniffer(); setupModifierMap(); } XBaseWindow.dispatchToWindow(ev); Collection dispatchers = null; synchronized(winToDispatcher) { Long key = Long.valueOf(xany.get_window()); dispatchers = (Collection)winToDispatcher.get(key); if (dispatchers != null) { // Clone it to avoid synchronization during dispatching dispatchers = new Vector(dispatchers); } } if (dispatchers != null) { Iterator iter = dispatchers.iterator(); while (iter.hasNext()) { XEventDispatcher disp = (XEventDispatcher)iter.next(); disp.dispatchEvent(ev); } } notifyListeners(ev); } static void processException(Throwable thr) { if (log.isLoggable(Level.WARNING)) { log.log(Level.WARNING, "Exception on Toolkit thread", thr); } } static native void awt_toolkit_init(); public void run() { awt_toolkit_init(); run(PRIMARY_LOOP); } public void run(boolean loop) { XEvent ev = new XEvent(); while(true) { awtLock(); try { if (loop == SECONDARY_LOOP) { // In the secondary loop we may have already aquired awt_lock // several times, so waitForEvents() might be unable to release // the awt_lock and this causes lock up. // For now, we just avoid waitForEvents in the secondary loop. if (!XlibWrapper.XNextSecondaryLoopEvent(getDisplay(),ev.pData)) { break; } } else { callTimeoutTasks(); // If no events are queued, waitForEvents() causes calls to // awtUnlock(), awtJNI_ThreadYield, poll, awtLock(), // so it spends most of its time in poll, without holding the lock. while ((XlibWrapper.XEventsQueued(getDisplay(), XlibWrapper.QueuedAfterReading) == 0) && (XlibWrapper.XEventsQueued(getDisplay(), XlibWrapper.QueuedAfterFlush) == 0)) { callTimeoutTasks(); waitForEvents(getNextTaskTime()); } XlibWrapper.XNextEvent(getDisplay(),ev.pData); } if (ev.get_type() != NoExpose) { eventNumber++; } if (awt_UseXKB_Calls && ev.get_type() == awt_XKBBaseEventCode) { processXkbChanges(ev); } if (XDropTargetEventProcessor.processEvent(ev) || XDragSourceContextPeer.processEvent(ev)) { continue; } if (eventLog.isLoggable(Level.FINER)) { eventLog.log(Level.FINER, "{0}", String.valueOf(ev)); } // Check if input method consumes the event long w = 0; if (windowToXWindow(ev.get_xany().get_window()) != null) { Component owner = XKeyboardFocusManagerPeer.getCurrentNativeFocusOwner(); if (owner != null) { XWindow ownerWindow = (XWindow) ComponentAccessor.getPeer(owner); if (ownerWindow != null) { w = ownerWindow.getContentWindow(); } } } if( keyEventLog.isLoggable(Level.FINE) && (ev.get_type() == KeyPress || ev.get_type() == KeyRelease) ) { keyEventLog.fine("before XFilterEvent:"+ev); } if (XlibWrapper.XFilterEvent(ev.getPData(), w)) { continue; } if( keyEventLog.isLoggable(Level.FINE) && (ev.get_type() == KeyPress || ev.get_type() == KeyRelease) ) { keyEventLog.fine("after XFilterEvent:"+ev); // IS THIS CORRECT? } dispatchEvent(ev); } catch (ThreadDeath td) { XBaseWindow.ungrabInput(); return; } catch (Throwable thr) { XBaseWindow.ungrabInput(); processException(thr); } finally { awtUnlock(); } } } static int getDefaultScreenWidth() { if (screenWidth == -1) { long display = getDisplay(); awtLock(); try { screenWidth = (int) XlibWrapper.DisplayWidth(display, XlibWrapper.DefaultScreen(display)); } finally { awtUnlock(); } } return screenWidth; } static int getDefaultScreenHeight() { if (screenHeight == -1) { long display = getDisplay(); awtLock(); try { screenHeight = (int) XlibWrapper.DisplayHeight(display, XlibWrapper.DefaultScreen(display)); } finally { awtUnlock(); } } return screenHeight; } protected int getScreenWidth() { return getDefaultScreenWidth(); } protected int getScreenHeight() { return getDefaultScreenHeight(); } private static Rectangle getWorkArea(long root) { XAtom XA_NET_WORKAREA = XAtom.get("_NET_WORKAREA"); long native_ptr = Native.allocateLongArray(4); try { boolean workareaPresent = XA_NET_WORKAREA.getAtomData(root, XAtom.XA_CARDINAL, native_ptr, 4); if (workareaPresent) { int rootX = (int)Native.getLong(native_ptr, 0); int rootY = (int)Native.getLong(native_ptr, 1); int rootWidth = (int)Native.getLong(native_ptr, 2); int rootHeight = (int)Native.getLong(native_ptr, 3); return new Rectangle(rootX, rootY, rootWidth, rootHeight); } } finally { XlibWrapper.unsafe.freeMemory(native_ptr); } return null; } /* * If we're running in non-Xinerama environment and the current * window manager supports _NET protocol then the screen insets * are calculated using _NET_WM_WORKAREA property of the root * window. * Otherwise, i. e. if Xinerama is on or _NET_WM_WORKAREA is * not set, we try to calculate the insets ourselves using * getScreenInsetsManually method. */ public Insets getScreenInsets(GraphicsConfiguration gc) { XNETProtocol netProto = XWM.getWM().getNETProtocol(); if ((netProto == null) || !netProto.active()) { return super.getScreenInsets(gc); } XToolkit.awtLock(); try { X11GraphicsConfig x11gc = (X11GraphicsConfig)gc; X11GraphicsDevice x11gd = (X11GraphicsDevice)x11gc.getDevice(); long root = XlibUtil.getRootWindow(x11gd.getScreen()); Rectangle rootBounds = XlibUtil.getWindowGeometry(root); X11GraphicsEnvironment x11ge = (X11GraphicsEnvironment) GraphicsEnvironment.getLocalGraphicsEnvironment(); if (!x11ge.runningXinerama()) { Rectangle workArea = XToolkit.getWorkArea(root); if (workArea != null) { return new Insets(workArea.y, workArea.x, rootBounds.height - workArea.height - workArea.y, rootBounds.width - workArea.width - workArea.x); } } return getScreenInsetsManually(root, rootBounds, gc.getBounds()); } finally { XToolkit.awtUnlock(); } } /* * Manual calculation of screen insets: get all the windows with * _NET_WM_STRUT/_NET_WM_STRUT_PARTIAL hints and add these * hints' values to screen insets. * * This method should be called under XToolkit.awtLock() */ private Insets getScreenInsetsManually(long root, Rectangle rootBounds, Rectangle screenBounds) { /* * During the manual calculation of screen insets we iterate * all the X windows hierarchy starting from root window. This * constant is the max level inspected in this hierarchy. * 3 is a heuristic value: I suppose any the toolbar-like * window is a child of either root or desktop window. */ final int MAX_NESTED_LEVEL = 3; XAtom XA_NET_WM_STRUT = XAtom.get("_NET_WM_STRUT"); XAtom XA_NET_WM_STRUT_PARTIAL = XAtom.get("_NET_WM_STRUT_PARTIAL"); Insets insets = new Insets(0, 0, 0, 0); java.util.List search = new LinkedList(); search.add(root); search.add(0); while (!search.isEmpty()) { long window = (Long)search.remove(0); int windowLevel = (Integer)search.remove(0); /* * Note that most of the modern window managers unmap * application window if it is iconified. Thus, any * _NET_WM_STRUT[_PARTIAL] hints for iconified windows * are not included to the screen insets. */ if (XlibUtil.getWindowMapState(window) == XlibWrapper.IsUnmapped) { continue; } long native_ptr = Native.allocateLongArray(4); try { // first, check if _NET_WM_STRUT or _NET_WM_STRUT_PARTIAL are present // if both are set on the window, _NET_WM_STRUT_PARTIAL is used (see _NET spec) boolean strutPresent = XA_NET_WM_STRUT_PARTIAL.getAtomData(window, XAtom.XA_CARDINAL, native_ptr, 4); if (!strutPresent) { strutPresent = XA_NET_WM_STRUT.getAtomData(window, XAtom.XA_CARDINAL, native_ptr, 4); } if (strutPresent) { // second, verify that window is located on the proper screen Rectangle windowBounds = XlibUtil.getWindowGeometry(window); if (windowLevel > 1) { windowBounds = XlibUtil.translateCoordinates(window, root, windowBounds); } // if _NET_WM_STRUT_PARTIAL is present, we should use its values to detect // if the struts area intersects with screenBounds, however some window // managers don't set this hint correctly, so we just get intersection with windowBounds if (windowBounds.intersects(screenBounds)) { insets.left = Math.max((int)Native.getLong(native_ptr, 0), insets.left); insets.right = Math.max((int)Native.getLong(native_ptr, 1), insets.right); insets.top = Math.max((int)Native.getLong(native_ptr, 2), insets.top); insets.bottom = Math.max((int)Native.getLong(native_ptr, 3), insets.bottom); } } } finally { XlibWrapper.unsafe.freeMemory(native_ptr); } if (windowLevel < MAX_NESTED_LEVEL) { Set<Long> children = XlibUtil.getChildWindows(window); for (long child : children) { search.add(child); search.add(windowLevel + 1); } } } return insets; } /* * The current implementation of disabling background erasing for * canvases is that we don't set any native background color * (with XSetWindowBackground) for the canvas window. However, * this color is set in the peer constructor - see * XWindow.postInit() for details. That's why this method from * SunToolkit is not overridden in XToolkit: it's too late to * disable background erasing :( */ /* @Override public void disableBackgroundErase(Canvas canvas) { XCanvasPeer peer = (XCanvasPeer)canvas.getPeer(); if (peer == null) { throw new IllegalStateException("Canvas must have a valid peer"); } peer.disableBackgroundErase(); } */ // Need this for XMenuItemPeer. protected static final Object targetToPeer(Object target) { Object p=null; if (target != null && !GraphicsEnvironment.isHeadless()) { p = specialPeerMap.get(target); } if (p != null) return p; else return SunToolkit.targetToPeer(target); } // Need this for XMenuItemPeer. protected static final void targetDisposedPeer(Object target, Object peer) { SunToolkit.targetDisposedPeer(target, peer); } public RobotPeer createRobot(Robot target, GraphicsDevice screen) { return new XRobotPeer(screen.getDefaultConfiguration()); } /* * On X, support for dynamic layout on resizing is governed by the * window manager. If the window manager supports it, it happens * automatically. The setter method for this property is * irrelevant on X. */ public void setDynamicLayout(boolean b) { dynamicLayoutSetting = b; } protected boolean isDynamicLayoutSet() { return dynamicLayoutSetting; } /* Called from isDynamicLayoutActive() and from * lazilyLoadDynamicLayoutSupportedProperty() */ protected boolean isDynamicLayoutSupported() { return XWM.getWM().supportsDynamicLayout(); } public boolean isDynamicLayoutActive() { return isDynamicLayoutSupported(); } public FontPeer getFontPeer(String name, int style){ return new XFontPeer(name, style); } public DragSourceContextPeer createDragSourceContextPeer(DragGestureEvent dge) throws InvalidDnDOperationException { return XDragSourceContextPeer.createDragSourceContextPeer(dge); } public <T extends DragGestureRecognizer> T createDragGestureRecognizer(Class<T> recognizerClass, DragSource ds, Component c, int srcActions, DragGestureListener dgl) { if (MouseDragGestureRecognizer.class.equals(recognizerClass)) return (T)new XMouseDragGestureRecognizer(ds, c, srcActions, dgl); else return null; } public CheckboxMenuItemPeer createCheckboxMenuItem(CheckboxMenuItem target) { XCheckboxMenuItemPeer peer = new XCheckboxMenuItemPeer(target); //vb157120: looks like we don't need to map menu items //in new menus implementation //targetCreatedPeer(target, peer); return peer; } public MenuItemPeer createMenuItem(MenuItem target) { XMenuItemPeer peer = new XMenuItemPeer(target); //vb157120: looks like we don't need to map menu items //in new menus implementation //targetCreatedPeer(target, peer); return peer; } public TextFieldPeer createTextField(TextField target) { TextFieldPeer peer = new XTextFieldPeer(target); targetCreatedPeer(target, peer); return peer; } public LabelPeer createLabel(Label target) { LabelPeer peer = new XLabelPeer(target); targetCreatedPeer(target, peer); return peer; } public ListPeer createList(java.awt.List target) { ListPeer peer = new XListPeer(target); targetCreatedPeer(target, peer); return peer; } public CheckboxPeer createCheckbox(Checkbox target) { CheckboxPeer peer = new XCheckboxPeer(target); targetCreatedPeer(target, peer); return peer; } public ScrollbarPeer createScrollbar(Scrollbar target) { XScrollbarPeer peer = new XScrollbarPeer(target); targetCreatedPeer(target, peer); return peer; } public ScrollPanePeer createScrollPane(ScrollPane target) { XScrollPanePeer peer = new XScrollPanePeer(target); targetCreatedPeer(target, peer); return peer; } public TextAreaPeer createTextArea(TextArea target) { TextAreaPeer peer = new XTextAreaPeer(target); targetCreatedPeer(target, peer); return peer; } public ChoicePeer createChoice(Choice target) { XChoicePeer peer = new XChoicePeer(target); targetCreatedPeer(target, peer); return peer; } public CanvasPeer createCanvas(Canvas target) { XCanvasPeer peer = (isXEmbedServerRequested() ? new XEmbedCanvasPeer(target) : new XCanvasPeer(target)); targetCreatedPeer(target, peer); return peer; } public PanelPeer createPanel(Panel target) { PanelPeer peer = new XPanelPeer(target); targetCreatedPeer(target, peer); return peer; } public WindowPeer createWindow(Window target) { WindowPeer peer = new XWindowPeer(target); targetCreatedPeer(target, peer); return peer; } public DialogPeer createDialog(Dialog target) { DialogPeer peer = new XDialogPeer(target); targetCreatedPeer(target, peer); return peer; } public FileDialogPeer createFileDialog(FileDialog target) { FileDialogPeer peer = new XFileDialogPeer(target); targetCreatedPeer(target, peer); return peer; } public MenuBarPeer createMenuBar(MenuBar target) { XMenuBarPeer peer = new XMenuBarPeer(target); targetCreatedPeer(target, peer); return peer; } public MenuPeer createMenu(Menu target) { XMenuPeer peer = new XMenuPeer(target); //vb157120: looks like we don't need to map menu items //in new menus implementation //targetCreatedPeer(target, peer); return peer; } public PopupMenuPeer createPopupMenu(PopupMenu target) { XPopupMenuPeer peer = new XPopupMenuPeer(target); targetCreatedPeer(target, peer); return peer; } public synchronized MouseInfoPeer getMouseInfoPeer() { if (xPeer == null) { xPeer = new XMouseInfoPeer(); } return xPeer; } public XEmbeddedFramePeer createEmbeddedFrame(XEmbeddedFrame target) { XEmbeddedFramePeer peer = new XEmbeddedFramePeer(target); targetCreatedPeer(target, peer); return peer; } XEmbedChildProxyPeer createEmbedProxy(XEmbedChildProxy target) { XEmbedChildProxyPeer peer = new XEmbedChildProxyPeer(target); targetCreatedPeer(target, peer); return peer; } public KeyboardFocusManagerPeer createKeyboardFocusManagerPeer(KeyboardFocusManager manager) throws HeadlessException { XKeyboardFocusManagerPeer peer = new XKeyboardFocusManagerPeer(manager); return peer; }
Returns a new custom cursor.
/** * Returns a new custom cursor. */
public Cursor createCustomCursor(Image cursor, Point hotSpot, String name) throws IndexOutOfBoundsException { return new XCustomCursor(cursor, hotSpot, name); } public TrayIconPeer createTrayIcon(TrayIcon target) throws HeadlessException, AWTException { TrayIconPeer peer = new XTrayIconPeer(target); targetCreatedPeer(target, peer); return peer; } public SystemTrayPeer createSystemTray(SystemTray target) throws HeadlessException { SystemTrayPeer peer = new XSystemTrayPeer(target); return peer; } public boolean isTraySupported() { XSystemTrayPeer peer = XSystemTrayPeer.getPeerInstance(); if (peer != null) { return peer.isAvailable(); } return false; }
Returns the supported cursor size
/** * Returns the supported cursor size */
public Dimension getBestCursorSize(int preferredWidth, int preferredHeight) { return XCustomCursor.getBestCursorSize( java.lang.Math.max(1,preferredWidth), java.lang.Math.max(1,preferredHeight)); } public int getMaximumCursorColors() { return 2; // Black and white. } public Map mapInputMethodHighlight(InputMethodHighlight highlight) { return XInputMethod.mapInputMethodHighlight(highlight); } @Override public boolean getLockingKeyState(int key) { if (! (key == KeyEvent.VK_CAPS_LOCK || key == KeyEvent.VK_NUM_LOCK || key == KeyEvent.VK_SCROLL_LOCK || key == KeyEvent.VK_KANA_LOCK)) { throw new IllegalArgumentException("invalid key for Toolkit.getLockingKeyState"); } awtLock(); try { return getModifierState( key ); } finally { awtUnlock(); } } public Clipboard getSystemClipboard() { SecurityManager security = System.getSecurityManager(); if (security != null) { security.checkSystemClipboardAccess(); } synchronized (this) { if (clipboard == null) { clipboard = new XClipboard("System", "CLIPBOARD"); } } return clipboard; } public Clipboard getSystemSelection() { SecurityManager security = System.getSecurityManager(); if (security != null) { security.checkSystemClipboardAccess(); } synchronized (this) { if (selection == null) { selection = new XClipboard("Selection", "PRIMARY"); } } return selection; } public void beep() { awtLock(); try { XlibWrapper.XBell(getDisplay(), 0); XlibWrapper.XFlush(getDisplay()); } finally { awtUnlock(); } } public PrintJob getPrintJob(final Frame frame, final String doctitle, final Properties props) { if (GraphicsEnvironment.isHeadless()) { throw new IllegalArgumentException(); } PrintJob2D printJob = new PrintJob2D(frame, doctitle, props); if (printJob.printDialog() == false) { printJob = null; } return printJob; } public PrintJob getPrintJob(final Frame frame, final String doctitle, final JobAttributes jobAttributes, final PageAttributes pageAttributes) { if (GraphicsEnvironment.isHeadless()) { throw new IllegalArgumentException(); } PrintJob2D printJob = new PrintJob2D(frame, doctitle, jobAttributes, pageAttributes); if (printJob.printDialog() == false) { printJob = null; } return printJob; } static void XSync() { awtLock(); try { XlibWrapper.XSync(getDisplay(),0); } finally { awtUnlock(); } } public int getScreenResolution() { long display = getDisplay(); awtLock(); try { return (int) ((XlibWrapper.DisplayWidth(display, XlibWrapper.DefaultScreen(display)) * 25.4) / XlibWrapper.DisplayWidthMM(display, XlibWrapper.DefaultScreen(display))); } finally { awtUnlock(); } } static native long getDefaultXColormap(); static native long getDefaultScreenData(); static ColorModel screenmodel; static ColorModel getStaticColorModel() { if (screenmodel == null) { screenmodel = config.getColorModel (); } return screenmodel; } public ColorModel getColorModel() { return getStaticColorModel(); }
Returns a new input method adapter descriptor for native input methods.
/** * Returns a new input method adapter descriptor for native input methods. */
public InputMethodDescriptor getInputMethodAdapterDescriptor() throws AWTException { return new XInputMethodDescriptor(); } static int getMultiClickTime() { if (awt_multiclick_time == 0) { initializeMultiClickTime(); } return awt_multiclick_time; } static void initializeMultiClickTime() { awtLock(); try { try { String multiclick_time_query = XlibWrapper.XGetDefault(XToolkit.getDisplay(), "*", "multiClickTime"); if (multiclick_time_query != null) { awt_multiclick_time = (int)Long.parseLong(multiclick_time_query); // awt_multiclick_time = XtGetMultiClickTime(awt_display); } else { multiclick_time_query = XlibWrapper.XGetDefault(XToolkit.getDisplay(), "OpenWindows", "MultiClickTimeout"); if (multiclick_time_query != null) { /* Note: OpenWindows.MultiClickTimeout is in tenths of a second, so we need to multiply by 100 to convert to milliseconds */ awt_multiclick_time = (int)Long.parseLong(multiclick_time_query) * 100; } else { awt_multiclick_time = 200; // awt_multiclick_time = XtGetMultiClickTime(awt_display); } } } catch (NumberFormatException nf) { awt_multiclick_time = 200; } catch (NullPointerException npe) { awt_multiclick_time = 200; } } finally { awtUnlock(); } if (awt_multiclick_time == 0) { awt_multiclick_time = 200; } } public boolean isFrameStateSupported(int state) throws HeadlessException { if (state == Frame.NORMAL || state == Frame.ICONIFIED) { return true; } else { return XWM.getWM().supportsExtendedState(state); } } @Override public void setOverrideRedirect(Window target) { synchronized (overrideRedirectWindows) { overrideRedirectWindows.put(target, true); } } public boolean isOverrideRedirect(Window target) { synchronized (overrideRedirectWindows) { return overrideRedirectWindows.containsKey(target); } } static void dumpPeers() { if (log.isLoggable(Level.FINE)) { log.fine("Mapped windows:"); Iterator iter = winMap.entrySet().iterator(); while (iter.hasNext()) { Map.Entry entry = (Map.Entry)iter.next(); log.fine(entry.getKey() + "->" + entry.getValue()); if (entry.getValue() instanceof XComponentPeer) { Component target = (Component)((XComponentPeer)entry.getValue()).getTarget(); log.fine("\ttarget: " + target); } } SunToolkit.dumpPeers(log); log.fine("Mapped special peers:"); iter = specialPeerMap.entrySet().iterator(); while (iter.hasNext()) { Map.Entry entry = (Map.Entry)iter.next(); log.fine(entry.getKey() + "->" + entry.getValue()); } log.fine("Mapped dispatchers:"); iter = winToDispatcher.entrySet().iterator(); while (iter.hasNext()) { Map.Entry entry = (Map.Entry)iter.next(); log.fine(entry.getKey() + "->" + entry.getValue()); } } } /* Protected with awt_lock. */ private static boolean initialized; private static boolean timeStampUpdated; private static long timeStamp; private static final XEventDispatcher timeFetcher = new XEventDispatcher() { public void dispatchEvent(XEvent ev) { switch (ev.get_type()) { case PropertyNotify: XPropertyEvent xpe = ev.get_xproperty(); awtLock(); try { timeStamp = xpe.get_time(); timeStampUpdated = true; awtLockNotifyAll(); } finally { awtUnlock(); } break; } } }; private static XAtom _XA_JAVA_TIME_PROPERTY_ATOM; static long getCurrentServerTime() { awtLock(); try { try { if (!initialized) { XToolkit.addEventDispatcher(XBaseWindow.getXAWTRootWindow().getWindow(), timeFetcher); _XA_JAVA_TIME_PROPERTY_ATOM = XAtom.get("_SUNW_JAVA_AWT_TIME"); initialized = true; } timeStampUpdated = false; XlibWrapper.XChangeProperty(XToolkit.getDisplay(), XBaseWindow.getXAWTRootWindow().getWindow(), _XA_JAVA_TIME_PROPERTY_ATOM.getAtom(), XAtom.XA_ATOM, 32, PropModeAppend, 0, 0); XlibWrapper.XFlush(XToolkit.getDisplay()); if (isToolkitThread()) { XEvent event = new XEvent(); try { XlibWrapper.XWindowEvent(XToolkit.getDisplay(), XBaseWindow.getXAWTRootWindow().getWindow(), XConstants.PropertyChangeMask, event.pData); timeFetcher.dispatchEvent(event); } finally { event.dispose(); } } else { while (!timeStampUpdated) { awtLockWait(); } } } catch (InterruptedException ie) { // Note: the returned timeStamp can be incorrect in this case. if (log.isLoggable(Level.FINE)) { log.fine("Catched exception, timeStamp may not be correct (ie = " + ie + ")"); } } } finally { awtUnlock(); } return timeStamp; } protected void initializeDesktopProperties() { desktopProperties.put("DnD.Autoscroll.initialDelay", Integer.valueOf(50)); desktopProperties.put("DnD.Autoscroll.interval", Integer.valueOf(50)); desktopProperties.put("DnD.Autoscroll.cursorHysteresis", Integer.valueOf(5)); // Don't want to call getMultiClickTime() if we are headless if (!GraphicsEnvironment.isHeadless()) { desktopProperties.put("awt.multiClickInterval", Integer.valueOf(getMultiClickTime())); desktopProperties.put("awt.mouse.numButtons", Integer.valueOf(getNumMouseButtons())); } } private int getNumMouseButtons() { awtLock(); try { return XlibWrapper.XGetPointerMapping(XToolkit.getDisplay(), 0, 0); } finally { awtUnlock(); } } private final static String prefix = "DnD.Cursor."; private final static String postfix = ".32x32"; private static final String dndPrefix = "DnD."; protected Object lazilyLoadDesktopProperty(String name) { if (name.startsWith(prefix)) { String cursorName = name.substring(prefix.length(), name.length()) + postfix; try { return Cursor.getSystemCustomCursor(cursorName); } catch (AWTException awte) { throw new RuntimeException("cannot load system cursor: " + cursorName, awte); } } if (name.equals("awt.dynamicLayoutSupported")) { return Boolean.valueOf(isDynamicLayoutSupported()); } if (initXSettingsIfNeeded(name)) { return desktopProperties.get(name); } return super.lazilyLoadDesktopProperty(name); } public synchronized void addPropertyChangeListener(String name, PropertyChangeListener pcl) { initXSettingsIfNeeded(name); super.addPropertyChangeListener(name, pcl); }
Initializes XAWTXSettings if a property for a given property name is provided by XSettings and they are not initialized yet.
Returns:true if the method has initialized XAWTXSettings.
/** * Initializes XAWTXSettings if a property for a given property name is provided by * XSettings and they are not initialized yet. * * @return true if the method has initialized XAWTXSettings. */
private boolean initXSettingsIfNeeded(final String propName) { if (!loadedXSettings && (propName.startsWith("gnome.") || propName.equals(SunToolkit.DESKTOPFONTHINTS) || propName.startsWith(dndPrefix))) { loadedXSettings = true; if (!GraphicsEnvironment.isHeadless()) { loadXSettings(); /* If no desktop font hint could be retrieved, check for * KDE running KWin and retrieve settings from fontconfig. * If that isn't found let SunToolkit will see if there's a * system property set by a user. */ if (desktopProperties.get(SunToolkit.DESKTOPFONTHINTS) == null) { if (XWM.isKDE2()) { Object hint = FontManager.getFontConfigAAHint(); if (hint != null) { /* set the fontconfig/KDE property so that * getDesktopHints() below will see it * and set the public property. */ desktopProperties.put(UNIXToolkit.FONTCONFIGAAHINT, hint); } } desktopProperties.put(SunToolkit.DESKTOPFONTHINTS, SunToolkit.getDesktopFontHints()); } return true; } } return false; } private void loadXSettings() { xs = new XAWTXSettings(); }
Callback from the native side indicating some, or all, of the desktop properties have changed and need to be reloaded. data is the byte array directly from the x server and may be in little endian format.

NB: This could be called from any thread if triggered by loadXSettings. It is called from the System EDT if triggered by an XSETTINGS change.

/** * Callback from the native side indicating some, or all, of the * desktop properties have changed and need to be reloaded. * <code>data</code> is the byte array directly from the x server and * may be in little endian format. * <p> * NB: This could be called from any thread if triggered by * <code>loadXSettings</code>. It is called from the System EDT * if triggered by an XSETTINGS change. */
void parseXSettings(int screen_XXX_ignored,Map updatedSettings) { if (updatedSettings == null || updatedSettings.isEmpty()) { return; } Iterator i = updatedSettings.entrySet().iterator(); while (i.hasNext()) { Map.Entry e = (Map.Entry)i.next(); String name = (String)e.getKey(); name = "gnome." + name; setDesktopProperty(name, e.getValue()); if (log.isLoggable(Level.FINE)) { log.fine("name = " + name + " value = " + e.getValue()); } // XXX: we probably want to do something smarter. In // particular, "Net" properties are of interest to the // "core" AWT itself. E.g. // // Net/DndDragThreshold -> ??? // Net/DoubleClickTime -> awt.multiClickInterval } setDesktopProperty(SunToolkit.DESKTOPFONTHINTS, SunToolkit.getDesktopFontHints()); Integer dragThreshold = null; synchronized (this) { dragThreshold = (Integer)desktopProperties.get("gnome.Net/DndDragThreshold"); } if (dragThreshold != null) { setDesktopProperty("DnD.gestureMotionThreshold", dragThreshold); } } static int altMask; static int metaMask; static int numLockMask; static int modeSwitchMask; static int modLockIsShiftLock; /* Like XKeysymToKeycode, but ensures that keysym is the primary * symbol on the keycode returned. Returns zero otherwise. */ static int keysymToPrimaryKeycode(long sym) { awtLock(); try { int code = XlibWrapper.XKeysymToKeycode(getDisplay(), sym); if (code == 0) { return 0; } long primary = XlibWrapper.XKeycodeToKeysym(getDisplay(), code, 0); if (sym != primary) { return 0; } return code; } finally { awtUnlock(); } } static boolean getModifierState( int jkc ) { int iKeyMask = 0; long ks = XKeysym.javaKeycode2Keysym( jkc ); int kc = XlibWrapper.XKeysymToKeycode(getDisplay(), ks); if (kc == 0) { return false; } awtLock(); try { XModifierKeymap modmap = new XModifierKeymap( XlibWrapper.XGetModifierMapping(getDisplay())); int nkeys = modmap.get_max_keypermod(); long map_ptr = modmap.get_modifiermap(); for( int k = 0; k < 8; k++ ) { for (int i = 0; i < nkeys; ++i) { int keycode = Native.getUByte(map_ptr, k * nkeys + i); if (keycode == 0) { continue; // ignore zero keycode } if (kc == keycode) { iKeyMask = 1 << k; break; } } if( iKeyMask != 0 ) { break; } } XlibWrapper.XFreeModifiermap(modmap.pData); if (iKeyMask == 0 ) { return false; } // Now we know to which modifier is assigned the keycode // correspondent to the keysym correspondent to the java // keycode. We are going to check a state of this modifier. // If a modifier is a weird one, we cannot help it. long window = 0; try{ // get any application window window = ((Long)(winMap.firstKey())).longValue(); }catch(NoSuchElementException nex) { // get root window window = getDefaultRootWindow(); } boolean res = XlibWrapper.XQueryPointer(getDisplay(), window, XlibWrapper.larg1, //root XlibWrapper.larg2, //child XlibWrapper.larg3, //root_x XlibWrapper.larg4, //root_y XlibWrapper.larg5, //child_x XlibWrapper.larg6, //child_y XlibWrapper.larg7);//mask int mask = Native.getInt(XlibWrapper.larg7); return ((mask & iKeyMask) != 0); } finally { awtUnlock(); } } /* Assign meaning - alt, meta, etc. - to X modifiers mod1 ... mod5. * Only consider primary symbols on keycodes attached to modifiers. */ static void setupModifierMap() { final int metaL = keysymToPrimaryKeycode(XKeySymConstants.XK_Meta_L); final int metaR = keysymToPrimaryKeycode(XKeySymConstants.XK_Meta_R); final int altL = keysymToPrimaryKeycode(XKeySymConstants.XK_Alt_L); final int altR = keysymToPrimaryKeycode(XKeySymConstants.XK_Alt_R); final int numLock = keysymToPrimaryKeycode(XKeySymConstants.XK_Num_Lock); final int modeSwitch = keysymToPrimaryKeycode(XKeySymConstants.XK_Mode_switch); final int shiftLock = keysymToPrimaryKeycode(XKeySymConstants.XK_Shift_Lock); final int capsLock = keysymToPrimaryKeycode(XKeySymConstants.XK_Caps_Lock); final int modmask[] = { ShiftMask, LockMask, ControlMask, Mod1Mask, Mod2Mask, Mod3Mask, Mod4Mask, Mod5Mask }; log.fine("In setupModifierMap"); awtLock(); try { XModifierKeymap modmap = new XModifierKeymap( XlibWrapper.XGetModifierMapping(getDisplay())); int nkeys = modmap.get_max_keypermod(); long map_ptr = modmap.get_modifiermap(); for (int modn = XConstants.Mod1MapIndex; modn <= XConstants.Mod5MapIndex; ++modn) { for (int i = 0; i < nkeys; ++i) { /* for each keycode attached to this modifier */ int keycode = Native.getUByte(map_ptr, modn * nkeys + i); if (keycode == 0) { break; } if (metaMask == 0 && (keycode == metaL || keycode == metaR)) { metaMask = modmask[modn]; break; } if (altMask == 0 && (keycode == altL || keycode == altR)) { altMask = modmask[modn]; break; } if (numLockMask == 0 && keycode == numLock) { numLockMask = modmask[modn]; break; } if (modeSwitchMask == 0 && keycode == modeSwitch) { modeSwitchMask = modmask[modn]; break; } continue; } } modLockIsShiftLock = 0; for (int j = 0; j < nkeys; ++j) { int keycode = Native.getUByte(map_ptr, XConstants.LockMapIndex * nkeys + j); if (keycode == 0) { break; } if (keycode == shiftLock) { modLockIsShiftLock = 1; break; } if (keycode == capsLock) { break; } } XlibWrapper.XFreeModifiermap(modmap.pData); } finally { awtUnlock(); } if (log.isLoggable(Level.FINE)) { log.fine("metaMask = " + metaMask); log.fine("altMask = " + altMask); log.fine("numLockMask = " + numLockMask); log.fine("modeSwitchMask = " + modeSwitchMask); log.fine("modLockIsShiftLock = " + modLockIsShiftLock); } } private static SortedMap timeoutTasks;
Removed the task from the list of waiting-to-be called tasks. If the task has been scheduled several times removes only first one.
/** * Removed the task from the list of waiting-to-be called tasks. * If the task has been scheduled several times removes only first one. */
static void remove(Runnable task) { if (task == null) { throw new NullPointerException("task is null"); } awtLock(); try { if (timeoutTaskLog.isLoggable(Level.FINER)) { timeoutTaskLog.finer("Removing task " + task); } if (timeoutTasks == null) { if (timeoutTaskLog.isLoggable(Level.FINER)) { timeoutTaskLog.finer("Task is not scheduled"); } return; } Collection values = timeoutTasks.values(); Iterator iter = values.iterator(); while (iter.hasNext()) { java.util.List list = (java.util.List)iter.next(); boolean removed = false; if (list.contains(task)) { list.remove(task); if (list.isEmpty()) { iter.remove(); } break; } } } finally { awtUnlock(); } } static native void wakeup_poll();
Registers a Runnable which run() method will be called once on the toolkit thread when a specified interval of time elapses.
Params:
  • task – a Runnable which run method will be called on the toolkit thread when interval milliseconds elapse
  • interval – an interal in milliseconds
Throws:
/** * Registers a Runnable which <code>run()</code> method will be called * once on the toolkit thread when a specified interval of time elapses. * * @param task a Runnable which <code>run</code> method will be called * on the toolkit thread when <code>interval</code> milliseconds * elapse * @param interval an interal in milliseconds * * @throws NullPointerException if <code>task</code> is <code>null</code> * @throws IllegalArgumentException if <code>interval</code> is not positive */
static void schedule(Runnable task, long interval) { if (task == null) { throw new NullPointerException("task is null"); } if (interval <= 0) { throw new IllegalArgumentException("interval " + interval + " is not positive"); } awtLock(); try { if (timeoutTaskLog.isLoggable(Level.FINER)) { timeoutTaskLog.log(Level.FINER, "XToolkit.schedule(): current time={0}" + "; interval={1}" + "; task being added={2}" + "; tasks before addition={3}", new Object[] { Long.valueOf(System.currentTimeMillis()), Long.valueOf(interval), String.valueOf(task), String.valueOf(timeoutTasks)}); } if (timeoutTasks == null) { timeoutTasks = new TreeMap(); } Long time = Long.valueOf(System.currentTimeMillis() + interval); java.util.List tasks = (java.util.List)timeoutTasks.get(time); if (tasks == null) { tasks = new ArrayList(1); timeoutTasks.put(time, tasks); } tasks.add(task); if (timeoutTasks.get(timeoutTasks.firstKey()) == tasks && tasks.size() == 1) { // Added task became first task - poll won't know // about it so we need to wake it up wakeup_poll(); } } finally { awtUnlock(); } } private long getNextTaskTime() { awtLock(); try { if (timeoutTasks == null || timeoutTasks.isEmpty()) { return -1L; } return (Long)timeoutTasks.firstKey(); } finally { awtUnlock(); } }
Executes mature timeout tasks registered with schedule(). Called from run() under awtLock.
/** * Executes mature timeout tasks registered with schedule(). * Called from run() under awtLock. */
private static void callTimeoutTasks() { if (timeoutTaskLog.isLoggable(Level.FINER)) { timeoutTaskLog.log(Level.FINER, "XToolkit.callTimeoutTasks(): current time={0}" + "; tasks={1}", new Object[] {Long.valueOf(System.currentTimeMillis()), String.valueOf(timeoutTasks)}); } if (timeoutTasks == null || timeoutTasks.isEmpty()) { return; } Long currentTime = Long.valueOf(System.currentTimeMillis()); Long time = (Long)timeoutTasks.firstKey(); while (time.compareTo(currentTime) <= 0) { java.util.List tasks = (java.util.List)timeoutTasks.remove(time); for (Iterator iter = tasks.iterator(); iter.hasNext();) { Runnable task = (Runnable)iter.next(); if (timeoutTaskLog.isLoggable(Level.FINER)) { timeoutTaskLog.log(Level.FINER, "XToolkit.callTimeoutTasks(): current time={0}" + "; about to run task={1}", new Object[] {Long.valueOf(currentTime), String.valueOf(task)}); } try { task.run(); } catch (ThreadDeath td) { throw td; } catch (Throwable thr) { processException(thr); } } if (timeoutTasks.isEmpty()) { break; } time = (Long)timeoutTasks.firstKey(); } } static long getAwtDefaultFg() { return awt_defaultFg; } static boolean isLeftMouseButton(MouseEvent me) { switch (me.getID()) { case MouseEvent.MOUSE_PRESSED: case MouseEvent.MOUSE_RELEASED: return (me.getButton() == MouseEvent.BUTTON1); case MouseEvent.MOUSE_ENTERED: case MouseEvent.MOUSE_EXITED: case MouseEvent.MOUSE_CLICKED: case MouseEvent.MOUSE_DRAGGED: return ((me.getModifiersEx() & InputEvent.BUTTON1_DOWN_MASK) != 0); } return false; } static boolean isRightMouseButton(MouseEvent me) { int numButtons = ((Integer)getDefaultToolkit().getDesktopProperty("awt.mouse.numButtons")).intValue(); switch (me.getID()) { case MouseEvent.MOUSE_PRESSED: case MouseEvent.MOUSE_RELEASED: return ((numButtons == 2 && me.getButton() == MouseEvent.BUTTON2) || (numButtons > 2 && me.getButton() == MouseEvent.BUTTON3)); case MouseEvent.MOUSE_ENTERED: case MouseEvent.MOUSE_EXITED: case MouseEvent.MOUSE_CLICKED: case MouseEvent.MOUSE_DRAGGED: return ((numButtons == 2 && (me.getModifiersEx() & InputEvent.BUTTON2_DOWN_MASK) != 0) || (numButtons > 2 && (me.getModifiersEx() & InputEvent.BUTTON3_DOWN_MASK) != 0)); } return false; } static long reset_time_utc; static final long WRAP_TIME_MILLIS = Integer.MAX_VALUE; /* * This function converts between the X server time (number of milliseconds * since the last server reset) and the UTC time for the 'when' field of an * InputEvent (or another event type with a timestamp). */ static long nowMillisUTC_offset(long server_offset) { // ported from awt_util.c /* * Because Time is of type 'unsigned long', it is possible that Time will * never wrap when using 64-bit Xlib. However, if a 64-bit client * connects to a 32-bit server, I suspect the values will still wrap. So * we should not attempt to remove the wrap checking even if _LP64 is * true. */ long current_time_utc = System.currentTimeMillis(); if (log.isLoggable(Level.FINER)) { log.finer("reset_time=" + reset_time_utc + ", current_time=" + current_time_utc + ", server_offset=" + server_offset + ", wrap_time=" + WRAP_TIME_MILLIS); } if ((current_time_utc - reset_time_utc) > WRAP_TIME_MILLIS) { reset_time_utc = System.currentTimeMillis() - getCurrentServerTime(); } if (log.isLoggable(Level.FINER)) { log.finer("result = " + (reset_time_utc + server_offset)); } return reset_time_utc + server_offset; }
See Also:
  • needsXEmbedImpl.needsXEmbedImpl
/** * @see sun.awt.SunToolkit#needsXEmbedImpl */
protected boolean needsXEmbedImpl() { // XToolkit implements supports for XEmbed-client protocol and // requires the supports from the embedding host for it to work. return true; } public boolean isModalityTypeSupported(Dialog.ModalityType modalityType) { return (modalityType == null) || (modalityType == Dialog.ModalityType.MODELESS) || (modalityType == Dialog.ModalityType.DOCUMENT_MODAL) || (modalityType == Dialog.ModalityType.APPLICATION_MODAL) || (modalityType == Dialog.ModalityType.TOOLKIT_MODAL); } public boolean isModalExclusionTypeSupported(Dialog.ModalExclusionType exclusionType) { return (exclusionType == null) || (exclusionType == Dialog.ModalExclusionType.NO_EXCLUDE) || (exclusionType == Dialog.ModalExclusionType.APPLICATION_EXCLUDE) || (exclusionType == Dialog.ModalExclusionType.TOOLKIT_EXCLUDE); } static EventQueue getEventQueue(Object target) { AppContext appContext = targetToAppContext(target); if (appContext != null) { return (EventQueue)appContext.get(AppContext.EVENT_QUEUE_KEY); } return null; } static void removeSourceEvents(EventQueue queue, Object source, boolean removeAllEvents) { AWTAccessor.getEventQueueAccessor().removeSourceEvents(queue, source, removeAllEvents); } public boolean isAlwaysOnTopSupported() { Iterator iter = XWM.getWM().getProtocols(XLayerProtocol.class).iterator(); while (iter.hasNext()) { XLayerProtocol proto = (XLayerProtocol)iter.next(); if (proto.supportsLayer(XLayerProtocol.LAYER_ALWAYS_ON_TOP)) { return true; } } return false; } public boolean useBufferPerWindow() { return XToolkit.getBackingStoreType() == XConstants.NotUseful; }
Returns one of XConstants: NotUseful, WhenMapped or Always. If backing store is not available on at least one screen, or java2d uses DGA(which conflicts with backing store) on at least one screen, or the string system property "sun.awt.backingStore" is neither "Always" nor "WhenMapped", then the method returns XConstants.NotUseful. Otherwise, if the system property "sun.awt.backingStore" is "WhenMapped", then the method returns XConstants.WhenMapped. Otherwise (i.e., if the system property "sun.awt.backingStore" is "Always"), the method returns XConstants.Always.
/** * Returns one of XConstants: NotUseful, WhenMapped or Always. * If backing store is not available on at least one screen, or * java2d uses DGA(which conflicts with backing store) on at least one screen, * or the string system property "sun.awt.backingStore" is neither "Always" * nor "WhenMapped", then the method returns XConstants.NotUseful. * Otherwise, if the system property "sun.awt.backingStore" is "WhenMapped", * then the method returns XConstants.WhenMapped. * Otherwise (i.e., if the system property "sun.awt.backingStore" is "Always"), * the method returns XConstants.Always. */
static int getBackingStoreType() { return backingStoreType; } private static void setBackingStoreType() { String prop = AccessController.doPrivileged( new GetPropertyAction("sun.awt.backingStore")); if (prop == null) { backingStoreType = XConstants.NotUseful; if (backingStoreLog.isLoggable(Level.CONFIG)) { backingStoreLog.config("The system property sun.awt.backingStore is not set" + ", by default backingStore=NotUseful"); } return; } if (backingStoreLog.isLoggable(Level.CONFIG)) { backingStoreLog.config("The system property sun.awt.backingStore is " + prop); } prop = prop.toLowerCase(); if (prop.equals("always")) { backingStoreType = XConstants.Always; } else if (prop.equals("whenmapped")) { backingStoreType = XConstants.WhenMapped; } else { backingStoreType = XConstants.NotUseful; } if (backingStoreLog.isLoggable(Level.CONFIG)) { backingStoreLog.config("backingStore(as provided by the system property)=" + ( backingStoreType == XConstants.NotUseful ? "NotUseful" : backingStoreType == XConstants.WhenMapped ? "WhenMapped" : "Always") ); } if (sun.java2d.x11.X11SurfaceData.isDgaAvailable()) { backingStoreType = XConstants.NotUseful; if (backingStoreLog.isLoggable(Level.CONFIG)) { backingStoreLog.config("DGA is available, backingStore=NotUseful"); } return; } awtLock(); try { int screenCount = XlibWrapper.ScreenCount(getDisplay()); for (int i = 0; i < screenCount; i++) { if (XlibWrapper.DoesBackingStore(XlibWrapper.ScreenOfDisplay(getDisplay(), i)) == XConstants.NotUseful) { backingStoreType = XConstants.NotUseful; if (backingStoreLog.isLoggable(Level.CONFIG)) { backingStoreLog.config("Backing store is not available on the screen " + i + ", backingStore=NotUseful"); } return; } } } finally { awtUnlock(); } }
One of XConstants: NotUseful, WhenMapped or Always.
/** * One of XConstants: NotUseful, WhenMapped or Always. */
private static int backingStoreType; static final int XSUN_KP_BEHAVIOR = 1; static final int XORG_KP_BEHAVIOR = 2; static final int IS_SUN_KEYBOARD = 1; static final int IS_NONSUN_KEYBOARD = 2; static final int IS_KANA_KEYBOARD = 1; static final int IS_NONKANA_KEYBOARD = 2; static int awt_IsXsunKPBehavior = 0; static boolean awt_UseXKB = false; static boolean awt_UseXKB_Calls = false; static int awt_XKBBaseEventCode = 0; static int awt_XKBEffectiveGroup = 0; // so far, I don't use it leaving all calculations // to XkbTranslateKeyCode static long awt_XKBDescPtr = 0;
Check for Xsun convention regarding numpad keys. Xsun and some other servers (i.e. derived from Xsun) under certain conditions process numpad keys unlike Xorg.
/** * Check for Xsun convention regarding numpad keys. * Xsun and some other servers (i.e. derived from Xsun) * under certain conditions process numpad keys unlike Xorg. */
static boolean isXsunKPBehavior() { awtLock(); try { if( awt_IsXsunKPBehavior == 0 ) { if( XlibWrapper.IsXsunKPBehavior(getDisplay()) ) { awt_IsXsunKPBehavior = XSUN_KP_BEHAVIOR; }else{ awt_IsXsunKPBehavior = XORG_KP_BEHAVIOR; } } return awt_IsXsunKPBehavior == XSUN_KP_BEHAVIOR ? true : false; } finally { awtUnlock(); } } static int sunOrNotKeyboard = 0; static int kanaOrNotKeyboard = 0; static void resetKeyboardSniffer() { sunOrNotKeyboard = 0; kanaOrNotKeyboard = 0; } static boolean isSunKeyboard() { if( sunOrNotKeyboard == 0 ) { if( XlibWrapper.IsSunKeyboard( getDisplay() )) { sunOrNotKeyboard = IS_SUN_KEYBOARD; }else{ sunOrNotKeyboard = IS_NONSUN_KEYBOARD; } } return (sunOrNotKeyboard == IS_SUN_KEYBOARD); } static boolean isKanaKeyboard() { if( kanaOrNotKeyboard == 0 ) { if( XlibWrapper.IsKanaKeyboard( getDisplay() )) { kanaOrNotKeyboard = IS_KANA_KEYBOARD; }else{ kanaOrNotKeyboard = IS_NONKANA_KEYBOARD; } } return (kanaOrNotKeyboard == IS_KANA_KEYBOARD); } static boolean isXKBenabled() { awtLock(); try { return awt_UseXKB; } finally { awtUnlock(); } }
Query XKEYBOARD extension. If possible, initialize xkb library.
/** Query XKEYBOARD extension. If possible, initialize xkb library. */
static boolean tryXKB() { awtLock(); try { String name = "XKEYBOARD"; // First, if there is extension at all. awt_UseXKB = XlibWrapper.XQueryExtension( getDisplay(), name, XlibWrapper.larg1, XlibWrapper.larg2, XlibWrapper.larg3); if( awt_UseXKB ) { // There is a keyboard extension. Check if a client library is compatible. // If not, don't use xkb calls. // In this case we still may be Xkb-capable application. awt_UseXKB_Calls = XlibWrapper.XkbLibraryVersion( XlibWrapper.larg1, XlibWrapper.larg2); if( awt_UseXKB_Calls ) { awt_UseXKB_Calls = XlibWrapper.XkbQueryExtension( getDisplay(), XlibWrapper.larg1, XlibWrapper.larg2, XlibWrapper.larg3, XlibWrapper.larg4, XlibWrapper.larg5); if( awt_UseXKB_Calls ) { awt_XKBBaseEventCode = Native.getInt(XlibWrapper.larg2); XlibWrapper.XkbSelectEvents (getDisplay(), XConstants.XkbUseCoreKbd, XConstants.XkbNewKeyboardNotifyMask | XConstants.XkbMapNotifyMask ,//| //XConstants.XkbStateNotifyMask, XConstants.XkbNewKeyboardNotifyMask | XConstants.XkbMapNotifyMask );//| //XConstants.XkbStateNotifyMask); XlibWrapper.XkbSelectEventDetails(getDisplay(), XConstants.XkbUseCoreKbd, XConstants.XkbStateNotify, XConstants.XkbGroupStateMask, XConstants.XkbGroupStateMask); //XXX ? XkbGroupLockMask last, XkbAllStateComponentsMask before last? awt_XKBDescPtr = XlibWrapper.XkbGetMap(getDisplay(), XConstants.XkbKeyTypesMask | XConstants.XkbKeySymsMask | XConstants.XkbModifierMapMask | XConstants.XkbVirtualModsMask, XConstants.XkbUseCoreKbd); } } } return awt_UseXKB; } finally { awtUnlock(); } } static boolean canUseXKBCalls() { awtLock(); try { return awt_UseXKB_Calls; } finally { awtUnlock(); } } static int getXKBEffectiveGroup() { awtLock(); try { return awt_XKBEffectiveGroup; } finally { awtUnlock(); } } static int getXKBBaseEventCode() { awtLock(); try { return awt_XKBBaseEventCode; } finally { awtUnlock(); } } static long getXKBKbdDesc() { awtLock(); try { return awt_XKBDescPtr; } finally { awtUnlock(); } } void freeXKB() { awtLock(); try { if (awt_UseXKB_Calls && awt_XKBDescPtr != 0) { XlibWrapper.XkbFreeKeyboard(awt_XKBDescPtr, 0xFF, true); } } finally { awtUnlock(); } } private void processXkbChanges(XEvent ev) { // mapping change --> refresh kbd map // state change --> get a new effective group; do I really need it // or that should be left for XkbTranslateKeyCode? XkbEvent xke = new XkbEvent( ev.getPData() ); int xkb_type = xke.get_any().get_xkb_type(); switch( xkb_type ) { case XConstants.XkbNewKeyboardNotify : if( awt_XKBDescPtr != 0 ) { freeXKB(); } awt_XKBDescPtr = XlibWrapper.XkbGetMap(getDisplay(), XConstants.XkbKeyTypesMask | XConstants.XkbKeySymsMask | XConstants.XkbModifierMapMask | XConstants.XkbVirtualModsMask, XConstants.XkbUseCoreKbd); //System.out.println("XkbNewKeyboard:"+(xke.get_new_kbd())); break; case XConstants.XkbMapNotify : //TODO: provide a simple unit test. XlibWrapper.XkbGetUpdatedMap(getDisplay(), XConstants.XkbKeyTypesMask | XConstants.XkbKeySymsMask | XConstants.XkbModifierMapMask | XConstants.XkbVirtualModsMask, awt_XKBDescPtr); //System.out.println("XkbMap:"+(xke.get_map())); break; case XConstants.XkbStateNotify : // May use it later e.g. to obtain an effective group etc. //System.out.println("XkbState:"+(xke.get_state())); break; default: //System.out.println("XkbEvent of xkb_type "+xkb_type); break; } } private static long eventNumber; public static long getEventNumber() { awtLock(); try { return eventNumber; } finally { awtUnlock(); } } private static XEventDispatcher oops_waiter; private static boolean oops_updated; private static boolean oops_failed; private XAtom oops; private static final long WORKAROUND_SLEEP = 100;
@inheritDoc
/** * @inheritDoc */
protected boolean syncNativeQueue(final long timeout) { XBaseWindow win = XBaseWindow.getXAWTRootWindow(); if (oops_waiter == null) { oops_waiter = new XEventDispatcher() { public void dispatchEvent(XEvent e) { if (e.get_type() == SelectionNotify) { XSelectionEvent pe = e.get_xselection(); if (pe.get_property() == oops.getAtom()) { oops_updated = true; awtLockNotifyAll(); } else if (pe.get_selection() == XAtom.get("WM_S0").getAtom() && pe.get_target() == XAtom.get("VERSION").getAtom() && pe.get_property() == 0 && XlibWrapper.XGetSelectionOwner(getDisplay(), XAtom.get("WM_S0").getAtom()) == 0) { // WM forgot to acquire selection or there is no WM oops_failed = true; awtLockNotifyAll(); } } } }; } if (oops == null) { oops = XAtom.get("OOPS"); } awtLock(); try { addEventDispatcher(win.getWindow(), oops_waiter); oops_updated = false; oops_failed = false; // Wait for selection notify for oops on win long event_number = getEventNumber(); XAtom atom = XAtom.get("WM_S0"); if (eventLog.isLoggable(Level.FINER)) { eventLog.log(Level.FINER, "WM_S0 selection owner {0}", new Object[] {XlibWrapper.XGetSelectionOwner(getDisplay(), atom.getAtom())}); } XlibWrapper.XConvertSelection(getDisplay(), atom.getAtom(), XAtom.get("VERSION").getAtom(), oops.getAtom(), win.getWindow(), XlibWrapper.CurrentTime); XSync(); eventLog.finer("Requested OOPS"); long start = System.currentTimeMillis(); while (!oops_updated && !oops_failed) { try { awtLockWait(timeout); } catch (InterruptedException e) { throw new RuntimeException(e); } // This "while" is a protection from spurious // wake-ups. However, we shouldn't wait for too long if ((System.currentTimeMillis() - start > timeout) && timeout >= 0) { throw new OperationTimedOut(Long.toString(System.currentTimeMillis() - start)); } } if (oops_failed && getEventNumber() - event_number == 1) { // If selection update failed we can simply wait some time // hoping some events will arrive awtUnlock(); if (eventLog.isLoggable(Level.FINEST)) { eventLog.log(Level.FINEST, "Emergency sleep"); } try { Thread.sleep(WORKAROUND_SLEEP); } catch (InterruptedException ie) { throw new RuntimeException(ie); } finally { awtLock(); } } return getEventNumber() - event_number > 2; } finally { removeEventDispatcher(win.getWindow(), oops_waiter); if (eventLog.isLoggable(Level.FINER)) { eventLog.log(Level.FINER, "Exiting syncNativeQueue"); } awtUnlock(); } } public void grab(Window w) { if (w.getPeer() != null) { ((XWindowPeer)w.getPeer()).setGrab(true); } } public void ungrab(Window w) { if (w.getPeer() != null) { ((XWindowPeer)w.getPeer()).setGrab(false); } }
Returns if the java.awt.Desktop class is supported on the current desktop.

The methods of java.awt.Desktop class are supported on the Gnome desktop. Check if the running desktop is Gnome by checking the window manager.

/** * Returns if the java.awt.Desktop class is supported on the current * desktop. * <p> * The methods of java.awt.Desktop class are supported on the Gnome desktop. * Check if the running desktop is Gnome by checking the window manager. */
public boolean isDesktopSupported(){ return XDesktopPeer.isDesktopSupported(); } public DesktopPeer createDesktopPeer(Desktop target){ return new XDesktopPeer(); } @Override public boolean isWindowOpacitySupported() { XNETProtocol net_protocol = XWM.getWM().getNETProtocol(); if (net_protocol == null) { return false; } return net_protocol.doOpacityProtocol(); } @Override public boolean isWindowShapingSupported() { return XlibUtil.isShapingSupported(); } @Override public boolean isWindowTranslucencySupported() { //NOTE: it may not be supported. The actual check is being performed // at com.sun.awt.AWTUtilities(). In X11 we need to check // whether there's any translucency-capable GC available. return true; } @Override public boolean isTranslucencyCapable(GraphicsConfiguration gc) { if (!(gc instanceof X11GraphicsConfig)) { return false; } return ((X11GraphicsConfig)gc).isTranslucencyCapable(); } }