/** Initialize the applet */ public void init() { // Create audio clips for pronouncing hours for (int i = 0; i < 12; i++) hourAudio[i] = Applet.newAudioClip(this.getClass().getResource("audio/hour" + i + ".au")); // Create audio clips for pronouncing minutes for (int i = 0; i < 60; i++) minuteAudio[i] = Applet.newAudioClip(this.getClass().getResource("audio/minute" + i + ".au")); // Add clock and time label to the content pane of the applet add(clock, BorderLayout.CENTER); add(jlblDigitTime, BorderLayout.SOUTH); }
/** start */ @Override public void start() { super.start(); showStatus(Compiere.getSummary()); Splash.getSplash(); Compiere.startup(true, "Applet"); // needs to be here for UI new AMenu(); } // start
public void itemStateChanged(ItemEvent e) { Checkbox currentCheckbox = shapeActions.getSelectedCheckbox(); boolean CheckboxState = currentCheckbox.getState(); String currentAction = currentCheckbox.getLabel(); if (CheckboxState) { myAction = currentAction; } else { myAction = "DRAW"; } applet.repaint(); }
public void setSize(Dimension d) { super.setSize(d); if (offg != null) { offscreen = createImage(getWidth(), getHeight()); offg = offscreen.getGraphics(); } /* if(IGView.view!=null){ IGView.view.setScreenSize(w,h); IGView.view.update(); } IGCore.setDisplaySize(d); */ }
public synchronized Image getImage(URL url) { Object o = imageCache.get(url); if (o != null) { return (Image) o; } try { o = url.getContent(); if (o == null) { return null; } if (o instanceof Image) { imageCache.put(url, o); return (Image) o; } // Otherwise it must be an ImageProducer. Image img = target.createImage((java.awt.image.ImageProducer) o); imageCache.put(url, img); return img; } catch (Exception ex) { return null; } }
public boolean handleEvent(Event e) { if (e.id == Event.WINDOW_DESTROY) this.dispose(); else if (myApplet != null) { if ( // e.id == Event.GOT_FOCUS || e.id == Event.WINDOW_EXPOSE || e.id == Event.WINDOW_DEICONIFY) { for (int i = 1; i < nLists; i++) { for (int j = 0; j < selectedIndices[i].length; j++) { list[i].select(selectedIndices[i][j]); } } } else if (e.id == Event.LIST_SELECT || e.id == Event.LIST_DESELECT) { for (int i = 0; i < nLists; i++) { selectedIndices[i] = list[i].getSelectedIndexes(); } for (int i = 0; i < nLists; i++) { if (e.target == list[i]) { Event evt = new Event(this, e.id, new Integer(i)); myApplet.postEvent(evt); } } } } return (super.handleEvent(e)); }
/** * Instantiate a JavaBean. * * @param classLoader the class-loader from which we should create the bean. If this is null, then * the system class-loader is used. * @param beanName the name of the bean within the class-loader. For example "sun.beanbox.foobah" * @exception java.lang.ClassNotFoundException if the class of a serialized object could not be * found. * @exception java.io.IOException if an I/O error occurs. */ public static Object instantiate(ClassLoader cls, String beanName) throws java.io.IOException, ClassNotFoundException { java.io.InputStream ins; java.io.ObjectInputStream oins = null; Object result = null; boolean serialized = false; java.io.IOException serex = null; // If the given classloader is null, we check if an // system classloader is available and (if so) // use that instead. // Note that calls on the system class loader will // look in the bootstrap class loader first. if (cls == null) { try { cls = ClassLoader.getSystemClassLoader(); } catch (SecurityException ex) { // We're not allowed to access the system class loader. // Drop through. } } // Try to find a serialized object with this name final String serName = beanName.replace('.', '/').concat(".ser"); final ClassLoader loader = cls; ins = (InputStream) java.security.AccessController.doPrivileged( new java.security.PrivilegedAction() { public Object run() { if (loader == null) return ClassLoader.getSystemResourceAsStream(serName); else return loader.getResourceAsStream(serName); } }); if (ins != null) { try { if (cls == null) { oins = new ObjectInputStream(ins); } else { oins = new ObjectInputStreamWithLoader(ins, cls); } result = oins.readObject(); serialized = true; oins.close(); } catch (java.io.IOException ex) { ins.close(); // Drop through and try opening the class. But remember // the exception in case we can't find the class either. serex = ex; } catch (ClassNotFoundException ex) { ins.close(); throw ex; } } if (result == null) { // No serialized object, try just instantiating the class Class cl; try { if (cls == null) { cl = Class.forName(beanName); } else { cl = cls.loadClass(beanName); } } catch (ClassNotFoundException ex) { // There is no appropriate class. If we earlier tried to // deserialize an object and got an IO exception, throw that, // otherwise rethrow the ClassNotFoundException. if (serex != null) { throw serex; } throw ex; } /* * Try to instantiate the class. */ try { result = cl.newInstance(); } catch (Exception ex) { // We have to remap the exception to one in our signature. // But we pass extra information in the detail message. throw new ClassNotFoundException("" + cl + " : " + ex); } } if (result != null) { // Ok, if the result is an applet initialize it. AppletStub stub = null; if (result instanceof Applet) { Applet applet = (Applet) result; // Figure our the codebase and docbase URLs. We do this // by locating the URL for a known resource, and then // massaging the URL. // First find the "resource name" corresponding to the bean // itself. So a serialzied bean "a.b.c" would imply a // resource name of "a/b/c.ser" and a classname of "x.y" // would imply a resource name of "x/y.class". final String resourceName; if (serialized) { // Serialized bean resourceName = beanName.replace('.', '/').concat(".ser"); } else { // Regular class resourceName = beanName.replace('.', '/').concat(".class"); } URL objectUrl = null; URL codeBase = null; URL docBase = null; // Now get the URL correponding to the resource name. final ClassLoader cloader = cls; objectUrl = (URL) java.security.AccessController.doPrivileged( new java.security.PrivilegedAction() { public Object run() { if (cloader == null) return ClassLoader.getSystemResource(resourceName); else return cloader.getResource(resourceName); } }); // If we found a URL, we try to locate the docbase by taking // of the final path name component, and the code base by taking // of the complete resourceName. // So if we had a resourceName of "a/b/c.class" and we got an // objectURL of "file://bert/classes/a/b/c.class" then we would // want to set the codebase to "file://bert/classes/" and the // docbase to "file://bert/classes/a/b/" if (objectUrl != null) { String s = objectUrl.toExternalForm(); if (s.endsWith(resourceName)) { int ix = s.length() - resourceName.length(); codeBase = new URL(s.substring(0, ix)); docBase = codeBase; ix = s.lastIndexOf('/'); if (ix >= 0) { docBase = new URL(s.substring(0, ix + 1)); } } } // Setup a default context and stub. BeansAppletContext context = new BeansAppletContext(applet); stub = (AppletStub) new BeansAppletStub(applet, context, codeBase, docBase); applet.setStub(stub); // If it was deserialized then it was already init-ed. // Otherwise we need to initialize it. if (!serialized) { // We need to set a reasonable initial size, as many // applets are unhappy if they are started without // having been explicitly sized. applet.setSize(100, 100); applet.init(); } ((BeansAppletStub) stub).active = true; } } return result; }
/** * Gets an AudioClip. * * @return the audio clip */ public AudioClip getAudioClip() { if (clip == null && getURL() != null) { clip = Applet.newAudioClip(getURL()); } return clip; }
/** * Load the applet into memory. Runs in a seperate (and interruptible) thread from the rest of the * applet event processing so that it can be gracefully interrupted from things like HotJava. */ @SuppressWarnings("deprecation") private void runLoader() { if (status != APPLET_DISPOSE) { showAppletStatus("notdisposed"); return; } dispatchAppletEvent(APPLET_LOADING, null); // REMIND -- might be cool to visually indicate loading here -- // maybe do animation? status = APPLET_LOAD; // Create a class loader loader = getClassLoader(getCodeBase(), getClassLoaderCacheKey()); // Load the archives if present. // REMIND - this probably should be done in a separate thread, // or at least the additional archives (epll). String code = getCode(); // setup applet AppContext // this must be called before loadJarFiles setupAppletAppContext(); try { loadJarFiles(loader); applet = createApplet(loader); } catch (ClassNotFoundException e) { status = APPLET_ERROR; showAppletStatus("notfound", code); showAppletLog("notfound", code); showAppletException(e); return; } catch (InstantiationException e) { status = APPLET_ERROR; showAppletStatus("nocreate", code); showAppletLog("nocreate", code); showAppletException(e); return; } catch (IllegalAccessException e) { status = APPLET_ERROR; showAppletStatus("noconstruct", code); showAppletLog("noconstruct", code); showAppletException(e); // sbb -- I added a return here return; } catch (Exception e) { status = APPLET_ERROR; showAppletStatus("exception", e.getMessage()); showAppletException(e); return; } catch (ThreadDeath e) { status = APPLET_ERROR; showAppletStatus("death"); return; } catch (Error e) { status = APPLET_ERROR; showAppletStatus("error", e.getMessage()); showAppletException(e); return; } finally { // notify that loading is no longer going on dispatchAppletEvent(APPLET_LOADING_COMPLETED, null); } // Fixed #4508194: NullPointerException thrown during // quick page switch // if (applet != null) { // Stick it in the frame applet.setStub(this); applet.hide(); add("Center", applet); showAppletStatus("loaded"); validate(); } }
/** * Execute applet events. Here is the state transition diagram * * <pre>{@literal * Note: (XXX) is the action * APPLET_XXX is the state * (applet code loaded) --> APPLET_LOAD -- (applet init called)--> APPLET_INIT -- * (applet start called) --> APPLET_START -- (applet stop called) --> APPLET_STOP -- * (applet destroyed called) --> APPLET_DESTROY --> (applet gets disposed) --> * APPLET_DISPOSE --> ... * }</pre> * * In the legacy lifecycle model. The applet gets loaded, inited and started. So it stays in the * APPLET_START state unless the applet goes away(refresh page or leave the page). So the applet * stop method called and the applet enters APPLET_STOP state. Then if the applet is revisited, it * will call applet start method and enter the APPLET_START state and stay there. * * <p>In the modern lifecycle model. When the applet first time visited, it is same as legacy * lifecycle model. However, when the applet page goes away. It calls applet stop method and * enters APPLET_STOP state and then applet destroyed method gets called and enters APPLET_DESTROY * state. * * <p>This code is also called by AppletViewer. In AppletViewer "Restart" menu, the applet is jump * from APPLET_STOP to APPLET_DESTROY and to APPLET_INIT . * * <p>Also, the applet can jump from APPLET_INIT state to APPLET_DESTROY (in Netscape/Mozilla * case). Same as APPLET_LOAD to APPLET_DISPOSE since all of this are triggered by browser. */ @Override public void run() { Thread curThread = Thread.currentThread(); if (curThread == loaderThread) { // if we are in the loader thread, cause // loading to occur. We may exit this with // status being APPLET_DISPOSE, APPLET_ERROR, // or APPLET_LOAD runLoader(); return; } boolean disposed = false; while (!disposed && !curThread.isInterrupted()) { AppletEvent evt; try { evt = getNextEvent(); } catch (InterruptedException e) { showAppletStatus("bail"); return; } // showAppletStatus("EVENT = " + evt.getID()); try { switch (evt.getID()) { case APPLET_LOAD: if (!okToLoad()) { break; } // This complexity allows loading of applets to be // interruptable. The actual thread loading runs // in a separate thread, so it can be interrupted // without harming the applet thread. // So that we don't have to worry about // concurrency issues, the main applet thread waits // until the loader thread terminates. // (one way or another). if (loaderThread == null) { setLoaderThread(new Thread(null, this, "AppletLoader", 0, false)); loaderThread.start(); // we get to go to sleep while this runs loaderThread.join(); setLoaderThread(null); } else { // REMIND: issue an error -- this case should never // occur. } break; case APPLET_INIT: // AppletViewer "Restart" will jump from destroy method to // init, that is why we need to check status w/ APPLET_DESTROY if (status != APPLET_LOAD && status != APPLET_DESTROY) { showAppletStatus("notloaded"); break; } applet.resize(defaultAppletSize); if (PerformanceLogger.loggingEnabled()) { PerformanceLogger.setTime("Applet Init"); PerformanceLogger.outputLog(); } applet.init(); // Need the default(fallback) font to be created in this AppContext Font f = getFont(); if (f == null || "dialog".equals(f.getFamily().toLowerCase(Locale.ENGLISH)) && f.getSize() == 12 && f.getStyle() == Font.PLAIN) { setFont(new Font(Font.DIALOG, Font.PLAIN, 12)); } // Validate the applet in event dispatch thread // to avoid deadlock. try { final AppletPanel p = this; Runnable r = new Runnable() { @Override public void run() { p.validate(); } }; AWTAccessor.getEventQueueAccessor().invokeAndWait(applet, r); } catch (InterruptedException ie) { } catch (InvocationTargetException ite) { } status = APPLET_INIT; showAppletStatus("inited"); break; case APPLET_START: { if (status != APPLET_INIT && status != APPLET_STOP) { showAppletStatus("notinited"); break; } applet.resize(currentAppletSize); applet.start(); // Validate and show the applet in event dispatch thread // to avoid deadlock. try { final AppletPanel p = this; final Applet a = applet; Runnable r = new Runnable() { @Override public void run() { p.validate(); a.setVisible(true); // Fix for BugTraq ID 4041703. // Set the default focus for an applet. if (hasInitialFocus()) { setDefaultFocus(); } } }; AWTAccessor.getEventQueueAccessor().invokeAndWait(applet, r); } catch (InterruptedException ie) { } catch (InvocationTargetException ite) { } status = APPLET_START; showAppletStatus("started"); break; } case APPLET_STOP: if (status != APPLET_START) { showAppletStatus("notstarted"); break; } status = APPLET_STOP; // Hide the applet in event dispatch thread // to avoid deadlock. try { final Applet a = applet; Runnable r = new Runnable() { @Override public void run() { a.setVisible(false); } }; AWTAccessor.getEventQueueAccessor().invokeAndWait(applet, r); } catch (InterruptedException ie) { } catch (InvocationTargetException ite) { } // During Applet.stop(), any AccessControlException on an involved Class remains in // the "memory" of the AppletClassLoader. If the same instance of the ClassLoader is // reused, the same exception will occur during class loading. Set the // AppletClassLoader's // exceptionStatusSet flag to allow recognition of what had happened // when reusing AppletClassLoader object. try { applet.stop(); } catch (java.security.AccessControlException e) { setExceptionStatus(e); // rethrow exception to be handled as it normally would be. throw e; } showAppletStatus("stopped"); break; case APPLET_DESTROY: if (status != APPLET_STOP && status != APPLET_INIT) { showAppletStatus("notstopped"); break; } status = APPLET_DESTROY; // During Applet.destroy(), any AccessControlException on an involved Class remains in // the "memory" of the AppletClassLoader. If the same instance of the ClassLoader is // reused, the same exception will occur during class loading. Set the // AppletClassLoader's // exceptionStatusSet flag to allow recognition of what had happened // when reusing AppletClassLoader object. try { applet.destroy(); } catch (java.security.AccessControlException e) { setExceptionStatus(e); // rethrow exception to be handled as it normally would be. throw e; } showAppletStatus("destroyed"); break; case APPLET_DISPOSE: if (status != APPLET_DESTROY && status != APPLET_LOAD) { showAppletStatus("notdestroyed"); break; } status = APPLET_DISPOSE; try { final Applet a = applet; Runnable r = new Runnable() { @Override public void run() { remove(a); } }; AWTAccessor.getEventQueueAccessor().invokeAndWait(applet, r); } catch (InterruptedException ie) { } catch (InvocationTargetException ite) { } applet = null; showAppletStatus("disposed"); disposed = true; break; case APPLET_QUIT: return; } } catch (Exception e) { status = APPLET_ERROR; if (e.getMessage() != null) { showAppletStatus("exception2", e.getClass().getName(), e.getMessage()); } else { showAppletStatus("exception", e.getClass().getName()); } showAppletException(e); } catch (ThreadDeath e) { showAppletStatus("death"); return; } catch (Error e) { status = APPLET_ERROR; if (e.getMessage() != null) { showAppletStatus("error2", e.getClass().getName(), e.getMessage()); } else { showAppletStatus("error", e.getClass().getName()); } showAppletException(e); } clearLoadAbortRequest(); } }
/** ************************************************************************ init */ @Override public void init() { super.init(); TextArea ta = new TextArea(Compiere.getSummary()); add(ta); } // init
public GamePanel(String name, int l) { setFocusable(true); grabFocus(); addMouseListener(this); addMouseMotionListener(this); addKeyListener(this); keys = new boolean[10000]; try { scoreFont = Font.createFont(Font.TRUETYPE_FONT, new FileInputStream(new File("BRLNSB.ttf"))) .deriveFont(0, 32); } catch (IOException ioe) { System.out.println("error loading BRLNSB.tff"); } catch (FontFormatException ffe) { System.out.println("Something went wrong with the font."); } gameBckgrnd = new ImageIcon("Backgroundimage.png").getImage(); for (int i = 1; i < 7; i++) { magnetList.add(new ImageIcon("gamelayerstuff/powerups/magnet" + i + ".png").getImage()); } coinPic = new ImageIcon("gamelayerstuff/coins/byellowcoin1.png").getImage(); player1 = new Player(200, 300, 100, "sheldon"); click = false; ground = true; pause = false; lvlClear = false; die = false; musicOn = true; player1.setVelo(150); player1.setInvi(true); // ------------------------------------------------------------------------------------------------------------------------------------ // Sound coinSound = Applet.newAudioClip(getClass().getResource("coin_pickup_2.wav")); clicked = Applet.newAudioClip(getClass().getResource("menu_deselect.wav")); starSound = Applet.newAudioClip(getClass().getResource("star.wav")); bounce = Applet.newAudioClip(getClass().getResource("grav_step_4.wav")); bckGrndMusic = Applet.newAudioClip(getClass().getResource("bgmusic00.wav")); bckGrndMusic.loop(); // ------------------------------------------------------------------------------------------------------------------------------------ // distance=0; score = 0; coins = 0; level = 1; prevLvl = level; backy = 0; height = backy; dieHeight = 0; dieMenuHeight = 0; pauseB = new SButton(400, 670, "pause", ""); resumeB = new SButton(100, 500, "resume", ""); menuB = new SButton(100, 620, "back", ""); muteB = new SButton(400, 600, "mute", ""); unmuteB = new SButton(400, 600, "unmute", ""); // System.out.println("characters/"+name+"/"+name+"35.png"); }
public class ClockWithAudioOnSeparateThread extends JApplet { protected AudioClip[] hourAudio = new AudioClip[12]; protected AudioClip[] minuteAudio = new AudioClip[60]; // Create audio clips for pronouncing am and pm protected AudioClip amAudio = Applet.newAudioClip(this.getClass().getResource("audio/am.au")); protected AudioClip pmAudio = Applet.newAudioClip(this.getClass().getResource("audio/pm.au"));; // Create a clock private StillClock clock = new StillClock(); // Create a timer private Timer timer = new Timer(1000, new TimerListener()); // Create a label to display time private JLabel jlblDigitTime = new JLabel("", JLabel.CENTER); /** Initialize the applet */ public void init() { // Create audio clips for pronouncing hours for (int i = 0; i < 12; i++) hourAudio[i] = Applet.newAudioClip(this.getClass().getResource("audio/hour" + i + ".au")); // Create audio clips for pronouncing minutes for (int i = 0; i < 60; i++) minuteAudio[i] = Applet.newAudioClip(this.getClass().getResource("audio/minute" + i + ".au")); // Add clock and time label to the content pane of the applet add(clock, BorderLayout.CENTER); add(jlblDigitTime, BorderLayout.SOUTH); } /** Override the applet's start method */ public void start() { timer.start(); // Resume clock } /** Override the applet's stop method */ public void stop() { timer.stop(); // Suspend clock } private class TimerListener implements ActionListener { public void actionPerformed(ActionEvent e) { clock.setCurrentTime(); clock.repaint(); jlblDigitTime.setText(clock.getHour() + ":" + clock.getMinute() + ":" + clock.getSecond()); if (clock.getSecond() == 0) announceTime(clock.getHour(), clock.getMinute()); } } /** Announce the current time at every minute */ public void announceTime(int h, int m) { new Thread(new AnnounceTimeOnSeparateThread(h, m)).start(); } /** Inner class for announcing time */ class AnnounceTimeOnSeparateThread implements Runnable { private int hour, minute; /** Get Audio clips */ public AnnounceTimeOnSeparateThread(int hour, int minute) { this.hour = hour; this.minute = minute; } public void run() { // Announce hour hourAudio[hour % 12].play(); try { // Time delay to allow hourAudio play to finish Thread.sleep(1500); // Announce minute minuteAudio[minute].play(); // Time delay to allow minuteAudio play to finish Thread.sleep(1500); } catch (InterruptedException ex) { } // Announce am or pm if (hour < 12) amAudio.play(); else pmAudio.play(); } } public static void main(String[] args) { ClockWithAudioOnSeparateThread applet = new ClockWithAudioOnSeparateThread(); applet.init(); applet.start(); JFrame frame = new JFrame(); frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE); frame.setTitle("ClockWithAudioOnSeparateThread"); frame.getContentPane().add(applet, BorderLayout.CENTER); frame.setSize(400, 320); frame.setVisible(true); } }
/** destroy */ @Override public void destroy() { super.destroy(); Env.exitEnv(0); } // destroy
/** stop */ @Override public void stop() { super.stop(); } // stop
/** Determine JDK level of an applet. */ private void findAppletJDKLevel(Applet applet) { // To determine the JDK level of an applet, the // most reliable way is to check the major version // of the applet class file. // synchronized on applet class object, so calling from // different instances of the same applet will be // serialized. Class<?> appletClass = applet.getClass(); synchronized (appletClass) { // Determine if the JDK level of an applet has been // checked before. Boolean jdk11Target = loader.isJDK11Target(appletClass); Boolean jdk12Target = loader.isJDK12Target(appletClass); // if applet JDK level has been checked before, retrieve // value and return. if (jdk11Target != null || jdk12Target != null) { jdk11Applet = (jdk11Target == null) ? false : jdk11Target.booleanValue(); jdk12Applet = (jdk12Target == null) ? false : jdk12Target.booleanValue(); return; } String name = appletClass.getName(); // first convert any '.' to '/' name = name.replace('.', '/'); // append .class final String resourceName = name + ".class"; byte[] classHeader = new byte[8]; try (InputStream is = AccessController.doPrivileged( (PrivilegedAction<InputStream>) () -> loader.getResourceAsStream(resourceName))) { // Read the first 8 bytes of the class file int byteRead = is.read(classHeader, 0, 8); // return if the header is not read in entirely // for some reasons. if (byteRead != 8) return; } catch (IOException e) { return; } // Check major version in class file header int major_version = readShort(classHeader, 6); // Major version in class file is as follows: // 45 - JDK 1.1 // 46 - JDK 1.2 // 47 - JDK 1.3 // 48 - JDK 1.4 // 49 - JDK 1.5 if (major_version < 46) jdk11Applet = true; else if (major_version == 46) jdk12Applet = true; // Store applet JDK level in AppContext for later lookup, // e.g. page switch. loader.setJDK11Target(appletClass, jdk11Applet); loader.setJDK12Target(appletClass, jdk12Applet); } }
RootWindow(Container container, Screen screen, Format[] format, Client c) { super(screen.rootId); rootwindow = container; client = c; screen.setRoot((Window) this); this.width = (short) (screen.width); this.height = (short) (screen.height); this.screen = screen; depth = screen.rootDepth; id = screen.rootId; type = DRAWABLE_WINDOW; x = y = 0; origin.x = 0; origin.y = 0; clss = (byte) InputOutput; for (int i = 0; i < format.length; i++) { if (format[i].depth == screen.rootDepth) { this.bitsPerPixel = format[i].bpp; } } setVisual(screen.rootVisual); setBackgroundIsPixel(); background.pixel = screen.white; setBorderIsPixel(); border.pixel = screen.black; borderWidth = 0; Resource.add(this); makeOptional(); attr &= ~(1 << 3); // cursorIsNone optional.cursor = Cursor.rootCursor; setColormap(screen.defaultColormap); // if(rootwindow instanceof JFrame){ // rootwindow.setSize(this.width+10, this.height+30); // ?? // } // else{ rootwindow.setSize(this.width, this.height); // } try { ddxwindow = (DDXWindow) (Window.dDXWindow.newInstance()); } catch (Exception e) { System.err.println(e); /*ddxwindow=new DDXWindowImp();*/ } ddxwindow.init(this); ddxwindow.setLocation(0, 0); if (rootwindow instanceof Frame) { // ((Frame)rootwindow).setLayout(null); ((Frame) rootwindow).setResizable(false); ((Frame) rootwindow).setMenuBar(null); ((Frame) rootwindow).add((java.awt.Component) ddxwindow); } else if (rootwindow instanceof Applet) { ((Applet) rootwindow).add((java.awt.Component) ddxwindow); } /* else if(rootwindow instanceof JFrame){ ((JFrame)rootwindow).getContentPane().setLayout(null); ((JFrame)rootwindow).setResizable(false); ((JFrame)rootwindow).setJMenuBar(null); ((JFrame)rootwindow).getContentPane().add((java.awt.Component)ddxwindow); } else if(rootwindow instanceof JWindow){ ((JWindow)rootwindow).getContentPane().setLayout(null); ((JWindow)rootwindow).getContentPane().add((java.awt.Component)ddxwindow); } else if (rootwindow instanceof JApplet){ ((JApplet)rootwindow).setJMenuBar(null); ((JApplet)rootwindow).getContentPane().add((java.awt.Component)ddxwindow); } */ else { rootwindow.add((java.awt.Component) ddxwindow); } if (screen.windowmode != WeirdX.InBrowser) { rootwindow.addNotify(); } else { rootwindow.setVisible(true); } ddxwindow.setVisible(true); { rootwindow.validate(); Insets insets = rootwindow.getInsets(); rootwindow.setSize( this.width + insets.left + insets.right, this.height + insets.top + insets.bottom); ddxwindow.setLocation(insets.left, insets.top); rootwindow.validate(); } ddxwindow.requestFocus(); Window.focus.win = id; Window.LOCK = rootwindow.getTreeLock(); Client.LOCK = rootwindow.getTreeLock(); Resource.LOCK = rootwindow.getTreeLock(); spriteTrace[0] = this; sprite.win = this; }