/* * Copyright (c) 1997, 2017, 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. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package javax.swing; import java.applet.Applet; import java.awt.*; import java.awt.event.*; import java.beans.*; import java.security.AccessController; import javax.accessibility.*; import javax.swing.plaf.RootPaneUI; import java.util.Vector; import java.io.Serializable; import javax.swing.border.*; import sun.awt.AWTAccessor; import sun.security.action.GetBooleanAction; /** * A lightweight container used behind the scenes by * JFrame, JDialog, JWindow, * JApplet, and JInternalFrame. * For task-oriented information on functionality provided by root panes * see How to Use Root Panes, * a section in The Java Tutorial. * *

* The following image shows the relationships between * the classes that use root panes. *

The following text describes this graphic.

* The "heavyweight" components (those that delegate to a peer, or native * component on the host system) are shown with a darker, heavier box. The four * heavyweight JFC/Swing containers (JFrame, JDialog, * JWindow, and JApplet) are * shown in relation to the AWT classes they extend. * These four components are the * only heavyweight containers in the Swing library. The lightweight container * JInternalFrame is also shown. * All five of these JFC/Swing containers implement the * RootPaneContainer interface, * and they all delegate their operations to a * JRootPane (shown with a little "handle" on top). *
* Note: The JComponent method getRootPane * can be used to obtain the JRootPane that contains * a given component. *
* * * * * * *
Example
* The following text describes this graphic. *
* The diagram at right shows the structure of a JRootPane. * A JRootpane is made up of a glassPane, * an optional menuBar, and a contentPane. * (The JLayeredPane manages the menuBar * and the contentPane.) * The glassPane sits over the top of everything, * where it is in a position to intercept mouse movements. * Since the glassPane (like the contentPane) * can be an arbitrary component, it is also possible to set up the * glassPane for drawing. Lines and images on the * glassPane can then range * over the frames underneath without being limited by their boundaries. *

* Although the menuBar component is optional, * the layeredPane, contentPane, * and glassPane always exist. * Attempting to set them to null generates an exception. *

* To add components to the JRootPane (other than the * optional menu bar), you add the object to the contentPane * of the JRootPane, like this: * 

 *       rootPane.getContentPane().add(child);
 *
* The same principle holds true for setting layout managers, removing * components, listing children, etc. All these methods are invoked on * the contentPane instead of on the JRootPane. *
* Note: The default layout manager for the contentPane is * a BorderLayout manager. However, the JRootPane * uses a custom LayoutManager. * So, when you want to change the layout manager for the components you added * to a JRootPane, be sure to use code like this: * 
 *    rootPane.getContentPane().setLayout(new BoxLayout());
 *
* If a JMenuBar component is set on the JRootPane, * it is positioned along the upper edge of the frame. * The contentPane is adjusted in location and size to * fill the remaining area. * (The JMenuBar and the contentPane are added to the * layeredPane component at the * JLayeredPane.FRAME_CONTENT_LAYER layer.) *

* The layeredPane is the parent of all children in the * JRootPane -- both as the direct parent of the menu and * the grandparent of all components added to the contentPane. * It is an instance of JLayeredPane, * which provides the ability to add components at several layers. * This capability is very useful when working with menu popups, * dialog boxes, and dragging -- situations in which you need to place * a component on top of all other components in the pane. *

* The glassPane sits on top of all other components in the * JRootPane. * That provides a convenient place to draw above all other components, * and makes it possible to intercept mouse events, * which is useful both for dragging and for drawing. * Developers can use setVisible on the glassPane * to control when the glassPane displays over the other children. * By default the glassPane is not visible. *

* The custom LayoutManager used by JRootPane * ensures that: *

    *
  1. The glassPane fills the entire viewable * area of the JRootPane (bounds - insets). *
  2. The layeredPane fills the entire viewable area of the * JRootPane. (bounds - insets) *
  3. The menuBar is positioned at the upper edge of the * layeredPane. *
  4. The contentPane fills the entire viewable area, * minus the menuBar, if present. *
* Any other views in the JRootPane view hierarchy are ignored. *

* If you replace the LayoutManager of the JRootPane, * you are responsible for managing all of these views. * So ordinarily you will want to be sure that you * change the layout manager for the contentPane rather than * for the JRootPane itself! *

* The painting architecture of Swing requires an opaque * JComponent * to exist in the containment hierarchy above all other components. This is * typically provided by way of the content pane. If you replace the content * pane, it is recommended that you make the content pane opaque * by way of setOpaque(true). Additionally, if the content pane * overrides paintComponent, it * will need to completely fill in the background in an opaque color in * paintComponent. *

* Warning: Swing is not thread safe. For more * information see Swing's Threading * Policy. *

* Warning: * Serialized objects of this class will not be compatible with * future Swing releases. The current serialization support is * appropriate for short term storage or RMI between applications running * the same version of Swing. As of 1.4, support for long term storage * of all JavaBeans™ * has been added to the java.beans package. * Please see {@link java.beans.XMLEncoder}. * * @see JLayeredPane * @see JMenuBar * @see JWindow * @see JFrame * @see JDialog * @see JApplet * @see JInternalFrame * @see JComponent * @see BoxLayout * * @see * Mixing Heavy and Light Components * * @author David Kloba * @since 1.2 */ /// PENDING(klobad) Who should be opaque in this component? @SuppressWarnings("serial") public class JRootPane extends JComponent implements Accessible { private static final String uiClassID = "RootPaneUI"; /** * Whether or not we should dump the stack when true double buffering * is disabled. Default is false. */ private static final boolean LOG_DISABLE_TRUE_DOUBLE_BUFFERING; /** * Whether or not we should ignore requests to disable true double * buffering. Default is false. */ private static final boolean IGNORE_DISABLE_TRUE_DOUBLE_BUFFERING; /** * Constant used for the windowDecorationStyle property. Indicates that * the JRootPane should not provide any sort of * Window decorations. * * @since 1.4 */ public static final int NONE = 0; /** * Constant used for the windowDecorationStyle property. Indicates that * the JRootPane should provide decorations appropriate for * a Frame. * * @since 1.4 */ public static final int FRAME = 1; /** * Constant used for the windowDecorationStyle property. Indicates that * the JRootPane should provide decorations appropriate for * a Dialog. * * @since 1.4 */ public static final int PLAIN_DIALOG = 2; /** * Constant used for the windowDecorationStyle property. Indicates that * the JRootPane should provide decorations appropriate for * a Dialog used to display an informational message. * * @since 1.4 */ public static final int INFORMATION_DIALOG = 3; /** * Constant used for the windowDecorationStyle property. Indicates that * the JRootPane should provide decorations appropriate for * a Dialog used to display an error message. * * @since 1.4 */ public static final int ERROR_DIALOG = 4; /** * Constant used for the windowDecorationStyle property. Indicates that * the JRootPane should provide decorations appropriate for * a Dialog used to display a JColorChooser. * * @since 1.4 */ public static final int COLOR_CHOOSER_DIALOG = 5; /** * Constant used for the windowDecorationStyle property. Indicates that * the JRootPane should provide decorations appropriate for * a Dialog used to display a JFileChooser. * * @since 1.4 */ public static final int FILE_CHOOSER_DIALOG = 6; /** * Constant used for the windowDecorationStyle property. Indicates that * the JRootPane should provide decorations appropriate for * a Dialog used to present a question to the user. * * @since 1.4 */ public static final int QUESTION_DIALOG = 7; /** * Constant used for the windowDecorationStyle property. Indicates that * the JRootPane should provide decorations appropriate for * a Dialog used to display a warning message. * * @since 1.4 */ public static final int WARNING_DIALOG = 8; private int windowDecorationStyle; /** The menu bar. */ protected JMenuBar menuBar; /** The content pane. */ protected Container contentPane; /** The layered pane that manages the menu bar and content pane. */ protected JLayeredPane layeredPane; /** * The glass pane that overlays the menu bar and content pane, * so it can intercept mouse movements and such. */ protected Component glassPane; /** * The button that gets activated when the pane has the focus and * a UI-specific action like pressing the Enter key occurs. */ protected JButton defaultButton; /** * Whether or not true double buffering should be used. This is typically * true, but may be set to false in special situations. For example, * heavy weight popups (backed by a window) set this to false. */ boolean useTrueDoubleBuffering = true; static { LOG_DISABLE_TRUE_DOUBLE_BUFFERING = AccessController.doPrivileged(new GetBooleanAction( "swing.logDoubleBufferingDisable")); IGNORE_DISABLE_TRUE_DOUBLE_BUFFERING = AccessController.doPrivileged(new GetBooleanAction( "swing.ignoreDoubleBufferingDisable")); } /** * Creates a JRootPane, setting up its * glassPane, layeredPane, * and contentPane. */ public JRootPane() { setGlassPane(createGlassPane()); setLayeredPane(createLayeredPane()); setContentPane(createContentPane()); setLayout(createRootLayout()); setDoubleBuffered(true); updateUI(); } /** * {@inheritDoc} * @since 1.6 */ public void setDoubleBuffered(boolean aFlag) { if (isDoubleBuffered() != aFlag) { super.setDoubleBuffered(aFlag); RepaintManager.currentManager(this).doubleBufferingChanged(this); } } /** * Returns a constant identifying the type of Window decorations the * JRootPane is providing. * * @return One of NONE, FRAME, * PLAIN_DIALOG, INFORMATION_DIALOG, * ERROR_DIALOG, COLOR_CHOOSER_DIALOG, * FILE_CHOOSER_DIALOG, QUESTION_DIALOG or * WARNING_DIALOG. * @see #setWindowDecorationStyle * @since 1.4 */ public int getWindowDecorationStyle() { return windowDecorationStyle; } /** * Sets the type of Window decorations (such as borders, widgets for * closing a Window, title ...) the JRootPane should * provide. The default is to provide no Window decorations * (NONE). *

* This is only a hint, and some look and feels may not support * this. * This is a bound property. * * @param windowDecorationStyle Constant identifying Window decorations * to provide. * @see JDialog#setDefaultLookAndFeelDecorated * @see JFrame#setDefaultLookAndFeelDecorated * @see LookAndFeel#getSupportsWindowDecorations * @throws IllegalArgumentException if style is * not one of: NONE, FRAME, * PLAIN_DIALOG, INFORMATION_DIALOG, * ERROR_DIALOG, COLOR_CHOOSER_DIALOG, * FILE_CHOOSER_DIALOG, QUESTION_DIALOG, or * WARNING_DIALOG. * @since 1.4 */ @BeanProperty(expert = true, visualUpdate = true, enumerationValues = { "JRootPane.NONE", "JRootPane.FRAME", "JRootPane.PLAIN_DIALOG", "JRootPane.INFORMATION_DIALOG", "JRootPane.ERROR_DIALOG", "JRootPane.COLOR_CHOOSER_DIALOG", "JRootPane.FILE_CHOOSER_DIALOG", "JRootPane.QUESTION_DIALOG", "JRootPane.WARNING_DIALOG"}, description = "Identifies the type of Window decorations to provide") public void setWindowDecorationStyle(int windowDecorationStyle) { if (windowDecorationStyle < 0 || windowDecorationStyle > WARNING_DIALOG) { throw new IllegalArgumentException("Invalid decoration style"); } int oldWindowDecorationStyle = getWindowDecorationStyle(); this.windowDecorationStyle = windowDecorationStyle; firePropertyChange("windowDecorationStyle", oldWindowDecorationStyle, windowDecorationStyle); } /** * Returns the L&F object that renders this component. * * @return LabelUI object * @since 1.3 */ public RootPaneUI getUI() { return (RootPaneUI)ui; } /** * Sets the L&F object that renders this component. * * @param ui the LabelUI L&F object * @see UIDefaults#getUI * @since 1.3 */ @BeanProperty(expert = true, hidden = true, visualUpdate = true, description = "The UI object that implements the Component's LookAndFeel.") public void setUI(RootPaneUI ui) { super.setUI(ui); } /** * Resets the UI property to a value from the current look and feel. * * @see JComponent#updateUI */ public void updateUI() { setUI((RootPaneUI)UIManager.getUI(this)); } /** * Returns a string that specifies the name of the L&F class * that renders this component. * * @return the string "RootPaneUI" * * @see JComponent#getUIClassID * @see UIDefaults#getUI */ public String getUIClassID() { return uiClassID; } /** * Called by the constructor methods to create the default * layeredPane. * Bt default it creates a new JLayeredPane. * @return the default layeredPane */ protected JLayeredPane createLayeredPane() { JLayeredPane p = new JLayeredPane(); p.setName(this.getName()+".layeredPane"); return p; } /** * Called by the constructor methods to create the default * contentPane. * By default this method creates a new JComponent add sets a * BorderLayout as its LayoutManager. * @return the default contentPane */ protected Container createContentPane() { JComponent c = new JPanel(); c.setName(this.getName()+".contentPane"); c.setLayout(new BorderLayout() { /* This BorderLayout subclass maps a null constraint to CENTER. * Although the reference BorderLayout also does this, some VMs * throw an IllegalArgumentException. */ public void addLayoutComponent(Component comp, Object constraints) { if (constraints == null) { constraints = BorderLayout.CENTER; } super.addLayoutComponent(comp, constraints); } }); return c; } /** * Called by the constructor methods to create the default * glassPane. * By default this method creates a new JComponent * with visibility set to false. * @return the default glassPane */ protected Component createGlassPane() { JComponent c = new JPanel(); c.setName(this.getName()+".glassPane"); c.setVisible(false); ((JPanel)c).setOpaque(false); return c; } /** * Called by the constructor methods to create the default * layoutManager. * @return the default layoutManager. */ protected LayoutManager createRootLayout() { return new RootLayout(); } /** * Adds or changes the menu bar used in the layered pane. * @param menu the JMenuBar to add */ public void setJMenuBar(JMenuBar menu) { if(menuBar != null && menuBar.getParent() == layeredPane) layeredPane.remove(menuBar); menuBar = menu; if(menuBar != null) { menuBar.updateUI(); layeredPane.add(menuBar, JLayeredPane.FRAME_CONTENT_LAYER); } } /** * Specifies the menu bar value. * @deprecated As of Swing version 1.0.3 * replaced by setJMenuBar(JMenuBar menu). * @param menu the JMenuBar to add. */ @Deprecated public void setMenuBar(JMenuBar menu){ if(menuBar != null && menuBar.getParent() == layeredPane) layeredPane.remove(menuBar); menuBar = menu; if(menuBar != null) layeredPane.add(menuBar, JLayeredPane.FRAME_CONTENT_LAYER); } /** * Returns the menu bar from the layered pane. * @return the JMenuBar used in the pane */ public JMenuBar getJMenuBar() { return menuBar; } /** * Returns the menu bar value. * @deprecated As of Swing version 1.0.3 * replaced by getJMenuBar(). * @return the JMenuBar used in the pane */ @Deprecated public JMenuBar getMenuBar() { return menuBar; } /** * Sets the content pane -- the container that holds the components * parented by the root pane. *

* Swing's painting architecture requires an opaque JComponent * in the containment hierarchy. This is typically provided by the * content pane. If you replace the content pane it is recommended you * replace it with an opaque JComponent. * * @param content the Container to use for component-contents * @exception java.awt.IllegalComponentStateException (a runtime * exception) if the content pane parameter is null */ public void setContentPane(Container content) { if(content == null) throw new IllegalComponentStateException("contentPane cannot be set to null."); if(contentPane != null && contentPane.getParent() == layeredPane) layeredPane.remove(contentPane); contentPane = content; layeredPane.add(contentPane, JLayeredPane.FRAME_CONTENT_LAYER); } /** * Returns the content pane -- the container that holds the components * parented by the root pane. * * @return the Container that holds the component-contents */ public Container getContentPane() { return contentPane; } // PENDING(klobad) Should this reparent the contentPane and MenuBar? /** * Sets the layered pane for the root pane. The layered pane * typically holds a content pane and an optional JMenuBar. * * @param layered the JLayeredPane to use * @exception java.awt.IllegalComponentStateException (a runtime * exception) if the layered pane parameter is null */ public void setLayeredPane(JLayeredPane layered) { if(layered == null) throw new IllegalComponentStateException("layeredPane cannot be set to null."); if(layeredPane != null && layeredPane.getParent() == this) this.remove(layeredPane); layeredPane = layered; this.add(layeredPane, -1); } /** * Gets the layered pane used by the root pane. The layered pane * typically holds a content pane and an optional JMenuBar. * * @return the JLayeredPane currently in use */ public JLayeredPane getLayeredPane() { return layeredPane; } /** * Sets a specified Component to be the glass pane for this * root pane. The glass pane should normally be a lightweight, * transparent component, because it will be made visible when * ever the root pane needs to grab input events. *

* The new glass pane's visibility is changed to match that of * the current glass pane. An implication of this is that care * must be taken when you want to replace the glass pane and * make it visible. Either of the following will work: * 

     *   root.setGlassPane(newGlassPane);
     *   newGlassPane.setVisible(true);
     *
* or: * 
     *   root.getGlassPane().setVisible(true);
     *   root.setGlassPane(newGlassPane);
     *
* * @param glass the Component to use as the glass pane * for this JRootPane * @exception NullPointerException if the glass parameter is * null */ public void setGlassPane(Component glass) { if (glass == null) { throw new NullPointerException("glassPane cannot be set to null."); } glass.setMixingCutoutShape(new Rectangle()); boolean visible = false; if (glassPane != null && glassPane.getParent() == this) { this.remove(glassPane); visible = glassPane.isVisible(); } glass.setVisible(visible); glassPane = glass; this.add(glassPane, 0); if (visible) { repaint(); } } /** * Returns the current glass pane for this JRootPane. * @return the current glass pane * @see #setGlassPane */ public Component getGlassPane() { return glassPane; } /** * If a descendant of this JRootPane calls * revalidate, validate from here on down. *

* Deferred requests to layout a component and its descendents again. * For example, calls to revalidate, are pushed upwards to * either a JRootPane or a JScrollPane * because both classes override isValidateRoot to return true. * * @see JComponent#isValidateRoot * @see java.awt.Container#isValidateRoot * @return true */ @Override public boolean isValidateRoot() { return true; } /** * The glassPane and contentPane * have the same bounds, which means JRootPane * does not tiles its children and this should return false. * On the other hand, the glassPane * is normally not visible, and so this can return true if the * glassPane isn't visible. Therefore, the * return value here depends upon the visibility of the * glassPane. * * @return true if this component's children don't overlap */ public boolean isOptimizedDrawingEnabled() { return !glassPane.isVisible(); } /** * {@inheritDoc} */ public void addNotify() { super.addNotify(); enableEvents(AWTEvent.KEY_EVENT_MASK); } /** * {@inheritDoc} */ public void removeNotify() { super.removeNotify(); } /** * Sets the defaultButton property, * which determines the current default button for this JRootPane. * The default button is the button which will be activated * when a UI-defined activation event (typically the Enter key) * occurs in the root pane regardless of whether or not the button * has keyboard focus (unless there is another component within * the root pane which consumes the activation event, * such as a JTextPane). * For default activation to work, the button must be an enabled * descendent of the root pane when activation occurs. * To remove a default button from this root pane, set this * property to null. * * @see JButton#isDefaultButton * @param defaultButton the JButton which is to be the default button */ @BeanProperty(description = "The button activated by default in this root pane") public void setDefaultButton(JButton defaultButton) { JButton oldDefault = this.defaultButton; if (oldDefault != defaultButton) { this.defaultButton = defaultButton; if (oldDefault != null) { oldDefault.repaint(); } if (defaultButton != null) { defaultButton.repaint(); } } firePropertyChange("defaultButton", oldDefault, defaultButton); } /** * Returns the value of the defaultButton property. * @return the JButton which is currently the default button * @see #setDefaultButton */ public JButton getDefaultButton() { return defaultButton; } final void setUseTrueDoubleBuffering(boolean useTrueDoubleBuffering) { this.useTrueDoubleBuffering = useTrueDoubleBuffering; } final boolean getUseTrueDoubleBuffering() { return useTrueDoubleBuffering; } final void disableTrueDoubleBuffering() { if (useTrueDoubleBuffering) { if (!IGNORE_DISABLE_TRUE_DOUBLE_BUFFERING) { if (LOG_DISABLE_TRUE_DOUBLE_BUFFERING) { System.out.println("Disabling true double buffering for " + this); Thread.dumpStack(); } useTrueDoubleBuffering = false; RepaintManager.currentManager(this). doubleBufferingChanged(this); } } } /** * Overridden to enforce the position of the glass component as * the zero child. * * @param comp the component to be enhanced * @param constraints the constraints to be respected * @param index the index */ protected void addImpl(Component comp, Object constraints, int index) { super.addImpl(comp, constraints, index); /// We are making sure the glassPane is on top. if(glassPane != null && glassPane.getParent() == this && getComponent(0) != glassPane) { add(glassPane, 0); } } /////////////////////////////////////////////////////////////////////////////// //// Begin Inner Classes /////////////////////////////////////////////////////////////////////////////// /** * A custom layout manager that is responsible for the layout of * layeredPane, glassPane, and menuBar. *

* Warning: * Serialized objects of this class will not be compatible with * future Swing releases. The current serialization support is * appropriate for short term storage or RMI between applications running * the same version of Swing. As of 1.4, support for long term storage * of all JavaBeans™ * has been added to the java.beans package. * Please see {@link java.beans.XMLEncoder}. */ @SuppressWarnings("serial") protected class RootLayout implements LayoutManager2, Serializable { /** * Returns the amount of space the layout would like to have. * * @param parent the Container for which this layout manager * is being used * @return a Dimension object containing the layout's preferred size */ public Dimension preferredLayoutSize(Container parent) { Dimension rd, mbd; Insets i = getInsets(); if(contentPane != null) { rd = contentPane.getPreferredSize(); } else { rd = parent.getSize(); } if(menuBar != null && menuBar.isVisible()) { mbd = menuBar.getPreferredSize(); } else { mbd = new Dimension(0, 0); } return new Dimension(Math.max(rd.width, mbd.width) + i.left + i.right, rd.height + mbd.height + i.top + i.bottom); } /** * Returns the minimum amount of space the layout needs. * * @param parent the Container for which this layout manager * is being used * @return a Dimension object containing the layout's minimum size */ public Dimension minimumLayoutSize(Container parent) { Dimension rd, mbd; Insets i = getInsets(); if(contentPane != null) { rd = contentPane.getMinimumSize(); } else { rd = parent.getSize(); } if(menuBar != null && menuBar.isVisible()) { mbd = menuBar.getMinimumSize(); } else { mbd = new Dimension(0, 0); } return new Dimension(Math.max(rd.width, mbd.width) + i.left + i.right, rd.height + mbd.height + i.top + i.bottom); } /** * Returns the maximum amount of space the layout can use. * * @param target the Container for which this layout manager * is being used * @return a Dimension object containing the layout's maximum size */ public Dimension maximumLayoutSize(Container target) { Dimension rd, mbd; Insets i = getInsets(); if(menuBar != null && menuBar.isVisible()) { mbd = menuBar.getMaximumSize(); } else { mbd = new Dimension(0, 0); } if(contentPane != null) { rd = contentPane.getMaximumSize(); } else { // This is silly, but should stop an overflow error rd = new Dimension(Integer.MAX_VALUE, Integer.MAX_VALUE - i.top - i.bottom - mbd.height - 1); } return new Dimension(Math.min(rd.width, mbd.width) + i.left + i.right, rd.height + mbd.height + i.top + i.bottom); } /** * Instructs the layout manager to perform the layout for the specified * container. * * @param parent the Container for which this layout manager * is being used */ public void layoutContainer(Container parent) { Rectangle b = parent.getBounds(); Insets i = getInsets(); int contentY = 0; int w = b.width - i.right - i.left; int h = b.height - i.top - i.bottom; if(layeredPane != null) { layeredPane.setBounds(i.left, i.top, w, h); } if(glassPane != null) { glassPane.setBounds(i.left, i.top, w, h); } // Note: This is laying out the children in the layeredPane, // technically, these are not our children. if(menuBar != null && menuBar.isVisible()) { Dimension mbd = menuBar.getPreferredSize(); menuBar.setBounds(0, 0, w, mbd.height); contentY += mbd.height; } if(contentPane != null) { contentPane.setBounds(0, contentY, w, h - contentY); } } public void addLayoutComponent(String name, Component comp) {} public void removeLayoutComponent(Component comp) {} public void addLayoutComponent(Component comp, Object constraints) {} public float getLayoutAlignmentX(Container target) { return 0.0f; } public float getLayoutAlignmentY(Container target) { return 0.0f; } public void invalidateLayout(Container target) {} } /** * Returns a string representation of this JRootPane. * This method is intended to be used only for debugging purposes, * and the content and format of the returned string may vary between * implementations. The returned string may be empty but may not * be null. * * @return a string representation of this JRootPane. */ protected String paramString() { return super.paramString(); } ///////////////// // Accessibility support //////////////// /** * Gets the AccessibleContext associated with this * JRootPane. For root panes, the * AccessibleContext takes the form of an * AccessibleJRootPane. * A new AccessibleJRootPane instance is created if necessary. * * @return an AccessibleJRootPane that serves as the * AccessibleContext of this JRootPane */ public AccessibleContext getAccessibleContext() { if (accessibleContext == null) { accessibleContext = new AccessibleJRootPane(); } return accessibleContext; } /** * This class implements accessibility support for the * JRootPane class. It provides an implementation of the * Java Accessibility API appropriate to root pane user-interface elements. *

* Warning: * Serialized objects of this class will not be compatible with * future Swing releases. The current serialization support is * appropriate for short term storage or RMI between applications running * the same version of Swing. As of 1.4, support for long term storage * of all JavaBeans™ * has been added to the java.beans package. * Please see {@link java.beans.XMLEncoder}. */ @SuppressWarnings("serial") protected class AccessibleJRootPane extends AccessibleJComponent { /** * Get the role of this object. * * @return an instance of AccessibleRole describing the role of * the object */ public AccessibleRole getAccessibleRole() { return AccessibleRole.ROOT_PANE; } /** * Returns the number of accessible children of the object. * * @return the number of accessible children of the object. */ public int getAccessibleChildrenCount() { return super.getAccessibleChildrenCount(); } /** * Returns the specified Accessible child of the object. The Accessible * children of an Accessible object are zero-based, so the first child * of an Accessible child is at index 0, the second child is at index 1, * and so on. * * @param i zero-based index of child * @return the Accessible child of the object * @see #getAccessibleChildrenCount */ public Accessible getAccessibleChild(int i) { return super.getAccessibleChild(i); } } // inner class AccessibleJRootPane }