/* * Copyright (c) 1995, 2008, 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 java.awt; import java.awt.peer.FramePeer; import java.awt.event.*; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import java.util.Vector; import java.io.Serializable; import java.io.ObjectOutputStream; import java.io.ObjectInputStream; import java.io.IOException; import sun.awt.AppContext; import sun.awt.SunToolkit; import sun.awt.AWTAccessor; import java.lang.ref.WeakReference; import javax.accessibility.*; /** * A Frame is a top-level window with a title and a border. *

* The size of the frame includes any area designated for the * border. The dimensions of the border area may be obtained * using the getInsets method, however, since * these dimensions are platform-dependent, a valid insets * value cannot be obtained until the frame is made displayable * by either calling pack or show. * Since the border area is included in the overall size of the * frame, the border effectively obscures a portion of the frame, * constraining the area available for rendering and/or displaying * subcomponents to the rectangle which has an upper-left corner * location of (insets.left, insets.top), and has a size of * width - (insets.left + insets.right) by * height - (insets.top + insets.bottom). *

* The default layout for a frame is BorderLayout. *

* A frame may have its native decorations (i.e. Frame * and Titlebar) turned off * with setUndecorated. This can only be done while the frame * is not {@link Component#isDisplayable() displayable}. *

* In a multi-screen environment, you can create a Frame * on a different screen device by constructing the Frame * with {@link #Frame(GraphicsConfiguration)} or * {@link #Frame(String title, GraphicsConfiguration)}. The * GraphicsConfiguration object is one of the * GraphicsConfiguration objects of the target screen * device. *

* In a virtual device multi-screen environment in which the desktop * area could span multiple physical screen devices, the bounds of all * configurations are relative to the virtual-coordinate system. The * origin of the virtual-coordinate system is at the upper left-hand * corner of the primary physical screen. Depending on the location * of the primary screen in the virtual device, negative coordinates * are possible, as shown in the following figure. *

* Diagram of virtual device encompassing three physical screens and one primary physical screen. The primary physical screen
 * shows (0,0) coords while a different physical screen shows (-80,-100) coords. *

* In such an environment, when calling setLocation, * you must pass a virtual coordinate to this method. Similarly, * calling getLocationOnScreen on a Frame * returns virtual device coordinates. Call the getBounds * method of a GraphicsConfiguration to find its origin in * the virtual coordinate system. *

* The following code sets the * location of the Frame at (10, 10) relative * to the origin of the physical screen of the corresponding * GraphicsConfiguration. If the bounds of the * GraphicsConfiguration is not taken into account, the * Frame location would be set at (10, 10) relative to the * virtual-coordinate system and would appear on the primary physical * screen, which might be different from the physical screen of the * specified GraphicsConfiguration. * *

 *      Frame f = new Frame(GraphicsConfiguration gc);
 *      Rectangle bounds = gc.getBounds();
 *      f.setLocation(10 + bounds.x, 10 + bounds.y);
 * 
* *

* Frames are capable of generating the following types of * WindowEvents: *

* * @author Sami Shaio * @see WindowEvent * @see Window#addWindowListener * @since JDK1.0 */ public class Frame extends Window implements MenuContainer { /* Note: These are being obsoleted; programs should use the Cursor class * variables going forward. See Cursor and Component.setCursor. */ /** * @deprecated replaced by Cursor.DEFAULT_CURSOR. */ @Deprecated public static final int DEFAULT_CURSOR = Cursor.DEFAULT_CURSOR; /** * @deprecated replaced by Cursor.CROSSHAIR_CURSOR. */ @Deprecated public static final int CROSSHAIR_CURSOR = Cursor.CROSSHAIR_CURSOR; /** * @deprecated replaced by Cursor.TEXT_CURSOR. */ @Deprecated public static final int TEXT_CURSOR = Cursor.TEXT_CURSOR; /** * @deprecated replaced by Cursor.WAIT_CURSOR. */ @Deprecated public static final int WAIT_CURSOR = Cursor.WAIT_CURSOR; /** * @deprecated replaced by Cursor.SW_RESIZE_CURSOR. */ @Deprecated public static final int SW_RESIZE_CURSOR = Cursor.SW_RESIZE_CURSOR; /** * @deprecated replaced by Cursor.SE_RESIZE_CURSOR. */ @Deprecated public static final int SE_RESIZE_CURSOR = Cursor.SE_RESIZE_CURSOR; /** * @deprecated replaced by Cursor.NW_RESIZE_CURSOR. */ @Deprecated public static final int NW_RESIZE_CURSOR = Cursor.NW_RESIZE_CURSOR; /** * @deprecated replaced by Cursor.NE_RESIZE_CURSOR. */ @Deprecated public static final int NE_RESIZE_CURSOR = Cursor.NE_RESIZE_CURSOR; /** * @deprecated replaced by Cursor.N_RESIZE_CURSOR. */ @Deprecated public static final int N_RESIZE_CURSOR = Cursor.N_RESIZE_CURSOR; /** * @deprecated replaced by Cursor.S_RESIZE_CURSOR. */ @Deprecated public static final int S_RESIZE_CURSOR = Cursor.S_RESIZE_CURSOR; /** * @deprecated replaced by Cursor.W_RESIZE_CURSOR. */ @Deprecated public static final int W_RESIZE_CURSOR = Cursor.W_RESIZE_CURSOR; /** * @deprecated replaced by Cursor.E_RESIZE_CURSOR. */ @Deprecated public static final int E_RESIZE_CURSOR = Cursor.E_RESIZE_CURSOR; /** * @deprecated replaced by Cursor.HAND_CURSOR. */ @Deprecated public static final int HAND_CURSOR = Cursor.HAND_CURSOR; /** * @deprecated replaced by Cursor.MOVE_CURSOR. */ @Deprecated public static final int MOVE_CURSOR = Cursor.MOVE_CURSOR; /** * Frame is in the "normal" state. This symbolic constant names a * frame state with all state bits cleared. * @see #setExtendedState(int) * @see #getExtendedState */ public static final int NORMAL = 0; /** * This state bit indicates that frame is iconified. * @see #setExtendedState(int) * @see #getExtendedState */ public static final int ICONIFIED = 1; /** * This state bit indicates that frame is maximized in the * horizontal direction. * @see #setExtendedState(int) * @see #getExtendedState * @since 1.4 */ public static final int MAXIMIZED_HORIZ = 2; /** * This state bit indicates that frame is maximized in the * vertical direction. * @see #setExtendedState(int) * @see #getExtendedState * @since 1.4 */ public static final int MAXIMIZED_VERT = 4; /** * This state bit mask indicates that frame is fully maximized * (that is both horizontally and vertically). It is just a * convenience alias for * MAXIMIZED_VERT | MAXIMIZED_HORIZ. * *

Note that the correct test for frame being fully maximized is *

     *     (state & Frame.MAXIMIZED_BOTH) == Frame.MAXIMIZED_BOTH
     * 
* *

To test is frame is maximized in some direction use *

     *     (state & Frame.MAXIMIZED_BOTH) != 0
     * 
* * @see #setExtendedState(int) * @see #getExtendedState * @since 1.4 */ public static final int MAXIMIZED_BOTH = MAXIMIZED_VERT | MAXIMIZED_HORIZ; /** * Maximized bounds for this frame. * @see #setMaximizedBounds(Rectangle) * @see #getMaximizedBounds * @serial * @since 1.4 */ Rectangle maximizedBounds; /** * This is the title of the frame. It can be changed * at any time. title can be null and if * this is the case the title = "". * * @serial * @see #getTitle * @see #setTitle(String) */ String title = "Untitled"; /** * The frames menubar. If menuBar = null * the frame will not have a menubar. * * @serial * @see #getMenuBar * @see #setMenuBar(MenuBar) */ MenuBar menuBar; /** * This field indicates whether the frame is resizable. * This property can be changed at any time. * resizable will be true if the frame is * resizable, otherwise it will be false. * * @serial * @see #isResizable() */ boolean resizable = true; /** * This field indicates whether the frame is undecorated. * This property can only be changed while the frame is not displayable. * undecorated will be true if the frame is * undecorated, otherwise it will be false. * * @serial * @see #setUndecorated(boolean) * @see #isUndecorated() * @see Component#isDisplayable() * @since 1.4 */ boolean undecorated = false; /** * mbManagement is only used by the Motif implementation. * * @serial */ boolean mbManagement = false; /* used only by the Motif impl. */ // XXX: uwe: abuse old field for now // will need to take care of serialization private int state = NORMAL; /* * The Windows owned by the Frame. * Note: in 1.2 this has been superceded by Window.ownedWindowList * * @serial * @see java.awt.Window#ownedWindowList */ Vector ownedWindows; private static final String base = "frame"; private static int nameCounter = 0; /* * JDK 1.1 serialVersionUID */ private static final long serialVersionUID = 2673458971256075116L; static { /* ensure that the necessary native libraries are loaded */ Toolkit.loadLibraries(); if (!GraphicsEnvironment.isHeadless()) { initIDs(); } } /** * Constructs a new instance of Frame that is * initially invisible. The title of the Frame * is empty. * @exception HeadlessException when * GraphicsEnvironment.isHeadless() returns true * @see java.awt.GraphicsEnvironment#isHeadless() * @see Component#setSize * @see Component#setVisible(boolean) */ public Frame() throws HeadlessException { this(""); } /** * Constructs a new, initially invisible {@code Frame} with the * specified {@code GraphicsConfiguration}. * * @param gc the GraphicsConfiguration * of the target screen device. If gc * is null, the system default * GraphicsConfiguration is assumed. * @exception IllegalArgumentException if * gc is not from a screen device. * @exception HeadlessException when * GraphicsEnvironment.isHeadless() returns true * @see java.awt.GraphicsEnvironment#isHeadless() * @since 1.3 */ public Frame(GraphicsConfiguration gc) { this("", gc); } /** * Constructs a new, initially invisible Frame object * with the specified title. * @param title the title to be displayed in the frame's border. * A null value * is treated as an empty string, "". * @exception HeadlessException when * GraphicsEnvironment.isHeadless() returns true * @see java.awt.GraphicsEnvironment#isHeadless() * @see java.awt.Component#setSize * @see java.awt.Component#setVisible(boolean) * @see java.awt.GraphicsConfiguration#getBounds */ public Frame(String title) throws HeadlessException { init(title, null); } /** * Constructs a new, initially invisible Frame object * with the specified title and a * GraphicsConfiguration. * @param title the title to be displayed in the frame's border. * A null value * is treated as an empty string, "". * @param gc the GraphicsConfiguration * of the target screen device. If gc is * null, the system default * GraphicsConfiguration is assumed. * @exception IllegalArgumentException if gc * is not from a screen device. * @exception HeadlessException when * GraphicsEnvironment.isHeadless() returns true * @see java.awt.GraphicsEnvironment#isHeadless() * @see java.awt.Component#setSize * @see java.awt.Component#setVisible(boolean) * @see java.awt.GraphicsConfiguration#getBounds * @since 1.3 */ public Frame(String title, GraphicsConfiguration gc) { super(gc); init(title, gc); } private void init(String title, GraphicsConfiguration gc) { this.title = title; SunToolkit.checkAndSetPolicy(this, false); } /** * Construct a name for this component. Called by getName() when the * name is null. */ String constructComponentName() { synchronized (Frame.class) { return base + nameCounter++; } } /** * Makes this Frame displayable by connecting it to * a native screen resource. Making a frame displayable will * cause any of its children to be made displayable. * This method is called internally by the toolkit and should * not be called directly by programs. * @see Component#isDisplayable * @see #removeNotify */ public void addNotify() { synchronized (getTreeLock()) { if (peer == null) { peer = getToolkit().createFrame(this); } FramePeer p = (FramePeer)peer; MenuBar menuBar = this.menuBar; if (menuBar != null) { mbManagement = true; menuBar.addNotify(); p.setMenuBar(menuBar); } p.setMaximizedBounds(maximizedBounds); super.addNotify(); } } /** * Gets the title of the frame. The title is displayed in the * frame's border. * @return the title of this frame, or an empty string ("") * if this frame doesn't have a title. * @see #setTitle(String) */ public String getTitle() { return title; } /** * Sets the title for this frame to the specified string. * @param title the title to be displayed in the frame's border. * A null value * is treated as an empty string, "". * @see #getTitle */ public void setTitle(String title) { String oldTitle = this.title; if (title == null) { title = ""; } synchronized(this) { this.title = title; FramePeer peer = (FramePeer)this.peer; if (peer != null) { peer.setTitle(title); } } firePropertyChange("title", oldTitle, title); } /** * Returns the image to be displayed as the icon for this frame. *

* This method is obsolete and kept for backward compatibility * only. Use {@link Window#getIconImages Window.getIconImages()} instead. *

* If a list of several images was specified as a Window's icon, * this method will return the first item of the list. * * @return the icon image for this frame, or null * if this frame doesn't have an icon image. * @see #setIconImage(Image) * @see Window#getIconImages() * @see Window#setIconImages */ public Image getIconImage() { java.util.List icons = this.icons; if (icons != null) { if (icons.size() > 0) { return icons.get(0); } } return null; } /** * {@inheritDoc} */ public void setIconImage(Image image) { super.setIconImage(image); } /** * Gets the menu bar for this frame. * @return the menu bar for this frame, or null * if this frame doesn't have a menu bar. * @see #setMenuBar(MenuBar) */ public MenuBar getMenuBar() { return menuBar; } /** * Sets the menu bar for this frame to the specified menu bar. * @param mb the menu bar being set. * If this parameter is null then any * existing menu bar on this frame is removed. * @see #getMenuBar */ public void setMenuBar(MenuBar mb) { synchronized (getTreeLock()) { if (menuBar == mb) { return; } if ((mb != null) && (mb.parent != null)) { mb.parent.remove(mb); } if (menuBar != null) { remove(menuBar); } menuBar = mb; if (menuBar != null) { menuBar.parent = this; FramePeer peer = (FramePeer)this.peer; if (peer != null) { mbManagement = true; menuBar.addNotify(); invalidateIfValid(); peer.setMenuBar(menuBar); } } } } /** * Indicates whether this frame is resizable by the user. * By default, all frames are initially resizable. * @return true if the user can resize this frame; * false otherwise. * @see java.awt.Frame#setResizable(boolean) */ public boolean isResizable() { return resizable; } /** * Sets whether this frame is resizable by the user. * @param resizable true if this frame is resizable; * false otherwise. * @see java.awt.Frame#isResizable */ public void setResizable(boolean resizable) { boolean oldResizable = this.resizable; boolean testvalid = false; synchronized (this) { this.resizable = resizable; FramePeer peer = (FramePeer)this.peer; if (peer != null) { peer.setResizable(resizable); testvalid = true; } } // On some platforms, changing the resizable state affects // the insets of the Frame. If we could, we'd call invalidate() // from the peer, but we need to guarantee that we're not holding // the Frame lock when we call invalidate(). if (testvalid) { invalidateIfValid(); } firePropertyChange("resizable", oldResizable, resizable); } /** * Sets the state of this frame (obsolete). *

* In older versions of JDK a frame state could only be NORMAL or * ICONIFIED. Since JDK 1.4 set of supported frame states is * expanded and frame state is represented as a bitwise mask. *

* For compatibility with applications developed * earlier this method still accepts * {@code Frame.NORMAL} and * {@code Frame.ICONIFIED} only. The iconic * state of the frame is only changed, other aspects * of frame state are not affected by this method. If * the state passed to this method is neither {@code * Frame.NORMAL} nor {@code Frame.ICONIFIED} the * method performs no actions at all. *

Note that if the state is not supported on a * given platform, neither the state nor the return * value of the {@link #getState} method will be * changed. The application may determine whether a * specific state is supported via the {@link * java.awt.Toolkit#isFrameStateSupported} method. *

If the frame is currently visible on the * screen (the {@link #isShowing} method returns * {@code true}), the developer should examine the * return value of the {@link * java.awt.event.WindowEvent#getNewState} method of * the {@code WindowEvent} received through the * {@link java.awt.event.WindowStateListener} to * determine that the state has actually been * changed. *

If the frame is not visible on the * screen, the events may or may not be * generated. In this case the developer may assume * that the state changes immediately after this * method returns. Later, when the {@code * setVisible(true)} method is invoked, the frame * will attempt to apply this state. Receiving any * {@link * java.awt.event.WindowEvent#WINDOW_STATE_CHANGED} * events is not guaranteed in this case also. * * @param state either Frame.NORMAL or * Frame.ICONIFIED. * @see #setExtendedState(int) * @see java.awt.Window#addWindowStateListener */ public synchronized void setState(int state) { int current = getExtendedState(); if (state == ICONIFIED && (current & ICONIFIED) == 0) { setExtendedState(current | ICONIFIED); } else if (state == NORMAL && (current & ICONIFIED) != 0) { setExtendedState(current & ~ICONIFIED); } } /** * Sets the state of this frame. The state is * represented as a bitwise mask. *

*

Note that if the state is not supported on a * given platform, neither the state nor the return * value of the {@link #getExtendedState} method will * be changed. The application may determine whether * a specific state is supported via the {@link * java.awt.Toolkit#isFrameStateSupported} method. *

If the frame is currently visible on the * screen (the {@link #isShowing} method returns * {@code true}), the developer should examine the * return value of the {@link * java.awt.event.WindowEvent#getNewState} method of * the {@code WindowEvent} received through the * {@link java.awt.event.WindowStateListener} to * determine that the state has actually been * changed. *

If the frame is not visible on the * screen, the events may or may not be * generated. In this case the developer may assume * that the state changes immediately after this * method returns. Later, when the {@code * setVisible(true)} method is invoked, the frame * will attempt to apply this state. Receiving any * {@link * java.awt.event.WindowEvent#WINDOW_STATE_CHANGED} * events is not guaranteed in this case also. * * @param state a bitwise mask of frame state constants * @since 1.4 * @see java.awt.Window#addWindowStateListener */ public void setExtendedState(int state) { if ( !isFrameStateSupported( state ) ) { return; } synchronized (getObjectLock()) { this.state = state; } // peer.setState must be called outside of object lock // synchronization block to avoid possible deadlock FramePeer peer = (FramePeer)this.peer; if (peer != null) { peer.setState(state); } } private boolean isFrameStateSupported(int state) { if( !getToolkit().isFrameStateSupported( state ) ) { // * Toolkit.isFrameStateSupported returns always false // on compound state even if all parts are supported; // * if part of state is not supported, state is not supported; // * MAXIMIZED_BOTH is not a compound state. if( ((state & ICONIFIED) != 0) && !getToolkit().isFrameStateSupported( ICONIFIED )) { return false; }else { state &= ~ICONIFIED; } return getToolkit().isFrameStateSupported( state ); } return true; } /** * Gets the state of this frame (obsolete). *

* In older versions of JDK a frame state could only be NORMAL or * ICONIFIED. Since JDK 1.4 set of supported frame states is * expanded and frame state is represented as a bitwise mask. *

* For compatibility with old programs this method still returns * Frame.NORMAL and Frame.ICONIFIED but * it only reports the iconic state of the frame, other aspects of * frame state are not reported by this method. * * @return Frame.NORMAL or Frame.ICONIFIED. * @see #setState(int) * @see #getExtendedState */ public synchronized int getState() { return (getExtendedState() & ICONIFIED) != 0 ? ICONIFIED : NORMAL; } /** * Gets the state of this frame. The state is * represented as a bitwise mask. *

* * @return a bitwise mask of frame state constants * @see #setExtendedState(int) * @since 1.4 */ public int getExtendedState() { synchronized (getObjectLock()) { return state; } } static { AWTAccessor.setFrameAccessor( new AWTAccessor.FrameAccessor() { public void setExtendedState(Frame frame, int state) { synchronized(frame.getObjectLock()) { frame.state = state; } } public int getExtendedState(Frame frame) { synchronized(frame.getObjectLock()) { return frame.state; } } public Rectangle getMaximizedBounds(Frame frame) { synchronized(frame.getObjectLock()) { return frame.maximizedBounds; } } } ); } /** * Sets the maximized bounds for this frame. *

* When a frame is in maximized state the system supplies some * defaults bounds. This method allows some or all of those * system supplied values to be overridden. *

* If bounds is null, accept bounds * supplied by the system. If non-null you can * override some of the system supplied values while accepting * others by setting those fields you want to accept from system * to Integer.MAX_VALUE. *

* Note, the given maximized bounds are used as a hint for the native * system, because the underlying platform may not support setting the * location and/or size of the maximized windows. If that is the case, the * provided values do not affect the appearance of the frame in the * maximized state. * * @param bounds bounds for the maximized state * @see #getMaximizedBounds() * @since 1.4 */ public void setMaximizedBounds(Rectangle bounds) { synchronized(getObjectLock()) { this.maximizedBounds = bounds; } FramePeer peer = (FramePeer)this.peer; if (peer != null) { peer.setMaximizedBounds(bounds); } } /** * Gets maximized bounds for this frame. * Some fields may contain Integer.MAX_VALUE to indicate * that system supplied values for this field must be used. * * @return maximized bounds for this frame; may be null * @see #setMaximizedBounds(Rectangle) * @since 1.4 */ public Rectangle getMaximizedBounds() { synchronized(getObjectLock()) { return maximizedBounds; } } /** * Disables or enables decorations for this frame. *

* This method can only be called while the frame is not displayable. To * make this frame decorated, it must be opaque and have the default shape, * otherwise the {@code IllegalComponentStateException} will be thrown. * Refer to {@link Window#setShape}, {@link Window#setOpacity} and {@link * Window#setBackground} for details * * @param undecorated {@code true} if no frame decorations are to be * enabled; {@code false} if frame decorations are to be enabled * * @throws IllegalComponentStateException if the frame is displayable * @throws IllegalComponentStateException if {@code undecorated} is * {@code false}, and this frame does not have the default shape * @throws IllegalComponentStateException if {@code undecorated} is * {@code false}, and this frame opacity is less than {@code 1.0f} * @throws IllegalComponentStateException if {@code undecorated} is * {@code false}, and the alpha value of this frame background * color is less than {@code 1.0f} * * @see #isUndecorated * @see Component#isDisplayable * @see Window#getShape * @see Window#getOpacity * @see Window#getBackground * @see javax.swing.JFrame#setDefaultLookAndFeelDecorated(boolean) * * @since 1.4 */ public void setUndecorated(boolean undecorated) { /* Make sure we don't run in the middle of peer creation.*/ synchronized (getTreeLock()) { if (isDisplayable()) { throw new IllegalComponentStateException("The frame is displayable."); } if (!undecorated) { if (getOpacity() < 1.0f) { throw new IllegalComponentStateException("The frame is not opaque"); } if (getShape() != null) { throw new IllegalComponentStateException("The frame does not have a default shape"); } Color bg = getBackground(); if ((bg != null) && (bg.getAlpha() < 255)) { throw new IllegalComponentStateException("The frame background color is not opaque"); } } this.undecorated = undecorated; } } /** * Indicates whether this frame is undecorated. * By default, all frames are initially decorated. * @return true if frame is undecorated; * false otherwise. * @see java.awt.Frame#setUndecorated(boolean) * @since 1.4 */ public boolean isUndecorated() { return undecorated; } /** * {@inheritDoc} */ @Override public void setOpacity(float opacity) { synchronized (getTreeLock()) { if ((opacity < 1.0f) && !isUndecorated()) { throw new IllegalComponentStateException("The frame is decorated"); } super.setOpacity(opacity); } } /** * {@inheritDoc} */ @Override public void setShape(Shape shape) { synchronized (getTreeLock()) { if ((shape != null) && !isUndecorated()) { throw new IllegalComponentStateException("The frame is decorated"); } super.setShape(shape); } } /** * {@inheritDoc} */ @Override public void setBackground(Color bgColor) { synchronized (getTreeLock()) { if ((bgColor != null) && (bgColor.getAlpha() < 255) && !isUndecorated()) { throw new IllegalComponentStateException("The frame is decorated"); } super.setBackground(bgColor); } } /** * Removes the specified menu bar from this frame. * @param m the menu component to remove. * If m is null, then * no action is taken */ public void remove(MenuComponent m) { if (m == null) { return; } synchronized (getTreeLock()) { if (m == menuBar) { menuBar = null; FramePeer peer = (FramePeer)this.peer; if (peer != null) { mbManagement = true; invalidateIfValid(); peer.setMenuBar(null); m.removeNotify(); } m.parent = null; } else { super.remove(m); } } } /** * Makes this Frame undisplayable by removing its connection * to its native screen resource. Making a Frame undisplayable * will cause any of its children to be made undisplayable. * This method is called by the toolkit internally and should * not be called directly by programs. * @see Component#isDisplayable * @see #addNotify */ public void removeNotify() { synchronized (getTreeLock()) { FramePeer peer = (FramePeer)this.peer; if (peer != null) { // get the latest Frame state before disposing getState(); if (menuBar != null) { mbManagement = true; peer.setMenuBar(null); menuBar.removeNotify(); } } super.removeNotify(); } } void postProcessKeyEvent(KeyEvent e) { if (menuBar != null && menuBar.handleShortcut(e)) { e.consume(); return; } super.postProcessKeyEvent(e); } /** * Returns a string representing the state of this Frame. * 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 the parameter string of this frame */ protected String paramString() { String str = super.paramString(); if (title != null) { str += ",title=" + title; } if (resizable) { str += ",resizable"; } int state = getExtendedState(); if (state == NORMAL) { str += ",normal"; } else { if ((state & ICONIFIED) != 0) { str += ",iconified"; } if ((state & MAXIMIZED_BOTH) == MAXIMIZED_BOTH) { str += ",maximized"; } else if ((state & MAXIMIZED_HORIZ) != 0) { str += ",maximized_horiz"; } else if ((state & MAXIMIZED_VERT) != 0) { str += ",maximized_vert"; } } return str; } /** * @deprecated As of JDK version 1.1, * replaced by Component.setCursor(Cursor). */ @Deprecated public void setCursor(int cursorType) { if (cursorType < DEFAULT_CURSOR || cursorType > MOVE_CURSOR) { throw new IllegalArgumentException("illegal cursor type"); } setCursor(Cursor.getPredefinedCursor(cursorType)); } /** * @deprecated As of JDK version 1.1, * replaced by Component.getCursor(). */ @Deprecated public int getCursorType() { return (getCursor().getType()); } /** * Returns an array of all {@code Frame}s created by this application. * If called from an applet, the array includes only the {@code Frame}s * accessible by that applet. *

* Warning: this method may return system created frames, such * as a shared, hidden frame which is used by Swing. Applications * should not assume the existence of these frames, nor should an * application assume anything about these frames such as component * positions, LayoutManagers or serialization. *

* Note: To obtain a list of all ownerless windows, including * ownerless {@code Dialog}s (introduced in release 1.6), use {@link * Window#getOwnerlessWindows Window.getOwnerlessWindows}. * * @see Window#getWindows() * @see Window#getOwnerlessWindows * * @since 1.2 */ public static Frame[] getFrames() { Window[] allWindows = Window.getWindows(); int frameCount = 0; for (Window w : allWindows) { if (w instanceof Frame) { frameCount++; } } Frame[] frames = new Frame[frameCount]; int c = 0; for (Window w : allWindows) { if (w instanceof Frame) { frames[c++] = (Frame)w; } } return frames; } /* Serialization support. If there's a MenuBar we restore * its (transient) parent field here. Likewise for top level * windows that are "owned" by this frame. */ /** * Frame's Serialized Data Version. * * @serial */ private int frameSerializedDataVersion = 1; /** * Writes default serializable fields to stream. Writes * an optional serializable icon Image, which is * available as of 1.4. * * @param s the ObjectOutputStream to write * @serialData an optional icon Image * @see java.awt.Image * @see #getIconImage * @see #setIconImage(Image) * @see #readObject(ObjectInputStream) */ private void writeObject(ObjectOutputStream s) throws IOException { s.defaultWriteObject(); if (icons != null && icons.size() > 0) { Image icon1 = icons.get(0); if (icon1 instanceof Serializable) { s.writeObject(icon1); return; } } s.writeObject(null); } /** * Reads the ObjectInputStream. Tries * to read an icon Image, which is optional * data available as of 1.4. If an icon Image * is not available, but anything other than an EOF * is detected, an OptionalDataException * will be thrown. * Unrecognized keys or values will be ignored. * * @param s the ObjectInputStream to read * @exception java.io.OptionalDataException if an icon Image * is not available, but anything other than an EOF * is detected * @exception HeadlessException if * GraphicsEnvironment.isHeadless returns * true * @see java.awt.GraphicsEnvironment#isHeadless() * @see java.awt.Image * @see #getIconImage * @see #setIconImage(Image) * @see #writeObject(ObjectOutputStream) */ private void readObject(ObjectInputStream s) throws ClassNotFoundException, IOException, HeadlessException { // HeadlessException is thrown by Window's readObject s.defaultReadObject(); try { Image icon = (Image) s.readObject(); if (icons == null) { icons = new ArrayList(); icons.add(icon); } } catch (java.io.OptionalDataException e) { // pre-1.4 instances will not have this optional data. // 1.6 and later instances serialize icons in the Window class // e.eof will be true to indicate that there is no more // data available for this object. // If e.eof is not true, throw the exception as it // might have been caused by unrelated reasons. if (!e.eof) { throw (e); } } if (menuBar != null) menuBar.parent = this; // Ensure 1.1 serialized Frames can read & hook-up // owned windows properly // if (ownedWindows != null) { for (int i = 0; i < ownedWindows.size(); i++) { connectOwnedWindow((Window) ownedWindows.elementAt(i)); } ownedWindows = null; } } /** * Initialize JNI field and method IDs */ private static native void initIDs(); /* * --- Accessibility Support --- * */ /** * Gets the AccessibleContext associated with this Frame. * For frames, the AccessibleContext takes the form of an * AccessibleAWTFrame. * A new AccessibleAWTFrame instance is created if necessary. * * @return an AccessibleAWTFrame that serves as the * AccessibleContext of this Frame * @since 1.3 */ public AccessibleContext getAccessibleContext() { if (accessibleContext == null) { accessibleContext = new AccessibleAWTFrame(); } return accessibleContext; } /** * This class implements accessibility support for the * Frame class. It provides an implementation of the * Java Accessibility API appropriate to frame user-interface elements. * @since 1.3 */ protected class AccessibleAWTFrame extends AccessibleAWTWindow { /* * JDK 1.3 serialVersionUID */ private static final long serialVersionUID = -6172960752956030250L; /** * Get the role of this object. * * @return an instance of AccessibleRole describing the role of the * object * @see AccessibleRole */ public AccessibleRole getAccessibleRole() { return AccessibleRole.FRAME; } /** * Get the state of this object. * * @return an instance of AccessibleStateSet containing the current * state set of the object * @see AccessibleState */ public AccessibleStateSet getAccessibleStateSet() { AccessibleStateSet states = super.getAccessibleStateSet(); if (getFocusOwner() != null) { states.add(AccessibleState.ACTIVE); } if (isResizable()) { states.add(AccessibleState.RESIZABLE); } return states; } } // inner class AccessibleAWTFrame }