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With theJInternalFrameclass, you can display a
JFrame-like window within another window. Usually, you add internal frames to a desktop pane. The desktop pane, in turn, might be used as the content pane of aJFrame. The desktop pane is an instance ofJDesktopPaneJLayeredPanethat has added API for managing multiple overlapping internal frames.You should consider carefully whether to base your program's GUI around frames or internal frames. Switching from internal frames to frames or vice versa isn't necessarily a simple task. By experimenting with both frames and internal frames, you can get an idea of the tradeoffs involved in choosing one over the other.
Here is a picture of an application that has two internal frames (one of which is iconified) inside a regular frame:
As the figure shows, the window decorations on an internal frame reflect the Java Look & Feel. However, the window that contains the internal frame has the decorations for the native look and feel (in this case, Motif).
Try this:
- Compile and run the application. The source files are
InternalFrameDemo.javaand
MyInternalFrame.java
See Getting Started with Swing if you need help compiling or running this application.- Create new internal frames using the Create item in the Document menu.
Each internal frame comes up 30 pixels lower and to the right of the place where the previous internal frame first appeared. This functionality is implemented in theMyInternalFrameclass, which is the custom subclass ofJInternalFrame.The following code, taken from
InternalFrameDemo.java...//In the constructor of InternalFrameDemo, a JFrame subclass: desktop = new JDesktopPane(); createFrame(); //Create first window setContentPane(desktop); ... //Make dragging faster: desktop.putClientProperty("JDesktopPane.dragMode", "outline"); ... protected void createFrame() { MyInternalFrame frame = new MyInternalFrame(); frame.setVisible(true); //necessary as of kestrel desktop.add(frame); try { frame.setSelected(true); } catch (java.beans.PropertyVetoException e) {} } ...//In the constructor of MyInternalFrame, a JInternalFrame subclass: static int openFrameCount = 0; static final int xOffset = 30, yOffset = 30; public MyInternalFrame() { super("Document #" + (++openFrameCount), true, //resizable true, //closable true, //maximizable true);//iconifiable //...Create the GUI and put it in the window... //...Then set the window size or call pack... ... //Set the window's location. setLocation(xOffset*openFrameCount, yOffset*openFrameCount); }
The code for using internal frames is similar in many ways to the code for using regular Swing frames. Because internal frames have root panes, setting up the GUI for aJInternalFrameis very similar to setting up the GUI for aJFrame.JInternalFramealso provides other API, such aspack, that makes it similar toJFrame.
Note: Just as for a regular frame, you must invokesetVisible(true)orshow()on an internal frame to display it. In early versions of the Java 2 platform (such as v1.2.2), this code has no effect because the internal frame is visible by default. However, starting in the Kestrel release, the internal frame does not appear until you explicitly make it visible.Internal frames aren't windows or top-level containers, however, which makes them different from frames. For example, you must add an internal frame to a container (usually a
JDesktopPane); an internal frame can't be the root of a containment hierarchy. Also, internal frames don't generate window events. Instead, the user actions that would cause a frame to fire window events cause an internal frame to fire internal frame events.Because internal frames are implemented with platform-independent code, they add some features that frames can't give you. One such feature is that internal frames give you more control over their state and capabilities than frames do. You can programatically iconify or maximize an internal frame. You can also specify what icon goes in the internal frame's title bar. You can even specify whether the internal frame has the window decorations to support resizing, iconifying, closing, and maximizing.
Another feature is that internal frames are designed to work within desktop panes. The
JInternalFrameAPI contains methods such asmoveToFrontthat work only if the internal frame's container is a layered pane such as aJDesktopPane.
If you've built any programs usingJFrameand the other Swing components, then you already know a lot about how to use internal frames. The following list summarizes the rules for using internal frames. For additional information, see How to Make Frames and The JComponent Class.
- You must set the size of the internal frame.
- If you don't set the size of the internal frame, it will have zero size and thus never be visible. You can set the size using one of the following methods:
setSize,pack, orsetBounds.- As a rule, you should set the location of the internal frame.
- If you don't set the location of the internal frame, it will come up at 0,0 (the upper left of its container). You can use the
setLocationorsetBoundsmethod to specify the upper left point of the internal frame, relative to its container.- To add components to an internal frame, you add them to the internal frame's content pane.
- This is exactly like the
JFramesituation. See Adding Components to the Content Pane for details.- Dialogs that are internal frames should be implemented using
JOptionPaneorJInternalFrame, notJDialog.- To create a simple dialog, you can use the
JOptionPaneshowInternalXxxDialogmethods, as described in How to Make Dialogs.- You must add an internal frame to a container.
- If you don't add the internal frame to a container (usually a
JDesktopPane), the internal frame won't appear.- You need to call
showorsetVisibleon internal frames.- Beginning with the Kestrel release, internal frames are invisible by default. You must invoke
setVisible(true)orshow()to make them visible.- Internal frames fire internal frame events, not window events.
- Handling internal frame events is almost identical to handling window events. See How to Write an Internal Frame Listener for more information.
Performance Tip: Because dragging internal frames can be slow, Swing 1.1.1 adds a way to make it zippy: outline dragging. With outline dragging, only the outline of the internal frame is painted at the current mouse position while the window's being dragged. The internal frame's innards are not repainted at a new position until dragging stops. The default, slower behavior is to reposition and repaint the entire internal frame continuously while it's being moved.In a future release, the Swing team plans to add a method to let you specify outline dragging. Until that method is added, you can specify outline dragging by setting a client property of the desktop pane, like this:
The preceding code has no effect in JFC implementations before Swing 1.1.1 Beta 1.desktop.putClientProperty("JDesktopPane.dragMode", "outline");
The following tables list the commonly usedJInternalFrameconstructors and methods, as well as a few methods thatJDesktopPaneprovides. Besides the API listed in this section,JInternalFrameinherits useful API from its superclasses,JComponent,Component, andContainer. See The JComponent Class for lists of methods from those classes.Like
JInternalFrame,JDesktopPanedescends fromJComponent, and thus provides the methods described in The JComponent Class. BecauseJDesktopPaneextendsJLayeredPane, it also supports the methods described in The Layered Pane API.The API for using internal frames falls into these categories:
- Creating the internal frame
- Adding components to the internal frame
- Specifying the internal frame's visibility, size, and location
- Performing window operations on the internal frame
- Controlling window decorations and capabilities
- Using the JDesktopPane API
Creating the Internal Frame Constructor or Method Purpose JInternalFrame()
JInternalFrame(String)
JInternalFrame(String, boolean)
JInternalFrame(String, boolean, boolean)
JInternalFrame(String, boolean, boolean, boolean)
JInternalFrame(String, boolean, boolean, boolean, boolean)Create a JInternalFrameinstance. The first argument specifies the title (if any) to be displayed by the internal frame. The rest of the arguments specify whether the internal frame should contain decorations allowing the user to resize, close, maximize, and iconify the internal frame (specified in that order). The default value for each boolean argument isfalse, which means that the operation is not allowed.JOptionPaneclass methods:
- showInternalConfirmDialog
- showInternalInputDialog
- showInternalMessageDialog
- showInternalOptionDialog
Create a JInternalFramethat simulates a dialog. See How to Make Dialogs for details.
Adding Components to the Internal Frame Method Purpose void setContentPane(Container)
Container getContentPane()Set or get the internal frame's content pane, which generally contains all of the internal frame's GUI, with the exception of the menu bar and window decorations. void setJMenuBar(JMenuBar)
JMenuBar getJMenuBar()Set or get the internal frame's menu bar. Note that some early Swing releases do not include this method.
Specifying the Internal Frame's Visibility, Size, and Location Method Purpose void setVisible(boolean)Make the internal frame visible (if true) or invisible (iffalse). You should invokesetVisible(true)on eachJInternalFramebefore adding it to its container. (Inherited fromComponent).void pack()Size the internal frame so that its components are at their preferred sizes. void setLocation(Point)
void setLocation(int, int)Set the position of the internal frame. (Inherited from Component).void setBounds(Rectangle)
void setBounds(int, int, int, int)Explicitly set the size and location of the internal frame. (Inherited from Component).void setSize(Dimension)
void setSize(int, int)Explicitly set the size of the internal frame. (Inherited from Component).
Performing Window Operations on the Internal Frame Method Purpose void setDefaultCloseOperation(int)
int getDefaultCloseOperation()Set or get what the internal frame does when the user attempts to "close" the internal frame. The default value is HIDE_ON_CLOSE. Other possible values areDO_NOTHING_ON_CLOSEandDISPOSE_ON_CLOSE. See Responding to Window-Closing Events for details.void addInternalFrameListener(
InternalFrameListener)
void removeInternalFrameListener(
InternalFrameListener)Add or remove an internal frame listener ( JInternalFrame's equivalent of a window listener). See How to Write an Internal Frame Listener for more information.void moveToFront()
void moveToBack()If the internal frame's parent is a layered pane such as a desktop pane, moves the internal frame to the front or back (respectively) of its layer. void setClosed(boolean)
boolean isClosed()Set or get whether the internal frame is currently closed. void setIcon(boolean)
boolean isIcon()Iconify or deiconify the internal frame, or determine whether it's currently iconified. void setMaximum(boolean)
boolean isMaximum()Maximize or restore the internal frame, or determine whether it's maximized. void setSelected(boolean)
boolean isSelected()Set or get whether the internal frame is the currently "selected" (activated) internal frame.
Controlling Window Decorations and Capabilities Method Purpose void setFrameIcon(Icon)
Icon getFrameIcon()Set or get the icon displayed in the title bar of the internal frame (usually in the top-left corner). void setClosable(boolean)
boolean isClosable()Set or get whether the user can close the internal frame. void setIconifiable(boolean)
boolean isIconifiable()Set or get whether the internal frame can be iconified. void setMaximizable(boolean)
boolean isMaximizable()Set or get whether the user can maximize this internal frame. void setResizable(boolean)
boolean isResizable()Set or get whether the internal frame can be resized. void setTitle(String)
String getTitle()Set or get the window title.
Using the JDesktopPaneAPIConstructor or Method Purpose JDesktopPane()Creates a new instance of JDesktopPane.JInternalFrame[] getAllFrames()Returns all JInternalFrameobjects that the desktop contains.JInternalFrame[] getAllFramesInLayer(int)Returns all JInternalFrameobjects that the desktop contains that are in the specified layer. See How to Use Layered Panes for information about layers.
The following examples use internal frames. Because internal frames are similar to regular frames, you should also look at Examples that Use Frames.
Example Where Described Notes MyInternalFrameThis page. Implements an internal frame that appears at an offset to the previously created internal frame. InternalFrameDemoThis page. Lets you create internal frames (instances of MyInternalFrame) that go into the application'sJDesktopPane.InternalFrameEventDemoHow to Write an Internal Frame Listener Demonstrates listening for internal frame events. Also demonstrates positioning internal frames within a desktop pane.
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