A menu provides a space-saving way to let the user choose one of several options. Other components with which the user can make a one-of-many choice include combo boxes, lists, radio buttons, spinners, and tool bars. If any of your menu items performs an action that is duplicated by another menu item or by a tool-bar button, then in addition to this section you should read How to Use Actions.
Menus are unique in that, by convention, they aren't placed with the other components in the UI. Instead, a menu usually appears either in a menu bar or as a popup menu. A menu bar contains one or more menus and has a customary, platform-dependent location usually along the top of a window. A popup menu is a menu that is invisible until the user makes a platform-specific mouse action, such as pressing the right mouse button, over a popup-enabled component. The popup menu then appears under the cursor.
The following figure shows many menu-related components: a menu bar, menus, menu items, radio button menu items, check box menu items, and separators. As you can see, a menu item can have either an image or text, or both. You can also specify other properties, such as font and color.
The rest of this section teaches you about the menu components and tells you how to use various menu features:
Here is a picture of the inheritance hierarchy for the menu-related classes:
As the figure shows, menu items (including menus) are simply buttons. You might be wondering how a menu, if it's only a button, shows its menu items. The answer is that when a menu is activated, it automatically brings up a popup menu that displays the menu items.
The following code creates the menus shown near the beginning of this menu section. The bold lines of code create and connect the menu objects; the other code sets up or customizes the menu objects. You can find the entire program in
MenuLookDemo.java
. Other required files are listed in the example index.
Because this code has no event handling, the menus do nothing useful except to look as they should. If you run the example, you'll notice that despite the lack of custom event handling, menus and submenus appear when they should, and the check boxes and radio buttons respond appropriately when the user chooses them.
//Where the GUI is created: JMenuBar menuBar; JMenu menu, submenu; JMenuItem menuItem; JRadioButtonMenuItem rbMenuItem; JCheckBoxMenuItem cbMenuItem; //Create the menu bar. menuBar = new JMenuBar(); //Build the first menu. menu = new JMenu("A Menu"); menu.setMnemonic(KeyEvent.VK_A); menu.getAccessibleContext().setAccessibleDescription( "The only menu in this program that has menu items"); menuBar.add(menu); //a group of JMenuItems menuItem = new JMenuItem("A text-only menu item", KeyEvent.VK_T); menuItem.setAccelerator(KeyStroke.getKeyStroke( KeyEvent.VK_1, ActionEvent.ALT_MASK)); menuItem.getAccessibleContext().setAccessibleDescription( "This doesn't really do anything"); menu.add(menuItem); menuItem = new JMenuItem("Both text and icon", new ImageIcon("images/middle.gif")); menuItem.setMnemonic(KeyEvent.VK_B); menu.add(menuItem); menuItem = new JMenuItem(new ImageIcon("images/middle.gif")); menuItem.setMnemonic(KeyEvent.VK_D); menu.add(menuItem); //a group of radio button menu items menu.addSeparator(); ButtonGroup group = new ButtonGroup(); rbMenuItem = new JRadioButtonMenuItem("A radio button menu item"); rbMenuItem.setSelected(true); rbMenuItem.setMnemonic(KeyEvent.VK_R); group.add(rbMenuItem); menu.add(rbMenuItem); rbMenuItem = new JRadioButtonMenuItem("Another one"); rbMenuItem.setMnemonic(KeyEvent.VK_O); group.add(rbMenuItem); menu.add(rbMenuItem); //a group of check box menu items menu.addSeparator(); cbMenuItem = new JCheckBoxMenuItem("A check box menu item"); cbMenuItem.setMnemonic(KeyEvent.VK_C); menu.add(cbMenuItem); cbMenuItem = new JCheckBoxMenuItem("Another one"); cbMenuItem.setMnemonic(KeyEvent.VK_H); menu.add(cbMenuItem); //a submenu menu.addSeparator(); submenu = new JMenu("A submenu"); submenu.setMnemonic(KeyEvent.VK_S); menuItem = new JMenuItem("An item in the submenu"); menuItem.setAccelerator(KeyStroke.getKeyStroke( KeyEvent.VK_2, ActionEvent.ALT_MASK)); submenu.add(menuItem); menuItem = new JMenuItem("Another item"); submenu.add(menuItem); menu.add(submenu); //Build second menu in the menu bar. menu = new JMenu("Another Menu"); menu.setMnemonic(KeyEvent.VK_N); menu.getAccessibleContext().setAccessibleDescription( "This menu does nothing"); menuBar.add(menu); ... frame.setJMenuBar(theJMenuBar);
As the code shows, to set the menu bar for a JFrame
, you use the setJMenuBar
method. To add a JMenu
to a JMenuBar
, you use the add(JMenu)
method. To add menu items and submenus to a JMenu
, you use the add(JMenuItem)
method.
Menu items, like other components, can be in at most one container. If you try to add a menu item to a second menu, the menu item will be removed from the first menu before being added to the second. For a way of implementing multiple components that do the same thing, see How to Use Actions.
Other methods in the preceding code include setAccelerator
and setMnemonic
, which are discussed a little later in Enabling Keyboard Operation. The setAccessibleDescription
method is discussed in
How to Support Assistive Technologies.
To detect when the user chooses a JMenuItem
, you can listen for action events (just as you would for a JButton
). To detect when the user chooses a JRadioButtonMenuItem
, you can listen for either action events or item events, as described in How to Use Radio Buttons. For JCheckBoxMenuItem
s, you generally listen for item events, as described in How to Use Check Boxes.
Here is the code that implements the event handling:
public class MenuDemo ... implements ActionListener, ItemListener { ... public MenuDemo() { //...for each JMenuItem instance: menuItem.addActionListener(this); ... //for each JRadioButtonMenuItem: rbMenuItem.addActionListener(this); ... //for each JCheckBoxMenuItem: cbMenuItem.addItemListener(this); ... } public void actionPerformed(ActionEvent e) { //...Get information from the action event... //...Display it in the text area... } public void itemStateChanged(ItemEvent e) { //...Get information from the item event... //...Display it in the text area... }
For examples of handling action and item events, see the button, radio button, and check box sections, as well as the list of examples at the end of this section.
Menus support two kinds of keyboard alternatives: mnemonics and accelerators. Mnemonics offer a way to use the keyboard to navigate the menu hierarchy, increasing the accessibility of programs. Accelerators, on the other hand, offer keyboard shortcuts to bypass navigating the menu hierarchy. Mnemonics are for all users; accelerators are for power users.
A mnemonic is a key that makes an already visible menu item be chosen. For example, in MenuDemo
the first menu has the mnemonic A, and its second menu item has the mnemonic B. This means that, when you run MenuDemo
with the Java look and feel, pressing the Alt and A keys makes the first menu appear. While the first menu is visible, pressing the B key (with or without Alt) makes the second menu item be chosen. A menu item generally displays its mnemonic by underlining the first occurrence of the mnemonic character in the menu item's text, as the following snapshot shows.
An accelerator is a key combination that causes a menu item to be chosen, whether or not it's visible. For example, pressing the Alt and 2 keys in MenuDemo
makes the first item in the first menu's submenu be chosen, without bringing up any menus. Only leaf menu items menus that don't bring up other menus can have accelerators. The following snapshot shows how the Java look and feel displays a menu item that has an accelerator.
You can specify a mnemonic either when constructing the menu item or with the setMnemonic
method. To specify an accelerator, use the setAccelerator
method. Here are examples of setting mnemonics and accelerators:
//Setting the mnemonic when constructing a menu item: menuItem = new JMenuItem("A text-only menu item", KeyEvent.VK_T); //Setting the mnemonic after creation time: menuItem.setMnemonic(KeyEvent.VK_T); //Setting the accelerator: menuItem.setAccelerator(KeyStroke.getKeyStroke( KeyEvent.VK_T, ActionEvent.ALT_MASK));
As you can see, you set a mnemonic by specifying the
KeyEvent
constant corresponding to the key the user should press. To specify an accelerator you must use a
KeyStroke
object, which combines a key (specified by a KeyEvent
constant) and a modifier-key mask (specified by an
ActionEvent
constant).
Because popup menus, unlike regular menus, aren't always contained by a component, accelerators in popup menu items don't work unless the popup menu is visible.
To bring up a popup menu (
JPopupMenu
), you must register a mouse listener on each component that the popup menu should be associated with. The mouse listener must detect user requests that the popup menu be brought up.
The exact gesture that should bring up a popup menu varies by look and feel. In Microsoft Windows, the user by convention brings up a popup menu by releasing the right mouse button while the cursor is over a component that is popup-enabled. In the Java look and feel, the customary trigger is either pressing the right mouse button (for a popup that goes away when the button is released) or clicking it (for a popup that stays up).
//...where instance variables are declared: JPopupMenu popup; //...where the GUI is constructed: //Create the popup menu. popup = new JPopupMenu(); menuItem = new JMenuItem("A popup menu item"); menuItem.addActionListener(this); popup.add(menuItem); menuItem = new JMenuItem("Another popup menu item"); menuItem.addActionListener(this); popup.add(menuItem); //Add listener to components that can bring up popup menus. MouseListener popupListener = new PopupListener(); output.addMouseListener(popupListener); menuBar.addMouseListener(popupListener); ... class PopupListener extends MouseAdapter { public void mousePressed(MouseEvent e) { maybeShowPopup(e); } public void mouseReleased(MouseEvent e) { maybeShowPopup(e); } private void maybeShowPopup(MouseEvent e) { if (e.isPopupTrigger()) { popup.show(e.getComponent(), e.getX(), e.getY()); } } }
Popup menus have a few interesting implementation details. One is that every menu has an associated popup menu. When the menu is activated, it uses its associated popup menu to show its menu items.
Another detail is that a popup menu itself uses another component to implement the window containing the menu items. Depending on the circumstances under which the popup menu is displayed, the popup menu might implement its "window" using a lightweight component (such as a JPanel
), a "mediumweight" component (such as a
Panel
), or a heavyweight window (something that inherits from
Window
).
Lightweight popup windows are more efficient than heavyweight windows but, prior to the Java SE Platform 6 Update 12 release, they didn't work well if you had any heavyweight components inside your GUI. Specifically, when the lightweight popup's display area intersects the heavyweight component's display area, the heavyweight component is drawn on top. This is one of the reasons that, prior to the 6u12 release, we recommended against mixing heavyweight and lightweight components. If you are using an older release and absolutely need to use a heavyweight component in your GUI, then you can invoke JPopupMenu.setLightWeightPopupEnabled(false)
to disable lightweight popup windows. For information on mixing components in the 6u12 release and later, please see
Mixing Heavyweight and Lightweight Components.
Because menus are made up of ordinary Swing components, you can easily customize them. For example, you can add any lightweight component to a JMenu
or JMenuBar
. And because JMenuBar
uses BoxLayout
, you can customize a menu bar's layout just by adding invisible components to it. Here is an example of adding a glue component to a menu bar, so that the last menu is at the right edge of the menu bar:
//...create and add some menus... menuBar.add(Box.createHorizontalGlue()); //...create the rightmost menu... menuBar.add(rightMenu);
Here's the modified menu layout that MenuGlueDemo displays:
Another way of changing the look of menus is to change the layout managers used to control them. For example, you can change a menu bar's layout manager from the default left-to-right BoxLayout
to something such as GridLayout
.
Here's a picture of the menu layout that MenuLayoutDemo
creates:
The following tables list the commonly used menu constructors and methods. The API for using menus falls into these categories:
Constructor or Method | Purpose |
---|---|
JMenuBar() | Creates a menu bar. |
JMenu add(JMenu) | Adds the menu to the end of the menu bar. |
void setJMenuBar(JMenuBar) JMenuBar getJMenuBar() (in JApplet , JDialog , JFrame , JInternalFrame , JRootPane ) |
Sets or gets the menu bar of an applet, dialog, frame, internal frame, or root pane. |
Constructor or Method | Purpose |
---|---|
JMenu() JMenu(String) JMenu(Action) |
Creates a menu. The string specifies the text to display for the menu. The Action specifies the text and other properties of the menu (see
How to Use Actions). |
JMenuItem add(JMenuItem) JMenuItem add(String) |
Adds a menu item to the current end of the menu. If the argument is a string, then the menu automatically creates a JMenuItem object that displays the specified text.
Version Note: Before 1.3, the only way to associate an Action with a menu item was to use menu's add(Action) method to create the menu item and add it to the menu. As of 1.3, that method is no longer recommended. You can instead associate a menu item with an Action using the setAction method.
|
void addSeparator() | Adds a separator to the current end of the menu. |
JMenuItem insert(JMenuItem, int) void insert(String, int) void insertSeparator(int) |
Inserts a menu item or separator into the menu at the specified position. The first menu item is at position 0, the second at position 1, and so on. The JMenuItem and String arguments are treated the same as in the corresponding add methods. |
void remove(JMenuItem) void remove(int) void removeAll() |
Removes the specified item(s) from the menu. If the argument is an integer, then it specifies the position of the menu item to be removed. |
Constructor or Method | Purpose |
---|---|
JPopupMenu() JPopupMenu(String) |
Creates a popup menu. The optional string argument specifies the title that a look and feel might display as part of the popup window. |
JMenuItem add(JMenuItem) JMenuItem add(String) |
Adds a menu item to the current end of the popup menu. If the argument is a string, then the menu automatically creates a JMenuItem object that displays the specified text.
Version Note: Before 1.3, the only way to associate an Action with an item in a popup menu was to use the popup menu's add(Action) method to create the menu item and add it to the popup menu. As of 1.3, that method is no longer recommended. You can instead associate a menu item with an Action using the setAction method.
|
void addSeparator() | Adds a separator to the current end of the popup menu. |
void insert(Component, int) | Inserts a menu item into the menu at the specified position. The first menu item is at position 0, the second at position 1, and so on. The Component argument specifies the menu item to add. |
void remove(int) void removeAll() |
Removes the specified item(s) from the menu. If the argument is an integer, then it specifies the position of the menu item to be removed. |
static void setLightWeightPopupEnabled(boolean) | By default, Swing implements a menu's window using a lightweight component. This can cause problems if you use any heavyweight components in your Swing program, as described in Bringing Up a Popup Menu. (This is one of several reasons to avoid using heavyweight components.) As a workaround, invoke JPopupMenu.setLightWeightPopupEnabled(false) . |
void show(Component, int, int) | Display the popup menu at the specified x,y position (specified in that order by the integer arguments) in the coordinate system of the specified component. |
Constructor or Method | Purpose |
---|---|
JMenuItem() JMenuItem(String) JMenuItem(Icon) JMenuItem(String, Icon) JMenuItem(String, int) JMenuItem(Action) |
Creates an ordinary menu item. The icon argument, if present, specifies the icon that the menu item should display. Similarly, the string argument specifies the text that the menu item should display. The integer argument specifies the keyboard mnemonic to use. You can specify any of the relevant VK constants defined in the
KeyEvent class. For example, to specify the A key, use KeyEvent.VK_A .
The constructor with the |
JCheckBoxMenuItem() JCheckBoxMenuItem(String) JCheckBoxMenuItem(Icon) JCheckBoxMenuItem(String, Icon) JCheckBoxMenuItem(String, boolean) JCheckBoxMenuItem(String, Icon, boolean) |
Creates a menu item that looks and acts like a check box. The string argument, if any, specifies the text that the menu item should display. If you specify true for the boolean argument, then the menu item is initially selected (checked). Otherwise, the menu item is initially unselected. |
JRadioButtonMenuItem() JRadioButtonMenuItem(String) JRadioButtonMenuItem(Icon) JRadioButtonMenuItem(String, Icon) JRadioButtonMenuItem(String, boolean) JRadioButtonMenuItem(Icon, boolean) JRadioButtonMenuItem(String, Icon, boolean) |
Creates a menu item that looks and acts like a radio button. The string argument, if any, specifies the text that the menu item should display. If you specify true for the boolean argument, then the menu item is initially selected. Otherwise, the menu item is initially unselected. |
void setState(boolean) boolean getState() (in JCheckBoxMenuItem ) |
Set or get the selection state of a check box menu item. |
void setEnabled(boolean) | If the argument is true, enable the menu item. Otherwise, disable the menu item. |
void setMnemonic(int) | Set the mnemonic that enables keyboard navigation to the menu or menu item. Use one of the VK constants defined in the KeyEvent class. |
void setAccelerator(KeyStroke) | Set the accelerator that activates the menu item. |
void setActionCommand(String) | Set the name of the action performed by the menu item. |
void addActionListener(ActionListener) void addItemListener(ItemListener) |
Add an event listener to the menu item. See Handling Events from Menu Items for details. |
void setAction(Action) | Set the Action associated with the menu item. See
How to Use Actions for details. |
Many of the preceding methods are inherited from AbstractButton . See The Button API for information about other useful methods that AbstractButton provides. |
Menus are used in a few of our examples.
Example | Where Described | Notes |
---|---|---|
MenuLookDemo |
This section (Creating Menus) | A simple example that creates all kinds of menus except popup menus, but doesn't handle events from the menu items. |
MenuDemo |
This section (Handling Events from Menu Items) | Adds event handling to MenuLookDemo . |
PopupMenuDemo |
This section (Bringing Up a Popup Menu) | Adds popup menus to MenuDemo . |
MenuGlueDemo |
This section (Customizing Menu Layout) | Demonstrates affecting menu layout by adding an invisible components to the menu bar. |
MenuLayoutDemo |
This section (Customizing Menu Layout) | Implements sideways-opening menus arranged in a vertical menu bar. |
MenuSelectionManagerDemo |
| Adds highlight detection to MenuDemo. To see this feature, click a menu and then move the mouse over any menu item or submenu. Once per second, the text area will be updated with information about the currently highlighted menu item, not to be confused with the menu item that the user eventually chooses. This demo uses the default
MenuSelectionManager , which tracks the state of the menu hierarchy. |
ActionDemo |
How to Use Actions | Uses Action objects to implement menu items that duplicate functionality provided by tool bar buttons. |
Framework |
| Brings up multiple identical frames, each with a menu in its menu bar. |
InternalFrameDemo |
How to Use Internal Frames | Uses a menu item to create windows. |
See the Using JavaFX UI Controls: Menu tutorial to learn how to create menus in JavaFX.