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TheJComponent
class supports key bindings as a way of responding to individual keys typed by a user. Here are some examples of when key bindings are appropriate:
- You're creating a custom component and want to support keyboard access to it.
For example, you might want the component to react when it has the focus and the user presses the Space key.
- You want to override the behavior of an existing key binding.
For example, if your application normally reacts to presses of the F2 key in a particular way, you might want it to perform a different action or ignore the key press.
- You want to provide a new key binding for an existing action.
For example, you might feel strongly that Control-Shift-Insert should perform a paste operation.You often don't need to use key bindings directly. They're used behind the scenes by mnemonics (supported by all buttons and by tabbed panes) and accelerators (supported by menu items). You can find coverage of mnemonics and accelerators in the section Enabling Keyboard Operation.
An alternative to key bindings is using key listeners. Key listeners have their place as a low-level interface to keyboard input, but for responding to individual keys key bindings are more appropriate and tend to result in more easily maintained code. Some of the advantages of key bindings are they're somewhat self documenting, take the containment hierarchy into account, encourage reusable chunks of code (
Action
objects), and allow actions to be easily removed, customized, or shared. Also, they make it easy to change the key to which an action is bound.The rest of this section gives you the details you need to use key bindings:
The key binding support provided byJComponent
relies on theInputMap
andActionMap
classes, which were introduced in 1.3. An input map binds key strokes to action names, and an action map specifies the action corresponding to each action name. [PENDING: Add this footnote:
Technically, you don't need to use action names in the maps; you can use any object as the "key" into the maps. By convention, however, you use a string that names an action.]
Version Note: Prior to 1.3, theJComponent
methodregisterKeyboardAction
was used instead of input and action maps.registerKeyboardAction
is now obsolete. (To ensure compatibility for older programs,registerKeyboardAction
was reimplemented to useInputMap
andActionMap
.)Each
JComponent
has one action map and three input maps. The input maps correspond to the following focus situations:When the user types a key, the
JComponent.WHEN_FOCUSED
- The component has the keyboard focus. The
WHEN_FOCUSED
input map is typically used when the component has no children. For example, buttons bind the Space key using theWHEN_FOCUSED
map.
JComponent.WHEN_ANCESTOR_OF_FOCUSED_COMPONENT
- The component contains (or is) the component that has the focus. This input map is commonly used for a composite component a component whose implementation depends on child components. For example,
JTable
s make all their bindings usingWHEN_ANCESTOR_OF_FOCUSED_COMPONENT
so that if the user is editing, the up-arrow key (for example) still changes the selected cell.
JComponent.WHEN_IN_FOCUSED_WINDOW
- The component's window either has the focus or contains the component that has the focus. This input map is commonly used for mnemonics or accelerators, which need to be active regardless of where focus is in the window.
JComponent
key event processing code searches through one or more input maps to find a valid binding for the key. When it finds a binding, it looks up the corresponding action in the action map. If the action is enabled, the binding is valid and the action is executed. If it's disabled, the search for a valid binding continues.If more than one binding exists for the key, only the first valid one found is used. Input maps are checked in this order:
- The focused component's
WHEN_FOCUSED
input map.- The focused component's
WHEN_ANCESTOR_OF_FOCUSED_COMPONENT
input map.- The
WHEN_ANCESTOR_OF_FOCUSED_COMPONENT
input maps of the focused component's parent, and then its parent's parent, and so on, continuing up the containment hierarchy. Note: Input maps for disabled components are skipped.- The
WHEN_IN_FOCUSED_WINDOW
input maps of all the enabled components in the focused window are searched. Because the order of searching the components is unpredictable, avoid duplicateWHEN_IN_FOCUSED_WINDOW
bindings!Let's consider what happens in two typical key binding cases: a button reacting to the Space key, and a frame with a default button reacting to the Enter key.
In the first case, assume the user presses the Space key while a
JButton
has the keyboard focus. First, the button's key listeners are notified of the event. Assuming none of the key listeners consumes the event (by invoking theconsume
method on theKeyEvent
) the button'sWHEN_FOCUSED
input map is consulted. A binding is found becauseJButton
uses that input map to bind Space to an action name. The action name is looked up in the button's action map, and theactionPerformed
method of the action is invoked. TheKeyEvent
is automatically consumed, and processing stops.In the second case, assume the Enter key is pressed while the focus is anywhere inside a frame that has a default button (set using the
JRootPane
setDefaultButton
method). Whatever the focused component is, its key listeners are first notified. Assuming none of them consumes the key event the focused component'sWHEN_FOCUSED
input map is consulted. If it has no binding for the key, the focused component'sWHEN_ANCESTOR_OF_FOCUSED_COMPONENT
input map is consulted and then (if no binding is found) theWHEN_ANCESTOR_OF_FOCUSED_COMPONENT
input maps of each of the component's ancestors in the containment hierarchy. Eventually, the root pane'sWHEN_ANCESTOR_OF_FOCUSED_COMPONENT
input map is searched. Since that input map has a valid binding for Enter, the action is executed, causing the default button to be clicked.
Here is an example of specifying that a component should react to the F2 key:
component.getInputMap().put(KeyStroke.getKeyStroke("F2"), "doSomething"); component.getActionMap().put("doSomething", anAction); //where anAction is a javax.swing.ActionAs the preceding code shows, to get a component's action map you use the
getActionMap
method (inherited fromJComponent
). To get an input map, you can use thegetInputMap(int)
method, where the integer is one of theJComponent.WHEN_*FOCUSED*
constants shown in the preceding list. Or, in the usual case where the constant isJComponent.WHEN_FOCUSED
, you can just usegetInputMap
with no arguments.To add an entry to one of the maps, use the
put
method. You specify a key using aKeyStroke
object, which you can get using theKeyStroke.getKeyStroke(String)
method. You can find examples of creatingAction
s (to put in an action map) in How to Use Actions.Here's a slightly more complex example that specifies that a component should react to the Space key as if the user clicked the mouse.
component.getInputMap().put(KeyStroke.getKeyStroke("SPACE"), "pressed"); component.getInputMap().put(KeyStroke.getKeyStroke("released SPACE"), "released"); component.getActionMap().put("pressed", pressedAction); component.getActionMap().put("released", releasedAction); //where pressedAction and releasedAction are javax.swing.Action objectsTo make a component ignore a key that it normally responds to, you can use the special action name "none". For example, the following code makes a component ignore the F2 key.
component.getInputMap().put(KeyStroke.getKeyStroke("F2"), "none");
Note: The preceding code doesn't prevent the relevantWHEN_ANCESTOR_OF_FOCUSED_COMPONENT
andWHEN_IN_FOCUSED_WINDOW
input maps from being searched for an F2 key binding. To prevent this search, you must use a valid action instead of "none". For example:Action doNothing = new AbstractAction() { public void actionPerformed(ActionEvent e) { //do nothing } }; component.getInputMap().put(KeyStroke.getKeyStroke("F2"), "doNothing"); component.getActionMap().put("doNothing", doNothing);
The following tables list the commonly used API for key bindings. Also see the API table Creating and Using an Action, in the section How to Use Actions.
Getting and Using InputMaps Method Purpose InputMap getInputMap()
InputMap getInputMap(int)
(inJComponent
)Get one of the input maps for the component. The arguments can be one of these JComponent
constants:WHEN_FOCUSED
,WHEN_IN_FOCUSED_WINDOW
, orWHEN_ANCESTOR_OF_FOCUSED_COMPONENT
. The no-argument method gets theWHEN_FOCUSED
input map.void put(KeyStroke, Object)
(inInputMap
)Set the action name associated with the specified key stroke. If the second argument is null
, this method removes the binding for the key stroke. To make the key stroke be ignored, use"none"
as the second argument.static KeyStroke getKeyStroke(String)
(inKeyStroke
)Get the object specifying a particular user keyboard activity. Typical arguments are "alt shift X", "INSERT", and "typed a". See the KeyStroke
API documentation for full details and for other forms of thegetKeyStroke
method.
Getting and Using ActionMaps Method Purpose ActionMap getActionMap()
(inJComponent
)Get the object that maps names into actions for the component. void put(Object, Action)
(inActionMap
)Set the action associated with the specified name. If the second argument is null
, this method removes the binding for the name.
The following table lists examples that use key bindings:
Example Where Described Notes TableFTFEditDemo How to Use Tables The IntegerEditor class registers a key binding on a formatted text field to validate the input when the user presses the Enter key. SliderDemo3 How to Use Sliders A key binding is registered on a text field to validate the input when the user presses the Enter key. TextComponentDemo Text Component Features Key bindings are registered on a text pane to navigate through the text when the user presses the Control-B, Control-F, Control-P, and Control-N keys. DragPictureDemo How to Use Drag and Drop and Data Transfer The DTPicture class registers key bindings on a custom component to cut, copy, and paste when the user presses the Control-X, Control-C, and Control-V keys.
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