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package javax.swing;
import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.io.Serializable;
import java.util.HashMap;
import java.util.Set;
InputMap
provides a binding between an input event
(currently only KeyStroke
s are used)
and an Object
. InputMap
s
are usually used with an ActionMap
,
to determine an Action
to perform
when a key is pressed.
An InputMap
can have a parent
that is searched for bindings not defined in the InputMap
.
As with ActionMap
if you create a cycle, eg:
InputMap am = new InputMap();
InputMap bm = new InputMap():
am.setParent(bm);
bm.setParent(am);
some of the methods will cause a StackOverflowError to be thrown.
Author: Scott Violet Since: 1.3
/**
* <code>InputMap</code> provides a binding between an input event
* (currently only <code>KeyStroke</code>s are used)
* and an <code>Object</code>. <code>InputMap</code>s
* are usually used with an <code>ActionMap</code>,
* to determine an <code>Action</code> to perform
* when a key is pressed.
* An <code>InputMap</code> can have a parent
* that is searched for bindings not defined in the <code>InputMap</code>.
* <p>As with <code>ActionMap</code> if you create a cycle, eg:
* <pre>
* InputMap am = new InputMap();
* InputMap bm = new InputMap():
* am.setParent(bm);
* bm.setParent(am);
* </pre>
* some of the methods will cause a StackOverflowError to be thrown.
*
* @author Scott Violet
* @since 1.3
*/
@SuppressWarnings("serial")
public class InputMap implements Serializable {
Handles the mapping between KeyStroke and Action name. /** Handles the mapping between KeyStroke and Action name. */
private transient ArrayTable arrayTable;
Parent that handles any bindings we don't contain. /** Parent that handles any bindings we don't contain. */
private InputMap parent;
Creates an InputMap
with no parent and no mappings.
/**
* Creates an <code>InputMap</code> with no parent and no mappings.
*/
public InputMap() {
}
Sets this InputMap
's parent.
Params: - map – the
InputMap
that is the parent of this one
/**
* Sets this <code>InputMap</code>'s parent.
*
* @param map the <code>InputMap</code> that is the parent of this one
*/
public void setParent(InputMap map) {
this.parent = map;
}
Gets this InputMap
's parent.
Returns: map the InputMap
that is the parent of this one,
or null if this InputMap
has no parent
/**
* Gets this <code>InputMap</code>'s parent.
*
* @return map the <code>InputMap</code> that is the parent of this one,
* or null if this <code>InputMap</code> has no parent
*/
public InputMap getParent() {
return parent;
}
Adds a binding for keyStroke
to actionMapKey
.
If actionMapKey
is null, this removes the current binding
for keyStroke
.
/**
* Adds a binding for <code>keyStroke</code> to <code>actionMapKey</code>.
* If <code>actionMapKey</code> is null, this removes the current binding
* for <code>keyStroke</code>.
*/
public void put(KeyStroke keyStroke, Object actionMapKey) {
if (keyStroke == null) {
return;
}
if (actionMapKey == null) {
remove(keyStroke);
}
else {
if (arrayTable == null) {
arrayTable = new ArrayTable();
}
arrayTable.put(keyStroke, actionMapKey);
}
}
Returns the binding for keyStroke
, messaging the
parent InputMap
if the binding is not locally defined.
/**
* Returns the binding for <code>keyStroke</code>, messaging the
* parent <code>InputMap</code> if the binding is not locally defined.
*/
public Object get(KeyStroke keyStroke) {
if (arrayTable == null) {
InputMap parent = getParent();
if (parent != null) {
return parent.get(keyStroke);
}
return null;
}
Object value = arrayTable.get(keyStroke);
if (value == null) {
InputMap parent = getParent();
if (parent != null) {
return parent.get(keyStroke);
}
}
return value;
}
Removes the binding for key
from this
InputMap
.
/**
* Removes the binding for <code>key</code> from this
* <code>InputMap</code>.
*/
public void remove(KeyStroke key) {
if (arrayTable != null) {
arrayTable.remove(key);
}
}
Removes all the mappings from this InputMap
.
/**
* Removes all the mappings from this <code>InputMap</code>.
*/
public void clear() {
if (arrayTable != null) {
arrayTable.clear();
}
}
Returns the KeyStroke
s that are bound in this InputMap
.
/**
* Returns the <code>KeyStroke</code>s that are bound in this <code>InputMap</code>.
*/
public KeyStroke[] keys() {
if (arrayTable == null) {
return null;
}
KeyStroke[] keys = new KeyStroke[arrayTable.size()];
arrayTable.getKeys(keys);
return keys;
}
Returns the number of KeyStroke
bindings.
/**
* Returns the number of <code>KeyStroke</code> bindings.
*/
public int size() {
if (arrayTable == null) {
return 0;
}
return arrayTable.size();
}
Returns an array of the KeyStroke
s defined in this
InputMap
and its parent. This differs from keys()
in that
this method includes the keys defined in the parent.
/**
* Returns an array of the <code>KeyStroke</code>s defined in this
* <code>InputMap</code> and its parent. This differs from <code>keys()</code> in that
* this method includes the keys defined in the parent.
*/
public KeyStroke[] allKeys() {
int count = size();
InputMap parent = getParent();
if (count == 0) {
if (parent != null) {
return parent.allKeys();
}
return keys();
}
if (parent == null) {
return keys();
}
KeyStroke[] keys = keys();
KeyStroke[] pKeys = parent.allKeys();
if (pKeys == null) {
return keys;
}
if (keys == null) {
// Should only happen if size() != keys.length, which should only
// happen if mutated from multiple threads (or a bogus subclass).
return pKeys;
}
HashMap<KeyStroke, KeyStroke> keyMap = new HashMap<KeyStroke, KeyStroke>();
int counter;
for (counter = keys.length - 1; counter >= 0; counter--) {
keyMap.put(keys[counter], keys[counter]);
}
for (counter = pKeys.length - 1; counter >= 0; counter--) {
keyMap.put(pKeys[counter], pKeys[counter]);
}
KeyStroke[] allKeys = new KeyStroke[keyMap.size()];
return keyMap.keySet().toArray(allKeys);
}
private void writeObject(ObjectOutputStream s) throws IOException {
s.defaultWriteObject();
ArrayTable.writeArrayTable(s, arrayTable);
}
private void readObject(ObjectInputStream s) throws ClassNotFoundException,
IOException {
s.defaultReadObject();
for (int counter = s.readInt() - 1; counter >= 0; counter--) {
put((KeyStroke)s.readObject(), s.readObject());
}
}
}