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1 771 jeremybenn
/* VetoableChangeSupport.java -- support to manage vetoable change listeners
2
   Copyright (C) 1998, 1999, 2000, 2002, 2005, 2006,
3
   Free Software Foundation, Inc.
4
 
5
This file is part of GNU Classpath.
6
 
7
GNU Classpath is free software; you can redistribute it and/or modify
8
it under the terms of the GNU General Public License as published by
9
the Free Software Foundation; either version 2, or (at your option)
10
any later version.
11
 
12
GNU Classpath is distributed in the hope that it will be useful, but
13
WITHOUT ANY WARRANTY; without even the implied warranty of
14
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
15
General Public License for more details.
16
 
17
You should have received a copy of the GNU General Public License
18
along with GNU Classpath; see the file COPYING.  If not, write to the
19
Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
20
02110-1301 USA.
21
 
22
Linking this library statically or dynamically with other modules is
23
making a combined work based on this library.  Thus, the terms and
24
conditions of the GNU General Public License cover the whole
25
combination.
26
 
27
As a special exception, the copyright holders of this library give you
28
permission to link this library with independent modules to produce an
29
executable, regardless of the license terms of these independent
30
modules, and to copy and distribute the resulting executable under
31
terms of your choice, provided that you also meet, for each linked
32
independent module, the terms and conditions of the license of that
33
module.  An independent module is a module which is not derived from
34
or based on this library.  If you modify this library, you may extend
35
this exception to your version of the library, but you are not
36
obligated to do so.  If you do not wish to do so, delete this
37
exception statement from your version. */
38
 
39
 
40
package java.beans;
41
 
42
import java.io.IOException;
43
import java.io.ObjectInputStream;
44
import java.io.ObjectOutputStream;
45
import java.io.Serializable;
46
import java.util.ArrayList;
47
import java.util.Arrays;
48
import java.util.Hashtable;
49
import java.util.Iterator;
50
import java.util.Map.Entry;
51
import java.util.Vector;
52
 
53
/**
54
 * VetoableChangeSupport makes it easy to fire vetoable change events and
55
 * handle listeners. It allows chaining of listeners, as well as filtering
56
 * by property name. In addition, it will serialize only those listeners
57
 * which are serializable, ignoring the others without problem. This class
58
 * is thread-safe.
59
 *
60
 * @author John Keiser
61
 * @author Eric Blake (ebb9@email.byu.edu)
62
 * @since 1.1
63
 * @status updated to 1.4
64
 */
65
public class VetoableChangeSupport implements Serializable
66
{
67
  /**
68
   * Compatible with JDK 1.1+.
69
   */
70
  private static final long serialVersionUID = -5090210921595982017L;
71
 
72
  /**
73
   * Maps property names (String) to named listeners (VetoableChangeSupport).
74
   * If this is a child instance, this field will be null.
75
   *
76
   * @serial the map of property names to named listener managers
77
   * @since 1.2
78
   */
79
  private Hashtable children;
80
 
81
  /**
82
   * The non-null source object for any generated events.
83
   *
84
   * @serial the event source
85
   */
86
  private final Object source;
87
 
88
  /**
89
   * A field to compare serialization versions - this class uses version 2.
90
   *
91
   * @serial the serialization format
92
   */
93
  private static final int vetoableChangeSupportSerializedDataVersion = 2;
94
 
95
  /**
96
   * The list of all registered vetoable listeners. If this instance was
97
   * created by user code, this only holds the global listeners (ie. not tied
98
   * to a name), and may be null. If it was created by this class, as a
99
   * helper for named properties, then this vector will be non-null, and this
100
   * instance appears as a value in the <code>children</code> hashtable of
101
   * another instance, so that the listeners are tied to the key of that
102
   * hashtable entry.
103
   */
104
  private transient Vector listeners;
105
 
106
  /**
107
   * Create a VetoableChangeSupport to work with a specific source bean.
108
   *
109
   * @param source the source bean to use
110
   * @throws NullPointerException if source is null
111
   */
112
  public VetoableChangeSupport(Object source)
113
  {
114
    this.source = source;
115
    if (source == null)
116
      throw new NullPointerException();
117
  }
118
 
119
  /**
120
   * Adds a VetoableChangeListener to the list of global listeners. All
121
   * vetoable change events will be sent to this listener. The listener add
122
   * is not unique: that is, <em>n</em> adds with the same listener will
123
   * result in <em>n</em> events being sent to that listener for every
124
   * vetoable change. This method will unwrap a VetoableChangeListenerProxy,
125
   * registering the underlying delegate to the named property list.
126
   *
127
   * @param l the listener to add (<code>null</code> ignored).
128
   */
129
  public synchronized void addVetoableChangeListener(VetoableChangeListener l)
130
  {
131
    if (l == null)
132
      return;
133
    if (l instanceof VetoableChangeListenerProxy)
134
      {
135
        VetoableChangeListenerProxy p = (VetoableChangeListenerProxy) l;
136
        addVetoableChangeListener(p.propertyName,
137
                                  (VetoableChangeListener) p.getListener());
138
      }
139
    else
140
      {
141
        if (listeners == null)
142
          listeners = new Vector();
143
        listeners.add(l);
144
      }
145
  }
146
 
147
  /**
148
   * Removes a VetoableChangeListener from the list of global listeners. If
149
   * any specific properties are being listened on, they must be deregistered
150
   * by themselves; this will only remove the general listener to all
151
   * properties. If <code>add()</code> has been called multiple times for a
152
   * particular listener, <code>remove()</code> will have to be called the
153
   * same number of times to deregister it. This method will unwrap a
154
   * VetoableChangeListenerProxy, removing the underlying delegate from the
155
   * named property list.
156
   *
157
   * @param l the listener to remove
158
   */
159
  public synchronized void
160
    removeVetoableChangeListener(VetoableChangeListener l)
161
  {
162
    if (l instanceof VetoableChangeListenerProxy)
163
      {
164
        VetoableChangeListenerProxy p = (VetoableChangeListenerProxy) l;
165
        removeVetoableChangeListener(p.propertyName,
166
                                     (VetoableChangeListener) p.getListener());
167
      }
168
    else if (listeners != null)
169
      {
170
        listeners.remove(l);
171
        if (listeners.isEmpty())
172
          listeners = null;
173
      }
174
  }
175
 
176
  /**
177
   * Returns an array of all registered vetoable change listeners. Those that
178
   * were registered under a name will be wrapped in a
179
   * <code>VetoableChangeListenerProxy</code>, so you must check whether the
180
   * listener is an instance of the proxy class in order to see what name the
181
   * real listener is registered under. If there are no registered listeners,
182
   * this returns an empty array.
183
   *
184
   * @return the array of registered listeners
185
   * @see VetoableChangeListenerProxy
186
   * @since 1.4
187
   */
188
  public synchronized VetoableChangeListener[] getVetoableChangeListeners()
189
  {
190
    ArrayList list = new ArrayList();
191
    if (listeners != null)
192
      list.addAll(listeners);
193
    if (children != null)
194
      {
195
        int i = children.size();
196
        Iterator iter = children.entrySet().iterator();
197
        while (--i >= 0)
198
          {
199
            Entry e = (Entry) iter.next();
200
            String name = (String) e.getKey();
201
            Vector v = ((VetoableChangeSupport) e.getValue()).listeners;
202
            int j = v.size();
203
            while (--j >= 0)
204
              list.add(new VetoableChangeListenerProxy
205
                (name, (VetoableChangeListener) v.get(j)));
206
          }
207
      }
208
    return (VetoableChangeListener[])
209
      list.toArray(new VetoableChangeListener[list.size()]);
210
  }
211
 
212
  /**
213
   * Adds a VetoableChangeListener listening on the specified property. Events
214
   * will be sent to the listener only if the property name matches. The
215
   * listener add is not unique; that is, <em>n</em> adds on a particular
216
   * property for a particular listener will result in <em>n</em> events
217
   * being sent to that listener when that property is changed. The effect is
218
   * cumulative, too; if you are registered to listen to receive events on
219
   * all vetoable changes, and then you register on a particular property,
220
   * you will receive change events for that property twice. This method
221
   * will unwrap a VetoableChangeListenerProxy, registering the underlying
222
   * delegate to the named property list if the names match, and discarding
223
   * it otherwise.
224
   *
225
   * @param propertyName the name of the property to listen on
226
   * @param l the listener to add
227
   */
228
  public synchronized void addVetoableChangeListener(String propertyName,
229
                                                     VetoableChangeListener l)
230
  {
231
    if (propertyName == null || l == null)
232
      return;
233
    while (l instanceof VetoableChangeListenerProxy)
234
      {
235
        VetoableChangeListenerProxy p = (VetoableChangeListenerProxy) l;
236
        if (propertyName == null ? p.propertyName != null
237
            : ! propertyName.equals(p.propertyName))
238
          return;
239
        l = (VetoableChangeListener) p.getListener();
240
      }
241
    VetoableChangeSupport s = null;
242
    if (children == null)
243
      children = new Hashtable();
244
    else
245
      s = (VetoableChangeSupport) children.get(propertyName);
246
    if (s == null)
247
      {
248
        s = new VetoableChangeSupport(source);
249
        s.listeners = new Vector();
250
        children.put(propertyName, s);
251
      }
252
    s.listeners.add(l);
253
  }
254
 
255
  /**
256
   * Removes a VetoableChangeListener from listening to a specific property.
257
   * If <code>add()</code> has been called multiple times for a particular
258
   * listener on a property, <code>remove()</code> will have to be called the
259
   * same number of times to deregister it. This method will unwrap a
260
   * VetoableChangeListenerProxy, removing the underlying delegate from the
261
   * named property list if the names match.
262
   *
263
   * @param propertyName the property to stop listening on
264
   * @param l the listener to remove
265
   * @throws NullPointerException if propertyName is null
266
   */
267
  public synchronized void
268
    removeVetoableChangeListener(String propertyName, VetoableChangeListener l)
269
  {
270
    if (children == null)
271
      return;
272
    VetoableChangeSupport s
273
      = (VetoableChangeSupport) children.get(propertyName);
274
    if (s == null)
275
      return;
276
    while (l instanceof VetoableChangeListenerProxy)
277
      {
278
        VetoableChangeListenerProxy p = (VetoableChangeListenerProxy) l;
279
        if (propertyName == null ? p.propertyName != null
280
            : ! propertyName.equals(p.propertyName))
281
          return;
282
        l = (VetoableChangeListener) p.getListener();
283
      }
284
    s.listeners.remove(l);
285
    if (s.listeners.isEmpty())
286
      {
287
        children.remove(propertyName);
288
        if (children.isEmpty())
289
          children = null;
290
      }
291
  }
292
 
293
  /**
294
   * Returns an array of all vetoable change listeners registered under the
295
   * given property name. If there are no registered listeners, this returns
296
   * an empty array.
297
   *
298
   * @return the array of registered listeners
299
   * @throws NullPointerException if propertyName is null
300
   * @since 1.4
301
   */
302
  public synchronized VetoableChangeListener[]
303
    getVetoableChangeListeners(String propertyName)
304
  {
305
    if (children == null)
306
      return new VetoableChangeListener[0];
307
    VetoableChangeSupport s
308
      = (VetoableChangeSupport) children.get(propertyName);
309
    if (s == null)
310
      return new VetoableChangeListener[0];
311
    return (VetoableChangeListener[])
312
      s.listeners.toArray(new VetoableChangeListener[s.listeners.size()]);
313
  }
314
 
315
  /**
316
   * Fire a PropertyChangeEvent containing the old and new values of the
317
   * property to all the global listeners, and to all the listeners for the
318
   * specified property name. This does nothing if old and new are non-null
319
   * and equal. If the change is vetoed, a new event is fired to notify
320
   * listeners about the rollback before the exception is thrown.
321
   *
322
   * @param propertyName the name of the property that changed
323
   * @param oldVal the old value
324
   * @param newVal the new value
325
   * @throws PropertyVetoException if the change is vetoed by a listener
326
   */
327
  public void fireVetoableChange(String propertyName,
328
                                 Object oldVal, Object newVal)
329
    throws PropertyVetoException
330
  {
331
    fireVetoableChange(new PropertyChangeEvent(source, propertyName,
332
                                               oldVal, newVal));
333
  }
334
 
335
  /**
336
   * Fire a PropertyChangeEvent containing the old and new values of the
337
   * property to all the global listeners, and to all the listeners for the
338
   * specified property name. This does nothing if old and new are equal.
339
   * If the change is vetoed, a new event is fired to notify listeners about
340
   * the rollback before the exception is thrown.
341
   *
342
   * @param propertyName the name of the property that changed
343
   * @param oldVal the old value
344
   * @param newVal the new value
345
   * @throws PropertyVetoException if the change is vetoed by a listener
346
   */
347
  public void fireVetoableChange(String propertyName, int oldVal, int newVal)
348
    throws PropertyVetoException
349
  {
350
    if (oldVal != newVal)
351
      fireVetoableChange(new PropertyChangeEvent(source, propertyName,
352
                                                 Integer.valueOf(oldVal),
353
                                                 Integer.valueOf(newVal)));
354
  }
355
 
356
  /**
357
   * Fire a PropertyChangeEvent containing the old and new values of the
358
   * property to all the global listeners, and to all the listeners for the
359
   * specified property name. This does nothing if old and new are equal.
360
   * If the change is vetoed, a new event is fired to notify listeners about
361
   * the rollback before the exception is thrown.
362
   *
363
   * @param propertyName the name of the property that changed
364
   * @param oldVal the old value
365
   * @param newVal the new value
366
   * @throws PropertyVetoException if the change is vetoed by a listener
367
   */
368
  public void fireVetoableChange(String propertyName,
369
                                 boolean oldVal, boolean newVal)
370
    throws PropertyVetoException
371
  {
372
    if (oldVal != newVal)
373
      fireVetoableChange(new PropertyChangeEvent(source, propertyName,
374
                                                 Boolean.valueOf(oldVal),
375
                                                 Boolean.valueOf(newVal)));
376
  }
377
 
378
  /**
379
   * Fire a PropertyChangeEvent to all the global listeners, and to all the
380
   * listeners for the specified property name. This does nothing if old and
381
   * new values of the event are equal. If the change is vetoed, a new event
382
   * is fired to notify listeners about the rollback before the exception is
383
   * thrown.
384
   *
385
   * @param event the event to fire
386
   * @throws NullPointerException if event is null
387
   * @throws PropertyVetoException if the change is vetoed by a listener
388
   */
389
  public void fireVetoableChange(PropertyChangeEvent event)
390
    throws PropertyVetoException
391
  {
392
    if (event.oldValue != null && event.oldValue.equals(event.newValue))
393
      return;
394
    Vector v = listeners; // Be thread-safe.
395
    if (v != null)
396
      {
397
        int i = v.size();
398
        try
399
          {
400
            while (--i >= 0)
401
              ((VetoableChangeListener) v.get(i)).vetoableChange(event);
402
          }
403
        catch (PropertyVetoException e)
404
          {
405
            event = event.rollback();
406
            int limit = i;
407
            i = v.size();
408
            while (--i >= limit)
409
              ((VetoableChangeListener) v.get(i)).vetoableChange(event);
410
            throw e;
411
          }
412
      }
413
    Hashtable h = children; // Be thread-safe.
414
    if (h != null && event.propertyName != null)
415
      {
416
        VetoableChangeSupport s
417
          = (VetoableChangeSupport) h.get(event.propertyName);
418
        if (s != null)
419
          {
420
            Vector v1 = s.listeners; // Be thread-safe.
421
            int i = v1 == null ? 0 : v1.size();
422
            try
423
              {
424
                while (--i >= 0)
425
                  ((VetoableChangeListener) v1.get(i)).vetoableChange(event);
426
              }
427
            catch (PropertyVetoException e)
428
              {
429
                event = event.rollback();
430
                int limit = i;
431
                i = v.size();
432
                while (--i >= 0)
433
                  ((VetoableChangeListener) v.get(i)).vetoableChange(event);
434
                i = v1.size();
435
                while (--i >= limit)
436
                  ((VetoableChangeListener) v1.get(i)).vetoableChange(event);
437
                throw e;
438
              }
439
          }
440
      }
441
  }
442
 
443
  /**
444
   * Tell whether the specified property is being listened on or not. This
445
   * will only return <code>true</code> if there are listeners on all
446
   * properties or if there is a listener specifically on this property.
447
   *
448
   * @param propertyName the property that may be listened on
449
   * @return whether the property is being listened on
450
   * @throws NullPointerException if propertyName is null
451
   */
452
  public synchronized boolean hasListeners(String propertyName)
453
  {
454
    return listeners != null || (children != null
455
                                 && children.get(propertyName) != null);
456
  }
457
 
458
  /**
459
   * Saves the state of the object to the stream.
460
   *
461
   * @param s the stream to write to
462
   * @throws IOException if anything goes wrong
463
   * @serialData this writes out a null-terminated list of serializable
464
   *             global vetoable change listeners (the listeners for a named
465
   *             property are written out as the global listeners of the
466
   *             children, when the children hashtable is saved)
467
   */
468
  private synchronized void writeObject(ObjectOutputStream s)
469
    throws IOException
470
  {
471
    s.defaultWriteObject();
472
    if (listeners != null)
473
      {
474
        int i = listeners.size();
475
        while (--i >= 0)
476
          if (listeners.get(i) instanceof Serializable)
477
            s.writeObject(listeners.get(i));
478
      }
479
    s.writeObject(null);
480
  }
481
 
482
  /**
483
   * Reads the object back from stream (deserialization).
484
   *
485
   * XXX Since serialization for 1.1 streams was not documented, this may
486
   * not work if vetoableChangeSupportSerializedDataVersion is 1.
487
   *
488
   * @param s the stream to read from
489
   * @throws IOException if reading the stream fails
490
   * @throws ClassNotFoundException if deserialization fails
491
   * @serialData this reads in a null-terminated list of serializable
492
   *             global vetoable change listeners (the listeners for a named
493
   *             property are written out as the global listeners of the
494
   *             children, when the children hashtable is saved)
495
   */
496
  private void readObject(ObjectInputStream s)
497
    throws IOException, ClassNotFoundException
498
  {
499
    s.defaultReadObject();
500
    VetoableChangeListener l = (VetoableChangeListener) s.readObject();
501
    while (l != null)
502
      {
503
        addVetoableChangeListener(l);
504
        l = (VetoableChangeListener) s.readObject();
505
      }
506
    // Sun is not as careful with children as we are, and lets some proxys
507
    // in that can never receive events. So, we clean up anything that got
508
    // serialized, to make sure our invariants hold.
509
    if (children != null)
510
      {
511
        int i = children.size();
512
        Iterator iter = children.entrySet().iterator();
513
        while (--i >= 0)
514
          {
515
            Entry e = (Entry) iter.next();
516
            String name = (String) e.getKey();
517
            VetoableChangeSupport vcs = (VetoableChangeSupport) e.getValue();
518
            if (vcs.listeners == null)
519
              vcs.listeners = new Vector();
520
            if (vcs.children != null)
521
              vcs.listeners.addAll
522
                (Arrays.asList(vcs.getVetoableChangeListeners(name)));
523
            if (vcs.listeners.size() == 0)
524
              iter.remove();
525
            else
526
              vcs.children = null;
527
          }
528
        if (children.size() == 0)
529
          children = null;
530
      }
531
  }
532
} // class VetoableChangeSupport

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