OpenCores
URL https://opencores.org/ocsvn/openrisc/openrisc/trunk

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libjava/] [classpath/] [javax/] [swing/] [JLayeredPane.java] - Blame information for rev 772

Details | Compare with Previous | View Log

Line No. Rev Author Line
1 772 jeremybenn
/* JLayeredPane.java --
2
   Copyright (C) 2002, 2004 Free Software Foundation, Inc.
3
 
4
This file is part of GNU Classpath.
5
 
6
GNU Classpath is free software; you can redistribute it and/or modify
7
it under the terms of the GNU General Public License as published by
8
the Free Software Foundation; either version 2, or (at your option)
9
any later version.
10
 
11
GNU Classpath is distributed in the hope that it will be useful, but
12
WITHOUT ANY WARRANTY; without even the implied warranty of
13
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
14
General Public License for more details.
15
 
16
You should have received a copy of the GNU General Public License
17
along with GNU Classpath; see the file COPYING.  If not, write to the
18
Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
19
02110-1301 USA.
20
 
21
Linking this library statically or dynamically with other modules is
22
making a combined work based on this library.  Thus, the terms and
23
conditions of the GNU General Public License cover the whole
24
combination.
25
 
26
As a special exception, the copyright holders of this library give you
27
permission to link this library with independent modules to produce an
28
executable, regardless of the license terms of these independent
29
modules, and to copy and distribute the resulting executable under
30
terms of your choice, provided that you also meet, for each linked
31
independent module, the terms and conditions of the license of that
32
module.  An independent module is a module which is not derived from
33
or based on this library.  If you modify this library, you may extend
34
this exception to your version of the library, but you are not
35
obligated to do so.  If you do not wish to do so, delete this
36
exception statement from your version. */
37
 
38
 
39
package javax.swing;
40
 
41
import java.awt.Color;
42
import java.awt.Component;
43
import java.awt.Container;
44
import java.awt.Graphics;
45
import java.awt.Rectangle;
46
import java.util.ArrayList;
47
import java.util.Hashtable;
48
 
49
import javax.accessibility.Accessible;
50
import javax.accessibility.AccessibleContext;
51
import javax.accessibility.AccessibleRole;
52
 
53
/**
54
 * A container that adds depth to the usual <code>Container</code> semantics.
55
 * Each child component of a <code>Layered Pane</code> is placed within one
56
 * of several layers. <code>JLayeredPane</code> defines a set of standard
57
 * layers. The pre-defined sets are (in the order from button to top):
58
 *
59
 *  <dl>
60
 *    <dt>{@link #DEFAULT_LAYER}</dt>
61
 *    <dd>The layer where most of the normal components are placed. This
62
 *      is the bottommost layer.</dd>
63
 *
64
 *    <dt>{@link #PALETTE_LAYER}</dt>
65
 *    <dd>Palette windows are placed in this layer.</dd>
66
 *
67
 *    <dt>{@link #MODAL_LAYER}</dt>
68
 *    <dd>The layer where internal modal dialog windows are placed.</dd>
69
 *
70
 *    <dt>{@link #POPUP_LAYER}</dt>
71
 *    <dd>The layer for popup menus</dd>
72
 *
73
 *    <dt>{@link #DRAG_LAYER}</dt>
74
 *    <dd>Components that are beeing dragged are temporarily placed in
75
 *       this layer.</dd>
76
 *  </dl>
77
 *
78
 * <p>A child is in exactly one of these layers at any time, though there may
79
 * be other layers if someone creates them.</p>
80
 *
81
 * <p>You can add a component to a specific layer using the
82
 * {@link Container#add(Component, Object)} method. I.e.
83
 * <code>layeredPane.add(comp, JLayeredPane.MODAL_LAYER)</code> will add the
84
 * component <code>comp</code> to the modal layer of <code>layeredPane</code>.
85
 * </p>
86
 *
87
 * <p>To change the layer of a component that is already a child of
88
 * a <code>JLayeredPane</code>, use the {@link #setLayer(Component, int)}
89
 * method.</p>
90
 *
91
 * <p>The purpose of this class is to translate this view of "layers" into a
92
 * contiguous array of components: the one held in our ancestor,
93
 * {@link java.awt.Container}.</p>
94
 *
95
 * <p>There is a precise set of words we will use to refer to numbers within
96
 * this class:</p>
97
 *
98
 * <dl>
99
 * <dt>Component Index:</dt>
100
 * <dd>An offset into the <code>component</code> array held in our ancestor,
101
 * {@link java.awt.Container}, from <code>[0 .. component.length)</code>. The drawing
102
 * rule with indices is that 0 is drawn last.</dd>
103
 *
104
 * <dt>Layer Number:</dt>
105
 * <dd>A general <code>int</code> specifying a layer within this component.  Negative
106
 * numbers are drawn first, then layer 0, then positive numbered layers, in
107
 * ascending order.</dd>
108
 *
109
 * <dt>Position:</dt>
110
 * <dd>An offset into a layer's "logical drawing order". Layer position 0
111
 * is drawn last. Layer position -1 is a synonym for the first layer
112
 * position (the logical "bottom").</dd>
113
 * </dl>
114
 *
115
 * <p><b>Note:</b> the layer numbering order is the <em>reverse</em> of the
116
 * component indexing and position order</p>
117
 *
118
 * @author Graydon Hoare (graydon@redhat.com)
119
 * @author Roman Kennke (kennke@aicas.com)
120
 */
121
public class JLayeredPane extends JComponent implements Accessible
122
{
123
 
124
  /**
125
   * Provides accessibility support for <code>JLayeredPane</code>.
126
   */
127
  protected class AccessibleJLayeredPane extends AccessibleJComponent
128
  {
129
    /**
130
     * Creates a new instance of <code>AccessibleJLayeredPane</code>.
131
     */
132
    protected AccessibleJLayeredPane()
133
    {
134
      // Nothing to do here.
135
    }
136
 
137
    /**
138
     * Returns the accessble role of <code>JLayeredPane</code>,
139
     * {@link AccessibleRole#LAYERED_PANE}.
140
     */
141
    public AccessibleRole getAccessibleRole()
142
    {
143
      return AccessibleRole.LAYERED_PANE;
144
    }
145
  }
146
 
147
  private static final long serialVersionUID = 5534920399324590459L;
148
 
149
  public static final String LAYER_PROPERTY = "layeredContainerLayer";
150
 
151
  public static final Integer FRAME_CONTENT_LAYER = new Integer(-30000);
152
 
153
  public static final Integer DEFAULT_LAYER = new Integer(0);
154
  public static final Integer PALETTE_LAYER = new Integer(100);
155
  public static final Integer MODAL_LAYER   = new Integer(200);
156
  public static final Integer POPUP_LAYER   = new Integer(300);
157
  public static final Integer DRAG_LAYER    = new Integer(400);
158
 
159
  private Hashtable componentToLayer;   // Component -> Layer Number (Integer)
160
 
161
  public JLayeredPane()
162
  {
163
    componentToLayer = new Hashtable();
164
    setLayout(null);
165
  }
166
 
167
  /**
168
   * Looks up the layer a child component is currently assigned to.
169
   *
170
   * If <code>c</code> is an instance of {@link JComponent}, then the layer
171
   * is fetched from the client property with the key {@link #LAYER_PROPERTY}.
172
   * Otherwise it is looked up in an internal hashtable that maps
173
   * non-JComponent components to layers. If the components cannot be found
174
   * in either way, the {@link #DEFAULT_LAYER} is returned.
175
   *
176
   * @param c the component to look up.
177
   *
178
   * @return the layer the component is currently assigned to; if the component
179
   *         is not in this layered pane, then 0 (DEFAULT_LAYER) is returned
180
   */
181
  public int getLayer(Component c)
182
  {
183
    Integer layerObj;
184
    if (c instanceof JComponent)
185
      {
186
        JComponent jc = (JComponent) c;
187
        layerObj = (Integer) jc.getClientProperty(LAYER_PROPERTY);
188
      }
189
    else
190
      layerObj = (Integer) componentToLayer.get(c);
191
 
192
    if (layerObj == null)
193
      layerObj = DEFAULT_LAYER;
194
 
195
    return layerObj.intValue();
196
  }
197
 
198
  /**
199
   * Looks up the layer in the client property with the key
200
   * {@link #LAYER_PROPERTY} of <code>comp</code>. If no such property can be
201
   * found, we return <code>0</code> ({@link #DEFAULT_LAYER}).
202
   *
203
   * @param comp the component for which the layer is looked up
204
   *
205
   * @return the layer of <code>comp</code> as stored in the corresponding
206
   *         client property, or <code>0</code> if there is no such property
207
   */
208
  public static int getLayer(JComponent comp)
209
  {
210
    Integer layerObj = (Integer) comp.getClientProperty(LAYER_PROPERTY);
211
    if (layerObj == null)
212
      layerObj = DEFAULT_LAYER;
213
    return layerObj.intValue();
214
  }
215
 
216
  /**
217
   * Returns the first JLayeredPane that contains the Component
218
   * <code>comp</code> or <code>null</code> if <code>comp</code> is
219
   * not contained in a JLayeredPane.
220
   *
221
   * @param comp the component for which we are searching the JLayeredPane
222
   *     ancestor
223
   *
224
   * @return the first JLayeredPane that contains the Component
225
   *     <code>comp</code> or <code>null</code> if <code>comp</code> is
226
   *     not contained in a JLayeredPane
227
   */
228
  public static JLayeredPane getLayeredPaneAbove(Component comp)
229
  {
230
    JLayeredPane lp = (JLayeredPane) SwingUtilities.getAncestorOfClass
231
      (JLayeredPane.class, comp);
232
    return lp;
233
  }
234
 
235
  /**
236
   * Return the greatest layer number currently in use, in this container.
237
   * This number may legally be positive <em>or</em> negative.
238
   *
239
   * @return the highest layer number
240
   *
241
   * @see #lowestLayer()
242
   */
243
  public int highestLayer()
244
  {
245
    Component[] components = getComponents();
246
    int highest;
247
    if (components.length == 0)
248
      highest = 0;
249
    else
250
      {
251
        highest = Integer.MIN_VALUE;
252
        for (int i = 0; i < components.length; i++)
253
          highest = Math.max(highest, getLayer(components[i]));
254
      }
255
    return highest;
256
  }
257
 
258
  /**
259
   * Return the least layer number currently in use, in this container.
260
   * This number may legally be positive <em>or</em> negative.
261
   *
262
   * @return the least layer number
263
   *
264
   * @see #highestLayer()
265
   */
266
  public int lowestLayer()
267
  {
268
    Component[] components = getComponents();
269
    int lowest;
270
    if (components.length == 0)
271
      lowest = 0;
272
    else
273
      {
274
        lowest = Integer.MAX_VALUE;
275
        for (int i = 0; i < components.length; i++)
276
          lowest = Math.max(lowest, getLayer(components[i]));
277
      }
278
    return lowest;
279
  }
280
 
281
  /**
282
   * Moves a component to the "front" of its layer. The "front" is a
283
   * synonym for position 0, which is also the last position drawn in each
284
   * layer, so is usually the component which occludes the most other
285
   * components in its layer.
286
   *
287
   * @param c the component to move to the front of its layer
288
   *
289
   * @see #moveToBack
290
   */
291
  public void moveToFront(Component c)
292
  {
293
    setPosition (c, 0);
294
  }
295
 
296
  /**
297
   * <p>Moves a component to the "back" of its layer. The "back" is a
298
   * synonym for position N-1 (also known as position -1), where N is the
299
   * size of the layer.</p>
300
   *
301
   * <p>The "back" of a layer is the first position drawn, so the component at
302
   * the "back" is usually the component which is occluded by the most
303
   * other components in its layer.</p>
304
   *
305
   * @param c the component to move to the back of its layer.
306
   *
307
   * @see #moveToFront
308
   */
309
  public void moveToBack(Component c)
310
  {
311
    setPosition (c, -1);
312
  }
313
 
314
  /**
315
   * Return the position of a component within its layer. Positions are assigned
316
   * from the "front" (position 0) to the "back" (position N-1), and drawn from
317
   * the back towards the front.
318
   *
319
   * @param c the component to get the position of
320
   *
321
   * @return the position of <code>c</code> within its layer or -1 if
322
   *         <code>c</code> is not a child of this layered pane
323
   *
324
   * @see #setPosition
325
   */
326
  public int getPosition(Component c)
327
  {
328
    int pos = -1;
329
    int index = getIndexOf(c);
330
    if (index >= 0)
331
      {
332
        pos = 0;
333
        int layer = getLayer(c);
334
        for (int i = index - 1; i >= 0; --i)
335
          {
336
            if (layer == getLayer(getComponent(i)))
337
              pos++;
338
            else
339
              break;
340
          }
341
      }
342
    return pos;
343
  }
344
 
345
  /**
346
   * Change the position of a component within its layer. Positions are assigned
347
   * from the "front" (position 0) to the "back" (position N-1), and drawn from
348
   * the back towards the front.
349
   *
350
   * @param c the component to change the position of
351
   * @param position the position to assign the component to
352
   *
353
   * @see #getPosition
354
   */
355
  public void setPosition(Component c, int position)
356
  {
357
    setLayer(c, getLayer(c), position);
358
  }
359
 
360
  /**
361
   * Return an array of all components within a layer of this
362
   * container. Components are ordered front-to-back, with the "front"
363
   * element (which draws last) at position 0 of the returned array.
364
   *
365
   * @param layer the layer to return components from
366
   *
367
   * @return the components in the layer
368
   */
369
  public Component[] getComponentsInLayer(int layer)
370
  {
371
    Component[] inLayer = new Component[getComponentCountInLayer(layer)];
372
    Component[] components = getComponents();
373
    int j = 0;
374
    for (int i = 0; i < components.length; ++i)
375
      {
376
        if (layer == getLayer(components[i]))
377
          {
378
            inLayer[j] = components[i];
379
            j++;
380
          }
381
      }
382
    return inLayer;
383
  }
384
 
385
  /**
386
   * Return the number of components within a layer of this
387
   * container.
388
   *
389
   * @param layer the layer count components in
390
   *
391
   * @return the number of components in the layer
392
   */
393
  public int getComponentCountInLayer(int layer)
394
  {
395
    Component[] components = getComponents();
396
    int count = 0;
397
    for (int i = components.length - 1; i >= 0; --i)
398
      {
399
        if (getLayer(components[i]) == layer)
400
          count++;
401
      }
402
    return count;
403
  }
404
 
405
  /**
406
   * Return a hashtable mapping child components of this container to
407
   * Integer objects representing the component's layer assignments.
408
   */
409
  protected Hashtable<Component, Integer> getComponentToLayer()
410
  {
411
    return componentToLayer;
412
  }
413
 
414
  /**
415
   * Return the index of a component within the underlying (contiguous)
416
   * array of children. This is a "raw" number which does not represent the
417
   * child's position in a layer, but rather its position in the logical
418
   * drawing order of all children of the container.
419
   *
420
   * @param c the component to look up.
421
   *
422
   * @return the external index of the component or <code>-1</code> if
423
   *         <code>c</code> is not a child of this layered pane
424
   */
425
  public int getIndexOf(Component c)
426
  {
427
    return getComponentZOrder(c);
428
  }
429
 
430
  /**
431
   * Return an Integer object which holds the same int value as the
432
   * parameter. This is strictly an optimization to minimize the number of
433
   * identical Integer objects which we allocate.
434
   *
435
   * @param layer the layer number as an int.
436
   *
437
   * @return the layer number as an Integer, possibly shared.
438
   */
439
  protected Integer getObjectForLayer(int layer)
440
  {
441
    switch (layer)
442
            {
443
            case -30000:
444
        return FRAME_CONTENT_LAYER;
445
 
446
            case 0:
447
        return DEFAULT_LAYER;
448
 
449
            case 100:
450
        return PALETTE_LAYER;
451
 
452
            case 200:
453
        return MODAL_LAYER;
454
 
455
            case 300:
456
        return POPUP_LAYER;
457
 
458
            case 400:
459
        return DRAG_LAYER;
460
 
461
            default:
462
        break;
463
            }
464
 
465
    return new Integer(layer);
466
  }
467
 
468
  /**
469
   * Computes an index at which to request the superclass {@link
470
   * java.awt.Container} inserts a component, given an abstract layer and
471
   * position number.
472
   *
473
   * @param layer the layer in which to insert a component.
474
   * @param position the position in the layer at which to insert a component.
475
   *
476
   * @return the index at which to insert the component.
477
   */
478
  protected int insertIndexForLayer(int layer, int position)
479
  {
480
    return insertIndexForLayer(null, layer, position);
481
  }
482
 
483
  /**
484
   * Similar to {@link #insertIndexForLayer(int, int)}, only that it takes a
485
   * component parameter, which should be ignored in the search. This is
486
   * necessary to support {@link #setLayer(Component, int, int)} which uses
487
   * Container.setComponentZOrder(), which doesn't remove the component.
488
   *
489
   * @param comp the component to ignore
490
   * @param layer the layer
491
   * @param position the position
492
   *
493
   * @return the insertion index
494
   */
495
  private int insertIndexForLayer(Component comp, int layer, int position)
496
  {
497
    // Create the component list to search through.
498
    ArrayList l = new ArrayList();
499
    int count = getComponentCount();
500
    for (int i = 0; i < count; i++)
501
      {
502
        Component c = getComponent(i);
503
        if (c != comp)
504
          l.add(c);
505
      }
506
 
507
    count = l.size();
508
    int layerStart = -1;
509
    int layerEnd = -1;
510
    for (int i = 0; i < count; i++)
511
      {
512
        int layerOfComponent = getLayer((Component) l.get(i));
513
        if (layerStart == -1 && layerOfComponent == layer)
514
          layerStart = i;
515
        if (layerOfComponent < layer)
516
          {
517
            // We are beyond the layer that we are looking for. Update the
518
            // layerStart and layerEnd and exit the loop.
519
            if (i == 0)
520
              {
521
                layerStart = 0;
522
                layerEnd = 0;
523
              }
524
            else
525
              layerEnd = i;
526
            break;
527
          }
528
      }
529
 
530
    // No layer found. The requested layer is lower than any existing layer,
531
    // put the component at the end.
532
    int insertIndex;
533
    if (layerStart == -1 && layerEnd == -1)
534
      {
535
        insertIndex = count;
536
      }
537
    else
538
      {
539
        // Corner cases.
540
        if (layerStart != -1 && layerEnd == -1)
541
          layerEnd = count;
542
        if (layerStart == -1 && layerEnd != -1)
543
          layerStart = layerEnd;
544
 
545
        // Adding to the bottom of a layer returns the end index
546
        // in the layer.
547
        if (position == -1)
548
          insertIndex = layerEnd;
549
        else
550
          {
551
            // Insert into a layer.
552
            if (position > -1 && layerStart + position <= layerEnd)
553
              insertIndex = layerStart + position;
554
            else
555
              insertIndex = layerEnd;
556
          }
557
      }
558
    return insertIndex;
559
  }
560
 
561
  /**
562
   * Removes a child from this container. The child is specified by
563
   * index. After removal, the child no longer occupies a layer.
564
   *
565
   * @param index the index of the child component to remove.
566
   */
567
  public void remove(int index)
568
  {
569
    Component c = getComponent(index);
570
    if (! (c instanceof JComponent))
571
      componentToLayer.remove(c);
572
    super.remove(index);
573
  }
574
 
575
  /**
576
   * Removes all components from this container.
577
   *
578
   * @since 1.5
579
   */
580
  public void removeAll()
581
  {
582
        componentToLayer.clear();
583
        super.removeAll();
584
  }
585
 
586
  /**
587
   * <p>Set the layer property for a component, within this container. The
588
   * component will be implicitly mapped to the bottom-most position in the
589
   * layer, but only if added <em>after</em> calling this method.</p>
590
   *
591
   * <p>Read that carefully: this method should be called <em>before</em> the
592
   * component is added to the container.</p>
593
   *
594
   * @param c the component to set the layer property for.
595
   * @param layer the layer number to assign to the component.
596
   */
597
  public void setLayer(Component c, int layer)
598
  {
599
    setLayer(c, layer, -1);
600
  }
601
 
602
  /**
603
   * Set the layer and position of a component, within this container.
604
   *
605
   * @param c the child component to set the layer property for.
606
   * @param layer the layer number to assign to the component.
607
   * @param position the position number to assign to the component.
608
   */
609
  public void setLayer(Component c, int layer, int position)
610
  {
611
    Integer layerObj = getObjectForLayer(layer);
612
 
613
    // Nothing to do if neither the layer nor the position is
614
    // changed.
615
    if (layer != getLayer(c) || position != getPosition(c))
616
      {
617
        // Store the layer either in the JComponent or in the hashtable
618
        if (c instanceof JComponent)
619
          {
620
            JComponent jc = (JComponent) c;
621
            jc.putClientProperty(LAYER_PROPERTY, layerObj);
622
          }
623
        else
624
          componentToLayer.put (c, layerObj);
625
 
626
        // Update the component in the Z order of the Container.
627
        Container parent = c.getParent();
628
        if (parent == this)
629
          {
630
            int index = insertIndexForLayer(c, layer, position);
631
            setComponentZOrder(c, index);
632
          }
633
      }
634
    repaint(c.getX(), c.getY(), c.getWidth(), c.getHeight());
635
  }
636
 
637
  /**
638
   * Overrides the default implementation from {@link java.awt.Container}
639
   * such that <code>layerConstraint</code> is interpreted as an {@link
640
   * Integer}, specifying the layer to which the component will be added
641
   * (at the bottom position).
642
   *
643
   * The argument <code>index</code> specifies the position within the layer
644
   * at which the component should be added, where <code>0</code> is the top
645
   * position greater values specify positions below that and <code>-1</code>
646
   * specifies the bottom position.
647
   *
648
   * @param comp the component to add
649
   * @param layerConstraint an integer specifying the layer to add the
650
   *        component to
651
   * @param index the position within the layer
652
   */
653
  protected void addImpl(Component comp, Object layerConstraint, int index)
654
  {
655
    int layer;
656
    if (layerConstraint != null && layerConstraint instanceof Integer)
657
      {
658
        layer = ((Integer) layerConstraint).intValue();
659
        setLayer(comp, layer);
660
      }
661
    else
662
      layer = getLayer(comp);
663
 
664
    int newIdx = insertIndexForLayer(layer, index);
665
    super.addImpl(comp, layerConstraint, newIdx);
666
    comp.validate();
667
    comp.repaint();
668
  }
669
 
670
  /**
671
   * Sets the layer property for a JComponent.
672
   *
673
   * @param component the component for which to set the layer
674
   * @param layer the layer property to set
675
   */
676
  public static void putLayer(JComponent component, int layer)
677
  {
678
    component.putClientProperty(LAYER_PROPERTY, new Integer(layer));
679
  }
680
 
681
  /**
682
   * Returns the accessible context for this <code>JLayeredPane</code>.
683
   *
684
   * @return the accessible context for this <code>JLayeredPane</code>
685
   */
686
  public AccessibleContext getAccessibleContext()
687
  {
688
    if (accessibleContext == null)
689
      accessibleContext = new AccessibleJLayeredPane();
690
    return accessibleContext;
691
  }
692
 
693
  /**
694
   * This method is overridden order to provide a reasonable painting
695
   * mechanism for <code>JLayeredPane</code>. This is necessary since
696
   * <code>JLayeredPane</code>'s do not have an own UI delegate.
697
   *
698
   * Basically this method clears the background for the
699
   * <code>JLayeredPane</code> and then calls <code>super.paint(g)</code>.
700
   *
701
   * @param g the graphics context to use
702
   */
703
  public void paint(Graphics g)
704
  {
705
    if (isOpaque())
706
      {
707
        Color oldColor = g.getColor();
708
        Rectangle clip = g.getClipBounds();
709
        g.setColor(getBackground());
710
        g.fillRect(clip.x, clip.y, clip.width, clip.height);
711
        g.setColor(oldColor);
712
      }
713
    super.paint(g);
714
  }
715
 
716
  /**
717
   * Returns <code>false</code> if components in this layered pane can overlap,
718
   * otherwise <code>true</code>.
719
   *
720
   * @return <code>false</code> if components in this layered pane can overlap,
721
   *         otherwise <code>true</code>
722
   */
723
  public boolean isOptimizedDrawingEnabled()
724
  {
725
    int numChildren = getComponentCount();
726
    boolean result = true;
727
    for (int i = 0; i < numChildren; ++i)
728
      {
729
        Component c1 = getComponent(i);
730
        if (! c1.isVisible())
731
          continue;
732
        Rectangle r1 = c1.getBounds();
733
        if (r1.isEmpty())
734
          continue;
735
 
736
        for (int j = i + 1; j < numChildren; ++j)
737
          {
738
            Component c2 = getComponent(j);
739
            if (! c2.isVisible())
740
              continue;
741
            Rectangle r2 = c2.getBounds();
742
            if (r2.isEmpty())
743
              continue;
744
            if (r1.intersects(r2))
745
              {
746
                result = false;
747
                break;
748
              }
749
            if (result == false)
750
              break;
751
          }
752
      }
753
    return result;
754
  }
755
}

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.