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1 758 jeremybenn
/* StringBuilder.java -- Unsynchronized growable strings
2
   Copyright (C) 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2008
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
package java.lang;
40
 
41
import java.io.Serializable;
42
 
43
/**
44
 * <code>StringBuilder</code> represents a changeable <code>String</code>.
45
 * It provides the operations required to modify the
46
 * <code>StringBuilder</code>, including insert, replace, delete, append,
47
 * and reverse. It like <code>StringBuffer</code>, but is not
48
 * synchronized.  It is ideal for use when it is known that the
49
 * object will only be used from a single thread.
50
 *
51
 * <p><code>StringBuilder</code>s are variable-length in nature, so even if
52
 * you initialize them to a certain size, they can still grow larger than
53
 * that. <em>Capacity</em> indicates the number of characters the
54
 * <code>StringBuilder</code> can have in it before it has to grow (growing
55
 * the char array is an expensive operation involving <code>new</code>).
56
 *
57
 * <p>Incidentally, compilers often implement the String operator "+"
58
 * by using a <code>StringBuilder</code> operation:<br>
59
 * <code>a + b</code><br>
60
 * is the same as<br>
61
 * <code>new StringBuilder().append(a).append(b).toString()</code>.
62
 *
63
 * <p>Classpath's StringBuilder is capable of sharing memory with Strings for
64
 * efficiency.  This will help when a StringBuilder is converted to a String
65
 * and the StringBuilder is not changed after that (quite common when
66
 * performing string concatenation).
67
 *
68
 * @author Paul Fisher
69
 * @author John Keiser
70
 * @author Tom Tromey
71
 * @author Eric Blake (ebb9@email.byu.edu)
72
 * @see String
73
 * @see StringBuffer
74
 *
75
 * @since 1.5
76
 */
77
public final class StringBuilder
78
  extends AbstractStringBuffer
79
  implements Serializable, CharSequence, Appendable
80
{
81
  // Implementation note: if you change this class, you usually will
82
  // want to change StringBuffer as well.
83
 
84
  /**
85
   * For compatability with Sun's JDK
86
   */
87
  private static final long serialVersionUID = 4383685877147921099L;
88
 
89
  /**
90
   * Create a new StringBuilder with default capacity 16.
91
   */
92
  public StringBuilder()
93
  {
94
    super();
95
  }
96
 
97
  /**
98
   * Create an empty <code>StringBuilder</code> with the specified initial
99
   * capacity.
100
   *
101
   * @param capacity the initial capacity
102
   * @throws NegativeArraySizeException if capacity is negative
103
   */
104
  public StringBuilder(int capacity)
105
  {
106
    super(capacity);
107
  }
108
 
109
  /**
110
   * Create a new <code>StringBuilder</code> with the characters in the
111
   * specified <code>String</code>. Initial capacity will be the size of the
112
   * String plus 16.
113
   *
114
   * @param str the <code>String</code> to convert
115
   * @throws NullPointerException if str is null
116
   */
117
  public StringBuilder(String str)
118
  {
119
    super(str);
120
  }
121
 
122
  /**
123
   * Create a new <code>StringBuilder</code> with the characters in the
124
   * specified <code>CharSequence</code>. Initial capacity will be the
125
   * length of the sequence plus 16; if the sequence reports a length
126
   * less than or equal to 0, then the initial capacity will be 16.
127
   *
128
   * @param seq the initializing <code>CharSequence</code>
129
   * @throws NullPointerException if str is null
130
   */
131
  public StringBuilder(CharSequence seq)
132
  {
133
    super(seq);
134
  }
135
 
136
  /**
137
   * Get the length of the <code>String</code> this <code>StringBuilder</code>
138
   * would create. Not to be confused with the <em>capacity</em> of the
139
   * <code>StringBuilder</code>.
140
   *
141
   * @return the length of this <code>StringBuilder</code>
142
   * @see #capacity()
143
   * @see #setLength(int)
144
   */
145
  public int length()
146
  {
147
    return count;
148
  }
149
 
150
  /**
151
   * Get the total number of characters this <code>StringBuilder</code> can
152
   * support before it must be grown.  Not to be confused with <em>length</em>.
153
   *
154
   * @return the capacity of this <code>StringBuilder</code>
155
   * @see #length()
156
   * @see #ensureCapacity(int)
157
   */
158
  public int capacity()
159
  {
160
    return value.length;
161
  }
162
 
163
  /**
164
   * Append the <code>String</code> value of the argument to this
165
   * <code>StringBuilder</code>. Uses <code>String.valueOf()</code> to convert
166
   * to <code>String</code>.
167
   *
168
   * @param obj the <code>Object</code> to convert and append
169
   * @return this <code>StringBuilder</code>
170
   * @see String#valueOf(Object)
171
   * @see #append(String)
172
   */
173
  public StringBuilder append(Object obj)
174
  {
175
    super.append(obj);
176
    return this;
177
  }
178
 
179
  /**
180
   * Append the <code>String</code> to this <code>StringBuilder</code>. If
181
   * str is null, the String "null" is appended.
182
   *
183
   * @param str the <code>String</code> to append
184
   * @return this <code>StringBuilder</code>
185
   */
186
  public StringBuilder append(String str)
187
  {
188
    super.append(str);
189
    return this;
190
  }
191
 
192
  /**
193
   * Append the <code>StringBuilder</code> value of the argument to this
194
   * <code>StringBuilder</code>. This behaves the same as
195
   * <code>append((Object) stringBuffer)</code>, except it is more efficient.
196
   *
197
   * @param stringBuffer the <code>StringBuilder</code> to convert and append
198
   * @return this <code>StringBuilder</code>
199
   * @see #append(Object)
200
   */
201
  public StringBuilder append(StringBuffer stringBuffer)
202
  {
203
    super.append(stringBuffer);
204
    return this;
205
  }
206
 
207
  /**
208
   * Append the <code>char</code> array to this <code>StringBuilder</code>.
209
   * This is similar (but more efficient) than
210
   * <code>append(new String(data))</code>, except in the case of null.
211
   *
212
   * @param data the <code>char[]</code> to append
213
   * @return this <code>StringBuilder</code>
214
   * @throws NullPointerException if <code>str</code> is <code>null</code>
215
   * @see #append(char[], int, int)
216
   */
217
  public StringBuilder append(char[] data)
218
  {
219
    super.append(data, 0, data.length);
220
    return this;
221
  }
222
 
223
  /**
224
   * Append part of the <code>char</code> array to this
225
   * <code>StringBuilder</code>. This is similar (but more efficient) than
226
   * <code>append(new String(data, offset, count))</code>, except in the case
227
   * of null.
228
   *
229
   * @param data the <code>char[]</code> to append
230
   * @param offset the start location in <code>str</code>
231
   * @param count the number of characters to get from <code>str</code>
232
   * @return this <code>StringBuilder</code>
233
   * @throws NullPointerException if <code>str</code> is <code>null</code>
234
   * @throws IndexOutOfBoundsException if offset or count is out of range
235
   *         (while unspecified, this is a StringIndexOutOfBoundsException)
236
   */
237
  public StringBuilder append(char[] data, int offset, int count)
238
  {
239
    super.append(data, offset, count);
240
    return this;
241
  }
242
 
243
  /**
244
   * Append the <code>String</code> value of the argument to this
245
   * <code>StringBuilder</code>. Uses <code>String.valueOf()</code> to convert
246
   * to <code>String</code>.
247
   *
248
   * @param bool the <code>boolean</code> to convert and append
249
   * @return this <code>StringBuilder</code>
250
   * @see String#valueOf(boolean)
251
   */
252
  public StringBuilder append(boolean bool)
253
  {
254
    super.append(bool);
255
    return this;
256
  }
257
 
258
  /**
259
   * Append the <code>char</code> to this <code>StringBuilder</code>.
260
   *
261
   * @param ch the <code>char</code> to append
262
   * @return this <code>StringBuilder</code>
263
   */
264
  public StringBuilder append(char ch)
265
  {
266
    super.append(ch);
267
    return this;
268
  }
269
 
270
  /**
271
   * Append the characters in the <code>CharSequence</code> to this
272
   * buffer.
273
   *
274
   * @param seq the <code>CharSequence</code> providing the characters
275
   * @return this <code>StringBuilder</code>
276
   */
277
  public StringBuilder append(CharSequence seq)
278
  {
279
    super.append(seq, 0, seq.length());
280
    return this;
281
  }
282
 
283
  /**
284
   * Append some characters from the <code>CharSequence</code> to this
285
   * buffer.  If the argument is null, the four characters "null" are
286
   * appended.
287
   *
288
   * @param seq the <code>CharSequence</code> providing the characters
289
   * @param start the starting index
290
   * @param end one past the final index
291
   * @return this <code>StringBuilder</code>
292
   */
293
  public StringBuilder append(CharSequence seq, int start,
294
                              int end)
295
  {
296
    super.append(seq, start, end);
297
    return this;
298
  }
299
 
300
  /**
301
   * Append the <code>String</code> value of the argument to this
302
   * <code>StringBuilder</code>. Uses <code>String.valueOf()</code> to convert
303
   * to <code>String</code>.
304
   *
305
   * @param inum the <code>int</code> to convert and append
306
   * @return this <code>StringBuilder</code>
307
   * @see String#valueOf(int)
308
   */
309
  // This is native in libgcj, for efficiency.
310
  public StringBuilder append(int inum)
311
  {
312
    super.append(inum);
313
    return this;
314
  }
315
 
316
  /**
317
   * Append the <code>String</code> value of the argument to this
318
   * <code>StringBuilder</code>. Uses <code>String.valueOf()</code> to convert
319
   * to <code>String</code>.
320
   *
321
   * @param lnum the <code>long</code> to convert and append
322
   * @return this <code>StringBuilder</code>
323
   * @see String#valueOf(long)
324
   */
325
  public StringBuilder append(long lnum)
326
  {
327
    super.append(lnum);
328
    return this;
329
  }
330
 
331
  /**
332
   * Append the <code>String</code> value of the argument to this
333
   * <code>StringBuilder</code>. Uses <code>String.valueOf()</code> to convert
334
   * to <code>String</code>.
335
   *
336
   * @param fnum the <code>float</code> to convert and append
337
   * @return this <code>StringBuilder</code>
338
   * @see String#valueOf(float)
339
   */
340
  public StringBuilder append(float fnum)
341
  {
342
    super.append(fnum);
343
    return this;
344
  }
345
 
346
  /**
347
   * Append the <code>String</code> value of the argument to this
348
   * <code>StringBuilder</code>. Uses <code>String.valueOf()</code> to convert
349
   * to <code>String</code>.
350
   *
351
   * @param dnum the <code>double</code> to convert and append
352
   * @return this <code>StringBuilder</code>
353
   * @see String#valueOf(double)
354
   */
355
  public StringBuilder append(double dnum)
356
  {
357
    super.append(dnum);
358
    return this;
359
  }
360
 
361
  /**
362
   * Append the code point to this <code>StringBuilder</code>.
363
   * This is like #append(char), but will append two characters
364
   * if a supplementary code point is given.
365
   *
366
   * @param code the code point to append
367
   * @return this <code>StringBuilder</code>
368
   * @see Character#toChars(int, char[], int)
369
   * @since 1.5
370
   */
371
  public StringBuilder appendCodePoint(int code)
372
  {
373
    super.appendCodePoint(code);
374
    return this;
375
  }
376
 
377
  /**
378
   * Delete characters from this <code>StringBuilder</code>.
379
   * <code>delete(10, 12)</code> will delete 10 and 11, but not 12. It is
380
   * harmless for end to be larger than length().
381
   *
382
   * @param start the first character to delete
383
   * @param end the index after the last character to delete
384
   * @return this <code>StringBuilder</code>
385
   * @throws StringIndexOutOfBoundsException if start or end are out of bounds
386
   */
387
  public StringBuilder delete(int start, int end)
388
  {
389
    super.delete(start, end);
390
    return this;
391
  }
392
 
393
  /**
394
   * Delete a character from this <code>StringBuilder</code>.
395
   *
396
   * @param index the index of the character to delete
397
   * @return this <code>StringBuilder</code>
398
   * @throws StringIndexOutOfBoundsException if index is out of bounds
399
   */
400
  public StringBuilder deleteCharAt(int index)
401
  {
402
    super.deleteCharAt(index);
403
    return this;
404
  }
405
 
406
  /**
407
   * Replace characters between index <code>start</code> (inclusive) and
408
   * <code>end</code> (exclusive) with <code>str</code>. If <code>end</code>
409
   * is larger than the size of this StringBuilder, all characters after
410
   * <code>start</code> are replaced.
411
   *
412
   * @param start the beginning index of characters to delete (inclusive)
413
   * @param end the ending index of characters to delete (exclusive)
414
   * @param str the new <code>String</code> to insert
415
   * @return this <code>StringBuilder</code>
416
   * @throws StringIndexOutOfBoundsException if start or end are out of bounds
417
   * @throws NullPointerException if str is null
418
   */
419
  public StringBuilder replace(int start, int end, String str)
420
  {
421
    super.replace(start, end, str);
422
    return this;
423
  }
424
 
425
  /**
426
   * Creates a substring of this StringBuilder, starting at a specified index
427
   * and ending at the end of this StringBuilder.
428
   *
429
   * @param beginIndex index to start substring (base 0)
430
   * @return new String which is a substring of this StringBuilder
431
   * @throws StringIndexOutOfBoundsException if beginIndex is out of bounds
432
   * @see #substring(int, int)
433
   */
434
  public String substring(int beginIndex)
435
  {
436
    return substring(beginIndex, count);
437
  }
438
 
439
  /**
440
   * Creates a substring of this StringBuilder, starting at a specified index
441
   * and ending at one character before a specified index. This is implemented
442
   * the same as <code>substring(beginIndex, endIndex)</code>, to satisfy
443
   * the CharSequence interface.
444
   *
445
   * @param beginIndex index to start at (inclusive, base 0)
446
   * @param endIndex index to end at (exclusive)
447
   * @return new String which is a substring of this StringBuilder
448
   * @throws IndexOutOfBoundsException if beginIndex or endIndex is out of
449
   *         bounds
450
   * @see #substring(int, int)
451
   */
452
  public CharSequence subSequence(int beginIndex, int endIndex)
453
  {
454
    return substring(beginIndex, endIndex);
455
  }
456
 
457
  /**
458
   * Creates a substring of this StringBuilder, starting at a specified index
459
   * and ending at one character before a specified index.
460
   *
461
   * @param beginIndex index to start at (inclusive, base 0)
462
   * @param endIndex index to end at (exclusive)
463
   * @return new String which is a substring of this StringBuilder
464
   * @throws StringIndexOutOfBoundsException if beginIndex or endIndex is out
465
   *         of bounds
466
   */
467
  public String substring(int beginIndex, int endIndex)
468
  {
469
    int len = endIndex - beginIndex;
470
    if (beginIndex < 0 || endIndex > count || endIndex < beginIndex)
471
      throw new StringIndexOutOfBoundsException();
472
    if (len == 0)
473
      return "";
474
    return new String(value, beginIndex, len);
475
  }
476
 
477
  /**
478
   * Insert a subarray of the <code>char[]</code> argument into this
479
   * <code>StringBuilder</code>.
480
   *
481
   * @param offset the place to insert in this buffer
482
   * @param str the <code>char[]</code> to insert
483
   * @param str_offset the index in <code>str</code> to start inserting from
484
   * @param len the number of characters to insert
485
   * @return this <code>StringBuilder</code>
486
   * @throws NullPointerException if <code>str</code> is <code>null</code>
487
   * @throws StringIndexOutOfBoundsException if any index is out of bounds
488
   */
489
  public StringBuilder insert(int offset,
490
                              char[] str, int str_offset, int len)
491
  {
492
    super.insert(offset, str, str_offset, len);
493
    return this;
494
  }
495
 
496
  /**
497
   * Insert the <code>String</code> value of the argument into this
498
   * <code>StringBuilder</code>. Uses <code>String.valueOf()</code> to convert
499
   * to <code>String</code>.
500
   *
501
   * @param offset the place to insert in this buffer
502
   * @param obj the <code>Object</code> to convert and insert
503
   * @return this <code>StringBuilder</code>
504
   * @exception StringIndexOutOfBoundsException if offset is out of bounds
505
   * @see String#valueOf(Object)
506
   */
507
  public StringBuilder insert(int offset, Object obj)
508
  {
509
    super.insert(offset, obj);
510
    return this;
511
  }
512
 
513
  /**
514
   * Insert the <code>String</code> argument into this
515
   * <code>StringBuilder</code>. If str is null, the String "null" is used
516
   * instead.
517
   *
518
   * @param offset the place to insert in this buffer
519
   * @param str the <code>String</code> to insert
520
   * @return this <code>StringBuilder</code>
521
   * @throws StringIndexOutOfBoundsException if offset is out of bounds
522
   */
523
  public StringBuilder insert(int offset, String str)
524
  {
525
    super.insert(offset, str);
526
    return this;
527
  }
528
 
529
  /**
530
   * Insert the <code>CharSequence</code> argument into this
531
   * <code>StringBuilder</code>.  If the sequence is null, the String
532
   * "null" is used instead.
533
   *
534
   * @param offset the place to insert in this buffer
535
   * @param sequence the <code>CharSequence</code> to insert
536
   * @return this <code>StringBuilder</code>
537
   * @throws IndexOutOfBoundsException if offset is out of bounds
538
   */
539
  public StringBuilder insert(int offset, CharSequence sequence)
540
  {
541
    super.insert(offset, sequence);
542
    return this;
543
  }
544
 
545
  /**
546
   * Insert a subsequence of the <code>CharSequence</code> argument into this
547
   * <code>StringBuilder</code>.  If the sequence is null, the String
548
   * "null" is used instead.
549
   *
550
   * @param offset the place to insert in this buffer
551
   * @param sequence the <code>CharSequence</code> to insert
552
   * @param start the starting index of the subsequence
553
   * @param end one past the ending index of the subsequence
554
   * @return this <code>StringBuilder</code>
555
   * @throws IndexOutOfBoundsException if offset, start,
556
   * or end are out of bounds
557
   */
558
  public StringBuilder insert(int offset, CharSequence sequence,
559
                              int start, int end)
560
  {
561
    super.insert(offset, sequence, start, end);
562
    return this;
563
  }
564
 
565
  /**
566
   * Insert the <code>char[]</code> argument into this
567
   * <code>StringBuilder</code>.
568
   *
569
   * @param offset the place to insert in this buffer
570
   * @param data the <code>char[]</code> to insert
571
   * @return this <code>StringBuilder</code>
572
   * @throws NullPointerException if <code>data</code> is <code>null</code>
573
   * @throws StringIndexOutOfBoundsException if offset is out of bounds
574
   * @see #insert(int, char[], int, int)
575
   */
576
  public StringBuilder insert(int offset, char[] data)
577
  {
578
    super.insert(offset, data);
579
    return this;
580
  }
581
 
582
  /**
583
   * Insert the <code>String</code> value of the argument into this
584
   * <code>StringBuilder</code>. Uses <code>String.valueOf()</code> to convert
585
   * to <code>String</code>.
586
   *
587
   * @param offset the place to insert in this buffer
588
   * @param bool the <code>boolean</code> to convert and insert
589
   * @return this <code>StringBuilder</code>
590
   * @throws StringIndexOutOfBoundsException if offset is out of bounds
591
   * @see String#valueOf(boolean)
592
   */
593
  public StringBuilder insert(int offset, boolean bool)
594
  {
595
    super.insert(offset, bool);
596
    return this;
597
  }
598
 
599
  /**
600
   * Insert the <code>char</code> argument into this <code>StringBuilder</code>.
601
   *
602
   * @param offset the place to insert in this buffer
603
   * @param ch the <code>char</code> to insert
604
   * @return this <code>StringBuilder</code>
605
   * @throws StringIndexOutOfBoundsException if offset is out of bounds
606
   */
607
  public StringBuilder insert(int offset, char ch)
608
  {
609
    super.insert(offset, ch);
610
    return this;
611
  }
612
 
613
  /**
614
   * Insert the <code>String</code> value of the argument into this
615
   * <code>StringBuilder</code>. Uses <code>String.valueOf()</code> to convert
616
   * to <code>String</code>.
617
   *
618
   * @param offset the place to insert in this buffer
619
   * @param inum the <code>int</code> to convert and insert
620
   * @return this <code>StringBuilder</code>
621
   * @throws StringIndexOutOfBoundsException if offset is out of bounds
622
   * @see String#valueOf(int)
623
   */
624
  public StringBuilder insert(int offset, int inum)
625
  {
626
    super.insert(offset, inum);
627
    return this;
628
  }
629
 
630
  /**
631
   * Insert the <code>String</code> value of the argument into this
632
   * <code>StringBuilder</code>. Uses <code>String.valueOf()</code> to convert
633
   * to <code>String</code>.
634
   *
635
   * @param offset the place to insert in this buffer
636
   * @param lnum the <code>long</code> to convert and insert
637
   * @return this <code>StringBuilder</code>
638
   * @throws StringIndexOutOfBoundsException if offset is out of bounds
639
   * @see String#valueOf(long)
640
   */
641
  public StringBuilder insert(int offset, long lnum)
642
  {
643
    super.insert(offset, lnum);
644
    return this;
645
  }
646
 
647
  /**
648
   * Insert the <code>String</code> value of the argument into this
649
   * <code>StringBuilder</code>. Uses <code>String.valueOf()</code> to convert
650
   * to <code>String</code>.
651
   *
652
   * @param offset the place to insert in this buffer
653
   * @param fnum the <code>float</code> to convert and insert
654
   * @return this <code>StringBuilder</code>
655
   * @throws StringIndexOutOfBoundsException if offset is out of bounds
656
   * @see String#valueOf(float)
657
   */
658
  public StringBuilder insert(int offset, float fnum)
659
  {
660
    super.insert(offset, fnum);
661
    return this;
662
  }
663
 
664
  /**
665
   * Insert the <code>String</code> value of the argument into this
666
   * <code>StringBuilder</code>. Uses <code>String.valueOf()</code> to convert
667
   * to <code>String</code>.
668
   *
669
   * @param offset the place to insert in this buffer
670
   * @param dnum the <code>double</code> to convert and insert
671
   * @return this <code>StringBuilder</code>
672
   * @throws StringIndexOutOfBoundsException if offset is out of bounds
673
   * @see String#valueOf(double)
674
   */
675
  public StringBuilder insert(int offset, double dnum)
676
  {
677
    super.insert(offset, dnum);
678
    return this;
679
  }
680
 
681
  /**
682
   * Reverse the characters in this StringBuilder. The same sequence of
683
   * characters exists, but in the reverse index ordering.
684
   *
685
   * @return this <code>StringBuilder</code>
686
   */
687
  public StringBuilder reverse()
688
  {
689
    super.reverse();
690
    return this;
691
  }
692
 
693
  /**
694
   * Convert this <code>StringBuilder</code> to a <code>String</code>. The
695
   * String is composed of the characters currently in this StringBuilder. Note
696
   * that the result is a copy, and that future modifications to this buffer
697
   * do not affect the String.
698
   *
699
   * @return the characters in this StringBuilder
700
   */
701
  public String toString()
702
  {
703
    return new String(this);
704
  }
705
 
706
}

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