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1 758 jeremybenn
/* AbstractStringBuffer.java -- 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
 * This class is based on gnu.classpath.ClasspathStringBuffer but
45
 * is package-private to java.lang so it can be used as the basis
46
 * for StringBuffer and StringBuilder.
47
 * If you modify this, please consider also modifying that code.
48
 */
49
abstract class AbstractStringBuffer
50
  implements Serializable, CharSequence, Appendable
51
{
52
 
53
  /**
54
   * Index of next available character (and thus the size of the current
55
   * string contents).  Note that this has permissions set this way so that
56
   * String can get the value.
57
   *
58
   * @serial the number of characters in the buffer
59
   */
60
  int count;
61
 
62
  /**
63
   * The buffer.  Note that this has permissions set this way so that String
64
   * can get the value.
65
   *
66
   * @serial the buffer
67
   */
68
  char[] value;
69
 
70
  /**
71
   * The default capacity of a buffer.
72
   */
73
  private static final int DEFAULT_CAPACITY = 16;
74
 
75
  /**
76
   * Create a new AbstractStringBuffer with default capacity 16.
77
   */
78
  AbstractStringBuffer()
79
  {
80
    this(DEFAULT_CAPACITY);
81
  }
82
 
83
  /**
84
   * Create an empty <code>StringBuffer</code> with the specified initial
85
   * capacity.
86
   *
87
   * @param capacity the initial capacity
88
   * @throws NegativeArraySizeException if capacity is negative
89
   */
90
  AbstractStringBuffer(int capacity)
91
  {
92
    value = new char[capacity];
93
  }
94
 
95
  /**
96
   * Create a new <code>StringBuffer</code> with the characters in the
97
   * specified <code>String</code>. Initial capacity will be the size of the
98
   * String plus 16.
99
   *
100
   * @param str the <code>String</code> to convert
101
   * @throws NullPointerException if str is null
102
   */
103
  AbstractStringBuffer(String str)
104
  {
105
    count = str.count;
106
    value = new char[count + DEFAULT_CAPACITY];
107
    str.getChars(0, count, value, 0);
108
  }
109
 
110
  /**
111
   * Create a new <code>StringBuffer</code> with the characters in the
112
   * specified <code>CharSequence</code>. Initial capacity will be the
113
   * length of the sequence plus 16; if the sequence reports a length
114
   * less than or equal to 0, then the initial capacity will be 16.
115
   *
116
   * @param seq the initializing <code>CharSequence</code>
117
   * @throws NullPointerException if str is null
118
   * @since 1.5
119
   */
120
  AbstractStringBuffer(CharSequence seq)
121
  {
122
    int len = seq.length();
123
    count = len <= 0 ? 0 : len;
124
    value = new char[count + DEFAULT_CAPACITY];
125
    for (int i = 0; i < len; ++i)
126
      value[i] = seq.charAt(i);
127
  }
128
 
129
  /**
130
   * Increase the capacity of this <code>StringBuffer</code>. This will
131
   * ensure that an expensive growing operation will not occur until
132
   * <code>minimumCapacity</code> is reached. The buffer is grown to the
133
   * larger of <code>minimumCapacity</code> and
134
   * <code>capacity() * 2 + 2</code>, if it is not already large enough.
135
   *
136
   * @param minimumCapacity the new capacity
137
   * @see #capacity()
138
   */
139
  public void ensureCapacity(int minimumCapacity)
140
  {
141
    ensureCapacity_unsynchronized(minimumCapacity);
142
  }
143
 
144
  /**
145
   * Set the length of this StringBuffer. If the new length is greater than
146
   * the current length, all the new characters are set to '\0'. If the new
147
   * length is less than the current length, the first <code>newLength</code>
148
   * characters of the old array will be preserved, and the remaining
149
   * characters are truncated.
150
   *
151
   * @param newLength the new length
152
   * @throws IndexOutOfBoundsException if the new length is negative
153
   *         (while unspecified, this is a StringIndexOutOfBoundsException)
154
   * @see #length()
155
   */
156
  public void setLength(int newLength)
157
  {
158
    if (newLength < 0)
159
      throw new StringIndexOutOfBoundsException(newLength);
160
 
161
    int valueLength = value.length;
162
 
163
    /* Always call ensureCapacity_unsynchronized in order to preserve
164
       copy-on-write semantics.  */
165
    ensureCapacity_unsynchronized(newLength);
166
 
167
    if (newLength < valueLength)
168
      {
169
        /* If the StringBuffer's value just grew, then we know that
170
           value is newly allocated and the region between count and
171
           newLength is filled with '\0'.  */
172
        count = newLength;
173
      }
174
    else
175
      {
176
        /* The StringBuffer's value doesn't need to grow.  However,
177
           we should clear out any cruft that may exist.  */
178
        while (count < newLength)
179
          value[count++] = '\0';
180
      }
181
  }
182
 
183
  /**
184
   * Get the character at the specified index.
185
   *
186
   * @param index the index of the character to get, starting at 0
187
   * @return the character at the specified index
188
   * @throws IndexOutOfBoundsException if index is negative or &gt;= length()
189
   *         (while unspecified, this is a StringIndexOutOfBoundsException)
190
   */
191
  public char charAt(int index)
192
  {
193
    if (index < 0 || index >= count)
194
      throw new StringIndexOutOfBoundsException(index);
195
    return value[index];
196
  }
197
 
198
  /**
199
   * Get the code point at the specified index.  This is like #charAt(int),
200
   * but if the character is the start of a surrogate pair, and the
201
   * following character completes the pair, then the corresponding
202
   * supplementary code point is returned.
203
   * @param index the index of the codepoint to get, starting at 0
204
   * @return the codepoint at the specified index
205
   * @throws IndexOutOfBoundsException if index is negative or &gt;= length()
206
   * @since 1.5
207
   */
208
  public int codePointAt(int index)
209
  {
210
    return Character.codePointAt(value, index, count);
211
  }
212
 
213
  /**
214
   * Get the code point before the specified index.  This is like
215
   * #codePointAt(int), but checks the characters at <code>index-1</code> and
216
   * <code>index-2</code> to see if they form a supplementary code point.
217
   * @param index the index just past the codepoint to get, starting at 0
218
   * @return the codepoint at the specified index
219
   * @throws IndexOutOfBoundsException if index is negative or &gt;= length()
220
   * @since 1.5
221
   */
222
  public int codePointBefore(int index)
223
  {
224
    // Character.codePointBefore() doesn't perform this check.  We
225
    // could use the CharSequence overload, but this is just as easy.
226
    if (index >= count)
227
      throw new IndexOutOfBoundsException();
228
    return Character.codePointBefore(value, index, 1);
229
  }
230
 
231
  /**
232
   * Get the specified array of characters. <code>srcOffset - srcEnd</code>
233
   * characters will be copied into the array you pass in.
234
   *
235
   * @param srcOffset the index to start copying from (inclusive)
236
   * @param srcEnd the index to stop copying from (exclusive)
237
   * @param dst the array to copy into
238
   * @param dstOffset the index to start copying into
239
   * @throws NullPointerException if dst is null
240
   * @throws IndexOutOfBoundsException if any source or target indices are
241
   *         out of range (while unspecified, source problems cause a
242
   *         StringIndexOutOfBoundsException, and dest problems cause an
243
   *         ArrayIndexOutOfBoundsException)
244
   * @see System#arraycopy(Object, int, Object, int, int)
245
   */
246
  public void getChars(int srcOffset, int srcEnd,
247
                       char[] dst, int dstOffset)
248
  {
249
    if (srcOffset < 0 || srcEnd > count || srcEnd < srcOffset)
250
      throw new StringIndexOutOfBoundsException();
251
    System.arraycopy(value, srcOffset, dst, dstOffset, srcEnd - srcOffset);
252
  }
253
 
254
  /**
255
   * Set the character at the specified index.
256
   *
257
   * @param index the index of the character to set starting at 0
258
   * @param ch the value to set that character to
259
   * @throws IndexOutOfBoundsException if index is negative or &gt;= length()
260
   *         (while unspecified, this is a StringIndexOutOfBoundsException)
261
   */
262
  public void setCharAt(int index, char ch)
263
  {
264
    if (index < 0 || index >= count)
265
      throw new StringIndexOutOfBoundsException(index);
266
    // Call ensureCapacity to enforce copy-on-write.
267
    ensureCapacity_unsynchronized(count);
268
    value[index] = ch;
269
  }
270
 
271
  /**
272
   * Append the <code>String</code> value of the argument to this
273
   * <code>StringBuffer</code>. Uses <code>String.valueOf()</code> to convert
274
   * to <code>String</code>.
275
   *
276
   * @param obj the <code>Object</code> to convert and append
277
   * @return this <code>StringBuffer</code>
278
   * @see String#valueOf(Object)
279
   * @see #append(String)
280
   */
281
  public AbstractStringBuffer append(Object obj)
282
  {
283
    return append(String.valueOf(obj));
284
  }
285
 
286
  /**
287
   * Append the <code>String</code> to this <code>StringBuffer</code>. If
288
   * str is null, the String "null" is appended.
289
   *
290
   * @param str the <code>String</code> to append
291
   * @return this <code>StringBuffer</code>
292
   */
293
  public AbstractStringBuffer append(String str)
294
  {
295
    if (str == null)
296
      str = "null";
297
    int len = str.count;
298
    ensureCapacity_unsynchronized(count + len);
299
    str.getChars(0, len, value, count);
300
    count += len;
301
    return this;
302
  }
303
 
304
  /**
305
   * Append the <code>StringBuilder</code> value of the argument to this
306
   * <code>StringBuilder</code>. This behaves the same as
307
   * <code>append((Object) stringBuffer)</code>, except it is more efficient.
308
   *
309
   * @param stringBuffer the <code>StringBuilder</code> to convert and append
310
   * @return this <code>StringBuilder</code>
311
   * @see #append(Object)
312
   */
313
  public AbstractStringBuffer append(StringBuffer stringBuffer)
314
  {
315
    if (stringBuffer == null)
316
      return append("null");
317
    synchronized (stringBuffer)
318
      {
319
        int len = stringBuffer.count;
320
        ensureCapacity(count + len);
321
        System.arraycopy(stringBuffer.value, 0, value, count, len);
322
        count += len;
323
      }
324
    return this;
325
  }
326
 
327
  /**
328
   * Append the <code>char</code> array to this <code>StringBuffer</code>.
329
   * This is similar (but more efficient) than
330
   * <code>append(new String(data))</code>, except in the case of null.
331
   *
332
   * @param data the <code>char[]</code> to append
333
   * @return this <code>StringBuffer</code>
334
   * @throws NullPointerException if <code>str</code> is <code>null</code>
335
   * @see #append(char[], int, int)
336
   */
337
  public AbstractStringBuffer append(char[] data)
338
  {
339
    return append(data, 0, data.length);
340
  }
341
 
342
  /**
343
   * Append part of the <code>char</code> array to this
344
   * <code>StringBuffer</code>. This is similar (but more efficient) than
345
   * <code>append(new String(data, offset, count))</code>, except in the case
346
   * of null.
347
   *
348
   * @param data the <code>char[]</code> to append
349
   * @param offset the start location in <code>str</code>
350
   * @param count the number of characters to get from <code>str</code>
351
   * @return this <code>StringBuffer</code>
352
   * @throws NullPointerException if <code>str</code> is <code>null</code>
353
   * @throws IndexOutOfBoundsException if offset or count is out of range
354
   *         (while unspecified, this is a StringIndexOutOfBoundsException)
355
   */
356
  public AbstractStringBuffer append(char[] data, int offset, int count)
357
  {
358
    if (offset < 0 || count < 0 || offset > data.length - count)
359
      throw new StringIndexOutOfBoundsException();
360
    ensureCapacity_unsynchronized(this.count + count);
361
    System.arraycopy(data, offset, value, this.count, count);
362
    this.count += count;
363
    return this;
364
  }
365
 
366
  /**
367
   * Append the <code>String</code> value of the argument to this
368
   * <code>StringBuffer</code>. Uses <code>String.valueOf()</code> to convert
369
   * to <code>String</code>.
370
   *
371
   * @param bool the <code>boolean</code> to convert and append
372
   * @return this <code>StringBuffer</code>
373
   * @see String#valueOf(boolean)
374
   */
375
  public AbstractStringBuffer append(boolean bool)
376
  {
377
    return append(bool ? "true" : "false");
378
  }
379
 
380
  /**
381
   * Append the <code>char</code> to this <code>StringBuffer</code>.
382
   *
383
   * @param ch the <code>char</code> to append
384
   * @return this <code>StringBuffer</code>
385
   */
386
  public AbstractStringBuffer append(char ch)
387
  {
388
    ensureCapacity_unsynchronized(count + 1);
389
    value[count++] = ch;
390
    return this;
391
  }
392
 
393
  /**
394
   * Append the characters in the <code>CharSequence</code> to this
395
   * buffer.
396
   *
397
   * @param seq the <code>CharSequence</code> providing the characters
398
   * @return this <code>StringBuffer</code>
399
   * @since 1.5
400
   */
401
  public AbstractStringBuffer append(CharSequence seq)
402
  {
403
    return append(seq, 0, seq.length());
404
  }
405
 
406
  /**
407
   * Append some characters from the <code>CharSequence</code> to this
408
   * buffer.  If the argument is null, the <code>seq</code> is assumed
409
   * to be equal to the string <code>"null"</code>.
410
   *
411
   * @param seq the <code>CharSequence</code> providing the characters
412
   * @param start the starting index
413
   * @param end one past the final index
414
   * @return this <code>StringBuffer</code>
415
   * @since 1.5
416
   */
417
  public AbstractStringBuffer append(CharSequence seq, int start, int end)
418
  {
419
    if (seq == null)
420
      seq = "null";
421
    if (end - start > 0)
422
      {
423
        ensureCapacity_unsynchronized(count + end - start);
424
        for (; start < end; ++start)
425
          value[count++] = seq.charAt(start);
426
      }
427
    return this;
428
  }
429
 
430
  /**
431
   * Append the <code>String</code> value of the argument to this
432
   * <code>StringBuffer</code>. Uses <code>String.valueOf()</code> to convert
433
   * to <code>String</code>.
434
   *
435
   * @param inum the <code>int</code> to convert and append
436
   * @return this <code>StringBuffer</code>
437
   * @see String#valueOf(int)
438
   */
439
  // GCJ LOCAL: this is native for efficiency.
440
  public native AbstractStringBuffer append (int inum);
441
 
442
  /**
443
   * Append the <code>String</code> value of the argument to this
444
   * <code>StringBuffer</code>. Uses <code>String.valueOf()</code> to convert
445
   * to <code>String</code>.
446
   *
447
   * @param lnum the <code>long</code> to convert and append
448
   * @return this <code>StringBuffer</code>
449
   * @see String#valueOf(long)
450
   */
451
  public AbstractStringBuffer append(long lnum)
452
  {
453
    return append(Long.toString(lnum, 10));
454
  }
455
 
456
  /**
457
   * Append the <code>String</code> value of the argument to this
458
   * <code>StringBuffer</code>. Uses <code>String.valueOf()</code> to convert
459
   * to <code>String</code>.
460
   *
461
   * @param fnum the <code>float</code> to convert and append
462
   * @return this <code>StringBuffer</code>
463
   * @see String#valueOf(float)
464
   */
465
  public AbstractStringBuffer append(float fnum)
466
  {
467
    return append(Float.toString(fnum));
468
  }
469
 
470
  /**
471
   * Append the <code>String</code> value of the argument to this
472
   * <code>StringBuffer</code>. Uses <code>String.valueOf()</code> to convert
473
   * to <code>String</code>.
474
   *
475
   * @param dnum the <code>double</code> to convert and append
476
   * @return this <code>StringBuffer</code>
477
   * @see String#valueOf(double)
478
   */
479
  public AbstractStringBuffer append(double dnum)
480
  {
481
    return append(Double.toString(dnum));
482
  }
483
 
484
  /**
485
   * Append the code point to this <code>StringBuffer</code>.
486
   * This is like #append(char), but will append two characters
487
   * if a supplementary code point is given.
488
   *
489
   * @param code the code point to append
490
   * @return this <code>StringBuffer</code>
491
   * @see Character#toChars(int, char[], int)
492
   * @since 1.5
493
   */
494
  public AbstractStringBuffer appendCodePoint(int code)
495
  {
496
    int len = Character.charCount(code);
497
    ensureCapacity_unsynchronized(count + len);
498
    Character.toChars(code, value, count);
499
    count += len;
500
    return this;
501
  }
502
 
503
  /**
504
   * Delete characters from this <code>StringBuffer</code>.
505
   * <code>delete(10, 12)</code> will delete 10 and 11, but not 12. It is
506
   * harmless for end to be larger than length().
507
   *
508
   * @param start the first character to delete
509
   * @param end the index after the last character to delete
510
   * @return this <code>StringBuffer</code>
511
   * @throws StringIndexOutOfBoundsException if start or end are out of bounds
512
   * @since 1.2
513
   */
514
  public AbstractStringBuffer delete(int start, int end)
515
  {
516
    if (start < 0 || start > count || start > end)
517
      throw new StringIndexOutOfBoundsException(start);
518
    if (end > count)
519
      end = count;
520
    ensureCapacity_unsynchronized(count);
521
    if (count - end != 0)
522
      System.arraycopy(value, end, value, start, count - end);
523
    count -= end - start;
524
    return this;
525
  }
526
 
527
  /**
528
   * Delete a character from this <code>StringBuffer</code>.
529
   *
530
   * @param index the index of the character to delete
531
   * @return this <code>StringBuffer</code>
532
   * @throws StringIndexOutOfBoundsException if index is out of bounds
533
   * @since 1.2
534
   */
535
  public AbstractStringBuffer deleteCharAt(int index)
536
  {
537
    return delete(index, index + 1);
538
  }
539
 
540
  /**
541
   * Replace characters between index <code>start</code> (inclusive) and
542
   * <code>end</code> (exclusive) with <code>str</code>. If <code>end</code>
543
   * is larger than the size of this StringBuffer, all characters after
544
   * <code>start</code> are replaced.
545
   *
546
   * @param start the beginning index of characters to delete (inclusive)
547
   * @param end the ending index of characters to delete (exclusive)
548
   * @param str the new <code>String</code> to insert
549
   * @return this <code>StringBuffer</code>
550
   * @throws StringIndexOutOfBoundsException if start or end are out of bounds
551
   * @throws NullPointerException if str is null
552
   * @since 1.2
553
   */
554
  public AbstractStringBuffer replace(int start, int end, String str)
555
  {
556
    if (start < 0 || start > count || start > end)
557
      throw new StringIndexOutOfBoundsException(start);
558
 
559
    int len = str.count;
560
    // Calculate the difference in 'count' after the replace.
561
    int delta = len - (end > count ? count : end) + start;
562
    ensureCapacity_unsynchronized(count + delta);
563
 
564
    if (delta != 0 && end < count)
565
      System.arraycopy(value, end, value, end + delta, count - end);
566
 
567
    str.getChars(0, len, value, start);
568
    count += delta;
569
    return this;
570
  }
571
 
572
  /**
573
   * Insert a subarray of the <code>char[]</code> argument into this
574
   * <code>StringBuffer</code>.
575
   *
576
   * @param offset the place to insert in this buffer
577
   * @param str the <code>char[]</code> to insert
578
   * @param str_offset the index in <code>str</code> to start inserting from
579
   * @param len the number of characters to insert
580
   * @return this <code>StringBuffer</code>
581
   * @throws NullPointerException if <code>str</code> is <code>null</code>
582
   * @throws StringIndexOutOfBoundsException if any index is out of bounds
583
   * @since 1.2
584
   */
585
  public AbstractStringBuffer insert(int offset, char[] str, int str_offset, int len)
586
  {
587
    if (offset < 0 || offset > count || len < 0
588
        || str_offset < 0 || str_offset > str.length - len)
589
      throw new StringIndexOutOfBoundsException();
590
    ensureCapacity_unsynchronized(count + len);
591
    System.arraycopy(value, offset, value, offset + len, count - offset);
592
    System.arraycopy(str, str_offset, value, offset, len);
593
    count += len;
594
    return this;
595
  }
596
 
597
  /**
598
   * Insert the <code>String</code> value of the argument into this
599
   * <code>StringBuffer</code>. Uses <code>String.valueOf()</code> to convert
600
   * to <code>String</code>.
601
   *
602
   * @param offset the place to insert in this buffer
603
   * @param obj the <code>Object</code> to convert and insert
604
   * @return this <code>StringBuffer</code>
605
   * @exception StringIndexOutOfBoundsException if offset is out of bounds
606
   * @see String#valueOf(Object)
607
   */
608
  public AbstractStringBuffer insert(int offset, Object obj)
609
  {
610
    return insert(offset, obj == null ? "null" : obj.toString());
611
  }
612
 
613
  /**
614
   * Insert the <code>String</code> argument into this
615
   * <code>StringBuffer</code>. If str is null, the String "null" is used
616
   * instead.
617
   *
618
   * @param offset the place to insert in this buffer
619
   * @param str the <code>String</code> to insert
620
   * @return this <code>StringBuffer</code>
621
   * @throws StringIndexOutOfBoundsException if offset is out of bounds
622
   */
623
  public AbstractStringBuffer insert(int offset, String str)
624
  {
625
    if (offset < 0 || offset > count)
626
      throw new StringIndexOutOfBoundsException(offset);
627
    if (str == null)
628
      str = "null";
629
    int len = str.count;
630
    ensureCapacity_unsynchronized(count + len);
631
    System.arraycopy(value, offset, value, offset + len, count - offset);
632
    str.getChars(0, len, value, offset);
633
    count += len;
634
    return this;
635
  }
636
 
637
  /**
638
   * Insert the <code>CharSequence</code> argument into this
639
   * <code>StringBuffer</code>.  If the sequence is null, the String
640
   * "null" is used instead.
641
   *
642
   * @param offset the place to insert in this buffer
643
   * @param sequence the <code>CharSequence</code> to insert
644
   * @return this <code>StringBuffer</code>
645
   * @throws IndexOutOfBoundsException if offset is out of bounds
646
   * @since 1.5
647
   */
648
  public AbstractStringBuffer insert(int offset, CharSequence sequence)
649
  {
650
    if (sequence == null)
651
      sequence = "null";
652
    return insert(offset, sequence, 0, sequence.length());
653
  }
654
 
655
  /**
656
   * Insert a subsequence of the <code>CharSequence</code> argument into this
657
   * <code>StringBuffer</code>.  If the sequence is null, the String
658
   * "null" is used instead.
659
   *
660
   * @param offset the place to insert in this buffer
661
   * @param sequence the <code>CharSequence</code> to insert
662
   * @param start the starting index of the subsequence
663
   * @param end one past the ending index of the subsequence
664
   * @return this <code>StringBuffer</code>
665
   * @throws IndexOutOfBoundsException if offset, start,
666
   * or end are out of bounds
667
   * @since 1.5
668
   */
669
  public AbstractStringBuffer insert(int offset, CharSequence sequence, int start, int end)
670
  {
671
    if (sequence == null)
672
      sequence = "null";
673
    if (start < 0 || end < 0 || start > end || end > sequence.length())
674
      throw new IndexOutOfBoundsException();
675
    int len = end - start;
676
    ensureCapacity_unsynchronized(count + len);
677
    System.arraycopy(value, offset, value, offset + len, count - offset);
678
    for (int i = start; i < end; ++i)
679
      value[offset++] = sequence.charAt(i);
680
    count += len;
681
    return this;
682
  }
683
 
684
  /**
685
   * Insert the <code>char[]</code> argument into this
686
   * <code>StringBuffer</code>.
687
   *
688
   * @param offset the place to insert in this buffer
689
   * @param data the <code>char[]</code> to insert
690
   * @return this <code>StringBuffer</code>
691
   * @throws NullPointerException if <code>data</code> is <code>null</code>
692
   * @throws StringIndexOutOfBoundsException if offset is out of bounds
693
   * @see #insert(int, char[], int, int)
694
   */
695
  public AbstractStringBuffer insert(int offset, char[] data)
696
  {
697
    return insert(offset, data, 0, data.length);
698
  }
699
 
700
  /**
701
   * Insert the <code>String</code> value of the argument into this
702
   * <code>StringBuffer</code>. Uses <code>String.valueOf()</code> to convert
703
   * to <code>String</code>.
704
   *
705
   * @param offset the place to insert in this buffer
706
   * @param bool the <code>boolean</code> to convert and insert
707
   * @return this <code>StringBuffer</code>
708
   * @throws StringIndexOutOfBoundsException if offset is out of bounds
709
   * @see String#valueOf(boolean)
710
   */
711
  public AbstractStringBuffer insert(int offset, boolean bool)
712
  {
713
    return insert(offset, bool ? "true" : "false");
714
  }
715
 
716
  /**
717
   * Insert the <code>char</code> argument into this <code>StringBuffer</code>.
718
   *
719
   * @param offset the place to insert in this buffer
720
   * @param ch the <code>char</code> to insert
721
   * @return this <code>StringBuffer</code>
722
   * @throws StringIndexOutOfBoundsException if offset is out of bounds
723
   */
724
  public AbstractStringBuffer insert(int offset, char ch)
725
  {
726
    if (offset < 0 || offset > count)
727
      throw new StringIndexOutOfBoundsException(offset);
728
    ensureCapacity_unsynchronized(count + 1);
729
    System.arraycopy(value, offset, value, offset + 1, count - offset);
730
    value[offset] = ch;
731
    count++;
732
    return this;
733
  }
734
 
735
  /**
736
   * Insert the <code>String</code> value of the argument into this
737
   * <code>StringBuffer</code>. Uses <code>String.valueOf()</code> to convert
738
   * to <code>String</code>.
739
   *
740
   * @param offset the place to insert in this buffer
741
   * @param inum the <code>int</code> to convert and insert
742
   * @return this <code>StringBuffer</code>
743
   * @throws StringIndexOutOfBoundsException if offset is out of bounds
744
   * @see String#valueOf(int)
745
   */
746
  public AbstractStringBuffer insert(int offset, int inum)
747
  {
748
    return insert(offset, String.valueOf(inum));
749
  }
750
 
751
  /**
752
   * Insert the <code>String</code> value of the argument into this
753
   * <code>StringBuffer</code>. Uses <code>String.valueOf()</code> to convert
754
   * to <code>String</code>.
755
   *
756
   * @param offset the place to insert in this buffer
757
   * @param lnum the <code>long</code> to convert and insert
758
   * @return this <code>StringBuffer</code>
759
   * @throws StringIndexOutOfBoundsException if offset is out of bounds
760
   * @see String#valueOf(long)
761
   */
762
  public AbstractStringBuffer insert(int offset, long lnum)
763
  {
764
    return insert(offset, Long.toString(lnum, 10));
765
  }
766
 
767
  /**
768
   * Insert the <code>String</code> value of the argument into this
769
   * <code>StringBuffer</code>. Uses <code>String.valueOf()</code> to convert
770
   * to <code>String</code>.
771
   *
772
   * @param offset the place to insert in this buffer
773
   * @param fnum the <code>float</code> to convert and insert
774
   * @return this <code>StringBuffer</code>
775
   * @throws StringIndexOutOfBoundsException if offset is out of bounds
776
   * @see String#valueOf(float)
777
   */
778
  public AbstractStringBuffer insert(int offset, float fnum)
779
  {
780
    return insert(offset, Float.toString(fnum));
781
  }
782
 
783
  /**
784
   * Insert the <code>String</code> value of the argument into this
785
   * <code>StringBuffer</code>. Uses <code>String.valueOf()</code> to convert
786
   * to <code>String</code>.
787
   *
788
   * @param offset the place to insert in this buffer
789
   * @param dnum the <code>double</code> to convert and insert
790
   * @return this <code>StringBuffer</code>
791
   * @throws StringIndexOutOfBoundsException if offset is out of bounds
792
   * @see String#valueOf(double)
793
   */
794
  public AbstractStringBuffer insert(int offset, double dnum)
795
  {
796
    return insert(offset, Double.toString(dnum));
797
  }
798
 
799
  /**
800
   * Finds the first instance of a substring in this StringBuilder.
801
   *
802
   * @param str String to find
803
   * @return location (base 0) of the String, or -1 if not found
804
   * @throws NullPointerException if str is null
805
   * @see #indexOf(String, int)
806
   */
807
  public int indexOf(String str)
808
  {
809
    return indexOf(str, 0);
810
  }
811
 
812
  /**
813
   * Finds the first instance of a String in this StringBuffer, starting at
814
   * a given index.  If starting index is less than 0, the search starts at
815
   * the beginning of this String.  If the starting index is greater than the
816
   * length of this String, or the substring is not found, -1 is returned.
817
   *
818
   * @param str String to find
819
   * @param fromIndex index to start the search
820
   * @return location (base 0) of the String, or -1 if not found
821
   * @throws NullPointerException if str is null
822
   * @since 1.4
823
   */
824
  public int indexOf(String str, int fromIndex)
825
  {
826
    if (fromIndex < 0)
827
      fromIndex = 0;
828
    int limit = count - str.count;
829
    for ( ; fromIndex <= limit; fromIndex++)
830
      if (regionMatches(fromIndex, str))
831
        return fromIndex;
832
    return -1;
833
  }
834
 
835
  /**
836
   * Finds the last instance of a substring in this StringBuffer.
837
   *
838
   * @param str String to find
839
   * @return location (base 0) of the String, or -1 if not found
840
   * @throws NullPointerException if str is null
841
   * @see #lastIndexOf(String, int)
842
   * @since 1.4
843
   */
844
  public int lastIndexOf(String str)
845
  {
846
    return lastIndexOf(str, count - str.count);
847
  }
848
 
849
  /**
850
   * Finds the last instance of a String in this StringBuffer, starting at a
851
   * given index.  If starting index is greater than the maximum valid index,
852
   * then the search begins at the end of this String.  If the starting index
853
   * is less than zero, or the substring is not found, -1 is returned.
854
   *
855
   * @param str String to find
856
   * @param fromIndex index to start the search
857
   * @return location (base 0) of the String, or -1 if not found
858
   * @throws NullPointerException if str is null
859
   * @since 1.4
860
   */
861
  public int lastIndexOf(String str, int fromIndex)
862
  {
863
    fromIndex = Math.min(fromIndex, count - str.count);
864
    for ( ; fromIndex >= 0; fromIndex--)
865
      if (regionMatches(fromIndex, str))
866
        return fromIndex;
867
    return -1;
868
  }
869
 
870
  /**
871
   * Reverse the characters in this StringBuffer. The same sequence of
872
   * characters exists, but in the reverse index ordering.
873
   *
874
   * @return this <code>StringBuffer</code>
875
   */
876
  public AbstractStringBuffer reverse()
877
  {
878
    // Call ensureCapacity to enforce copy-on-write.
879
    ensureCapacity_unsynchronized(count);
880
    for (int i = count >> 1, j = count - i; --i >= 0; ++j)
881
      {
882
        char c = value[i];
883
        value[i] = value[j];
884
        value[j] = c;
885
      }
886
    return this;
887
  }
888
 
889
  /**
890
   * This may reduce the amount of memory used by the StringBuffer,
891
   * by resizing the internal array to remove unused space.  However,
892
   * this method is not required to resize, so this behavior cannot
893
   * be relied upon.
894
   * @since 1.5
895
   */
896
  public void trimToSize()
897
  {
898
    int wouldSave = value.length - count;
899
    // Some random heuristics: if we save less than 20 characters, who
900
    // cares.
901
    if (wouldSave < 20)
902
      return;
903
    // If we save more than 200 characters, shrink.
904
    // If we save more than 1/4 of the buffer, shrink.
905
    if (wouldSave > 200 || wouldSave * 4 > value.length)
906
      {
907
        char[] newValue = new char[count];
908
        System.arraycopy(value, 0, newValue, 0, count);
909
        value = newValue;
910
      }
911
  }
912
 
913
  /**
914
   * Return the number of code points between two indices in the
915
   * <code>StringBuffer</code>.  An unpaired surrogate counts as a
916
   * code point for this purpose.  Characters outside the indicated
917
   * range are not examined, even if the range ends in the middle of a
918
   * surrogate pair.
919
   *
920
   * @param start the starting index
921
   * @param end one past the ending index
922
   * @return the number of code points
923
   * @since 1.5
924
   */
925
  public int codePointCount(int start, int end)
926
  {
927
    if (start < 0 || end >= count || start > end)
928
      throw new StringIndexOutOfBoundsException();
929
 
930
    int count = 0;
931
    while (start < end)
932
      {
933
        char base = value[start];
934
        if (base < Character.MIN_HIGH_SURROGATE
935
            || base > Character.MAX_HIGH_SURROGATE
936
            || start == end
937
            || start == count
938
            || value[start + 1] < Character.MIN_LOW_SURROGATE
939
            || value[start + 1] > Character.MAX_LOW_SURROGATE)
940
          {
941
            // Nothing.
942
          }
943
        else
944
          {
945
            // Surrogate pair.
946
            ++start;
947
          }
948
        ++start;
949
        ++count;
950
      }
951
    return count;
952
  }
953
 
954
  /**
955
   * Starting at the given index, this counts forward by the indicated
956
   * number of code points, and then returns the resulting index.  An
957
   * unpaired surrogate counts as a single code point for this
958
   * purpose.
959
   *
960
   * @param start the starting index
961
   * @param codePoints the number of code points
962
   * @return the resulting index
963
   * @since 1.5
964
   */
965
  public int offsetByCodePoints(int start, int codePoints)
966
  {
967
    while (codePoints > 0)
968
      {
969
        char base = value[start];
970
        if (base < Character.MIN_HIGH_SURROGATE
971
            || base > Character.MAX_HIGH_SURROGATE
972
            || start == count
973
            || value[start + 1] < Character.MIN_LOW_SURROGATE
974
            || value[start + 1] > Character.MAX_LOW_SURROGATE)
975
          {
976
            // Nothing.
977
          }
978
        else
979
          {
980
            // Surrogate pair.
981
            ++start;
982
          }
983
        ++start;
984
        --codePoints;
985
      }
986
    return start;
987
  }
988
 
989
  /**
990
   * Increase the capacity of this <code>StringBuilder</code>. This will
991
   * ensure that an expensive growing operation will not occur until
992
   * <code>minimumCapacity</code> is reached. The buffer is grown to the
993
   * larger of <code>minimumCapacity</code> and
994
   * <code>capacity() * 2 + 2</code>, if it is not already large enough.
995
   *
996
   * @param minimumCapacity the new capacity
997
   * @see #capacity()
998
   */
999
  void ensureCapacity_unsynchronized(int minimumCapacity)
1000
  {
1001
    if (minimumCapacity > value.length)
1002
      {
1003
        int max = value.length * 2 + 2;
1004
        minimumCapacity = (minimumCapacity < max ? max : minimumCapacity);
1005
        char[] nb = new char[minimumCapacity];
1006
        System.arraycopy(value, 0, nb, 0, count);
1007
        value = nb;
1008
      }
1009
  }
1010
 
1011
  /**
1012
   * Predicate which determines if a substring of this matches another String
1013
   * starting at a specified offset for each String and continuing for a
1014
   * specified length. This is more efficient than creating a String to call
1015
   * indexOf on.
1016
   *
1017
   * @param toffset index to start comparison at for this String
1018
   * @param other non-null String to compare to region of this
1019
   * @return true if regions match, false otherwise
1020
   * @see #indexOf(String, int)
1021
   * @see #lastIndexOf(String, int)
1022
   * @see String#regionMatches(boolean, int, String, int, int)
1023
   */
1024
  // GCJ LOCAL: native for gcj.
1025
  private native boolean regionMatches(int toffset, String other);
1026
 
1027
}

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