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1 771 jeremybenn
/* URI.java -- An URI class
2
   Copyright (C) 2002, 2004, 2005, 2006, 2008  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 java.net;
40
 
41
import gnu.java.lang.CPStringBuilder;
42
 
43
import java.io.IOException;
44
import java.io.ObjectInputStream;
45
import java.io.ObjectOutputStream;
46
import java.io.Serializable;
47
import java.util.regex.Matcher;
48
import java.util.regex.Pattern;
49
 
50
/**
51
 * <p>
52
 * A URI instance represents that defined by
53
 * <a href="http://www.ietf.org/rfc/rfc3986.txt">RFC3986</a>,
54
 * with some deviations.
55
 * </p>
56
 * <p>
57
 * At its highest level, a URI consists of:
58
 * </p>
59
 * <code>[<em>scheme</em><strong>:</strong>]<em>scheme-specific-part</em>
60
 * [<strong>#</strong><em>fragment</em>]</code>
61
 * </p>
62
 * <p>
63
 * where <strong>#</strong> and <strong>:</strong> are literal characters,
64
 * and those parts enclosed in square brackets are optional.
65
 * </p>
66
 * <p>
67
 * There are two main types of URI.  An <em>opaque</em> URI is one
68
 * which just consists of the above three parts, and is not further
69
 * defined.  An example of such a URI would be <em>mailto:</em> URI.
70
 * In contrast, <em>hierarchical</em> URIs give further definition
71
 * to the scheme-specific part, so as represent some part of a hierarchical
72
 * structure.
73
 * </p>
74
 * <p>
75
 * <code>[<strong>//</strong><em>authority</em>][<em>path</em>]
76
 * [<strong>?</strong><em>query</em>]</code>
77
 * </p>
78
 * <p>
79
 * with <strong>/</strong> and <strong>?</strong> being literal characters.
80
 * When server-based, the authority section is further subdivided into:
81
 * </p>
82
 * <p>
83
 * <code>[<em>user-info</em><strong>@</strong>]<em>host</em>
84
 * [<strong>:</strong><em>port</em>]</code>
85
 * </p>
86
 * <p>
87
 * with <strong>@</strong> and <strong>:</strong> as literal characters.
88
 * Authority sections that are not server-based are said to be registry-based.
89
 * </p>
90
 * <p>
91
 * Hierarchical URIs can be either relative or absolute.  Absolute URIs
92
 * always start with a `<strong>/</strong>', while relative URIs don't
93
 * specify a scheme.  Opaque URIs are always absolute.
94
 * </p>
95
 * <p>
96
 * Each part of the URI may have one of three states: undefined, empty
97
 * or containing some content.  The former two of these are represented
98
 * by <code>null</code> and the empty string in Java, respectively.
99
 * The scheme-specific part may never be undefined.  It also follows from
100
 * this that the path sub-part may also not be undefined, so as to ensure
101
 * the former.
102
 * </p>
103
 * <h2>Character Escaping and Quoting</h2>
104
 * <p>
105
 * The characters that can be used within a valid URI are restricted.
106
 * There are two main classes of characters which can't be used as is
107
 * within the URI:
108
 * </p>
109
 * <ol>
110
 * <li><strong>Characters outside the US-ASCII character set</strong>.
111
 * These have to be <strong>escaped</strong> in order to create
112
 * an RFC-compliant URI; this means replacing the character with the
113
 * appropriate hexadecimal value, preceded by a `%'.</li>
114
 * <li><strong>Illegal characters</strong> (e.g. space characters,
115
 * control characters) are quoted, which results in them being encoded
116
 * in the same way as non-US-ASCII characters.</li>
117
 * </ol>
118
 * <p>
119
 * The set of valid characters differs depending on the section of the URI:
120
 * </p>
121
 * <ul>
122
 * <li><strong>Scheme</strong>: Must be an alphanumeric, `-', `.' or '+'.</li>
123
 * <li><strong>Authority</strong>:Composed of the username, host, port, `@'
124
 * and `:'.</li>
125
 * <li><strong>Username</strong>: Allows unreserved or percent-encoded
126
 * characters, sub-delimiters and `:'.</li>
127
 * <li><strong>Host</strong>: Allows unreserved or percent-encoded
128
 * characters, sub-delimiters and square brackets (`[' and `]') for IPv6
129
 * addresses.</li>
130
 * <li><strong>Port</strong>: Digits only.</li>
131
 * <li><strong>Path</strong>: Allows the path characters and `/'.
132
 * <li><strong>Query</strong>: Allows the path characters, `?' and '/'.
133
 * <li><strong>Fragment</strong>: Allows the path characters, `?' and '/'.
134
 * </ul>
135
 * <p>
136
 * These definitions reference the following sets of characters:
137
 * </p>
138
 * <ul>
139
 * <li><strong>Unreserved characters</strong>: The alphanumerics plus
140
 * `-', `.', `_', and `~'.</li>
141
 * <li><strong>Sub-delimiters</strong>: `!', `$', `&', `(', `)', `*',
142
 * `+', `,', `;', `=' and the single-quote itself.</li>
143
 * <li><strong>Path characters</strong>: Unreserved and percent-encoded
144
 * characters and the sub-delimiters along with `@' and `:'.</li>
145
 * </ul>
146
 * <p>
147
 * The constructors and accessor methods allow the use and retrieval of
148
 * URI components which contain non-US-ASCII characters directly.
149
 * They are only escaped when the <code>toASCIIString()</code> method
150
 * is used.  In contrast, illegal characters are always quoted, with the
151
 * exception of the return values of the non-raw accessors.
152
 * </p>
153
 *
154
 * @author Ito Kazumitsu (ito.kazumitsu@hitachi-cable.co.jp)
155
 * @author Dalibor Topic (robilad@kaffe.org)
156
 * @author Michael Koch (konqueror@gmx.de)
157
 * @author Andrew John Hughes (gnu_andrew@member.fsf.org)
158
 * @since 1.4
159
 */
160
public final class URI
161
  implements Comparable<URI>, Serializable
162
{
163
  /**
164
   * For serialization compatability.
165
   */
166
  static final long serialVersionUID = -6052424284110960213L;
167
 
168
  /**
169
   * Regular expression for parsing URIs.
170
   *
171
   * Taken from RFC 2396, Appendix B.
172
   * This expression doesn't parse IPv6 addresses.
173
   */
174
  private static final String URI_REGEXP =
175
    "^(([^:/?#]+):)?((//([^/?#]*))?([^?#]*)(\\?([^#]*))?)?(#(.*))?";
176
 
177
  /**
178
   * Regular expression for parsing the authority segment.
179
   */
180
  private static final String AUTHORITY_REGEXP =
181
    "(([^?#]*)@)?([^?#:]*)(:([0-9]*))?";
182
 
183
  /**
184
   * Valid characters (taken from rfc2396/3986)
185
   */
186
  private static final String RFC2396_DIGIT = "0123456789";
187
  private static final String RFC2396_LOWALPHA = "abcdefghijklmnopqrstuvwxyz";
188
  private static final String RFC2396_UPALPHA = "ABCDEFGHIJKLMNOPQRSTUVWXYZ";
189
  private static final String RFC2396_ALPHA =
190
    RFC2396_LOWALPHA + RFC2396_UPALPHA;
191
  private static final String RFC2396_ALPHANUM = RFC2396_DIGIT + RFC2396_ALPHA;
192
  private static final String RFC3986_UNRESERVED = RFC2396_ALPHANUM + "-._~";
193
  private static final String RFC3986_SUBDELIMS = "!$&'()*+,;=";
194
  private static final String RFC3986_REG_NAME =
195
    RFC3986_UNRESERVED + RFC3986_SUBDELIMS + "%";
196
  private static final String RFC3986_PCHAR = RFC3986_UNRESERVED +
197
    RFC3986_SUBDELIMS + ":@%";
198
  private static final String RFC3986_SEGMENT = RFC3986_PCHAR;
199
  private static final String RFC3986_PATH_SEGMENTS = RFC3986_SEGMENT + "/";
200
  private static final String RFC3986_SSP = RFC3986_PCHAR + "?/";
201
  private static final String RFC3986_HOST = RFC3986_REG_NAME + "[]";
202
  private static final String RFC3986_USERINFO = RFC3986_REG_NAME + ":";
203
 
204
  /**
205
   * Index of scheme component in parsed URI.
206
   */
207
  private static final int SCHEME_GROUP = 2;
208
 
209
  /**
210
   * Index of scheme-specific-part in parsed URI.
211
   */
212
  private static final int SCHEME_SPEC_PART_GROUP = 3;
213
 
214
  /**
215
   * Index of authority component in parsed URI.
216
   */
217
  private static final int AUTHORITY_GROUP = 5;
218
 
219
  /**
220
   * Index of path component in parsed URI.
221
   */
222
  private static final int PATH_GROUP = 6;
223
 
224
  /**
225
   * Index of query component in parsed URI.
226
   */
227
  private static final int QUERY_GROUP = 8;
228
 
229
  /**
230
   * Index of fragment component in parsed URI.
231
   */
232
  private static final int FRAGMENT_GROUP = 10;
233
 
234
  /**
235
   * Index of userinfo component in parsed authority section.
236
   */
237
  private static final int AUTHORITY_USERINFO_GROUP = 2;
238
 
239
  /**
240
   * Index of host component in parsed authority section.
241
   */
242
  private static final int AUTHORITY_HOST_GROUP = 3;
243
 
244
  /**
245
   * Index of port component in parsed authority section.
246
   */
247
  private static final int AUTHORITY_PORT_GROUP = 5;
248
 
249
  /**
250
   * The compiled version of the URI regular expression.
251
   */
252
  private static final Pattern URI_PATTERN;
253
 
254
  /**
255
   * The compiled version of the authority regular expression.
256
   */
257
  private static final Pattern AUTHORITY_PATTERN;
258
 
259
  /**
260
   * The set of valid hexadecimal characters.
261
   */
262
  private static final String HEX = "0123456789ABCDEF";
263
 
264
  private transient String scheme;
265
  private transient String rawSchemeSpecificPart;
266
  private transient String schemeSpecificPart;
267
  private transient String rawAuthority;
268
  private transient String authority;
269
  private transient String rawUserInfo;
270
  private transient String userInfo;
271
  private transient String rawHost;
272
  private transient String host;
273
  private transient int port = -1;
274
  private transient String rawPath;
275
  private transient String path;
276
  private transient String rawQuery;
277
  private transient String query;
278
  private transient String rawFragment;
279
  private transient String fragment;
280
  private String string;
281
 
282
  /**
283
   * Static initializer to pre-compile the regular expressions.
284
   */
285
  static
286
  {
287
    URI_PATTERN = Pattern.compile(URI_REGEXP);
288
    AUTHORITY_PATTERN = Pattern.compile(AUTHORITY_REGEXP);
289
  }
290
 
291
  private void readObject(ObjectInputStream is)
292
    throws ClassNotFoundException, IOException
293
  {
294
    this.string = (String) is.readObject();
295
    try
296
      {
297
        parseURI(this.string);
298
      }
299
    catch (URISyntaxException x)
300
      {
301
        // Should not happen.
302
        throw new RuntimeException(x);
303
      }
304
  }
305
 
306
  private void writeObject(ObjectOutputStream os) throws IOException
307
  {
308
    if (string == null)
309
      string = toString();
310
    os.writeObject(string);
311
  }
312
 
313
  /**
314
   * <p>
315
   * Returns the string content of the specified group of the supplied
316
   * matcher.  The returned value is modified according to the following:
317
   * </p>
318
   * <ul>
319
   * <li>If the resulting string has a length greater than 0, then
320
   * that string is returned.</li>
321
   * <li>If a string of zero length, is matched, then the content
322
   * of the preceding group is considered.  If this is also an empty
323
   * string, then <code>null</code> is returned to indicate an undefined
324
   * value.  Otherwise, the value is truly the empty string and this is
325
   * the returned value.</li>
326
   * </ul>
327
   * <p>
328
   * This method is used for matching against all parts of the URI
329
   * that may be either undefined or empty (i.e. all those but the
330
   * scheme-specific part and the path).  In each case, the preceding
331
   * group is the content of the original group, along with some
332
   * additional distinguishing feature.  For example, the preceding
333
   * group for the query includes the preceding question mark,
334
   * while that of the fragment includes the hash symbol.  The presence
335
   * of these features enables disambiguation between the two cases
336
   * of a completely unspecified value and a simple non-existant value.
337
   * The scheme differs in that it will never return an empty string;
338
   * the delimiter follows the scheme rather than preceding it, so
339
   * it becomes part of the following section.  The same is true
340
   * of the user information.
341
   * </p>
342
   *
343
   * @param match the matcher, which contains the results of the URI
344
   *              matched against the URI regular expression.
345
   * @return either the matched content, <code>null</code> for undefined
346
   *         values, or an empty string for a URI part with empty content.
347
   */
348
  private static String getURIGroup(Matcher match, int group)
349
  {
350
    String matched = match.group(group);
351
    if (matched == null || matched.length() == 0)
352
      {
353
        String prevMatched = match.group(group -1);
354
        if (prevMatched == null || prevMatched.length() == 0)
355
          return null;
356
        else
357
          return "";
358
      }
359
    return matched;
360
  }
361
 
362
  /**
363
   * Sets fields of this URI by parsing the given string.
364
   *
365
   * @param str The string to parse
366
   *
367
   * @exception URISyntaxException If the given string violates RFC 2396
368
   */
369
  private void parseURI(String str) throws URISyntaxException
370
  {
371
    Matcher matcher = URI_PATTERN.matcher(str);
372
 
373
    if (matcher.matches())
374
      {
375
        scheme = getURIGroup(matcher, SCHEME_GROUP);
376
        rawSchemeSpecificPart = matcher.group(SCHEME_SPEC_PART_GROUP);
377
        schemeSpecificPart = unquote(rawSchemeSpecificPart);
378
        if (!isOpaque())
379
          {
380
            rawAuthority = getURIGroup(matcher, AUTHORITY_GROUP);
381
            rawPath = matcher.group(PATH_GROUP);
382
            rawQuery = getURIGroup(matcher, QUERY_GROUP);
383
          }
384
        rawFragment = getURIGroup(matcher, FRAGMENT_GROUP);
385
      }
386
    else
387
      throw new URISyntaxException(str,
388
                                   "doesn't match URI regular expression");
389
    parseServerAuthority();
390
 
391
    // We must eagerly unquote the parts, because this is the only time
392
    // we may throw an exception.
393
    authority = unquote(rawAuthority);
394
    userInfo = unquote(rawUserInfo);
395
    host = unquote(rawHost);
396
    path = unquote(rawPath);
397
    query = unquote(rawQuery);
398
    fragment = unquote(rawFragment);
399
  }
400
 
401
  /**
402
   * Unquote "%" + hex quotes characters
403
   *
404
   * @param str The string to unquote or null.
405
   *
406
   * @return The unquoted string or null if str was null.
407
   *
408
   * @exception URISyntaxException If the given string contains invalid
409
   * escape sequences.
410
   */
411
  private static String unquote(String str) throws URISyntaxException
412
  {
413
    if (str == null)
414
      return null;
415
    byte[] buf = new byte[str.length()];
416
    int pos = 0;
417
    for (int i = 0; i < str.length(); i++)
418
      {
419
        char c = str.charAt(i);
420
        if (c == '%')
421
          {
422
            if (i + 2 >= str.length())
423
              throw new URISyntaxException(str, "Invalid quoted character");
424
            int hi = Character.digit(str.charAt(++i), 16);
425
            int lo = Character.digit(str.charAt(++i), 16);
426
            if (lo < 0 || hi < 0)
427
              throw new URISyntaxException(str, "Invalid quoted character");
428
            buf[pos++] = (byte) (hi * 16 + lo);
429
          }
430
        else
431
          buf[pos++] = (byte) c;
432
      }
433
    try
434
      {
435
        return new String(buf, 0, pos, "utf-8");
436
      }
437
    catch (java.io.UnsupportedEncodingException x2)
438
      {
439
        throw (Error) new InternalError().initCause(x2);
440
      }
441
  }
442
 
443
  /**
444
   * Quote characters illegal in URIs in given string.
445
   *
446
   * Replace illegal characters by encoding their UTF-8
447
   * representation as "%" + hex code for each resulting
448
   * UTF-8 character.
449
   *
450
   * @param str The string to quote
451
   *
452
   * @return The quoted string.
453
   */
454
  private static String quote(String str)
455
  {
456
    return quote(str, RFC3986_SSP);
457
  }
458
 
459
  /**
460
   * Quote characters illegal in URI authorities in given string.
461
   *
462
   * Replace illegal characters by encoding their UTF-8
463
   * representation as "%" + hex code for each resulting
464
   * UTF-8 character.
465
   *
466
   * @param str The string to quote
467
   *
468
   * @return The quoted string.
469
   */
470
  private static String quoteAuthority(String str)
471
  {
472
    // Technically, we should be using RFC2396_AUTHORITY, but
473
    // it contains no additional characters.
474
    return quote(str, RFC3986_REG_NAME);
475
  }
476
 
477
  /**
478
   * Quotes the characters in the supplied string that are not part of
479
   * the specified set of legal characters.
480
   *
481
   * @param str the string to quote
482
   * @param legalCharacters the set of legal characters
483
   *
484
   * @return the quoted string.
485
   */
486
  private static String quote(String str, String legalCharacters)
487
  {
488
    CPStringBuilder sb = new CPStringBuilder(str.length());
489
    for (int i = 0; i < str.length(); i++)
490
      {
491
        char c = str.charAt(i);
492
        if ((legalCharacters.indexOf(c) == -1)
493
            && (c <= 127))
494
          {
495
            sb.append('%');
496
            sb.append(HEX.charAt(c / 16));
497
            sb.append(HEX.charAt(c % 16));
498
          }
499
        else
500
          sb.append(c);
501
      }
502
    return sb.toString();
503
  }
504
 
505
  /**
506
   * Quote characters illegal in URI hosts in given string.
507
   *
508
   * Replace illegal characters by encoding their UTF-8
509
   * representation as "%" + hex code for each resulting
510
   * UTF-8 character.
511
   *
512
   * @param str The string to quote
513
   *
514
   * @return The quoted string.
515
   */
516
  private static String quoteHost(String str)
517
  {
518
    return quote(str, RFC3986_HOST);
519
  }
520
 
521
  /**
522
   * Quote characters illegal in URI paths in given string.
523
   *
524
   * Replace illegal characters by encoding their UTF-8
525
   * representation as "%" + hex code for each resulting
526
   * UTF-8 character.
527
   *
528
   * @param str The string to quote
529
   *
530
   * @return The quoted string.
531
   */
532
  private static String quotePath(String str)
533
  {
534
    // Technically, we should be using RFC2396_PATH, but
535
    // it contains no additional characters.
536
    return quote(str, RFC3986_PATH_SEGMENTS);
537
  }
538
 
539
  /**
540
   * Quote characters illegal in URI user infos in given string.
541
   *
542
   * Replace illegal characters by encoding their UTF-8
543
   * representation as "%" + hex code for each resulting
544
   * UTF-8 character.
545
   *
546
   * @param str The string to quote
547
   *
548
   * @return The quoted string.
549
   */
550
  private static String quoteUserInfo(String str)
551
  {
552
    return quote(str, RFC3986_USERINFO);
553
  }
554
 
555
  /**
556
   * Creates an URI from the given string
557
   *
558
   * @param str The string to create the URI from
559
   *
560
   * @exception URISyntaxException If the given string violates RFC 2396
561
   * @exception NullPointerException If str is null
562
   */
563
  public URI(String str) throws URISyntaxException
564
  {
565
    this.string = str;
566
    parseURI(str);
567
  }
568
 
569
  /**
570
   * Create an URI from the given components
571
   *
572
   * @param scheme The scheme name
573
   * @param userInfo The username and authorization info
574
   * @param host The hostname
575
   * @param port The port number
576
   * @param path The path
577
   * @param query The query
578
   * @param fragment The fragment
579
   *
580
   * @exception URISyntaxException If the given string violates RFC 2396
581
   */
582
  public URI(String scheme, String userInfo, String host, int port,
583
             String path, String query, String fragment)
584
    throws URISyntaxException
585
  {
586
    this((scheme == null ? "" : scheme + ":")
587
         + (userInfo == null && host == null && port == -1 ? "" : "//")
588
         + (userInfo == null ? "" : quoteUserInfo(userInfo) + "@")
589
         + (host == null ? "" : quoteHost(host))
590
         + (port == -1 ? "" : ":" + String.valueOf(port))
591
         + (path == null ? "" : quotePath(path))
592
         + (query == null ? "" : "?" + quote(query))
593
         + (fragment == null ? "" : "#" + quote(fragment)));
594
  }
595
 
596
  /**
597
   * Create an URI from the given components
598
   *
599
   * @param scheme The scheme name
600
   * @param authority The authority
601
   * @param path The apth
602
   * @param query The query
603
   * @param fragment The fragment
604
   *
605
   * @exception URISyntaxException If the given string violates RFC 2396
606
   */
607
  public URI(String scheme, String authority, String path, String query,
608
             String fragment) throws URISyntaxException
609
  {
610
    this((scheme == null ? "" : scheme + ":")
611
         + (authority == null ? "" : "//" + quoteAuthority(authority))
612
         + (path == null ? "" : quotePath(path))
613
         + (query == null ? "" : "?" + quote(query))
614
         + (fragment == null ? "" : "#" + quote(fragment)));
615
  }
616
 
617
  /**
618
   * Create an URI from the given components
619
   *
620
   * @param scheme The scheme name
621
   * @param host The hostname
622
   * @param path The path
623
   * @param fragment The fragment
624
   *
625
   * @exception URISyntaxException If the given string violates RFC 2396
626
   */
627
  public URI(String scheme, String host, String path, String fragment)
628
    throws URISyntaxException
629
  {
630
    this(scheme, null, host, -1, path, null, fragment);
631
  }
632
 
633
  /**
634
   * Create an URI from the given components
635
   *
636
   * @param scheme The scheme name
637
   * @param ssp The scheme specific part
638
   * @param fragment The fragment
639
   *
640
   * @exception URISyntaxException If the given string violates RFC 2396
641
   */
642
  public URI(String scheme, String ssp, String fragment)
643
    throws URISyntaxException
644
  {
645
    this((scheme == null ? "" : scheme + ":")
646
         + (ssp == null ? "" : quote(ssp))
647
         + (fragment == null ? "" : "#" + quote(fragment)));
648
  }
649
 
650
  /**
651
   * Create an URI from the given string
652
   *
653
   * @param str The string to create the URI from
654
   *
655
   * @exception IllegalArgumentException If the given string violates RFC 2396
656
   * @exception NullPointerException If str is null
657
   */
658
  public static URI create(String str)
659
  {
660
    try
661
      {
662
        return new URI(str);
663
      }
664
    catch (URISyntaxException e)
665
      {
666
        throw (IllegalArgumentException) new IllegalArgumentException()
667
              .initCause(e);
668
      }
669
  }
670
 
671
  /**
672
   * Attempts to parse this URI's authority component, if defined,
673
   * into user-information, host, and port components.  The purpose
674
   * of this method was to disambiguate between some authority sections,
675
   * which form invalid server-based authories, but valid registry
676
   * based authorities.  In the updated RFC 3986, the authority section
677
   * is defined differently, with registry-based authorities part of
678
   * the host section.  Thus, this method is now simply an explicit
679
   * way of parsing any authority section.
680
   *
681
   * @return the URI, with the authority section parsed into user
682
   *         information, host and port components.
683
   * @throws URISyntaxException if the given string violates RFC 2396
684
   */
685
  public URI parseServerAuthority() throws URISyntaxException
686
  {
687
    if (rawAuthority != null)
688
      {
689
        Matcher matcher = AUTHORITY_PATTERN.matcher(rawAuthority);
690
 
691
        if (matcher.matches())
692
          {
693
            rawUserInfo = getURIGroup(matcher, AUTHORITY_USERINFO_GROUP);
694
            rawHost = getURIGroup(matcher, AUTHORITY_HOST_GROUP);
695
 
696
            String portStr = getURIGroup(matcher, AUTHORITY_PORT_GROUP);
697
 
698
            if (portStr != null && ! portStr.isEmpty())
699
              try
700
                {
701
                  port = Integer.parseInt(portStr);
702
                }
703
              catch (NumberFormatException e)
704
                {
705
                  URISyntaxException use =
706
                    new URISyntaxException
707
                      (string, "doesn't match URI regular expression");
708
                  use.initCause(e);
709
                  throw use;
710
                }
711
          }
712
        else
713
          throw new URISyntaxException(string,
714
                                       "doesn't match URI regular expression");
715
      }
716
    return this;
717
  }
718
 
719
  /**
720
   * <p>
721
   * Returns a normalized version of the URI.  If the URI is opaque,
722
   * or its path is already in normal form, then this URI is simply
723
   * returned.  Otherwise, the following transformation of the path
724
   * element takes place:
725
   * </p>
726
   * <ol>
727
   * <li>All `.' segments are removed.</li>
728
   * <li>Each `..' segment which can be paired with a prior non-`..' segment
729
   * is removed along with the preceding segment.</li>
730
   * <li>A `.' segment is added to the front if the first segment contains
731
   * a colon (`:').  This is a deviation from the RFC, which prevents
732
   * confusion between the path and the scheme.</li>
733
   * </ol>
734
   * <p>
735
   * The resulting URI will be free of `.' and `..' segments, barring those
736
   * that were prepended or which couldn't be paired, respectively.
737
   * </p>
738
   *
739
   * @return the normalized URI.
740
   */
741
  public URI normalize()
742
  {
743
    if (isOpaque() || path.indexOf("/./") == -1 && path.indexOf("/../") == -1)
744
      return this;
745
    try
746
      {
747
        return new URI(scheme, authority, normalizePath(path), query,
748
                       fragment);
749
      }
750
    catch (URISyntaxException e)
751
      {
752
        throw (Error) new InternalError("Normalized URI variant could not "+
753
                                        "be constructed").initCause(e);
754
      }
755
  }
756
 
757
  /**
758
   * <p>
759
   * Normalize the given path.  The following transformation takes place:
760
   * </p>
761
   * <ol>
762
   * <li>All `.' segments are removed.</li>
763
   * <li>Each `..' segment which can be paired with a prior non-`..' segment
764
   * is removed along with the preceding segment.</li>
765
   * <li>A `.' segment is added to the front if the first segment contains
766
   * a colon (`:').  This is a deviation from the RFC, which prevents
767
   * confusion between the path and the scheme.</li>
768
   * </ol>
769
   * <p>
770
   * The resulting URI will be free of `.' and `..' segments, barring those
771
   * that were prepended or which couldn't be paired, respectively.
772
   * </p>
773
   *
774
   * @param relativePath the relative path to be normalized.
775
   * @return the normalized path.
776
   */
777
  private String normalizePath(String relativePath)
778
  {
779
    /*
780
       This follows the algorithm in section 5.2.4. of RFC3986,
781
       but doesn't modify the input buffer.
782
    */
783
    CPStringBuilder input = new CPStringBuilder(relativePath);
784
    CPStringBuilder output = new CPStringBuilder();
785
    int start = 0;
786
    while (start < input.length())
787
      {
788
        /* A */
789
        if (input.indexOf("../",start) == start)
790
          {
791
            start += 3;
792
            continue;
793
          }
794
        if (input.indexOf("./",start) == start)
795
          {
796
            start += 2;
797
            continue;
798
          }
799
        /* B */
800
        if (input.indexOf("/./",start) == start)
801
          {
802
            start += 2;
803
            continue;
804
          }
805
        if (input.indexOf("/.",start) == start
806
            && input.charAt(start + 2) != '.')
807
          {
808
            start += 1;
809
            input.setCharAt(start,'/');
810
            continue;
811
          }
812
        /* C */
813
        if (input.indexOf("/../",start) == start)
814
          {
815
            start += 3;
816
            removeLastSegment(output);
817
            continue;
818
          }
819
        if (input.indexOf("/..",start) == start)
820
          {
821
            start += 2;
822
            input.setCharAt(start,'/');
823
            removeLastSegment(output);
824
            continue;
825
          }
826
        /* D */
827
        if (start == input.length() - 1 && input.indexOf(".",start) == start)
828
          {
829
            input.delete(0,1);
830
            continue;
831
          }
832
        if (start == input.length() - 2 && input.indexOf("..",start) == start)
833
          {
834
            input.delete(0,2);
835
            continue;
836
          }
837
        /* E */
838
        int indexOfSlash = input.indexOf("/",start);
839
        while (indexOfSlash == start)
840
          {
841
            output.append("/");
842
            ++start;
843
            indexOfSlash = input.indexOf("/",start);
844
          }
845
        if (indexOfSlash == -1)
846
          indexOfSlash = input.length();
847
        output.append(input.substring(start, indexOfSlash));
848
        start = indexOfSlash;
849
      }
850
    return output.toString();
851
  }
852
 
853
  /**
854
   * Removes the last segment of the path from the specified buffer.
855
   *
856
   * @param buffer the buffer containing the path.
857
   */
858
  private void removeLastSegment(CPStringBuilder buffer)
859
  {
860
    int lastSlash = buffer.lastIndexOf("/");
861
    if (lastSlash == -1)
862
      buffer.setLength(0);
863
    else
864
      buffer.setLength(lastSlash);
865
  }
866
 
867
  /**
868
   * Resolves the given URI against this URI
869
   *
870
   * @param uri The URI to resolve against this URI
871
   *
872
   * @return The resulting URI, or null when it couldn't be resolved
873
   * for some reason.
874
   *
875
   * @throws NullPointerException if uri is null
876
   */
877
  public URI resolve(URI uri)
878
  {
879
    if (uri.isAbsolute())
880
      return uri;
881
    if (uri.isOpaque())
882
      return uri;
883
 
884
    String scheme = uri.getScheme();
885
    String schemeSpecificPart = uri.getSchemeSpecificPart();
886
    String authority = uri.getAuthority();
887
    String path = uri.getPath();
888
    String query = uri.getQuery();
889
    String fragment = uri.getFragment();
890
 
891
    try
892
      {
893
        if (fragment != null && path != null && path.equals("")
894
            && scheme == null && authority == null && query == null)
895
          return new URI(this.scheme, this.schemeSpecificPart, fragment);
896
 
897
        if (authority == null)
898
          {
899
            authority = this.authority;
900
            if (path == null)
901
              path = "";
902
            if (! (path.startsWith("/")))
903
              {
904
                CPStringBuilder basepath = new CPStringBuilder(this.path);
905
                int i = this.path.lastIndexOf('/');
906
 
907
                if (i >= 0)
908
                  basepath.delete(i + 1, basepath.length());
909
 
910
                basepath.append(path);
911
                path = normalizePath(basepath.toString());
912
              }
913
          }
914
        return new URI(this.scheme, authority, path, query, fragment);
915
      }
916
    catch (URISyntaxException e)
917
      {
918
        throw (Error) new InternalError("Resolved URI variant could not "+
919
                                        "be constructed").initCause(e);
920
      }
921
  }
922
 
923
  /**
924
   * Resolves the given URI string against this URI
925
   *
926
   * @param str The URI as string to resolve against this URI
927
   *
928
   * @return The resulting URI
929
   *
930
   * @throws IllegalArgumentException If the given URI string
931
   * violates RFC 2396
932
   * @throws NullPointerException If uri is null
933
   */
934
  public URI resolve(String str) throws IllegalArgumentException
935
  {
936
    return resolve(create(str));
937
  }
938
 
939
  /**
940
   * <p>
941
   * Relativizes the given URI against this URI.  The following
942
   * algorithm is used:
943
   * </p>
944
   * <ul>
945
   * <li>If either URI is opaque, the given URI is returned.</li>
946
   * <li>If the schemes of the URIs differ, the given URI is returned.</li>
947
   * <li>If the authority components of the URIs differ, then the given
948
   * URI is returned.</li>
949
   * <li>If the path of this URI is not a prefix of the supplied URI,
950
   * then the given URI is returned.</li>
951
   * <li>If all the above conditions hold, a new URI is created using the
952
   * query and fragment components of the given URI, along with a path
953
   * computed by removing the path of this URI from the start of the path
954
   * of the supplied URI.</li>
955
   * </ul>
956
   *
957
   * @param uri the URI to relativize agsint this URI
958
   * @return the resulting URI
959
   * @throws NullPointerException if the uri is null
960
   */
961
  public URI relativize(URI uri)
962
  {
963
    if (isOpaque() || uri.isOpaque())
964
      return uri;
965
    if (scheme == null && uri.getScheme() != null)
966
      return uri;
967
    if (scheme != null && !(scheme.equals(uri.getScheme())))
968
      return uri;
969
    if (rawAuthority == null && uri.getRawAuthority() != null)
970
      return uri;
971
    if (rawAuthority != null && !(rawAuthority.equals(uri.getRawAuthority())))
972
      return uri;
973
    String basePath = rawPath;
974
    if (!(uri.getRawPath().equals(rawPath)))
975
      {
976
        if (!(basePath.endsWith("/")))
977
          basePath = basePath.concat("/");
978
        if (!(uri.getRawPath().startsWith(basePath)))
979
          return uri;
980
      }
981
    try
982
      {
983
        return new URI(null, null,
984
                       uri.getRawPath().substring(basePath.length()),
985
                       uri.getRawQuery(), uri.getRawFragment());
986
      }
987
    catch (URISyntaxException e)
988
      {
989
        throw (Error) new InternalError("Relativized URI variant could not "+
990
                                        "be constructed").initCause(e);
991
      }
992
  }
993
 
994
  /**
995
   * Creates an URL from an URI
996
   *
997
   * @throws MalformedURLException If a protocol handler for the URL could
998
   * not be found, or if some other error occurred while constructing the URL
999
   * @throws IllegalArgumentException If the URI is not absolute
1000
   */
1001
  public URL toURL() throws IllegalArgumentException, MalformedURLException
1002
  {
1003
    if (isAbsolute())
1004
      return new URL(this.toString());
1005
 
1006
    throw new IllegalArgumentException("not absolute");
1007
  }
1008
 
1009
  /**
1010
   * Returns the scheme of the URI
1011
   */
1012
  public String getScheme()
1013
  {
1014
    return scheme;
1015
  }
1016
 
1017
  /**
1018
   * Tells whether this URI is absolute or not
1019
   */
1020
  public boolean isAbsolute()
1021
  {
1022
    return scheme != null;
1023
  }
1024
 
1025
  /**
1026
   * Tell whether this URI is opaque or not
1027
   */
1028
  public boolean isOpaque()
1029
  {
1030
    return ((scheme != null) && ! (schemeSpecificPart.startsWith("/")));
1031
  }
1032
 
1033
  /**
1034
   * Returns the raw scheme specific part of this URI.
1035
   * The scheme-specific part is never undefined, though it may be empty
1036
   */
1037
  public String getRawSchemeSpecificPart()
1038
  {
1039
    return rawSchemeSpecificPart;
1040
  }
1041
 
1042
  /**
1043
   * Returns the decoded scheme specific part of this URI.
1044
   */
1045
  public String getSchemeSpecificPart()
1046
  {
1047
    return schemeSpecificPart;
1048
  }
1049
 
1050
  /**
1051
   * Returns the raw authority part of this URI
1052
   */
1053
  public String getRawAuthority()
1054
  {
1055
    return rawAuthority;
1056
  }
1057
 
1058
  /**
1059
   * Returns the decoded authority part of this URI
1060
   */
1061
  public String getAuthority()
1062
  {
1063
    return authority;
1064
  }
1065
 
1066
  /**
1067
   * Returns the raw user info part of this URI
1068
   */
1069
  public String getRawUserInfo()
1070
  {
1071
    return rawUserInfo;
1072
  }
1073
 
1074
  /**
1075
   * Returns the decoded user info part of this URI
1076
   */
1077
  public String getUserInfo()
1078
  {
1079
    return userInfo;
1080
  }
1081
 
1082
  /**
1083
   * Returns the hostname of the URI
1084
   */
1085
  public String getHost()
1086
  {
1087
    return host;
1088
  }
1089
 
1090
  /**
1091
   * Returns the port number of the URI
1092
   */
1093
  public int getPort()
1094
  {
1095
    return port;
1096
  }
1097
 
1098
  /**
1099
   * Returns the raw path part of this URI
1100
   */
1101
  public String getRawPath()
1102
  {
1103
    return rawPath;
1104
  }
1105
 
1106
  /**
1107
   * Returns the path of the URI
1108
   */
1109
  public String getPath()
1110
  {
1111
    return path;
1112
  }
1113
 
1114
  /**
1115
   * Returns the raw query part of this URI
1116
   */
1117
  public String getRawQuery()
1118
  {
1119
    return rawQuery;
1120
  }
1121
 
1122
  /**
1123
   * Returns the query of the URI
1124
   */
1125
  public String getQuery()
1126
  {
1127
    return query;
1128
  }
1129
 
1130
  /**
1131
   * Return the raw fragment part of this URI
1132
   */
1133
  public String getRawFragment()
1134
  {
1135
    return rawFragment;
1136
  }
1137
 
1138
  /**
1139
   * Returns the fragment of the URI
1140
   */
1141
  public String getFragment()
1142
  {
1143
    return fragment;
1144
  }
1145
 
1146
  /**
1147
   * <p>
1148
   * Compares the URI with the given object for equality.  If the
1149
   * object is not a <code>URI</code>, then the method returns false.
1150
   * Otherwise, the following criteria are observed:
1151
   * </p>
1152
   * <ul>
1153
   * <li>The scheme of the URIs must either be null (undefined) in both cases,
1154
   * or equal, ignorant of case.</li>
1155
   * <li>The raw fragment of the URIs must either be null (undefined) in both
1156
   * cases, or equal, ignorant of case.</li>
1157
   * <li>Both URIs must be of the same type (opaque or hierarchial)</li>
1158
   * <li><strong>For opaque URIs:</strong></li>
1159
   * <ul>
1160
   * <li>The raw scheme-specific parts must be equal.</li>
1161
   * </ul>
1162
   * <li>For hierarchical URIs:</li>
1163
   * <ul>
1164
   * <li>The raw paths must be equal, ignorant of case.</li>
1165
   * <li>The raw queries are either both undefined or both equal, ignorant
1166
   * of case.</li>
1167
   * <li>The raw authority sections are either both undefined or:</li>
1168
   * <li><strong>For registry-based authorities:</strong></li>
1169
   * <ul><li>they are equal.</li></ul>
1170
   * <li><strong>For server-based authorities:</strong></li>
1171
   * <ul>
1172
   * <li>the hosts are equal, ignoring case</li>
1173
   * <li>the ports are equal</li>
1174
   * <li>the user information components are equal</li>
1175
   * </ul>
1176
   * </ul>
1177
   * </ul>
1178
   *
1179
   * @param obj the obj to compare the URI with.
1180
   * @return <code>true</code> if the objects are equal, according to
1181
   *         the specification above.
1182
   */
1183
  public boolean equals(Object obj)
1184
  {
1185
    if (!(obj instanceof URI))
1186
      return false;
1187
    URI uriObj = (URI) obj;
1188
    if (scheme == null)
1189
      {
1190
        if (uriObj.getScheme() != null)
1191
          return false;
1192
      }
1193
    else
1194
      if (!(scheme.equalsIgnoreCase(uriObj.getScheme())))
1195
        return false;
1196
    if (rawFragment == null)
1197
      {
1198
        if (uriObj.getRawFragment() != null)
1199
          return false;
1200
      }
1201
    else
1202
      if (!(rawFragment.equalsIgnoreCase(uriObj.getRawFragment())))
1203
        return false;
1204
    boolean opaqueThis = isOpaque();
1205
    boolean opaqueObj = uriObj.isOpaque();
1206
    if (opaqueThis && opaqueObj)
1207
      return rawSchemeSpecificPart.equals(uriObj.getRawSchemeSpecificPart());
1208
    else if (!opaqueThis && !opaqueObj)
1209
      {
1210
        boolean common = rawPath.equalsIgnoreCase(uriObj.getRawPath())
1211
          && ((rawQuery == null && uriObj.getRawQuery() == null)
1212
              || rawQuery.equalsIgnoreCase(uriObj.getRawQuery()));
1213
        if (rawAuthority == null && uriObj.getRawAuthority() == null)
1214
          return common;
1215
        if (host == null)
1216
          return common
1217
            && rawAuthority.equalsIgnoreCase(uriObj.getRawAuthority());
1218
        return common
1219
          && host.equalsIgnoreCase(uriObj.getHost())
1220
          && port == uriObj.getPort()
1221
          && (rawUserInfo == null ?
1222
              uriObj.getRawUserInfo() == null :
1223
              rawUserInfo.equalsIgnoreCase(uriObj.getRawUserInfo()));
1224
      }
1225
    else
1226
      return false;
1227
  }
1228
 
1229
  /**
1230
   * Computes the hashcode of the URI
1231
   */
1232
  public int hashCode()
1233
  {
1234
    return (getScheme() == null ? 0 : 13 * getScheme().hashCode())
1235
      + 17 * getRawSchemeSpecificPart().hashCode()
1236
      + (getRawFragment() == null ? 0 : 21 + getRawFragment().hashCode());
1237
  }
1238
 
1239
  /**
1240
   * Compare the URI with another URI.
1241
   * Undefined components are taken to be less than any other component.
1242
   * The following criteria are observed:
1243
   * </p>
1244
   * <ul>
1245
   * <li>Two URIs with different schemes are compared according to their
1246
   * scheme, regardless of case.</li>
1247
   * <li>A hierarchical URI is less than an opaque URI with the same
1248
   * scheme.</li>
1249
   * <li><strong>For opaque URIs:</strong></li>
1250
   * <ul>
1251
   * <li>URIs with differing scheme-specific parts are ordered according
1252
   * to the ordering of the scheme-specific part.</li>
1253
   * <li>URIs with the same scheme-specific part are ordered by the
1254
   * raw fragment.</li>
1255
   * </ul>
1256
   * <li>For hierarchical URIs:</li>
1257
   * <ul>
1258
   * <li>URIs are ordered according to their raw authority sections,
1259
   * if they are unequal.</li>
1260
   * <li><strong>For registry-based authorities:</strong></li>
1261
   * <ul><li>they are ordered according to the ordering of the authority
1262
   * component.</li></ul>
1263
   * <li><strong>For server-based authorities:</strong></li>
1264
   * <ul>
1265
   * <li>URIs are ordered according to the raw user information.</li>
1266
   * <li>URIs with the same user information are ordered by the host,
1267
   * ignoring case.</li>
1268
   * <lI>URIs with the same host are ordered by the port.</li>
1269
   * </ul>
1270
   * <li>URIs with the same authority section are ordered by the raw path.</li>
1271
   * <li>URIs with the same path are ordered by their raw query.</li>
1272
   * <li>URIs with the same query are ordered by their raw fragments.</li>
1273
   * </ul>
1274
   * </ul>
1275
   *
1276
   * @param uri The other URI to compare this URI with
1277
   * @return a negative integer, zero or a positive integer depending
1278
   *         on whether this URI is less than, equal to or greater
1279
   *         than that supplied, respectively.
1280
   */
1281
  public int compareTo(URI uri)
1282
    throws ClassCastException
1283
  {
1284
    if (scheme == null && uri.getScheme() != null)
1285
      return -1;
1286
    if (scheme != null)
1287
      {
1288
        int sCompare = scheme.compareToIgnoreCase(uri.getScheme());
1289
        if (sCompare != 0)
1290
          return sCompare;
1291
      }
1292
    boolean opaqueThis = isOpaque();
1293
    boolean opaqueObj = uri.isOpaque();
1294
    if (opaqueThis && !opaqueObj)
1295
      return 1;
1296
    if (!opaqueThis && opaqueObj)
1297
      return -1;
1298
    if (opaqueThis)
1299
      {
1300
        int ssCompare =
1301
          rawSchemeSpecificPart.compareTo(uri.getRawSchemeSpecificPart());
1302
        if (ssCompare == 0)
1303
          return compareFragments(uri);
1304
        else
1305
          return ssCompare;
1306
      }
1307
    if (rawAuthority == null && uri.getRawAuthority() != null)
1308
      return -1;
1309
    if (rawAuthority != null)
1310
      {
1311
        int aCompare = rawAuthority.compareTo(uri.getRawAuthority());
1312
        if (aCompare != 0)
1313
          {
1314
            if (host == null)
1315
              return aCompare;
1316
            if (rawUserInfo == null && uri.getRawUserInfo() != null)
1317
              return -1;
1318
            int uCompare = rawUserInfo.compareTo(uri.getRawUserInfo());
1319
            if (uCompare != 0)
1320
              return uCompare;
1321
            if (host == null && uri.getHost() != null)
1322
              return -1;
1323
            int hCompare = host.compareTo(uri.getHost());
1324
            if (hCompare != 0)
1325
              return hCompare;
1326
            int uriPort = uri.getPort();
1327
            return (uriPort == port) ? 0 : (uriPort > port) ? -1 : 1;
1328
          }
1329
      }
1330
    if (rawPath == null && uri.getRawPath() != null)
1331
      return -1;
1332
    if (rawPath != null)
1333
      {
1334
        int pCompare = rawPath.compareTo(uri.getRawPath());
1335
        if (pCompare != 0)
1336
          return pCompare;
1337
      }
1338
    if (rawQuery == null && uri.getRawQuery() != null)
1339
      return -1;
1340
    if (rawQuery != null)
1341
      {
1342
        int qCompare = rawQuery.compareTo(uri.getRawQuery());
1343
        if (qCompare != 0)
1344
          return qCompare;
1345
      }
1346
    return compareFragments(uri);
1347
  }
1348
 
1349
  /**
1350
   * Compares the fragment of this URI with that of the supplied URI.
1351
   *
1352
   * @param uri the URI to compare with this one.
1353
   * @return a negative integer, zero or a positive integer depending
1354
   *         on whether this uri's fragment is less than, equal to
1355
   *         or greater than the fragment of the uri supplied, respectively.
1356
   */
1357
  private int compareFragments(URI uri)
1358
  {
1359
    if (rawFragment == null && uri.getRawFragment() != null)
1360
      return -1;
1361
    else if (rawFragment == null)
1362
      return 0;
1363
    else
1364
      return rawFragment.compareTo(uri.getRawFragment());
1365
  }
1366
 
1367
  /**
1368
   * Returns the URI as a String.  If the URI was created using a constructor,
1369
   * then this will be the same as the original input string.
1370
   *
1371
   * @return a string representation of the URI.
1372
   */
1373
  public String toString()
1374
  {
1375
    return (scheme == null ? "" : scheme + ":")
1376
      + rawSchemeSpecificPart
1377
      + (rawFragment == null ? "" : "#" + rawFragment);
1378
  }
1379
 
1380
  /**
1381
   * Returns the URI as US-ASCII string.  This is the same as the result
1382
   * from <code>toString()</code> for URIs that don't contain any non-US-ASCII
1383
   * characters.  Otherwise, the non-US-ASCII characters are replaced
1384
   * by their percent-encoded representations.
1385
   *
1386
   * @return a string representation of the URI, containing only US-ASCII
1387
   *         characters.
1388
   */
1389
  public String toASCIIString()
1390
  {
1391
    String strRep = toString();
1392
    boolean inNonAsciiBlock = false;
1393
    CPStringBuilder buffer = new CPStringBuilder();
1394
    CPStringBuilder encBuffer = null;
1395
    for (int i = 0; i < strRep.length(); i++)
1396
      {
1397
        char c = strRep.charAt(i);
1398
        if (c <= 127)
1399
          {
1400
            if (inNonAsciiBlock)
1401
              {
1402
                buffer.append(escapeCharacters(encBuffer.toString()));
1403
                inNonAsciiBlock = false;
1404
              }
1405
            buffer.append(c);
1406
          }
1407
        else
1408
          {
1409
            if (!inNonAsciiBlock)
1410
              {
1411
                encBuffer = new CPStringBuilder();
1412
                inNonAsciiBlock = true;
1413
              }
1414
            encBuffer.append(c);
1415
          }
1416
      }
1417
    return buffer.toString();
1418
  }
1419
 
1420
  /**
1421
   * Converts the non-ASCII characters in the supplied string
1422
   * to their equivalent percent-encoded representations.
1423
   * That is, they are replaced by "%" followed by their hexadecimal value.
1424
   *
1425
   * @param str a string including non-ASCII characters.
1426
   * @return the string with the non-ASCII characters converted to their
1427
   *         percent-encoded representations.
1428
   */
1429
  private static String escapeCharacters(String str)
1430
  {
1431
    try
1432
      {
1433
        CPStringBuilder sb = new CPStringBuilder();
1434
        // this is far from optimal, but it works
1435
        byte[] utf8 = str.getBytes("utf-8");
1436
        for (int j = 0; j < utf8.length; j++)
1437
          {
1438
            sb.append('%');
1439
            sb.append(HEX.charAt((utf8[j] & 0xff) / 16));
1440
            sb.append(HEX.charAt((utf8[j] & 0xff) % 16));
1441
          }
1442
        return sb.toString();
1443
      }
1444
    catch (java.io.UnsupportedEncodingException x)
1445
      {
1446
        throw (Error) new InternalError("Escaping error").initCause(x);
1447
      }
1448
  }
1449
 
1450
}

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