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[/] [open8_urisc/] [trunk/] [gnu/] [binutils/] [binutils/] [winduni.c] - Blame information for rev 163

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1 15 khays
/* winduni.c -- unicode support for the windres program.
2
   Copyright 1997, 1998, 2000, 2001, 2003, 2005, 2007, 2009
3
   Free Software Foundation, Inc.
4
   Written by Ian Lance Taylor, Cygnus Support.
5
   Rewritten by Kai Tietz, Onevision.
6
 
7
   This file is part of GNU Binutils.
8
 
9
   This program is free software; you can redistribute it and/or modify
10
   it under the terms of the GNU General Public License as published by
11
   the Free Software Foundation; either version 3 of the License, or
12
   (at your option) any later version.
13
 
14
   This program is distributed in the hope that it will be useful,
15
   but WITHOUT ANY WARRANTY; without even the implied warranty of
16
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
17
   GNU General Public License for more details.
18
 
19
   You should have received a copy of the GNU General Public License
20
   along with this program; if not, write to the Free Software
21
   Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA
22
   02110-1301, USA.  */
23
 
24
 
25
/* This file contains unicode support routines for the windres
26
   program.  Ideally, we would have generic unicode support which
27
   would work on all systems.  However, we don't.  Instead, on a
28
   Windows host, we are prepared to call some Windows routines.  This
29
   means that we will generate different output on Windows and Unix
30
   hosts, but that seems better than not really supporting unicode at
31
   all.  */
32
 
33
#include "sysdep.h"
34
#include "bfd.h"
35
#include "libiberty.h" /* for xstrdup */
36
#include "bucomm.h"
37
/* Must be include before windows.h and winnls.h.  */
38
#if defined (_WIN32) || defined (__CYGWIN__)
39
#include <windows.h>
40
#include <winnls.h>
41
#endif
42
#include "winduni.h"
43
#include "safe-ctype.h"
44
 
45
#if HAVE_ICONV
46
#include <iconv.h>
47
#endif
48
 
49
static rc_uint_type wind_WideCharToMultiByte (rc_uint_type, const unichar *, char *, rc_uint_type);
50
static rc_uint_type wind_MultiByteToWideChar (rc_uint_type, const char *, unichar *, rc_uint_type);
51
static int unichar_isascii (const unichar *, rc_uint_type);
52
 
53
/* Convert an ASCII string to a unicode string.  We just copy it,
54
   expanding chars to shorts, rather than doing something intelligent.  */
55
 
56
#if !defined (_WIN32) && !defined (__CYGWIN__)
57
 
58
/* Codepages mapped.  */
59
static local_iconv_map codepages[] =
60
{
61
  { 0, "MS-ANSI" },
62
  { 1, "WINDOWS-1252" },
63
  { 437, "MS-ANSI" },
64
  { 737, "MS-GREEK" },
65
  { 775, "WINBALTRIM" },
66
  { 850, "MS-ANSI" },
67
  { 852, "MS-EE" },
68
  { 857, "MS-TURK" },
69
  { 862, "CP862" },
70
  { 864, "CP864" },
71
  { 866, "MS-CYRL" },
72
  { 874, "WINDOWS-874" },
73
  { 932, "CP932" },
74
  { 936, "CP936" },
75
  { 949, "CP949" },
76
  { 950, "CP950" },
77
  { 1250, "WINDOWS-1250" },
78
  { 1251, "WINDOWS-1251" },
79
  { 1252, "WINDOWS-1252" },
80
  { 1253, "WINDOWS-1253" },
81
  { 1254, "WINDOWS-1254" },
82
  { 1255, "WINDOWS-1255" },
83
  { 1256, "WINDOWS-1256" },
84
  { 1257, "WINDOWS-1257" },
85
  { 1258, "WINDOWS-1258" },
86
  { CP_UTF7, "UTF-7" },
87
  { CP_UTF8, "UTF-8" },
88
  { CP_UTF16, "UTF-16" },
89
  { (rc_uint_type) -1, NULL }
90
};
91
 
92
/* Languages supported.  */
93
static const wind_language_t languages[] =
94
{
95
  { 0x0000, 437, 1252, "Neutral", "Neutral" },
96
  { 0x0401, 864, 1256, "Arabic", "Saudi Arabia" },    { 0x0402, 866, 1251, "Bulgarian", "Bulgaria" },
97
  { 0x0403, 850, 1252, "Catalan", "Spain" },          { 0x0404, 950,  950, "Chinese", "Taiwan" },
98
  { 0x0405, 852, 1250, "Czech", "Czech Republic" },   { 0x0406, 850, 1252, "Danish", "Denmark" },
99
  { 0x0407, 850, 1252, "German", "Germany" },         { 0x0408, 737, 1253, "Greek", "Greece" },
100
  { 0x0409, 437, 1252, "English", "United States" },  { 0x040A, 850, 1252, "Spanish - Traditional Sort", "Spain" },
101
  { 0x040B, 850, 1252, "Finnish", "Finland" },        { 0x040C, 850, 1252, "French", "France" },
102
  { 0x040D, 862, 1255, "Hebrew", "Israel" },          { 0x040E, 852, 1250, "Hungarian", "Hungary" },
103
  { 0x040F, 850, 1252, "Icelandic", "Iceland" },      { 0x0410, 850, 1252, "Italian", "Italy" },
104
  { 0x0411, 932,  932, "Japanese", "Japan" },         { 0x0412, 949,  949, "Korean", "Korea (south)" },
105
  { 0x0413, 850, 1252, "Dutch", "Netherlands" },      { 0x0414, 850, 1252, "Norwegian (Bokmål)", "Norway" },
106
  { 0x0415, 852, 1250, "Polish", "Poland" },          { 0x0416, 850, 1252, "Portuguese", "Brazil" },
107
  { 0x0418, 852, 1250, "Romanian", "Romania" },       { 0x0419, 866, 1251, "Russian", "Russia" },
108
  { 0x041A, 852, 1250, "Croatian", "Croatia" },       { 0x041B, 852, 1250, "Slovak", "Slovakia" },
109
  { 0x041C, 852, 1250, "Albanian", "Albania" },       { 0x041D, 850, 1252, "Swedish", "Sweden" },
110
  { 0x041E, 874,  874, "Thai", "Thailand" },          { 0x041F, 857, 1254, "Turkish", "Turkey" },
111
  { 0x0421, 850, 1252, "Indonesian", "Indonesia" },   { 0x0422, 866, 1251, "Ukrainian", "Ukraine" },
112
  { 0x0423, 866, 1251, "Belarusian", "Belarus" },     { 0x0424, 852, 1250, "Slovene", "Slovenia" },
113
  { 0x0425, 775, 1257, "Estonian", "Estonia" },       { 0x0426, 775, 1257, "Latvian", "Latvia" },
114
  { 0x0427, 775, 1257, "Lithuanian", "Lithuania" },
115
  { 0x0429, 864, 1256, "Arabic", "Farsi" },           { 0x042A,1258, 1258, "Vietnamese", "Vietnam" },
116
  { 0x042D, 850, 1252, "Basque", "Spain" },
117
  { 0x042F, 866, 1251, "Macedonian", "Former Yugoslav Republic of Macedonia" },
118
  { 0x0436, 850, 1252, "Afrikaans", "South Africa" },
119
  { 0x0438, 850, 1252, "Faroese", "Faroe Islands" },
120
  { 0x043C, 437, 1252, "Irish", "Ireland" },
121
  { 0x043E, 850, 1252, "Malay", "Malaysia" },
122
  { 0x0801, 864, 1256, "Arabic", "Iraq" },
123
  { 0x0804, 936,  936, "Chinese (People's republic of China)", "People's republic of China" },
124
  { 0x0807, 850, 1252, "German", "Switzerland" },
125
  { 0x0809, 850, 1252, "English", "United Kingdom" }, { 0x080A, 850, 1252, "Spanish", "Mexico" },
126
  { 0x080C, 850, 1252, "French", "Belgium" },
127
  { 0x0810, 850, 1252, "Italian", "Switzerland" },
128
  { 0x0813, 850, 1252, "Dutch", "Belgium" },          { 0x0814, 850, 1252, "Norwegian (Nynorsk)", "Norway" },
129
  { 0x0816, 850, 1252, "Portuguese", "Portugal" },
130
  { 0x081A, 852, 1252, "Serbian (latin)", "Yugoslavia" },
131
  { 0x081D, 850, 1252, "Swedish (Finland)", "Finland" },
132
  { 0x0C01, 864, 1256, "Arabic", "Egypt" },
133
  { 0x0C04, 950,  950, "Chinese", "Hong Kong" },
134
  { 0x0C07, 850, 1252, "German", "Austria" },
135
  { 0x0C09, 850, 1252, "English", "Australia" },      { 0x0C0A, 850, 1252, "Spanish - International Sort", "Spain" },
136
  { 0x0C0C, 850, 1252, "French", "Canada"},
137
  { 0x0C1A, 855, 1251, "Serbian (Cyrillic)", "Serbia" },
138
  { 0x1001, 864, 1256, "Arabic", "Libya" },
139
  { 0x1004, 936,  936, "Chinese", "Singapore" },
140
  { 0x1007, 850, 1252, "German", "Luxembourg" },
141
  { 0x1009, 850, 1252, "English", "Canada" },
142
  { 0x100A, 850, 1252, "Spanish", "Guatemala" },
143
  { 0x100C, 850, 1252, "French", "Switzerland" },
144
  { 0x1401, 864, 1256, "Arabic", "Algeria" },
145
  { 0x1407, 850, 1252, "German", "Liechtenstein" },
146
  { 0x1409, 850, 1252, "English", "New Zealand" },    { 0x140A, 850, 1252, "Spanish", "Costa Rica" },
147
  { 0x140C, 850, 1252, "French", "Luxembourg" },
148
  { 0x1801, 864, 1256, "Arabic", "Morocco" },
149
  { 0x1809, 850, 1252, "English", "Ireland" },        { 0x180A, 850, 1252, "Spanish", "Panama" },
150
  { 0x180C, 850, 1252, "French", "Monaco" },
151
  { 0x1C01, 864, 1256, "Arabic", "Tunisia" },
152
  { 0x1C09, 437, 1252, "English", "South Africa" },   { 0x1C0A, 850, 1252, "Spanish", "Dominican Republic" },
153
  { 0x2001, 864, 1256, "Arabic", "Oman" },
154
  { 0x2009, 850, 1252, "English", "Jamaica" },        { 0x200A, 850, 1252, "Spanish", "Venezuela" },
155
  { 0x2401, 864, 1256, "Arabic", "Yemen" },
156
  { 0x2409, 850, 1252, "English", "Caribbean" },      { 0x240A, 850, 1252, "Spanish", "Colombia" },
157
  { 0x2801, 864, 1256, "Arabic", "Syria" },
158
  { 0x2809, 850, 1252, "English", "Belize" },         { 0x280A, 850, 1252, "Spanish", "Peru" },
159
  { 0x2C01, 864, 1256, "Arabic", "Jordan" },
160
  { 0x2C09, 437, 1252, "English", "Trinidad & Tobago" },{ 0x2C0A, 850, 1252, "Spanish", "Argentina" },
161
  { 0x3001, 864, 1256, "Arabic", "Lebanon" },
162
  { 0x3009, 437, 1252, "English", "Zimbabwe" },       { 0x300A, 850, 1252, "Spanish", "Ecuador" },
163
  { 0x3401, 864, 1256, "Arabic", "Kuwait" },
164
  { 0x3409, 437, 1252, "English", "Philippines" },    { 0x340A, 850, 1252, "Spanish", "Chile" },
165
  { 0x3801, 864, 1256, "Arabic", "United Arab Emirates" },
166
  { 0x380A, 850, 1252, "Spanish", "Uruguay" },
167
  { 0x3C01, 864, 1256, "Arabic", "Bahrain" },
168
  { 0x3C0A, 850, 1252, "Spanish", "Paraguay" },
169
  { 0x4001, 864, 1256, "Arabic", "Qatar" },
170
  { 0x400A, 850, 1252, "Spanish", "Bolivia" },
171
  { 0x440A, 850, 1252, "Spanish", "El Salvador" },
172
  { 0x480A, 850, 1252, "Spanish", "Honduras" },
173
  { 0x4C0A, 850, 1252, "Spanish", "Nicaragua" },
174
  { 0x500A, 850, 1252, "Spanish", "Puerto Rico" },
175
  { (unsigned) -1,  0,      0, NULL, NULL }
176
};
177
 
178
#endif
179
 
180
/* Specifies the default codepage to be used for unicode
181
   transformations.  By default this is CP_ACP.  */
182
rc_uint_type wind_default_codepage = CP_ACP;
183
 
184
/* Specifies the currently used codepage for unicode
185
   transformations.  By default this is CP_ACP.  */
186
rc_uint_type wind_current_codepage = CP_ACP;
187
 
188
/* Convert an ASCII string to a unicode string.  We just copy it,
189
   expanding chars to shorts, rather than doing something intelligent.  */
190
 
191
void
192
unicode_from_ascii (rc_uint_type *length, unichar **unicode, const char *ascii)
193
{
194
  unicode_from_codepage (length, unicode, ascii, wind_current_codepage);
195
}
196
 
197 163 khays
/* Convert an ASCII string with length A_LENGTH to a unicode string.  We just
198
   copy it, expanding chars to shorts, rather than doing something intelligent.
199
   This routine converts also \0 within a string.  */
200
 
201
void
202
unicode_from_ascii_len (rc_uint_type *length, unichar **unicode, const char *ascii, rc_uint_type a_length)
203
{
204
  char *tmp, *p;
205
  rc_uint_type tlen, elen, idx = 0;
206
 
207
  *unicode = NULL;
208
 
209
  if (!a_length)
210
    {
211
      if (length)
212
        *length = 0;
213
      return;
214
    }
215
 
216
  /* Make sure we have zero terminated string.  */
217
  p = tmp = (char *) alloca (a_length + 1);
218
  memcpy (tmp, ascii, a_length);
219
  tmp[a_length] = 0;
220
 
221
  while (a_length > 0)
222
    {
223
      unichar *utmp, *up;
224
 
225
      tlen = strlen (p);
226
 
227
      if (tlen > a_length)
228
        tlen = a_length;
229
      if (*p == 0)
230
        {
231
          /* Make room for one more character.  */
232
          utmp = (unichar *) res_alloc (sizeof (unichar) * (idx + 1));
233
          if (idx > 0)
234
            {
235
              memcpy (utmp, *unicode, idx * sizeof (unichar));
236
            }
237
          *unicode = utmp;
238
          utmp[idx++] = 0;
239
          --a_length;
240
          p++;
241
          continue;
242
        }
243
      utmp = NULL;
244
      elen = 0;
245
      elen = wind_MultiByteToWideChar (wind_current_codepage, p, NULL, 0);
246
      if (elen)
247
        {
248
          utmp = ((unichar *) res_alloc (elen + sizeof (unichar) * 2));
249
          wind_MultiByteToWideChar (wind_current_codepage, p, utmp, elen);
250
          elen /= sizeof (unichar);
251
          elen --;
252
        }
253
      else
254
        {
255
          /* Make room for one more character.  */
256
          utmp = (unichar *) res_alloc (sizeof (unichar) * (idx + 1));
257
          if (idx > 0)
258
            {
259
              memcpy (utmp, *unicode, idx * sizeof (unichar));
260
            }
261
          *unicode = utmp;
262
          utmp[idx++] = ((unichar) *p) & 0xff;
263
          --a_length;
264
          p++;
265
          continue;
266
        }
267
      p += tlen;
268
      a_length -= tlen;
269
 
270
      up = (unichar *) res_alloc (sizeof (unichar) * (idx + elen));
271
      if (idx > 0)
272
        memcpy (up, *unicode, idx * sizeof (unichar));
273
 
274
      *unicode = up;
275
      if (elen)
276
        memcpy (&up[idx], utmp, sizeof (unichar) * elen);
277
 
278
      idx += elen;
279
    }
280
 
281
  if (length)
282
    *length = idx;
283
}
284
 
285 15 khays
/* Convert an unicode string to an ASCII string.  We just copy it,
286
   shrink shorts to chars, rather than doing something intelligent.
287
   Shorts with not within the char range are replaced by '_'.  */
288
 
289
void
290
ascii_from_unicode (rc_uint_type *length, const unichar *unicode, char **ascii)
291
{
292
  codepage_from_unicode (length, unicode, ascii, wind_current_codepage);
293
}
294
 
295
/* Print the unicode string UNICODE to the file E.  LENGTH is the
296
   number of characters to print, or -1 if we should print until the
297
   end of the string.  FIXME: On a Windows host, we should be calling
298
   some Windows function, probably WideCharToMultiByte.  */
299
 
300
void
301
unicode_print (FILE *e, const unichar *unicode, rc_uint_type length)
302
{
303
  while (1)
304
    {
305
      unichar ch;
306
 
307
      if (length == 0)
308
        return;
309
      if ((bfd_signed_vma) length > 0)
310
        --length;
311
 
312
      ch = *unicode;
313
 
314
      if (ch == 0 && (bfd_signed_vma) length < 0)
315
        return;
316
 
317
      ++unicode;
318
 
319
      if ((ch & 0x7f) == ch)
320
        {
321
          if (ch == '\\')
322
            fputs ("\\\\", e);
323
          else if (ch == '"')
324
            fputs ("\"\"", e);
325
          else if (ISPRINT (ch))
326
            putc (ch, e);
327
          else
328
            {
329
              switch (ch)
330
                {
331
                case ESCAPE_A:
332
                  fputs ("\\a", e);
333
                  break;
334
 
335
                case ESCAPE_B:
336
                  fputs ("\\b", e);
337
                  break;
338
 
339
                case ESCAPE_F:
340
                  fputs ("\\f", e);
341
                  break;
342
 
343
                case ESCAPE_N:
344
                  fputs ("\\n", e);
345
                  break;
346
 
347
                case ESCAPE_R:
348
                  fputs ("\\r", e);
349
                  break;
350
 
351
                case ESCAPE_T:
352
                  fputs ("\\t", e);
353
                  break;
354
 
355
                case ESCAPE_V:
356
                  fputs ("\\v", e);
357
                  break;
358
 
359
                default:
360
                  fprintf (e, "\\%03o", (unsigned int) ch);
361
                  break;
362
                }
363
            }
364
        }
365
      else if ((ch & 0xff) == ch)
366
        fprintf (e, "\\%03o", (unsigned int) ch);
367
      else
368
        fprintf (e, "\\x%04x", (unsigned int) ch);
369
    }
370
}
371
 
372
/* Print a unicode string to a file.  */
373
 
374
void
375
ascii_print (FILE *e, const char *s, rc_uint_type length)
376
{
377
  while (1)
378
    {
379
      char ch;
380
 
381
      if (length == 0)
382
        return;
383
      if ((bfd_signed_vma) length > 0)
384
        --length;
385
 
386
      ch = *s;
387
 
388
      if (ch == 0 && (bfd_signed_vma) length < 0)
389
        return;
390
 
391
      ++s;
392
 
393
      if ((ch & 0x7f) == ch)
394
        {
395
          if (ch == '\\')
396
            fputs ("\\\\", e);
397
          else if (ch == '"')
398
            fputs ("\"\"", e);
399
          else if (ISPRINT (ch))
400
            putc (ch, e);
401
          else
402
            {
403
              switch (ch)
404
                {
405
                case ESCAPE_A:
406
                  fputs ("\\a", e);
407
                  break;
408
 
409
                case ESCAPE_B:
410
                  fputs ("\\b", e);
411
                  break;
412
 
413
                case ESCAPE_F:
414
                  fputs ("\\f", e);
415
                  break;
416
 
417
                case ESCAPE_N:
418
                  fputs ("\\n", e);
419
                  break;
420
 
421
                case ESCAPE_R:
422
                  fputs ("\\r", e);
423
                  break;
424
 
425
                case ESCAPE_T:
426
                  fputs ("\\t", e);
427
                  break;
428
 
429
                case ESCAPE_V:
430
                  fputs ("\\v", e);
431
                  break;
432
 
433
                default:
434
                  fprintf (e, "\\%03o", (unsigned int) ch);
435
                  break;
436
                }
437
            }
438
        }
439
      else
440
        fprintf (e, "\\%03o", (unsigned int) ch & 0xff);
441
    }
442
}
443
 
444
rc_uint_type
445
unichar_len (const unichar *unicode)
446
{
447
  rc_uint_type r = 0;
448
 
449
  if (unicode)
450
    while (unicode[r] != 0)
451
      r++;
452
  else
453
    --r;
454
  return r;
455
}
456
 
457
unichar *
458
unichar_dup (const unichar *unicode)
459
{
460
  unichar *r;
461
  int len;
462
 
463
  if (! unicode)
464
    return NULL;
465
  for (len = 0; unicode[len] != 0; ++len)
466
    ;
467
  ++len;
468
  r = ((unichar *) res_alloc (len * sizeof (unichar)));
469
  memcpy (r, unicode, len * sizeof (unichar));
470
  return r;
471
}
472
 
473
unichar *
474
unichar_dup_uppercase (const unichar *u)
475
{
476
  unichar *r = unichar_dup (u);
477
  int i;
478
 
479
  if (! r)
480
    return NULL;
481
 
482
  for (i = 0; r[i] != 0; ++i)
483
    {
484
      if (r[i] >= 'a' && r[i] <= 'z')
485
        r[i] &= 0xdf;
486
    }
487
  return r;
488
}
489
 
490
static int
491
unichar_isascii (const unichar *u, rc_uint_type len)
492
{
493
  rc_uint_type i;
494
 
495
  if ((bfd_signed_vma) len < 0)
496
    {
497
      if (u)
498
        len = (rc_uint_type) unichar_len (u);
499
      else
500
        len = 0;
501
    }
502
 
503
  for (i = 0; i < len; i++)
504
    if ((u[i] & 0xff80) != 0)
505
      return 0;
506
  return 1;
507
}
508
 
509
void
510
unicode_print_quoted (FILE *e, const unichar *u, rc_uint_type len)
511
{
512
  if (! unichar_isascii (u, len))
513
    fputc ('L', e);
514
  fputc ('"', e);
515
  unicode_print (e, u, len);
516
  fputc ('"', e);
517
}
518
 
519
int
520
unicode_is_valid_codepage (rc_uint_type cp)
521
{
522
  if ((cp & 0xffff) != cp)
523
    return 0;
524
  if (cp == CP_UTF16 || cp == CP_ACP)
525
    return 1;
526
 
527
#if !defined (_WIN32) && !defined (__CYGWIN__)
528
  if (! wind_find_codepage_info (cp))
529
    return 0;
530
  return 1;
531
#else
532
  return !! IsValidCodePage ((UINT) cp);
533
#endif
534
}
535
 
536
#if defined (_WIN32) || defined (__CYGWIN__)
537
 
538
#define max_cp_string_len 6
539
 
540
static unsigned int
541
codepage_from_langid (unsigned short langid)
542
{
543
  char cp_string [max_cp_string_len];
544
  int c;
545
 
546
  memset (cp_string, 0, max_cp_string_len);
547
  /* LOCALE_RETURN_NUMBER flag would avoid strtoul conversion,
548
     but is unavailable on Win95.  */
549
  c = GetLocaleInfoA (MAKELCID (langid, SORT_DEFAULT),
550
                      LOCALE_IDEFAULTANSICODEPAGE,
551
                      cp_string, max_cp_string_len);
552
  /* If codepage data for an LCID is not installed on users's system,
553
     GetLocaleInfo returns an empty string.  Fall back to system ANSI
554
     default. */
555
  if (c == 0)
556
    return CP_ACP;
557
  return strtoul (cp_string, 0, 10);
558
}
559
 
560
static unsigned int
561
wincodepage_from_langid (unsigned short langid)
562
{
563
  char cp_string [max_cp_string_len];
564
  int c;
565
 
566
  memset (cp_string, 0, max_cp_string_len);
567
  /* LOCALE_RETURN_NUMBER flag would avoid strtoul conversion,
568
     but is unavailable on Win95.  */
569
  c = GetLocaleInfoA (MAKELCID (langid, SORT_DEFAULT),
570
                      LOCALE_IDEFAULTCODEPAGE,
571
                      cp_string, max_cp_string_len);
572
  /* If codepage data for an LCID is not installed on users's system,
573
     GetLocaleInfo returns an empty string.  Fall back to system ANSI
574
     default. */
575
  if (c == 0)
576
    return CP_OEM;
577
  return strtoul (cp_string, 0, 10);
578
}
579
 
580
static char *
581
lang_from_langid (unsigned short langid)
582
{
583
  char cp_string[261];
584
  int c;
585
 
586
  memset (cp_string, 0, 261);
587
  c = GetLocaleInfoA (MAKELCID (langid, SORT_DEFAULT),
588
                      LOCALE_SENGLANGUAGE,
589
                      cp_string, 260);
590
  /* If codepage data for an LCID is not installed on users's system,
591
     GetLocaleInfo returns an empty string.  Fall back to system ANSI
592
     default. */
593
  if (c == 0)
594
    strcpy (cp_string, "Neutral");
595
  return xstrdup (cp_string);
596
}
597
 
598
static char *
599
country_from_langid (unsigned short langid)
600
{
601
  char cp_string[261];
602
  int c;
603
 
604
  memset (cp_string, 0, 261);
605
  c = GetLocaleInfoA (MAKELCID (langid, SORT_DEFAULT),
606
                      LOCALE_SENGCOUNTRY,
607
                      cp_string, 260);
608
  /* If codepage data for an LCID is not installed on users's system,
609
     GetLocaleInfo returns an empty string.  Fall back to system ANSI
610
     default. */
611
  if (c == 0)
612
    strcpy (cp_string, "Neutral");
613
  return xstrdup (cp_string);
614
}
615
 
616
#endif
617
 
618
const wind_language_t *
619
wind_find_language_by_id (unsigned id)
620
{
621
#if !defined (_WIN32) && !defined (__CYGWIN__)
622
  int i;
623
 
624
  if (! id)
625
    return NULL;
626
  for (i = 0; languages[i].id != (unsigned) -1 && languages[i].id != id; i++)
627
    ;
628
  if (languages[i].id == id)
629
    return &languages[i];
630
  return NULL;
631
#else
632
  static wind_language_t wl;
633
 
634
  wl.id = id;
635
  wl.doscp = codepage_from_langid ((unsigned short) id);
636
  wl.wincp = wincodepage_from_langid ((unsigned short) id);
637
  wl.name = lang_from_langid ((unsigned short) id);
638
  wl.country = country_from_langid ((unsigned short) id);
639
 
640
  return & wl;
641
#endif
642
}
643
 
644
const local_iconv_map *
645
wind_find_codepage_info (unsigned cp)
646
{
647
#if !defined (_WIN32) && !defined (__CYGWIN__)
648
  int i;
649
 
650
  for (i = 0; codepages[i].codepage != (rc_uint_type) -1 && codepages[i].codepage != cp; i++)
651
    ;
652
  if (codepages[i].codepage == (rc_uint_type) -1)
653
    return NULL;
654
  return &codepages[i];
655
#else
656
  static local_iconv_map lim;
657
  if (!unicode_is_valid_codepage (cp))
658
        return NULL;
659
  lim.codepage = cp;
660
  lim.iconv_name = "";
661
  return & lim;
662
#endif
663
}
664
 
665
/* Convert an Codepage string to a unicode string.  */
666
 
667
void
668
unicode_from_codepage (rc_uint_type *length, unichar **u, const char *src, rc_uint_type cp)
669
{
670
  rc_uint_type len;
671
 
672
  len = wind_MultiByteToWideChar (cp, src, NULL, 0);
673
  if (len)
674
    {
675
      *u = ((unichar *) res_alloc (len));
676
      wind_MultiByteToWideChar (cp, src, *u, len);
677
    }
678
  /* Discount the trailing '/0'.  If MultiByteToWideChar failed,
679
     this will set *length to -1.  */
680
  len -= sizeof (unichar);
681
 
682
  if (length != NULL)
683
    *length = len / sizeof (unichar);
684
}
685
 
686
/* Convert an unicode string to an codepage string.  */
687
 
688
void
689
codepage_from_unicode (rc_uint_type *length, const unichar *unicode, char **ascii, rc_uint_type cp)
690
{
691
  rc_uint_type len;
692
 
693
  len = wind_WideCharToMultiByte (cp, unicode, NULL, 0);
694
  if (len)
695
    {
696
      *ascii = (char *) res_alloc (len * sizeof (char));
697
      wind_WideCharToMultiByte (cp, unicode, *ascii, len);
698
    }
699
  /* Discount the trailing '/0'.  If MultiByteToWideChar failed,
700
     this will set *length to -1.  */
701
  len--;
702
 
703
  if (length != NULL)
704
    *length = len;
705
}
706
 
707
#if defined (HAVE_ICONV) && !defined (_WIN32) && !defined (__CYGWIN__)
708
static int
709
iconv_onechar (iconv_t cd, ICONV_CONST char *s, char *d, int d_len, const char **n_s, char **n_d)
710
{
711
  int i;
712
 
713
  for (i = 1; i <= 32; i++)
714
    {
715
      char *tmp_d = d;
716
      ICONV_CONST char *tmp_s = s;
717
      size_t ret;
718
      size_t s_left = (size_t) i;
719
      size_t d_left = (size_t) d_len;
720
 
721
      ret = iconv (cd, & tmp_s, & s_left, & tmp_d, & d_left);
722
 
723
      if (ret != (size_t) -1)
724
        {
725
          *n_s = tmp_s;
726
          *n_d = tmp_d;
727
          return 0;
728
        }
729
    }
730
 
731
  return 1;
732
}
733
 
734
static const char *
735
wind_iconv_cp (rc_uint_type cp)
736
{
737
  const local_iconv_map *lim = wind_find_codepage_info (cp);
738
 
739
  if (!lim)
740
    return NULL;
741
  return lim->iconv_name;
742
}
743
#endif /* HAVE_ICONV */
744
 
745
static rc_uint_type
746
wind_MultiByteToWideChar (rc_uint_type cp, const char *mb,
747
                          unichar *u, rc_uint_type u_len)
748
{
749
  rc_uint_type ret = 0;
750
 
751
#if defined (_WIN32) || defined (__CYGWIN__)
752
  rc_uint_type conv_flags = MB_PRECOMPOSED;
753
 
754
  /* MB_PRECOMPOSED is not allowed for UTF-7 or UTF-8.
755
     MultiByteToWideChar will set the last error to
756
     ERROR_INVALID_FLAGS if we do. */
757
  if (cp == CP_UTF8 || cp == CP_UTF7)
758
    conv_flags = 0;
759
 
760
  ret = (rc_uint_type) MultiByteToWideChar (cp, conv_flags,
761
                                            mb, -1, u, u_len);
762
  /* Convert to bytes. */
763
  ret *= sizeof (unichar);
764
 
765
#elif defined (HAVE_ICONV)
766
  int first = 1;
767
  char tmp[32];
768
  char *p_tmp;
769
  const char *iconv_name = wind_iconv_cp (cp);
770
 
771
  if (!mb || !iconv_name)
772
    return 0;
773
  iconv_t cd = iconv_open ("UTF-16", iconv_name);
774
 
775
  while (1)
776
    {
777
      int iret;
778
      const char *n_mb = "";
779
      char *n_tmp = "";
780
 
781
      p_tmp = tmp;
782
      iret = iconv_onechar (cd, (ICONV_CONST char *) mb, p_tmp, 32, & n_mb, & n_tmp);
783
      if (first)
784
        {
785
          first = 0;
786
          continue;
787
        }
788
      if (!iret)
789
        {
790
          size_t l_tmp = (size_t) (n_tmp - p_tmp);
791
 
792
          if (u)
793
            {
794
              if ((size_t) u_len < l_tmp)
795
                break;
796
              memcpy (u, tmp, l_tmp);
797
              u += l_tmp/2;
798
              u_len -= l_tmp;
799
            }
800
          ret += l_tmp;
801
        }
802
      else
803
        break;
804
      if (tmp[0] == 0 && tmp[1] == 0)
805
        break;
806
      mb = n_mb;
807
    }
808
  iconv_close (cd);
809
#else
810
  if (cp)
811
    ret = 0;
812
  ret = strlen (mb) + 1;
813
  ret *= sizeof (unichar);
814
  if (u != NULL && u_len != 0)
815
    {
816
      do
817
        {
818
          *u++ = ((unichar) *mb) & 0xff;
819
          --u_len; mb++;
820
        }
821
      while (u_len != 0 && mb[-1] != 0);
822
    }
823
  if (u != NULL && u_len != 0)
824
    *u = 0;
825
#endif
826
  return ret;
827
}
828
 
829
static rc_uint_type
830
wind_WideCharToMultiByte (rc_uint_type cp, const unichar *u, char *mb, rc_uint_type mb_len)
831
{
832
  rc_uint_type ret = 0;
833
#if defined (_WIN32) || defined (__CYGWIN__)
834
  WINBOOL used_def = FALSE;
835
 
836
  ret = (rc_uint_type) WideCharToMultiByte (cp, 0, u, -1, mb, mb_len,
837
                                            NULL, & used_def);
838
#elif defined (HAVE_ICONV)
839
  int first = 1;
840
  char tmp[32];
841
  char *p_tmp;
842
  const char *iconv_name = wind_iconv_cp (cp);
843
 
844
  if (!u || !iconv_name)
845
    return 0;
846
  iconv_t cd = iconv_open (iconv_name, "UTF-16");
847
 
848
  while (1)
849
    {
850
      int iret;
851
      const char *n_u = "";
852
      char *n_tmp = "";
853
 
854
      p_tmp = tmp;
855
      iret = iconv_onechar (cd, (ICONV_CONST char *) u, p_tmp, 32, &n_u, & n_tmp);
856
      if (first)
857
        {
858
          first = 0;
859
          continue;
860
        }
861
      if (!iret)
862
        {
863
          size_t l_tmp = (size_t) (n_tmp - p_tmp);
864
 
865
          if (mb)
866
            {
867
              if ((size_t) mb_len < l_tmp)
868
                break;
869
              memcpy (mb, tmp, l_tmp);
870
              mb += l_tmp;
871
              mb_len -= l_tmp;
872
            }
873
          ret += l_tmp;
874
        }
875
      else
876
        break;
877
      if (u[0] == 0)
878
        break;
879
      u = (const unichar *) n_u;
880
    }
881
  iconv_close (cd);
882
#else
883
  if (cp)
884
    ret = 0;
885
 
886
  while (u[ret] != 0)
887
    ++ret;
888
 
889
  ++ret;
890
 
891
  if (mb)
892
    {
893
      while (*u != 0 && mb_len != 0)
894
        {
895
          if (u[0] == (u[0] & 0x7f))
896
            *mb++ = (char) u[0];
897
          else
898
            *mb++ = '_';
899
          ++u; --mb_len;
900
        }
901
      if (mb_len != 0)
902
        *mb = 0;
903
    }
904
#endif
905
  return ret;
906
}

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