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[/] [openrisc/] [trunk/] [gnu-stable/] [gcc-4.5.1/] [gcc/] [pretty-print.c] - Blame information for rev 856

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1 280 jeremybenn
/* Various declarations for language-independent pretty-print subroutines.
2
   Copyright (C) 2003, 2004, 2005, 2007, 2008 Free Software Foundation, Inc.
3
   Contributed by Gabriel Dos Reis <gdr@integrable-solutions.net>
4
 
5
This file is part of GCC.
6
 
7
GCC is free software; you can redistribute it and/or modify it under
8
the terms of the GNU General Public License as published by the Free
9
Software Foundation; either version 3, or (at your option) any later
10
version.
11
 
12
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
13
WARRANTY; without even the implied warranty of MERCHANTABILITY or
14
FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
15
for more details.
16
 
17
You should have received a copy of the GNU General Public License
18
along with GCC; see the file COPYING3.  If not see
19
<http://www.gnu.org/licenses/>.  */
20
 
21
#include "config.h"
22
#undef FLOAT /* This is for hpux. They should change hpux.  */
23
#undef FFS  /* Some systems define this in param.h.  */
24
#include "system.h"
25
#include "coretypes.h"
26
#include "intl.h"
27
#include "pretty-print.h"
28
#include "tree.h"
29
#include "ggc.h"
30
 
31
#if HAVE_ICONV
32
#include <iconv.h>
33
#endif
34
 
35
#define obstack_chunk_alloc xmalloc
36
#define obstack_chunk_free  free
37
 
38
/* A pointer to the formatted diagnostic message.  */
39
#define pp_formatted_text_data(PP) \
40
   ((const char *) obstack_base (pp_base (PP)->buffer->obstack))
41
 
42
/* Format an integer given by va_arg (ARG, type-specifier T) where
43
   type-specifier is a precision modifier as indicated by PREC.  F is
44
   a string used to construct the appropriate format-specifier.  */
45
#define pp_integer_with_precision(PP, ARG, PREC, T, F)       \
46
  do                                                         \
47
    switch (PREC)                                            \
48
      {                                                      \
49
      case 0:                                                \
50
        pp_scalar (PP, "%" F, va_arg (ARG, T));              \
51
        break;                                               \
52
                                                             \
53
      case 1:                                                \
54
        pp_scalar (PP, "%l" F, va_arg (ARG, long T));        \
55
        break;                                               \
56
                                                             \
57
      case 2:                                                \
58
        pp_scalar (PP, "%" HOST_LONG_LONG_FORMAT F, va_arg (ARG, long long T));  \
59
        break;                                               \
60
                                                             \
61
      default:                                               \
62
        break;                                               \
63
      }                                                      \
64
  while (0)
65
 
66
 
67
/* Subroutine of pp_set_maximum_length.  Set up PRETTY-PRINTER's
68
   internal maximum characters per line.  */
69
static void
70
pp_set_real_maximum_length (pretty_printer *pp)
71
{
72
  /* If we're told not to wrap lines then do the obvious thing.  In case
73
     we'll emit prefix only once per message, it is appropriate
74
     not to increase unnecessarily the line-length cut-off.  */
75
  if (!pp_is_wrapping_line (pp)
76
      || pp_prefixing_rule (pp) == DIAGNOSTICS_SHOW_PREFIX_ONCE
77
      || pp_prefixing_rule (pp) == DIAGNOSTICS_SHOW_PREFIX_NEVER)
78
    pp->maximum_length = pp_line_cutoff (pp);
79
  else
80
    {
81
      int prefix_length = pp->prefix ? strlen (pp->prefix) : 0;
82
      /* If the prefix is ridiculously too long, output at least
83
         32 characters.  */
84
      if (pp_line_cutoff (pp) - prefix_length < 32)
85
        pp->maximum_length = pp_line_cutoff (pp) + 32;
86
      else
87
        pp->maximum_length = pp_line_cutoff (pp);
88
    }
89
}
90
 
91
/* Clear PRETTY-PRINTER's output state.  */
92
static inline void
93
pp_clear_state (pretty_printer *pp)
94
{
95
  pp->emitted_prefix = false;
96
  pp_indentation (pp) = 0;
97
}
98
 
99
/* Flush the formatted text of PRETTY-PRINTER onto the attached stream.  */
100
void
101
pp_write_text_to_stream (pretty_printer *pp)
102
{
103
  const char *text = pp_formatted_text (pp);
104
  fputs (text, pp->buffer->stream);
105
  pp_clear_output_area (pp);
106
}
107
 
108
/* Wrap a text delimited by START and END into PRETTY-PRINTER.  */
109
static void
110
pp_wrap_text (pretty_printer *pp, const char *start, const char *end)
111
{
112
  bool wrapping_line = pp_is_wrapping_line (pp);
113
 
114
  while (start != end)
115
    {
116
      /* Dump anything bordered by whitespaces.  */
117
      {
118
        const char *p = start;
119
        while (p != end && !ISBLANK (*p) && *p != '\n')
120
          ++p;
121
        if (wrapping_line
122
            && p - start >= pp_remaining_character_count_for_line (pp))
123
          pp_newline (pp);
124
        pp_append_text (pp, start, p);
125
        start = p;
126
      }
127
 
128
      if (start != end && ISBLANK (*start))
129
        {
130
          pp_space (pp);
131
          ++start;
132
        }
133
      if (start != end && *start == '\n')
134
        {
135
          pp_newline (pp);
136
          ++start;
137
        }
138
    }
139
}
140
 
141
/* Same as pp_wrap_text but wrap text only when in line-wrapping mode.  */
142
static inline void
143
pp_maybe_wrap_text (pretty_printer *pp, const char *start, const char *end)
144
{
145
  if (pp_is_wrapping_line (pp))
146
    pp_wrap_text (pp, start, end);
147
  else
148
    pp_append_text (pp, start, end);
149
}
150
 
151
/* Append to the output area of PRETTY-PRINTER a string specified by its
152
   STARTing character and LENGTH.  */
153
static inline void
154
pp_append_r (pretty_printer *pp, const char *start, int length)
155
{
156
  obstack_grow (pp->buffer->obstack, start, length);
157
  pp->buffer->line_length += length;
158
}
159
 
160
/* Insert enough spaces into the output area of PRETTY-PRINTER to bring
161
   the column position to the current indentation level, assuming that a
162
   newline has just been written to the buffer.  */
163
void
164
pp_base_indent (pretty_printer *pp)
165
{
166
  int n = pp_indentation (pp);
167
  int i;
168
 
169
  for (i = 0; i < n; ++i)
170
    pp_space (pp);
171
}
172
 
173
/* The following format specifiers are recognized as being client independent:
174
   %d, %i: (signed) integer in base ten.
175
   %u: unsigned integer in base ten.
176
   %o: unsigned integer in base eight.
177
   %x: unsigned integer in base sixteen.
178
   %ld, %li, %lo, %lu, %lx: long versions of the above.
179
   %lld, %lli, %llo, %llu, %llx: long long versions.
180
   %wd, %wi, %wo, %wu, %wx: HOST_WIDE_INT versions.
181
   %c: character.
182
   %s: string.
183
   %p: pointer.
184
   %m: strerror(text->err_no) - does not consume a value from args_ptr.
185
   %%: '%'.
186
   %<: opening quote.
187
   %>: closing quote.
188
   %': apostrophe (should only be used in untranslated messages;
189
       translations should use appropriate punctuation directly).
190
   %.*s: a substring the length of which is specified by an argument
191
         integer.
192
   %Ns: likewise, but length specified as constant in the format string.
193
   %K: a statement, from which EXPR_LOCATION and TREE_BLOCK will be recorded.
194
   Flag 'q': quote formatted text (must come immediately after '%').
195
 
196
   Arguments can be used sequentially, or through %N$ resp. *N$
197
   notation Nth argument after the format string.  If %N$ / *N$
198
   notation is used, it must be used for all arguments, except %m, %%,
199
   %<, %> and %', which may not have a number, as they do not consume
200
   an argument.  When %M$.*N$s is used, M must be N + 1.  (This may
201
   also be written %M$.*s, provided N is not otherwise used.)  The
202
   format string must have conversion specifiers with argument numbers
203
   1 up to highest argument; each argument may only be used once.
204
   A format string can have at most 30 arguments.  */
205
 
206
/* Formatting phases 1 and 2: render TEXT->format_spec plus
207
   TEXT->args_ptr into a series of chunks in PP->buffer->args[].
208
   Phase 3 is in pp_base_format_text.  */
209
 
210
void
211
pp_base_format (pretty_printer *pp, text_info *text)
212
{
213
  output_buffer *buffer = pp->buffer;
214
  const char *p;
215
  const char **args;
216
  struct chunk_info *new_chunk_array;
217
 
218
  unsigned int curarg = 0, chunk = 0, argno;
219
  pp_wrapping_mode_t old_wrapping_mode;
220
  bool any_unnumbered = false, any_numbered = false;
221
  const char **formatters[PP_NL_ARGMAX];
222
 
223
  /* Allocate a new chunk structure.  */
224
  new_chunk_array = XOBNEW (&buffer->chunk_obstack, struct chunk_info);
225
  new_chunk_array->prev = buffer->cur_chunk_array;
226
  buffer->cur_chunk_array = new_chunk_array;
227
  args = new_chunk_array->args;
228
 
229
  /* Formatting phase 1: split up TEXT->format_spec into chunks in
230
     PP->buffer->args[].  Even-numbered chunks are to be output
231
     verbatim, odd-numbered chunks are format specifiers.
232
     %m, %%, %<, %>, and %' are replaced with the appropriate text at
233
     this point.  */
234
 
235
  memset (formatters, 0, sizeof formatters);
236
 
237
  for (p = text->format_spec; *p; )
238
    {
239
      while (*p != '\0' && *p != '%')
240
        {
241
          obstack_1grow (&buffer->chunk_obstack, *p);
242
          p++;
243
        }
244
 
245
      if (*p == '\0')
246
        break;
247
 
248
      switch (*++p)
249
        {
250
        case '\0':
251
          gcc_unreachable ();
252
 
253
        case '%':
254
          obstack_1grow (&buffer->chunk_obstack, '%');
255
          p++;
256
          continue;
257
 
258
        case '<':
259
          obstack_grow (&buffer->chunk_obstack,
260
                        open_quote, strlen (open_quote));
261
          p++;
262
          continue;
263
 
264
        case '>':
265
        case '\'':
266
          obstack_grow (&buffer->chunk_obstack,
267
                        close_quote, strlen (close_quote));
268
          p++;
269
          continue;
270
 
271
        case 'm':
272
          {
273
            const char *errstr = xstrerror (text->err_no);
274
            obstack_grow (&buffer->chunk_obstack, errstr, strlen (errstr));
275
          }
276
          p++;
277
          continue;
278
 
279
        default:
280
          /* Handled in phase 2.  Terminate the plain chunk here.  */
281
          obstack_1grow (&buffer->chunk_obstack, '\0');
282
          gcc_assert (chunk < PP_NL_ARGMAX * 2);
283
          args[chunk++] = XOBFINISH (&buffer->chunk_obstack, const char *);
284
          break;
285
        }
286
 
287
      if (ISDIGIT (*p))
288
        {
289
          char *end;
290
          argno = strtoul (p, &end, 10) - 1;
291
          p = end;
292
          gcc_assert (*p == '$');
293
          p++;
294
 
295
          any_numbered = true;
296
          gcc_assert (!any_unnumbered);
297
        }
298
      else
299
        {
300
          argno = curarg++;
301
          any_unnumbered = true;
302
          gcc_assert (!any_numbered);
303
        }
304
      gcc_assert (argno < PP_NL_ARGMAX);
305
      gcc_assert (!formatters[argno]);
306
      formatters[argno] = &args[chunk];
307
      do
308
        {
309
          obstack_1grow (&buffer->chunk_obstack, *p);
310
          p++;
311
        }
312
      while (strchr ("qwl+#", p[-1]));
313
 
314
      if (p[-1] == '.')
315
        {
316
          /* We handle '%.Ns' and '%.*s' or '%M$.*N$s'
317
             (where M == N + 1).  */
318
          if (ISDIGIT (*p))
319
            {
320
              do
321
                {
322
                  obstack_1grow (&buffer->chunk_obstack, *p);
323
                  p++;
324
                }
325
              while (ISDIGIT (p[-1]));
326
              gcc_assert (p[-1] == 's');
327
            }
328
          else
329
            {
330
              gcc_assert (*p == '*');
331
              obstack_1grow (&buffer->chunk_obstack, '*');
332
              p++;
333
 
334
              if (ISDIGIT (*p))
335
                {
336
                  char *end;
337
                  unsigned int argno2 = strtoul (p, &end, 10) - 1;
338
                  p = end;
339
                  gcc_assert (argno2 == argno - 1);
340
                  gcc_assert (!any_unnumbered);
341
                  gcc_assert (*p == '$');
342
 
343
                  p++;
344
                  formatters[argno2] = formatters[argno];
345
                }
346
              else
347
                {
348
                  gcc_assert (!any_numbered);
349
                  formatters[argno+1] = formatters[argno];
350
                  curarg++;
351
                }
352
              gcc_assert (*p == 's');
353
              obstack_1grow (&buffer->chunk_obstack, 's');
354
              p++;
355
            }
356
        }
357
      if (*p == '\0')
358
        break;
359
 
360
      obstack_1grow (&buffer->chunk_obstack, '\0');
361
      gcc_assert (chunk < PP_NL_ARGMAX * 2);
362
      args[chunk++] = XOBFINISH (&buffer->chunk_obstack, const char *);
363
    }
364
 
365
  obstack_1grow (&buffer->chunk_obstack, '\0');
366
  gcc_assert (chunk < PP_NL_ARGMAX * 2);
367
  args[chunk++] = XOBFINISH (&buffer->chunk_obstack, const char *);
368
  args[chunk] = 0;
369
 
370
  /* Set output to the argument obstack, and switch line-wrapping and
371
     prefixing off.  */
372
  buffer->obstack = &buffer->chunk_obstack;
373
  old_wrapping_mode = pp_set_verbatim_wrapping (pp);
374
 
375
  /* Second phase.  Replace each formatter with the formatted text it
376
     corresponds to.  */
377
 
378
  for (argno = 0; formatters[argno]; argno++)
379
    {
380
      int precision = 0;
381
      bool wide = false;
382
      bool plus = false;
383
      bool hash = false;
384
      bool quote = false;
385
 
386
      /* We do not attempt to enforce any ordering on the modifier
387
         characters.  */
388
 
389
      for (p = *formatters[argno];; p++)
390
        {
391
          switch (*p)
392
            {
393
            case 'q':
394
              gcc_assert (!quote);
395
              quote = true;
396
              continue;
397
 
398
            case '+':
399
              gcc_assert (!plus);
400
              plus = true;
401
              continue;
402
 
403
            case '#':
404
              gcc_assert (!hash);
405
              hash = true;
406
              continue;
407
 
408
            case 'w':
409
              gcc_assert (!wide);
410
              wide = true;
411
              continue;
412
 
413
            case 'l':
414
              /* We don't support precision beyond that of "long long".  */
415
              gcc_assert (precision < 2);
416
              precision++;
417
              continue;
418
            }
419
          break;
420
        }
421
 
422
      gcc_assert (!wide || precision == 0);
423
 
424
      if (quote)
425
        pp_string (pp, open_quote);
426
 
427
      switch (*p)
428
        {
429
        case 'c':
430
          pp_character (pp, va_arg (*text->args_ptr, int));
431
          break;
432
 
433
        case 'd':
434
        case 'i':
435
          if (wide)
436
            pp_wide_integer (pp, va_arg (*text->args_ptr, HOST_WIDE_INT));
437
          else
438
            pp_integer_with_precision
439
              (pp, *text->args_ptr, precision, int, "d");
440
          break;
441
 
442
        case 'o':
443
          if (wide)
444
            pp_scalar (pp, "%" HOST_WIDE_INT_PRINT "o",
445
                       va_arg (*text->args_ptr, unsigned HOST_WIDE_INT));
446
          else
447
            pp_integer_with_precision
448
              (pp, *text->args_ptr, precision, unsigned, "o");
449
          break;
450
 
451
        case 's':
452
          pp_string (pp, va_arg (*text->args_ptr, const char *));
453
          break;
454
 
455
        case 'p':
456
          pp_pointer (pp, va_arg (*text->args_ptr, void *));
457
          break;
458
 
459
        case 'u':
460
          if (wide)
461
            pp_scalar (pp, HOST_WIDE_INT_PRINT_UNSIGNED,
462
                       va_arg (*text->args_ptr, unsigned HOST_WIDE_INT));
463
          else
464
            pp_integer_with_precision
465
              (pp, *text->args_ptr, precision, unsigned, "u");
466
          break;
467
 
468
        case 'x':
469
          if (wide)
470
            pp_scalar (pp, HOST_WIDE_INT_PRINT_HEX,
471
                       va_arg (*text->args_ptr, unsigned HOST_WIDE_INT));
472
          else
473
            pp_integer_with_precision
474
              (pp, *text->args_ptr, precision, unsigned, "x");
475
          break;
476
 
477
        case 'K':
478
          {
479
            tree t = va_arg (*text->args_ptr, tree), block;
480
            gcc_assert (text->locus != NULL);
481
            *text->locus = EXPR_LOCATION (t);
482
            gcc_assert (text->abstract_origin != NULL);
483
            block = TREE_BLOCK (t);
484
            *text->abstract_origin = NULL;
485
            while (block
486
                   && TREE_CODE (block) == BLOCK
487
                   && BLOCK_ABSTRACT_ORIGIN (block))
488
              {
489
                tree ao = BLOCK_ABSTRACT_ORIGIN (block);
490
 
491
                while (TREE_CODE (ao) == BLOCK
492
                       && BLOCK_ABSTRACT_ORIGIN (ao)
493
                       && BLOCK_ABSTRACT_ORIGIN (ao) != ao)
494
                  ao = BLOCK_ABSTRACT_ORIGIN (ao);
495
 
496
                if (TREE_CODE (ao) == FUNCTION_DECL)
497
                  {
498
                    *text->abstract_origin = block;
499
                    break;
500
                  }
501
                block = BLOCK_SUPERCONTEXT (block);
502
              }
503
          }
504
          break;
505
 
506
        case '.':
507
          {
508
            int n;
509
            const char *s;
510
 
511
            /* We handle '%.Ns' and '%.*s' or '%M$.*N$s'
512
               (where M == N + 1).  The format string should be verified
513
               already from the first phase.  */
514
            p++;
515
            if (ISDIGIT (*p))
516
              {
517
                char *end;
518
                n = strtoul (p, &end, 10);
519
                p = end;
520
                gcc_assert (*p == 's');
521
              }
522
            else
523
              {
524
                gcc_assert (*p == '*');
525
                p++;
526
                gcc_assert (*p == 's');
527
                n = va_arg (*text->args_ptr, int);
528
 
529
                /* This consumes a second entry in the formatters array.  */
530
                gcc_assert (formatters[argno] == formatters[argno+1]);
531
                argno++;
532
              }
533
 
534
            s = va_arg (*text->args_ptr, const char *);
535
            pp_append_text (pp, s, s + n);
536
          }
537
          break;
538
 
539
        default:
540
          {
541
            bool ok;
542
 
543
            gcc_assert (pp_format_decoder (pp));
544
            ok = pp_format_decoder (pp) (pp, text, p,
545
                                         precision, wide, plus, hash);
546
            gcc_assert (ok);
547
          }
548
        }
549
 
550
      if (quote)
551
        pp_string (pp, close_quote);
552
 
553
      obstack_1grow (&buffer->chunk_obstack, '\0');
554
      *formatters[argno] = XOBFINISH (&buffer->chunk_obstack, const char *);
555
    }
556
 
557
#ifdef ENABLE_CHECKING
558
  for (; argno < PP_NL_ARGMAX; argno++)
559
    gcc_assert (!formatters[argno]);
560
#endif
561
 
562
  /* Revert to normal obstack and wrapping mode.  */
563
  buffer->obstack = &buffer->formatted_obstack;
564
  buffer->line_length = 0;
565
  pp_wrapping_mode (pp) = old_wrapping_mode;
566
  pp_clear_state (pp);
567
}
568
 
569
/* Format of a message pointed to by TEXT.  */
570
void
571
pp_base_output_formatted_text (pretty_printer *pp)
572
{
573
  unsigned int chunk;
574
  output_buffer *buffer = pp_buffer (pp);
575
  struct chunk_info *chunk_array = buffer->cur_chunk_array;
576
  const char **args = chunk_array->args;
577
 
578
  gcc_assert (buffer->obstack == &buffer->formatted_obstack);
579
  gcc_assert (buffer->line_length == 0);
580
 
581
  /* This is a third phase, first 2 phases done in pp_base_format_args.
582
     Now we actually print it.  */
583
  for (chunk = 0; args[chunk]; chunk++)
584
    pp_string (pp, args[chunk]);
585
 
586
  /* Deallocate the chunk structure and everything after it (i.e. the
587
     associated series of formatted strings).  */
588
  buffer->cur_chunk_array = chunk_array->prev;
589
  obstack_free (&buffer->chunk_obstack, chunk_array);
590
}
591
 
592
/* Helper subroutine of output_verbatim and verbatim. Do the appropriate
593
   settings needed by BUFFER for a verbatim formatting.  */
594
void
595
pp_base_format_verbatim (pretty_printer *pp, text_info *text)
596
{
597
  /* Set verbatim mode.  */
598
  pp_wrapping_mode_t oldmode = pp_set_verbatim_wrapping (pp);
599
 
600
  /* Do the actual formatting.  */
601
  pp_format (pp, text);
602
  pp_output_formatted_text (pp);
603
 
604
  /* Restore previous settings.  */
605
  pp_wrapping_mode (pp) = oldmode;
606
}
607
 
608
/* Flush the content of BUFFER onto the attached stream.  */
609
void
610
pp_base_flush (pretty_printer *pp)
611
{
612
  pp_write_text_to_stream (pp);
613
  pp_clear_state (pp);
614
  fputc ('\n', pp->buffer->stream);
615
  fflush (pp->buffer->stream);
616
  pp_needs_newline (pp) = false;
617
}
618
 
619
/* Sets the number of maximum characters per line PRETTY-PRINTER can
620
   output in line-wrapping mode.  A LENGTH value 0 suppresses
621
   line-wrapping.  */
622
void
623
pp_base_set_line_maximum_length (pretty_printer *pp, int length)
624
{
625
  pp_line_cutoff (pp) = length;
626
  pp_set_real_maximum_length (pp);
627
}
628
 
629
/* Clear PRETTY-PRINTER output area text info.  */
630
void
631
pp_base_clear_output_area (pretty_printer *pp)
632
{
633
  obstack_free (pp->buffer->obstack, obstack_base (pp->buffer->obstack));
634
  pp->buffer->line_length = 0;
635
}
636
 
637
/* Set PREFIX for PRETTY-PRINTER.  */
638
void
639
pp_base_set_prefix (pretty_printer *pp, const char *prefix)
640
{
641
  pp->prefix = prefix;
642
  pp_set_real_maximum_length (pp);
643
  pp->emitted_prefix = false;
644
  pp_indentation (pp) = 0;
645
}
646
 
647
/* Free PRETTY-PRINTER's prefix, a previously malloc()'d string.  */
648
void
649
pp_base_destroy_prefix (pretty_printer *pp)
650
{
651
  if (pp->prefix != NULL)
652
    {
653
      free (CONST_CAST (char *, pp->prefix));
654
      pp->prefix = NULL;
655
    }
656
}
657
 
658
/* Write out PRETTY-PRINTER's prefix.  */
659
void
660
pp_base_emit_prefix (pretty_printer *pp)
661
{
662
  if (pp->prefix != NULL)
663
    {
664
      switch (pp_prefixing_rule (pp))
665
        {
666
        default:
667
        case DIAGNOSTICS_SHOW_PREFIX_NEVER:
668
          break;
669
 
670
        case DIAGNOSTICS_SHOW_PREFIX_ONCE:
671
          if (pp->emitted_prefix)
672
            {
673
              pp_base_indent (pp);
674
              break;
675
            }
676
          pp_indentation (pp) += 3;
677
          /* Fall through.  */
678
 
679
        case DIAGNOSTICS_SHOW_PREFIX_EVERY_LINE:
680
          {
681
            int prefix_length = strlen (pp->prefix);
682
            pp_append_r (pp, pp->prefix, prefix_length);
683
            pp->emitted_prefix = true;
684
          }
685
          break;
686
        }
687
    }
688
}
689
 
690
/* Construct a PRETTY-PRINTER with PREFIX and of MAXIMUM_LENGTH
691
   characters per line.  */
692
void
693
pp_construct (pretty_printer *pp, const char *prefix, int maximum_length)
694
{
695
  memset (pp, 0, sizeof (pretty_printer));
696
  pp->buffer = XCNEW (output_buffer);
697
  obstack_init (&pp->buffer->chunk_obstack);
698
  obstack_init (&pp->buffer->formatted_obstack);
699
  pp->buffer->obstack = &pp->buffer->formatted_obstack;
700
  pp->buffer->stream = stderr;
701
  pp_line_cutoff (pp) = maximum_length;
702
  pp_prefixing_rule (pp) = DIAGNOSTICS_SHOW_PREFIX_ONCE;
703
  pp_set_prefix (pp, prefix);
704
  pp_translate_identifiers (pp) = true;
705
}
706
 
707
/* Append a string delimited by START and END to the output area of
708
   PRETTY-PRINTER.  No line wrapping is done.  However, if beginning a
709
   new line then emit PRETTY-PRINTER's prefix and skip any leading
710
   whitespace if appropriate.  The caller must ensure that it is
711
   safe to do so.  */
712
void
713
pp_base_append_text (pretty_printer *pp, const char *start, const char *end)
714
{
715
  /* Emit prefix and skip whitespace if we're starting a new line.  */
716
  if (pp->buffer->line_length == 0)
717
    {
718
      pp_emit_prefix (pp);
719
      if (pp_is_wrapping_line (pp))
720
        while (start != end && *start == ' ')
721
          ++start;
722
    }
723
  pp_append_r (pp, start, end - start);
724
}
725
 
726
/* Finishes constructing a NULL-terminated character string representing
727
   the PRETTY-PRINTED text.  */
728
const char *
729
pp_base_formatted_text (pretty_printer *pp)
730
{
731
  obstack_1grow (pp->buffer->obstack, '\0');
732
  return pp_formatted_text_data (pp);
733
}
734
 
735
/*  Return a pointer to the last character emitted in PRETTY-PRINTER's
736
    output area.  A NULL pointer means no character available.  */
737
const char *
738
pp_base_last_position_in_text (const pretty_printer *pp)
739
{
740
  const char *p = NULL;
741
  struct obstack *text = pp->buffer->obstack;
742
 
743
  if (obstack_base (text) != obstack_next_free (text))
744
    p = ((const char *) obstack_next_free (text)) - 1;
745
  return p;
746
}
747
 
748
/* Return the amount of characters PRETTY-PRINTER can accept to
749
   make a full line.  Meaningful only in line-wrapping mode.  */
750
int
751
pp_base_remaining_character_count_for_line (pretty_printer *pp)
752
{
753
  return pp->maximum_length - pp->buffer->line_length;
754
}
755
 
756
 
757
/* Format a message into BUFFER a la printf.  */
758
void
759
pp_printf (pretty_printer *pp, const char *msg, ...)
760
{
761
  text_info text;
762
  va_list ap;
763
 
764
  va_start (ap, msg);
765
  text.err_no = errno;
766
  text.args_ptr = &ap;
767
  text.format_spec = msg;
768
  text.locus = NULL;
769
  pp_format (pp, &text);
770
  pp_output_formatted_text (pp);
771
  va_end (ap);
772
}
773
 
774
 
775
/* Output MESSAGE verbatim into BUFFER.  */
776
void
777
pp_verbatim (pretty_printer *pp, const char *msg, ...)
778
{
779
  text_info text;
780
  va_list ap;
781
 
782
  va_start (ap, msg);
783
  text.err_no = errno;
784
  text.args_ptr = &ap;
785
  text.format_spec = msg;
786
  text.locus = NULL;
787
  pp_format_verbatim (pp, &text);
788
  va_end (ap);
789
}
790
 
791
 
792
 
793
/* Have PRETTY-PRINTER start a new line.  */
794
void
795
pp_base_newline (pretty_printer *pp)
796
{
797
  obstack_1grow (pp->buffer->obstack, '\n');
798
  pp->buffer->line_length = 0;
799
}
800
 
801
/* Have PRETTY-PRINTER add a CHARACTER.  */
802
void
803
pp_base_character (pretty_printer *pp, int c)
804
{
805
  if (pp_is_wrapping_line (pp)
806
      && pp_remaining_character_count_for_line (pp) <= 0)
807
    {
808
      pp_newline (pp);
809
      if (ISSPACE (c))
810
        return;
811
    }
812
  obstack_1grow (pp->buffer->obstack, c);
813
  ++pp->buffer->line_length;
814
}
815
 
816
/* Append a STRING to the output area of PRETTY-PRINTER; the STRING may
817
   be line-wrapped if in appropriate mode.  */
818
void
819
pp_base_string (pretty_printer *pp, const char *str)
820
{
821
  pp_maybe_wrap_text (pp, str, str + (str ? strlen (str) : 0));
822
}
823
 
824
/* Maybe print out a whitespace if needed.  */
825
 
826
void
827
pp_base_maybe_space (pretty_printer *pp)
828
{
829
  if (pp_base (pp)->padding != pp_none)
830
    {
831
      pp_space (pp);
832
      pp_base (pp)->padding = pp_none;
833
    }
834
}
835
 
836
/* Print the identifier ID to PRETTY-PRINTER.  */
837
 
838
void
839
pp_base_tree_identifier (pretty_printer *pp, tree id)
840
{
841
  if (pp_translate_identifiers (pp))
842
    {
843
      const char *text = identifier_to_locale (IDENTIFIER_POINTER (id));
844
      pp_append_text (pp, text, text + strlen (text));
845
    }
846
  else
847
    pp_append_text (pp, IDENTIFIER_POINTER (id),
848
                    IDENTIFIER_POINTER (id) + IDENTIFIER_LENGTH (id));
849
}
850
 
851
/* The string starting at P has LEN (at least 1) bytes left; if they
852
   start with a valid UTF-8 sequence, return the length of that
853
   sequence and set *VALUE to the value of that sequence, and
854
   otherwise return 0 and set *VALUE to (unsigned int) -1.  */
855
 
856
static int
857
decode_utf8_char (const unsigned char *p, size_t len, unsigned int *value)
858
{
859
  unsigned int t = *p;
860
 
861
  if (len == 0)
862
    abort ();
863
  if (t & 0x80)
864
    {
865
      size_t utf8_len = 0;
866
      unsigned int ch;
867
      size_t i;
868
      for (t = *p; t & 0x80; t <<= 1)
869
        utf8_len++;
870
 
871
      if (utf8_len > len || utf8_len < 2 || utf8_len > 6)
872
        {
873
          *value = (unsigned int) -1;
874
          return 0;
875
        }
876
      ch = *p & ((1 << (7 - utf8_len)) - 1);
877
      for (i = 1; i < utf8_len; i++)
878
        {
879
          unsigned int u = p[i];
880
          if ((u & 0xC0) != 0x80)
881
            {
882
              *value = (unsigned int) -1;
883
              return 0;
884
            }
885
          ch = (ch << 6) | (u & 0x3F);
886
        }
887
      if (   (ch <=      0x7F && utf8_len > 1)
888
          || (ch <=     0x7FF && utf8_len > 2)
889
          || (ch <=    0xFFFF && utf8_len > 3)
890
          || (ch <=  0x1FFFFF && utf8_len > 4)
891
          || (ch <= 0x3FFFFFF && utf8_len > 5)
892
          || (ch >= 0xD800 && ch <= 0xDFFF))
893
        {
894
          *value = (unsigned int) -1;
895
          return 0;
896
        }
897
      *value = ch;
898
      return utf8_len;
899
    }
900
  else
901
    {
902
      *value = t;
903
      return 1;
904
    }
905
}
906
 
907
/* Given IDENT, an identifier in the internal encoding, return a
908
   version of IDENT suitable for diagnostics in the locale character
909
   set: either IDENT itself, or a garbage-collected string converted
910
   to the locale character set and using escape sequences if not
911
   representable in the locale character set or containing control
912
   characters or invalid byte sequences.  Existing backslashes in
913
   IDENT are not doubled, so the result may not uniquely specify the
914
   contents of an arbitrary byte sequence identifier.  */
915
 
916
const char *
917
identifier_to_locale (const char *ident)
918
{
919
  const unsigned char *uid = (const unsigned char *) ident;
920
  size_t idlen = strlen (ident);
921
  bool valid_printable_utf8 = true;
922
  bool all_ascii = true;
923
  size_t i;
924
 
925
  for (i = 0; i < idlen;)
926
    {
927
      unsigned int c;
928
      size_t utf8_len = decode_utf8_char (&uid[i], idlen - i, &c);
929
      if (utf8_len == 0 || c <= 0x1F || (c >= 0x7F && c <= 0x9F))
930
        {
931
          valid_printable_utf8 = false;
932
          break;
933
        }
934
      if (utf8_len > 1)
935
        all_ascii = false;
936
      i += utf8_len;
937
    }
938
 
939
  /* If IDENT contains invalid UTF-8 sequences (which may occur with
940
     attributes putting arbitrary byte sequences in identifiers), or
941
     control characters, we use octal escape sequences for all bytes
942
     outside printable ASCII.  */
943
  if (!valid_printable_utf8)
944
    {
945
      char *ret = GGC_NEWVEC (char, 4 * idlen + 1);
946
      char *p = ret;
947
      for (i = 0; i < idlen; i++)
948
        {
949
          if (uid[i] > 0x1F && uid[i] < 0x7F)
950
            *p++ = uid[i];
951
          else
952
            {
953
              sprintf (p, "\\%03o", uid[i]);
954
              p += 4;
955
            }
956
        }
957
      *p = 0;
958
      return ret;
959
    }
960
 
961
  /* Otherwise, if it is valid printable ASCII, or printable UTF-8
962
     with the locale character set being UTF-8, IDENT is used.  */
963
  if (all_ascii || locale_utf8)
964
    return ident;
965
 
966
  /* Otherwise IDENT is converted to the locale character set if
967
     possible.  */
968
#if defined ENABLE_NLS && defined HAVE_LANGINFO_CODESET && HAVE_ICONV
969
  if (locale_encoding != NULL)
970
    {
971
      iconv_t cd = iconv_open (locale_encoding, "UTF-8");
972
      bool conversion_ok = true;
973
      char *ret = NULL;
974
      if (cd != (iconv_t) -1)
975
        {
976
          size_t ret_alloc = 4 * idlen + 1;
977
          for (;;)
978
            {
979
              /* Repeat the whole conversion process as needed with
980
                 larger buffers so non-reversible transformations can
981
                 always be detected.  */
982
              ICONV_CONST char *inbuf = CONST_CAST (char *, ident);
983
              char *outbuf;
984
              size_t inbytesleft = idlen;
985
              size_t outbytesleft = ret_alloc - 1;
986
              size_t iconv_ret;
987
 
988
              ret = GGC_NEWVEC (char, ret_alloc);
989
              outbuf = ret;
990
 
991
              if (iconv (cd, 0, 0, 0, 0) == (size_t) -1)
992
                {
993
                  conversion_ok = false;
994
                  break;
995
                }
996
 
997
              iconv_ret = iconv (cd, &inbuf, &inbytesleft,
998
                                 &outbuf, &outbytesleft);
999
              if (iconv_ret == (size_t) -1 || inbytesleft != 0)
1000
                {
1001
                  if (errno == E2BIG)
1002
                    {
1003
                      ret_alloc *= 2;
1004
                      ggc_free (ret);
1005
                      ret = NULL;
1006
                      continue;
1007
                    }
1008
                  else
1009
                    {
1010
                      conversion_ok = false;
1011
                      break;
1012
                    }
1013
                }
1014
              else if (iconv_ret != 0)
1015
                {
1016
                  conversion_ok = false;
1017
                  break;
1018
                }
1019
              /* Return to initial shift state.  */
1020
              if (iconv (cd, 0, 0, &outbuf, &outbytesleft) == (size_t) -1)
1021
                {
1022
                  if (errno == E2BIG)
1023
                    {
1024
                      ret_alloc *= 2;
1025
                      ggc_free (ret);
1026
                      ret = NULL;
1027
                      continue;
1028
                    }
1029
                  else
1030
                    {
1031
                      conversion_ok = false;
1032
                      break;
1033
                    }
1034
                }
1035
              *outbuf = 0;
1036
              break;
1037
            }
1038
          iconv_close (cd);
1039
          if (conversion_ok)
1040
            return ret;
1041
        }
1042
    }
1043
#endif
1044
 
1045
  /* Otherwise, convert non-ASCII characters in IDENT to UCNs.  */
1046
  {
1047
    char *ret = GGC_NEWVEC (char, 10 * idlen + 1);
1048
    char *p = ret;
1049
    for (i = 0; i < idlen;)
1050
      {
1051
        unsigned int c;
1052
        size_t utf8_len = decode_utf8_char (&uid[i], idlen - i, &c);
1053
        if (utf8_len == 1)
1054
          *p++ = uid[i];
1055
        else
1056
          {
1057
            sprintf (p, "\\U%08x", c);
1058
            p += 10;
1059
          }
1060
        i += utf8_len;
1061
      }
1062
    *p = 0;
1063
    return ret;
1064
  }
1065
}

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