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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [fortran/] [io.c] - Blame information for rev 867

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1 712 jeremybenn
/* Deal with I/O statements & related stuff.
2
   Copyright (C) 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008,
3
   2009, 2010, 2011
4
   Free Software Foundation, Inc.
5
   Contributed by Andy Vaught
6
 
7
This file is part of GCC.
8
 
9
GCC is free software; you can redistribute it and/or modify it under
10
the terms of the GNU General Public License as published by the Free
11
Software Foundation; either version 3, or (at your option) any later
12
version.
13
 
14
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
15
WARRANTY; without even the implied warranty of MERCHANTABILITY or
16
FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
17
for more details.
18
 
19
You should have received a copy of the GNU General Public License
20
along with GCC; see the file COPYING3.  If not see
21
<http://www.gnu.org/licenses/>.  */
22
 
23
#include "config.h"
24
#include "system.h"
25
#include "flags.h"
26
#include "gfortran.h"
27
#include "match.h"
28
#include "parse.h"
29
 
30
gfc_st_label
31
format_asterisk = {0, NULL, NULL, -1, ST_LABEL_FORMAT, ST_LABEL_FORMAT, NULL,
32
                   0, {NULL, NULL}};
33
 
34
typedef struct
35
{
36
  const char *name, *spec, *value;
37
  bt type;
38
}
39
io_tag;
40
 
41
static const io_tag
42
        tag_file        = {"FILE", " file =", " %e", BT_CHARACTER },
43
        tag_status      = {"STATUS", " status =", " %e", BT_CHARACTER},
44
        tag_e_access    = {"ACCESS", " access =", " %e", BT_CHARACTER},
45
        tag_e_form      = {"FORM", " form =", " %e", BT_CHARACTER},
46
        tag_e_recl      = {"RECL", " recl =", " %e", BT_INTEGER},
47
        tag_e_blank     = {"BLANK", " blank =", " %e", BT_CHARACTER},
48
        tag_e_position  = {"POSITION", " position =", " %e", BT_CHARACTER},
49
        tag_e_action    = {"ACTION", " action =", " %e", BT_CHARACTER},
50
        tag_e_delim     = {"DELIM", " delim =", " %e", BT_CHARACTER},
51
        tag_e_pad       = {"PAD", " pad =", " %e", BT_CHARACTER},
52
        tag_e_decimal   = {"DECIMAL", " decimal =", " %e", BT_CHARACTER},
53
        tag_e_encoding  = {"ENCODING", " encoding =", " %e", BT_CHARACTER},
54
        tag_e_async     = {"ASYNCHRONOUS", " asynchronous =", " %e", BT_CHARACTER},
55
        tag_e_round     = {"ROUND", " round =", " %e", BT_CHARACTER},
56
        tag_e_sign      = {"SIGN", " sign =", " %e", BT_CHARACTER},
57
        tag_unit        = {"UNIT", " unit =", " %e", BT_INTEGER},
58
        tag_advance     = {"ADVANCE", " advance =", " %e", BT_CHARACTER},
59
        tag_rec         = {"REC", " rec =", " %e", BT_INTEGER},
60
        tag_spos        = {"POSITION", " pos =", " %e", BT_INTEGER},
61
        tag_format      = {"FORMAT", NULL, NULL, BT_CHARACTER},
62
        tag_iomsg       = {"IOMSG", " iomsg =", " %e", BT_CHARACTER},
63
        tag_iostat      = {"IOSTAT", " iostat =", " %v", BT_INTEGER},
64
        tag_size        = {"SIZE", " size =", " %v", BT_INTEGER},
65
        tag_exist       = {"EXIST", " exist =", " %v", BT_LOGICAL},
66
        tag_opened      = {"OPENED", " opened =", " %v", BT_LOGICAL},
67
        tag_named       = {"NAMED", " named =", " %v", BT_LOGICAL},
68
        tag_name        = {"NAME", " name =", " %v", BT_CHARACTER},
69
        tag_number      = {"NUMBER", " number =", " %v", BT_INTEGER},
70
        tag_s_access    = {"ACCESS", " access =", " %v", BT_CHARACTER},
71
        tag_sequential  = {"SEQUENTIAL", " sequential =", " %v", BT_CHARACTER},
72
        tag_direct      = {"DIRECT", " direct =", " %v", BT_CHARACTER},
73
        tag_s_form      = {"FORM", " form =", " %v", BT_CHARACTER},
74
        tag_formatted   = {"FORMATTED", " formatted =", " %v", BT_CHARACTER},
75
        tag_unformatted = {"UNFORMATTED", " unformatted =", " %v", BT_CHARACTER},
76
        tag_s_recl      = {"RECL", " recl =", " %v", BT_INTEGER},
77
        tag_nextrec     = {"NEXTREC", " nextrec =", " %v", BT_INTEGER},
78
        tag_s_blank     = {"BLANK", " blank =", " %v", BT_CHARACTER},
79
        tag_s_position  = {"POSITION", " position =", " %v", BT_CHARACTER},
80
        tag_s_action    = {"ACTION", " action =", " %v", BT_CHARACTER},
81
        tag_read        = {"READ", " read =", " %v", BT_CHARACTER},
82
        tag_write       = {"WRITE", " write =", " %v", BT_CHARACTER},
83
        tag_readwrite   = {"READWRITE", " readwrite =", " %v", BT_CHARACTER},
84
        tag_s_delim     = {"DELIM", " delim =", " %v", BT_CHARACTER},
85
        tag_s_pad       = {"PAD", " pad =", " %v", BT_CHARACTER},
86
        tag_s_decimal   = {"DECIMAL", " decimal =", " %v", BT_CHARACTER},
87
        tag_s_encoding  = {"ENCODING", " encoding =", " %v", BT_CHARACTER},
88
        tag_s_async     = {"ASYNCHRONOUS", " asynchronous =", " %v", BT_CHARACTER},
89
        tag_s_round     = {"ROUND", " round =", " %v", BT_CHARACTER},
90
        tag_s_sign      = {"SIGN", " sign =", " %v", BT_CHARACTER},
91
        tag_iolength    = {"IOLENGTH", " iolength =", " %v", BT_INTEGER},
92
        tag_convert     = {"CONVERT", " convert =", " %e", BT_CHARACTER},
93
        tag_strm_out    = {"POS", " pos =", " %v", BT_INTEGER},
94
        tag_err         = {"ERR", " err =", " %l", BT_UNKNOWN},
95
        tag_end         = {"END", " end =", " %l", BT_UNKNOWN},
96
        tag_eor         = {"EOR", " eor =", " %l", BT_UNKNOWN},
97
        tag_id          = {"ID", " id =", " %v", BT_INTEGER},
98
        tag_pending     = {"PENDING", " pending =", " %v", BT_LOGICAL},
99
        tag_newunit     = {"NEWUNIT", " newunit =", " %v", BT_INTEGER};
100
 
101
static gfc_dt *current_dt;
102
 
103
#define RESOLVE_TAG(x, y) if (resolve_tag(x, y) == FAILURE) return FAILURE;
104
 
105
 
106
/**************** Fortran 95 FORMAT parser  *****************/
107
 
108
/* FORMAT tokens returned by format_lex().  */
109
typedef enum
110
{
111
  FMT_NONE, FMT_UNKNOWN, FMT_SIGNED_INT, FMT_ZERO, FMT_POSINT, FMT_PERIOD,
112
  FMT_COMMA, FMT_COLON, FMT_SLASH, FMT_DOLLAR, FMT_LPAREN,
113
  FMT_RPAREN, FMT_X, FMT_SIGN, FMT_BLANK, FMT_CHAR, FMT_P, FMT_IBOZ, FMT_F,
114
  FMT_E, FMT_EN, FMT_ES, FMT_G, FMT_L, FMT_A, FMT_D, FMT_H, FMT_END,
115
  FMT_ERROR, FMT_DC, FMT_DP, FMT_T, FMT_TR, FMT_TL, FMT_STAR, FMT_RC,
116
  FMT_RD, FMT_RN, FMT_RP, FMT_RU, FMT_RZ
117
}
118
format_token;
119
 
120
/* Local variables for checking format strings.  The saved_token is
121
   used to back up by a single format token during the parsing
122
   process.  */
123
static gfc_char_t *format_string;
124
static int format_string_pos;
125
static int format_length, use_last_char;
126
static char error_element;
127
static locus format_locus;
128
 
129
static format_token saved_token;
130
 
131
static enum
132
{ MODE_STRING, MODE_FORMAT, MODE_COPY }
133
mode;
134
 
135
 
136
/* Return the next character in the format string.  */
137
 
138
static char
139
next_char (gfc_instring in_string)
140
{
141
  static gfc_char_t c;
142
 
143
  if (use_last_char)
144
    {
145
      use_last_char = 0;
146
      return c;
147
    }
148
 
149
  format_length++;
150
 
151
  if (mode == MODE_STRING)
152
    c = *format_string++;
153
  else
154
    {
155
      c = gfc_next_char_literal (in_string);
156
      if (c == '\n')
157
        c = '\0';
158
    }
159
 
160
  if (gfc_option.flag_backslash && c == '\\')
161
    {
162
      locus old_locus = gfc_current_locus;
163
 
164
      if (gfc_match_special_char (&c) == MATCH_NO)
165
        gfc_current_locus = old_locus;
166
 
167
      if (!(gfc_option.allow_std & GFC_STD_GNU) && !inhibit_warnings)
168
        gfc_warning ("Extension: backslash character at %C");
169
    }
170
 
171
  if (mode == MODE_COPY)
172
    *format_string++ = c;
173
 
174
  if (mode != MODE_STRING)
175
    format_locus = gfc_current_locus;
176
 
177
  format_string_pos++;
178
 
179
  c = gfc_wide_toupper (c);
180
  return c;
181
}
182
 
183
 
184
/* Back up one character position.  Only works once.  */
185
 
186
static void
187
unget_char (void)
188
{
189
  use_last_char = 1;
190
}
191
 
192
/* Eat up the spaces and return a character.  */
193
 
194
static char
195
next_char_not_space (bool *error)
196
{
197
  char c;
198
  do
199
    {
200
      error_element = c = next_char (NONSTRING);
201
      if (c == '\t')
202
        {
203
          if (gfc_option.allow_std & GFC_STD_GNU)
204
            gfc_warning ("Extension: Tab character in format at %C");
205
          else
206
            {
207
              gfc_error ("Extension: Tab character in format at %C");
208
              *error = true;
209
              return c;
210
            }
211
        }
212
    }
213
  while (gfc_is_whitespace (c));
214
  return c;
215
}
216
 
217
static int value = 0;
218
 
219
/* Simple lexical analyzer for getting the next token in a FORMAT
220
   statement.  */
221
 
222
static format_token
223
format_lex (void)
224
{
225
  format_token token;
226
  char c, delim;
227
  int zflag;
228
  int negative_flag;
229
  bool error = false;
230
 
231
  if (saved_token != FMT_NONE)
232
    {
233
      token = saved_token;
234
      saved_token = FMT_NONE;
235
      return token;
236
    }
237
 
238
  c = next_char_not_space (&error);
239
 
240
  negative_flag = 0;
241
  switch (c)
242
    {
243
    case '-':
244
      negative_flag = 1;
245
    case '+':
246
      c = next_char_not_space (&error);
247
      if (!ISDIGIT (c))
248
        {
249
          token = FMT_UNKNOWN;
250
          break;
251
        }
252
 
253
      value = c - '0';
254
 
255
      do
256
        {
257
          c = next_char_not_space (&error);
258
          if (ISDIGIT (c))
259
            value = 10 * value + c - '0';
260
        }
261
      while (ISDIGIT (c));
262
 
263
      unget_char ();
264
 
265
      if (negative_flag)
266
        value = -value;
267
 
268
      token = FMT_SIGNED_INT;
269
      break;
270
 
271
    case '0':
272
    case '1':
273
    case '2':
274
    case '3':
275
    case '4':
276
    case '5':
277
    case '6':
278
    case '7':
279
    case '8':
280
    case '9':
281
      zflag = (c == '0');
282
 
283
      value = c - '0';
284
 
285
      do
286
        {
287
          c = next_char_not_space (&error);
288
          if (ISDIGIT (c))
289
            {
290
              value = 10 * value + c - '0';
291
              if (c != '0')
292
                zflag = 0;
293
            }
294
        }
295
      while (ISDIGIT (c));
296
 
297
      unget_char ();
298
      token = zflag ? FMT_ZERO : FMT_POSINT;
299
      break;
300
 
301
    case '.':
302
      token = FMT_PERIOD;
303
      break;
304
 
305
    case ',':
306
      token = FMT_COMMA;
307
      break;
308
 
309
    case ':':
310
      token = FMT_COLON;
311
      break;
312
 
313
    case '/':
314
      token = FMT_SLASH;
315
      break;
316
 
317
    case '$':
318
      token = FMT_DOLLAR;
319
      break;
320
 
321
    case 'T':
322
      c = next_char_not_space (&error);
323
      switch (c)
324
        {
325
        case 'L':
326
          token = FMT_TL;
327
          break;
328
        case 'R':
329
          token = FMT_TR;
330
          break;
331
        default:
332
          token = FMT_T;
333
          unget_char ();
334
        }
335
      break;
336
 
337
    case '(':
338
      token = FMT_LPAREN;
339
      break;
340
 
341
    case ')':
342
      token = FMT_RPAREN;
343
      break;
344
 
345
    case 'X':
346
      token = FMT_X;
347
      break;
348
 
349
    case 'S':
350
      c = next_char_not_space (&error);
351
      if (c != 'P' && c != 'S')
352
        unget_char ();
353
 
354
      token = FMT_SIGN;
355
      break;
356
 
357
    case 'B':
358
      c = next_char_not_space (&error);
359
      if (c == 'N' || c == 'Z')
360
        token = FMT_BLANK;
361
      else
362
        {
363
          unget_char ();
364
          token = FMT_IBOZ;
365
        }
366
 
367
      break;
368
 
369
    case '\'':
370
    case '"':
371
      delim = c;
372
 
373
      value = 0;
374
 
375
      for (;;)
376
        {
377
          c = next_char (INSTRING_WARN);
378
          if (c == '\0')
379
            {
380
              token = FMT_END;
381
              break;
382
            }
383
 
384
          if (c == delim)
385
            {
386
              c = next_char (INSTRING_NOWARN);
387
 
388
              if (c == '\0')
389
                {
390
                  token = FMT_END;
391
                  break;
392
                }
393
 
394
              if (c != delim)
395
                {
396
                  unget_char ();
397
                  token = FMT_CHAR;
398
                  break;
399
                }
400
            }
401
          value++;
402
        }
403
      break;
404
 
405
    case 'P':
406
      token = FMT_P;
407
      break;
408
 
409
    case 'I':
410
    case 'O':
411
    case 'Z':
412
      token = FMT_IBOZ;
413
      break;
414
 
415
    case 'F':
416
      token = FMT_F;
417
      break;
418
 
419
    case 'E':
420
      c = next_char_not_space (&error);
421
      if (c == 'N' )
422
        token = FMT_EN;
423
      else if (c == 'S')
424
        token = FMT_ES;
425
      else
426
        {
427
          token = FMT_E;
428
          unget_char ();
429
        }
430
 
431
      break;
432
 
433
    case 'G':
434
      token = FMT_G;
435
      break;
436
 
437
    case 'H':
438
      token = FMT_H;
439
      break;
440
 
441
    case 'L':
442
      token = FMT_L;
443
      break;
444
 
445
    case 'A':
446
      token = FMT_A;
447
      break;
448
 
449
    case 'D':
450
      c = next_char_not_space (&error);
451
      if (c == 'P')
452
        {
453
          if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: DP format "
454
              "specifier not allowed at %C") == FAILURE)
455
            return FMT_ERROR;
456
          token = FMT_DP;
457
        }
458
      else if (c == 'C')
459
        {
460
          if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: DC format "
461
              "specifier not allowed at %C") == FAILURE)
462
            return FMT_ERROR;
463
          token = FMT_DC;
464
        }
465
      else
466
        {
467
          token = FMT_D;
468
          unget_char ();
469
        }
470
      break;
471
 
472
    case 'R':
473
      c = next_char_not_space (&error);
474
      switch (c)
475
        {
476
        case 'C':
477
          token = FMT_RC;
478
          break;
479
        case 'D':
480
          token = FMT_RD;
481
          break;
482
        case 'N':
483
          token = FMT_RN;
484
          break;
485
        case 'P':
486
          token = FMT_RP;
487
          break;
488
        case 'U':
489
          token = FMT_RU;
490
          break;
491
        case 'Z':
492
          token = FMT_RZ;
493
          break;
494
        default:
495
          token = FMT_UNKNOWN;
496
          unget_char ();
497
          break;
498
        }
499
      break;
500
 
501
    case '\0':
502
      token = FMT_END;
503
      break;
504
 
505
    case '*':
506
      token = FMT_STAR;
507
      break;
508
 
509
    default:
510
      token = FMT_UNKNOWN;
511
      break;
512
    }
513
 
514
  if (error)
515
    return FMT_ERROR;
516
 
517
  return token;
518
}
519
 
520
 
521
static const char *
522
token_to_string (format_token t)
523
{
524
  switch (t)
525
    {
526
      case FMT_D:
527
        return "D";
528
      case FMT_G:
529
        return "G";
530
      case FMT_E:
531
        return "E";
532
      case FMT_EN:
533
        return "EN";
534
      case FMT_ES:
535
        return "ES";
536
      default:
537
        return "";
538
    }
539
}
540
 
541
/* Check a format statement.  The format string, either from a FORMAT
542
   statement or a constant in an I/O statement has already been parsed
543
   by itself, and we are checking it for validity.  The dual origin
544
   means that the warning message is a little less than great.  */
545
 
546
static gfc_try
547
check_format (bool is_input)
548
{
549
  const char *posint_required     = _("Positive width required");
550
  const char *nonneg_required     = _("Nonnegative width required");
551
  const char *unexpected_element  = _("Unexpected element '%c' in format string"
552
                                      " at %L");
553
  const char *unexpected_end      = _("Unexpected end of format string");
554
  const char *zero_width          = _("Zero width in format descriptor");
555
 
556
  const char *error;
557
  format_token t, u;
558
  int level;
559
  int repeat;
560
  gfc_try rv;
561
 
562
  use_last_char = 0;
563
  saved_token = FMT_NONE;
564
  level = 0;
565
  repeat = 0;
566
  rv = SUCCESS;
567
  format_string_pos = 0;
568
 
569
  t = format_lex ();
570
  if (t == FMT_ERROR)
571
    goto fail;
572
  if (t != FMT_LPAREN)
573
    {
574
      error = _("Missing leading left parenthesis");
575
      goto syntax;
576
    }
577
 
578
  t = format_lex ();
579
  if (t == FMT_ERROR)
580
    goto fail;
581
  if (t == FMT_RPAREN)
582
    goto finished;              /* Empty format is legal */
583
  saved_token = t;
584
 
585
format_item:
586
  /* In this state, the next thing has to be a format item.  */
587
  t = format_lex ();
588
  if (t == FMT_ERROR)
589
    goto fail;
590
format_item_1:
591
  switch (t)
592
    {
593
    case FMT_STAR:
594
      repeat = -1;
595
      t = format_lex ();
596
      if (t == FMT_ERROR)
597
        goto fail;
598
      if (t == FMT_LPAREN)
599
        {
600
          level++;
601
          goto format_item;
602
        }
603
      error = _("Left parenthesis required after '*'");
604
      goto syntax;
605
 
606
    case FMT_POSINT:
607
      repeat = value;
608
      t = format_lex ();
609
      if (t == FMT_ERROR)
610
        goto fail;
611
      if (t == FMT_LPAREN)
612
        {
613
          level++;
614
          goto format_item;
615
        }
616
 
617
      if (t == FMT_SLASH)
618
        goto optional_comma;
619
 
620
      goto data_desc;
621
 
622
    case FMT_LPAREN:
623
      level++;
624
      goto format_item;
625
 
626
    case FMT_SIGNED_INT:
627
    case FMT_ZERO:
628
      /* Signed integer can only precede a P format.  */
629
      t = format_lex ();
630
      if (t == FMT_ERROR)
631
        goto fail;
632
      if (t != FMT_P)
633
        {
634
          error = _("Expected P edit descriptor");
635
          goto syntax;
636
        }
637
 
638
      goto data_desc;
639
 
640
    case FMT_P:
641
      /* P requires a prior number.  */
642
      error = _("P descriptor requires leading scale factor");
643
      goto syntax;
644
 
645
    case FMT_X:
646
      /* X requires a prior number if we're being pedantic.  */
647
      if (mode != MODE_FORMAT)
648
        format_locus.nextc += format_string_pos;
649
      if (gfc_notify_std (GFC_STD_GNU, "Extension: X descriptor "
650
                          "requires leading space count at %L", &format_locus)
651
          == FAILURE)
652
        return FAILURE;
653
      goto between_desc;
654
 
655
    case FMT_SIGN:
656
    case FMT_BLANK:
657
    case FMT_DP:
658
    case FMT_DC:
659
    case FMT_RC:
660
    case FMT_RD:
661
    case FMT_RN:
662
    case FMT_RP:
663
    case FMT_RU:
664
    case FMT_RZ:
665
      goto between_desc;
666
 
667
    case FMT_CHAR:
668
      goto extension_optional_comma;
669
 
670
    case FMT_COLON:
671
    case FMT_SLASH:
672
      goto optional_comma;
673
 
674
    case FMT_DOLLAR:
675
      t = format_lex ();
676
      if (t == FMT_ERROR)
677
        goto fail;
678
 
679
      if (gfc_notify_std (GFC_STD_GNU, "Extension: $ descriptor at %L",
680
          &format_locus) == FAILURE)
681
        return FAILURE;
682
      if (t != FMT_RPAREN || level > 0)
683
        {
684
          gfc_warning ("$ should be the last specifier in format at %L",
685
                       &format_locus);
686
          goto optional_comma_1;
687
        }
688
 
689
      goto finished;
690
 
691
    case FMT_T:
692
    case FMT_TL:
693
    case FMT_TR:
694
    case FMT_IBOZ:
695
    case FMT_F:
696
    case FMT_E:
697
    case FMT_EN:
698
    case FMT_ES:
699
    case FMT_G:
700
    case FMT_L:
701
    case FMT_A:
702
    case FMT_D:
703
    case FMT_H:
704
      goto data_desc;
705
 
706
    case FMT_END:
707
      error = unexpected_end;
708
      goto syntax;
709
 
710
    default:
711
      error = unexpected_element;
712
      goto syntax;
713
    }
714
 
715
data_desc:
716
  /* In this state, t must currently be a data descriptor.
717
     Deal with things that can/must follow the descriptor.  */
718
  switch (t)
719
    {
720
    case FMT_SIGN:
721
    case FMT_BLANK:
722
    case FMT_DP:
723
    case FMT_DC:
724
    case FMT_X:
725
      break;
726
 
727
    case FMT_P:
728
      /* No comma after P allowed only for F, E, EN, ES, D, or G.
729
         10.1.1 (1).  */
730
      t = format_lex ();
731
      if (t == FMT_ERROR)
732
        goto fail;
733
      if (!(gfc_option.allow_std & GFC_STD_F2003) && t != FMT_COMMA
734
          && t != FMT_F && t != FMT_E && t != FMT_EN && t != FMT_ES
735
          && t != FMT_D && t != FMT_G && t != FMT_RPAREN && t != FMT_SLASH)
736
        {
737
          error = _("Comma required after P descriptor");
738
          goto syntax;
739
        }
740
      if (t != FMT_COMMA)
741
        {
742
          if (t == FMT_POSINT)
743
            {
744
              t = format_lex ();
745
              if (t == FMT_ERROR)
746
                goto fail;
747
            }
748
          if (t != FMT_F && t != FMT_E && t != FMT_EN && t != FMT_ES && t != FMT_D
749
              && t != FMT_G && t != FMT_RPAREN && t != FMT_SLASH)
750
            {
751
              error = _("Comma required after P descriptor");
752
              goto syntax;
753
            }
754
        }
755
 
756
      saved_token = t;
757
      goto optional_comma;
758
 
759
    case FMT_T:
760
    case FMT_TL:
761
    case FMT_TR:
762
      t = format_lex ();
763
      if (t != FMT_POSINT)
764
        {
765
          error = _("Positive width required with T descriptor");
766
          goto syntax;
767
        }
768
      break;
769
 
770
    case FMT_L:
771
      t = format_lex ();
772
      if (t == FMT_ERROR)
773
        goto fail;
774
      if (t == FMT_POSINT)
775
        break;
776
 
777
      switch (gfc_notification_std (GFC_STD_GNU))
778
        {
779
          case WARNING:
780
            if (mode != MODE_FORMAT)
781
              format_locus.nextc += format_string_pos;
782
            gfc_warning ("Extension: Missing positive width after L "
783
                         "descriptor at %L", &format_locus);
784
            saved_token = t;
785
            break;
786
 
787
          case ERROR:
788
            error = posint_required;
789
            goto syntax;
790
 
791
          case SILENT:
792
            saved_token = t;
793
            break;
794
 
795
          default:
796
            gcc_unreachable ();
797
        }
798
      break;
799
 
800
    case FMT_A:
801
      t = format_lex ();
802
      if (t == FMT_ERROR)
803
        goto fail;
804
      if (t == FMT_ZERO)
805
        {
806
          error = zero_width;
807
          goto syntax;
808
        }
809
      if (t != FMT_POSINT)
810
        saved_token = t;
811
      break;
812
 
813
    case FMT_D:
814
    case FMT_E:
815
    case FMT_G:
816
    case FMT_EN:
817
    case FMT_ES:
818
      u = format_lex ();
819
      if (t == FMT_G && u == FMT_ZERO)
820
        {
821
          if (is_input)
822
            {
823
              error = zero_width;
824
              goto syntax;
825
            }
826
          if (gfc_notify_std (GFC_STD_F2008, "Fortran 2008: 'G0' in "
827
                              "format at %L", &format_locus) == FAILURE)
828
            return FAILURE;
829
          u = format_lex ();
830
          if (u != FMT_PERIOD)
831
            {
832
              saved_token = u;
833
              break;
834
            }
835
          u = format_lex ();
836
          if (u != FMT_POSINT)
837
            {
838
              error = posint_required;
839
              goto syntax;
840
            }
841
          u = format_lex ();
842
          if (u == FMT_E)
843
            {
844
              error = _("E specifier not allowed with g0 descriptor");
845
              goto syntax;
846
            }
847
          saved_token = u;
848
          break;
849
        }
850
 
851
      if (u != FMT_POSINT)
852
        {
853
          format_locus.nextc += format_string_pos;
854
          gfc_error ("Positive width required in format "
855
                         "specifier %s at %L", token_to_string (t),
856
                         &format_locus);
857
          saved_token = u;
858
          goto fail;
859
        }
860
 
861
      u = format_lex ();
862
      if (u == FMT_ERROR)
863
        goto fail;
864
      if (u != FMT_PERIOD)
865
        {
866
          /* Warn if -std=legacy, otherwise error.  */
867
          format_locus.nextc += format_string_pos;
868
          if (gfc_option.warn_std != 0)
869
            {
870
              gfc_error ("Period required in format "
871
                             "specifier %s at %L", token_to_string (t),
872
                             &format_locus);
873
              saved_token = u;
874
              goto fail;
875
            }
876
          else
877
            gfc_warning ("Period required in format "
878
                         "specifier %s at %L", token_to_string (t),
879
                          &format_locus);
880
          /* If we go to finished, we need to unwind this
881
             before the next round.  */
882
          format_locus.nextc -= format_string_pos;
883
          saved_token = u;
884
          break;
885
        }
886
 
887
      u = format_lex ();
888
      if (u == FMT_ERROR)
889
        goto fail;
890
      if (u != FMT_ZERO && u != FMT_POSINT)
891
        {
892
          error = nonneg_required;
893
          goto syntax;
894
        }
895
 
896
      if (t == FMT_D)
897
        break;
898
 
899
      /* Look for optional exponent.  */
900
      u = format_lex ();
901
      if (u == FMT_ERROR)
902
        goto fail;
903
      if (u != FMT_E)
904
        {
905
          saved_token = u;
906
        }
907
      else
908
        {
909
          u = format_lex ();
910
          if (u == FMT_ERROR)
911
            goto fail;
912
          if (u != FMT_POSINT)
913
            {
914
              error = _("Positive exponent width required");
915
              goto syntax;
916
            }
917
        }
918
 
919
      break;
920
 
921
    case FMT_F:
922
      t = format_lex ();
923
      if (t == FMT_ERROR)
924
        goto fail;
925
      if (t != FMT_ZERO && t != FMT_POSINT)
926
        {
927
          error = nonneg_required;
928
          goto syntax;
929
        }
930
      else if (is_input && t == FMT_ZERO)
931
        {
932
          error = posint_required;
933
          goto syntax;
934
        }
935
 
936
      t = format_lex ();
937
      if (t == FMT_ERROR)
938
        goto fail;
939
      if (t != FMT_PERIOD)
940
        {
941
          /* Warn if -std=legacy, otherwise error.  */
942
          if (gfc_option.warn_std != 0)
943
            {
944
              error = _("Period required in format specifier");
945
              goto syntax;
946
            }
947
          if (mode != MODE_FORMAT)
948
            format_locus.nextc += format_string_pos;
949
          gfc_warning ("Period required in format specifier at %L",
950
                       &format_locus);
951
          saved_token = t;
952
          break;
953
        }
954
 
955
      t = format_lex ();
956
      if (t == FMT_ERROR)
957
        goto fail;
958
      if (t != FMT_ZERO && t != FMT_POSINT)
959
        {
960
          error = nonneg_required;
961
          goto syntax;
962
        }
963
 
964
      break;
965
 
966
    case FMT_H:
967
      if (!(gfc_option.allow_std & GFC_STD_GNU) && !inhibit_warnings)
968
        {
969
          if (mode != MODE_FORMAT)
970
            format_locus.nextc += format_string_pos;
971
          gfc_warning ("The H format specifier at %L is"
972
                       " a Fortran 95 deleted feature", &format_locus);
973
        }
974
      if (mode == MODE_STRING)
975
        {
976
          format_string += value;
977
          format_length -= value;
978
          format_string_pos += repeat;
979
        }
980
      else
981
        {
982
          while (repeat >0)
983
           {
984
             next_char (INSTRING_WARN);
985
             repeat -- ;
986
           }
987
        }
988
     break;
989
 
990
    case FMT_IBOZ:
991
      t = format_lex ();
992
      if (t == FMT_ERROR)
993
        goto fail;
994
      if (t != FMT_ZERO && t != FMT_POSINT)
995
        {
996
          error = nonneg_required;
997
          goto syntax;
998
        }
999
      else if (is_input && t == FMT_ZERO)
1000
        {
1001
          error = posint_required;
1002
          goto syntax;
1003
        }
1004
 
1005
      t = format_lex ();
1006
      if (t == FMT_ERROR)
1007
        goto fail;
1008
      if (t != FMT_PERIOD)
1009
        {
1010
          saved_token = t;
1011
        }
1012
      else
1013
        {
1014
          t = format_lex ();
1015
          if (t == FMT_ERROR)
1016
            goto fail;
1017
          if (t != FMT_ZERO && t != FMT_POSINT)
1018
            {
1019
              error = nonneg_required;
1020
              goto syntax;
1021
            }
1022
        }
1023
 
1024
      break;
1025
 
1026
    default:
1027
      error = unexpected_element;
1028
      goto syntax;
1029
    }
1030
 
1031
between_desc:
1032
  /* Between a descriptor and what comes next.  */
1033
  t = format_lex ();
1034
  if (t == FMT_ERROR)
1035
    goto fail;
1036
  switch (t)
1037
    {
1038
 
1039
    case FMT_COMMA:
1040
      goto format_item;
1041
 
1042
    case FMT_RPAREN:
1043
      level--;
1044
      if (level < 0)
1045
        goto finished;
1046
      goto between_desc;
1047
 
1048
    case FMT_COLON:
1049
    case FMT_SLASH:
1050
      goto optional_comma;
1051
 
1052
    case FMT_END:
1053
      error = unexpected_end;
1054
      goto syntax;
1055
 
1056
    default:
1057
      if (mode != MODE_FORMAT)
1058
        format_locus.nextc += format_string_pos - 1;
1059
      if (gfc_notify_std (GFC_STD_GNU, "Extension: Missing comma at %L",
1060
          &format_locus) == FAILURE)
1061
        return FAILURE;
1062
      /* If we do not actually return a failure, we need to unwind this
1063
         before the next round.  */
1064
      if (mode != MODE_FORMAT)
1065
        format_locus.nextc -= format_string_pos;
1066
      goto format_item_1;
1067
    }
1068
 
1069
optional_comma:
1070
  /* Optional comma is a weird between state where we've just finished
1071
     reading a colon, slash, dollar or P descriptor.  */
1072
  t = format_lex ();
1073
  if (t == FMT_ERROR)
1074
    goto fail;
1075
optional_comma_1:
1076
  switch (t)
1077
    {
1078
    case FMT_COMMA:
1079
      break;
1080
 
1081
    case FMT_RPAREN:
1082
      level--;
1083
      if (level < 0)
1084
        goto finished;
1085
      goto between_desc;
1086
 
1087
    default:
1088
      /* Assume that we have another format item.  */
1089
      saved_token = t;
1090
      break;
1091
    }
1092
 
1093
  goto format_item;
1094
 
1095
extension_optional_comma:
1096
  /* As a GNU extension, permit a missing comma after a string literal.  */
1097
  t = format_lex ();
1098
  if (t == FMT_ERROR)
1099
    goto fail;
1100
  switch (t)
1101
    {
1102
    case FMT_COMMA:
1103
      break;
1104
 
1105
    case FMT_RPAREN:
1106
      level--;
1107
      if (level < 0)
1108
        goto finished;
1109
      goto between_desc;
1110
 
1111
    case FMT_COLON:
1112
    case FMT_SLASH:
1113
      goto optional_comma;
1114
 
1115
    case FMT_END:
1116
      error = unexpected_end;
1117
      goto syntax;
1118
 
1119
    default:
1120
      if (mode != MODE_FORMAT)
1121
        format_locus.nextc += format_string_pos;
1122
      if (gfc_notify_std (GFC_STD_GNU, "Extension: Missing comma at %L",
1123
          &format_locus) == FAILURE)
1124
        return FAILURE;
1125
      /* If we do not actually return a failure, we need to unwind this
1126
         before the next round.  */
1127
      if (mode != MODE_FORMAT)
1128
        format_locus.nextc -= format_string_pos;
1129
      saved_token = t;
1130
      break;
1131
    }
1132
 
1133
  goto format_item;
1134
 
1135
syntax:
1136
  if (mode != MODE_FORMAT)
1137
    format_locus.nextc += format_string_pos;
1138
  if (error == unexpected_element)
1139
    gfc_error (error, error_element, &format_locus);
1140
  else
1141
    gfc_error ("%s in format string at %L", error, &format_locus);
1142
fail:
1143
  rv = FAILURE;
1144
 
1145
finished:
1146
  return rv;
1147
}
1148
 
1149
 
1150
/* Given an expression node that is a constant string, see if it looks
1151
   like a format string.  */
1152
 
1153
static gfc_try
1154
check_format_string (gfc_expr *e, bool is_input)
1155
{
1156
  gfc_try rv;
1157
  int i;
1158
  if (!e || e->ts.type != BT_CHARACTER || e->expr_type != EXPR_CONSTANT)
1159
    return SUCCESS;
1160
 
1161
  mode = MODE_STRING;
1162
  format_string = e->value.character.string;
1163
 
1164
  /* More elaborate measures are needed to show where a problem is within a
1165
     format string that has been calculated, but that's probably not worth the
1166
     effort.  */
1167
  format_locus = e->where;
1168
  rv = check_format (is_input);
1169
  /* check for extraneous characters at the end of an otherwise valid format
1170
     string, like '(A10,I3)F5'
1171
     start at the end and move back to the last character processed,
1172
     spaces are OK */
1173
  if (rv == SUCCESS && e->value.character.length > format_string_pos)
1174
    for (i=e->value.character.length-1;i>format_string_pos-1;i--)
1175
      if (e->value.character.string[i] != ' ')
1176
        {
1177
          format_locus.nextc += format_length + 1;
1178
          gfc_warning ("Extraneous characters in format at %L", &format_locus);
1179
          break;
1180
        }
1181
  return rv;
1182
}
1183
 
1184
 
1185
/************ Fortran 95 I/O statement matchers *************/
1186
 
1187
/* Match a FORMAT statement.  This amounts to actually parsing the
1188
   format descriptors in order to correctly locate the end of the
1189
   format string.  */
1190
 
1191
match
1192
gfc_match_format (void)
1193
{
1194
  gfc_expr *e;
1195
  locus start;
1196
 
1197
  if (gfc_current_ns->proc_name
1198
      && gfc_current_ns->proc_name->attr.flavor == FL_MODULE)
1199
    {
1200
      gfc_error ("Format statement in module main block at %C");
1201
      return MATCH_ERROR;
1202
    }
1203
 
1204
  if (gfc_statement_label == NULL)
1205
    {
1206
      gfc_error ("Missing format label at %C");
1207
      return MATCH_ERROR;
1208
    }
1209
  gfc_gobble_whitespace ();
1210
 
1211
  mode = MODE_FORMAT;
1212
  format_length = 0;
1213
 
1214
  start = gfc_current_locus;
1215
 
1216
  if (check_format (false) == FAILURE)
1217
    return MATCH_ERROR;
1218
 
1219
  if (gfc_match_eos () != MATCH_YES)
1220
    {
1221
      gfc_syntax_error (ST_FORMAT);
1222
      return MATCH_ERROR;
1223
    }
1224
 
1225
  /* The label doesn't get created until after the statement is done
1226
     being matched, so we have to leave the string for later.  */
1227
 
1228
  gfc_current_locus = start;    /* Back to the beginning */
1229
 
1230
  new_st.loc = start;
1231
  new_st.op = EXEC_NOP;
1232
 
1233
  e = gfc_get_character_expr (gfc_default_character_kind, &start,
1234
                              NULL, format_length);
1235
  format_string = e->value.character.string;
1236
  gfc_statement_label->format = e;
1237
 
1238
  mode = MODE_COPY;
1239
  check_format (false);         /* Guaranteed to succeed */
1240
  gfc_match_eos ();             /* Guaranteed to succeed */
1241
 
1242
  return MATCH_YES;
1243
}
1244
 
1245
 
1246
/* Match an expression I/O tag of some sort.  */
1247
 
1248
static match
1249
match_etag (const io_tag *tag, gfc_expr **v)
1250
{
1251
  gfc_expr *result;
1252
  match m;
1253
 
1254
  m = gfc_match (tag->spec);
1255
  if (m != MATCH_YES)
1256
    return m;
1257
 
1258
  m = gfc_match (tag->value, &result);
1259
  if (m != MATCH_YES)
1260
    {
1261
      gfc_error ("Invalid value for %s specification at %C", tag->name);
1262
      return MATCH_ERROR;
1263
    }
1264
 
1265
  if (*v != NULL)
1266
    {
1267
      gfc_error ("Duplicate %s specification at %C", tag->name);
1268
      gfc_free_expr (result);
1269
      return MATCH_ERROR;
1270
    }
1271
 
1272
  *v = result;
1273
  return MATCH_YES;
1274
}
1275
 
1276
 
1277
/* Match a variable I/O tag of some sort.  */
1278
 
1279
static match
1280
match_vtag (const io_tag *tag, gfc_expr **v)
1281
{
1282
  gfc_expr *result;
1283
  match m;
1284
 
1285
  m = gfc_match (tag->spec);
1286
  if (m != MATCH_YES)
1287
    return m;
1288
 
1289
  m = gfc_match (tag->value, &result);
1290
  if (m != MATCH_YES)
1291
    {
1292
      gfc_error ("Invalid value for %s specification at %C", tag->name);
1293
      return MATCH_ERROR;
1294
    }
1295
 
1296
  if (*v != NULL)
1297
    {
1298
      gfc_error ("Duplicate %s specification at %C", tag->name);
1299
      gfc_free_expr (result);
1300
      return MATCH_ERROR;
1301
    }
1302
 
1303
  if (result->symtree->n.sym->attr.intent == INTENT_IN)
1304
    {
1305
      gfc_error ("Variable %s cannot be INTENT(IN) at %C", tag->name);
1306
      gfc_free_expr (result);
1307
      return MATCH_ERROR;
1308
    }
1309
 
1310
  if (gfc_pure (NULL) && gfc_impure_variable (result->symtree->n.sym))
1311
    {
1312
      gfc_error ("Variable %s cannot be assigned in PURE procedure at %C",
1313
                 tag->name);
1314
      gfc_free_expr (result);
1315
      return MATCH_ERROR;
1316
    }
1317
 
1318
  if (gfc_implicit_pure (NULL) && gfc_impure_variable (result->symtree->n.sym))
1319
    gfc_current_ns->proc_name->attr.implicit_pure = 0;
1320
 
1321
  *v = result;
1322
  return MATCH_YES;
1323
}
1324
 
1325
 
1326
/* Match I/O tags that cause variables to become redefined.  */
1327
 
1328
static match
1329
match_out_tag (const io_tag *tag, gfc_expr **result)
1330
{
1331
  match m;
1332
 
1333
  m = match_vtag (tag, result);
1334
  if (m == MATCH_YES)
1335
    gfc_check_do_variable ((*result)->symtree);
1336
 
1337
  return m;
1338
}
1339
 
1340
 
1341
/* Match a label I/O tag.  */
1342
 
1343
static match
1344
match_ltag (const io_tag *tag, gfc_st_label ** label)
1345
{
1346
  match m;
1347
  gfc_st_label *old;
1348
 
1349
  old = *label;
1350
  m = gfc_match (tag->spec);
1351
  if (m != MATCH_YES)
1352
    return m;
1353
 
1354
  m = gfc_match (tag->value, label);
1355
  if (m != MATCH_YES)
1356
    {
1357
      gfc_error ("Invalid value for %s specification at %C", tag->name);
1358
      return MATCH_ERROR;
1359
    }
1360
 
1361
  if (old)
1362
    {
1363
      gfc_error ("Duplicate %s label specification at %C", tag->name);
1364
      return MATCH_ERROR;
1365
    }
1366
 
1367
  if (gfc_reference_st_label (*label, ST_LABEL_TARGET) == FAILURE)
1368
    return MATCH_ERROR;
1369
 
1370
  return m;
1371
}
1372
 
1373
 
1374
/* Resolution of the FORMAT tag, to be called from resolve_tag.  */
1375
 
1376
static gfc_try
1377
resolve_tag_format (const gfc_expr *e)
1378
{
1379
  if (e->expr_type == EXPR_CONSTANT
1380
      && (e->ts.type != BT_CHARACTER
1381
          || e->ts.kind != gfc_default_character_kind))
1382
    {
1383
      gfc_error ("Constant expression in FORMAT tag at %L must be "
1384
                 "of type default CHARACTER", &e->where);
1385
      return FAILURE;
1386
    }
1387
 
1388
  /* If e's rank is zero and e is not an element of an array, it should be
1389
     of integer or character type.  The integer variable should be
1390
     ASSIGNED.  */
1391
  if (e->rank == 0
1392
      && (e->expr_type != EXPR_VARIABLE
1393
          || e->symtree == NULL
1394
          || e->symtree->n.sym->as == NULL
1395
          || e->symtree->n.sym->as->rank == 0))
1396
    {
1397
      if ((e->ts.type != BT_CHARACTER
1398
           || e->ts.kind != gfc_default_character_kind)
1399
          && e->ts.type != BT_INTEGER)
1400
        {
1401
          gfc_error ("FORMAT tag at %L must be of type default-kind CHARACTER "
1402
                     "or of INTEGER", &e->where);
1403
          return FAILURE;
1404
        }
1405
      else if (e->ts.type == BT_INTEGER && e->expr_type == EXPR_VARIABLE)
1406
        {
1407
          if (gfc_notify_std (GFC_STD_F95_DEL, "Deleted feature: ASSIGNED "
1408
                              "variable in FORMAT tag at %L", &e->where)
1409
              == FAILURE)
1410
            return FAILURE;
1411
          if (e->symtree->n.sym->attr.assign != 1)
1412
            {
1413
              gfc_error ("Variable '%s' at %L has not been assigned a "
1414
                         "format label", e->symtree->n.sym->name, &e->where);
1415
              return FAILURE;
1416
            }
1417
        }
1418
      else if (e->ts.type == BT_INTEGER)
1419
        {
1420
          gfc_error ("Scalar '%s' in FORMAT tag at %L is not an ASSIGNED "
1421
                     "variable", gfc_basic_typename (e->ts.type), &e->where);
1422
          return FAILURE;
1423
        }
1424
 
1425
      return SUCCESS;
1426
    }
1427
 
1428
  /* If rank is nonzero and type is not character, we allow it under GFC_STD_LEGACY.
1429
     It may be assigned an Hollerith constant.  */
1430
  if (e->ts.type != BT_CHARACTER)
1431
    {
1432
      if (gfc_notify_std (GFC_STD_LEGACY, "Extension: Non-character "
1433
                          "in FORMAT tag at %L", &e->where) == FAILURE)
1434
        return FAILURE;
1435
 
1436
      if (e->rank == 0 && e->symtree->n.sym->as->type == AS_ASSUMED_SHAPE)
1437
        {
1438
          gfc_error ("Non-character assumed shape array element in FORMAT"
1439
                     " tag at %L", &e->where);
1440
          return FAILURE;
1441
        }
1442
 
1443
      if (e->rank == 0 && e->symtree->n.sym->as->type == AS_ASSUMED_SIZE)
1444
        {
1445
          gfc_error ("Non-character assumed size array element in FORMAT"
1446
                     " tag at %L", &e->where);
1447
          return FAILURE;
1448
        }
1449
 
1450
      if (e->rank == 0 && e->symtree->n.sym->attr.pointer)
1451
        {
1452
          gfc_error ("Non-character pointer array element in FORMAT tag at %L",
1453
                     &e->where);
1454
          return FAILURE;
1455
        }
1456
    }
1457
 
1458
  return SUCCESS;
1459
}
1460
 
1461
 
1462
/* Do expression resolution and type-checking on an expression tag.  */
1463
 
1464
static gfc_try
1465
resolve_tag (const io_tag *tag, gfc_expr *e)
1466
{
1467
  if (e == NULL)
1468
    return SUCCESS;
1469
 
1470
  if (gfc_resolve_expr (e) == FAILURE)
1471
    return FAILURE;
1472
 
1473
  if (tag == &tag_format)
1474
    return resolve_tag_format (e);
1475
 
1476
  if (e->ts.type != tag->type)
1477
    {
1478
      gfc_error ("%s tag at %L must be of type %s", tag->name,
1479
                 &e->where, gfc_basic_typename (tag->type));
1480
      return FAILURE;
1481
    }
1482
 
1483
  if (e->ts.type == BT_CHARACTER && e->ts.kind != gfc_default_character_kind)
1484
    {
1485
      gfc_error ("%s tag at %L must be a character string of default kind",
1486
                 tag->name, &e->where);
1487
      return FAILURE;
1488
    }
1489
 
1490
  if (e->rank != 0)
1491
    {
1492
      gfc_error ("%s tag at %L must be scalar", tag->name, &e->where);
1493
      return FAILURE;
1494
    }
1495
 
1496
  if (tag == &tag_iomsg)
1497
    {
1498
      if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: IOMSG tag at %L",
1499
                          &e->where) == FAILURE)
1500
        return FAILURE;
1501
    }
1502
 
1503
  if ((tag == &tag_iostat || tag == &tag_size || tag == &tag_iolength)
1504
      && e->ts.kind != gfc_default_integer_kind)
1505
    {
1506
      if (gfc_notify_std (GFC_STD_F2003, "Fortran 95 requires default "
1507
                          "INTEGER in %s tag at %L", tag->name, &e->where)
1508
          == FAILURE)
1509
        return FAILURE;
1510
    }
1511
 
1512
  if (tag == &tag_exist && e->ts.kind != gfc_default_logical_kind)
1513
    {
1514
      if (gfc_notify_std (GFC_STD_F2008, "Fortran 2008: Nondefault LOGICAL "
1515
                          "in %s tag at %L", tag->name, &e->where)
1516
          == FAILURE)
1517
        return FAILURE;
1518
    }
1519
 
1520
  if (tag == &tag_newunit)
1521
    {
1522
      if (gfc_notify_std (GFC_STD_F2008, "Fortran 2008: NEWUNIT specifier"
1523
                          " at %L", &e->where) == FAILURE)
1524
        return FAILURE;
1525
    }
1526
 
1527
  /* NEWUNIT, IOSTAT, SIZE and IOMSG are variable definition contexts.  */
1528
  if (tag == &tag_newunit || tag == &tag_iostat
1529
      || tag == &tag_size || tag == &tag_iomsg)
1530
    {
1531
      char context[64];
1532
 
1533
      sprintf (context, _("%s tag"), tag->name);
1534
      if (gfc_check_vardef_context (e, false, false, context) == FAILURE)
1535
        return FAILURE;
1536
    }
1537
 
1538
  if (tag == &tag_convert)
1539
    {
1540
      if (gfc_notify_std (GFC_STD_GNU, "Extension: CONVERT tag at %L",
1541
                          &e->where) == FAILURE)
1542
        return FAILURE;
1543
    }
1544
 
1545
  return SUCCESS;
1546
}
1547
 
1548
 
1549
/* Match a single tag of an OPEN statement.  */
1550
 
1551
static match
1552
match_open_element (gfc_open *open)
1553
{
1554
  match m;
1555
 
1556
  m = match_etag (&tag_e_async, &open->asynchronous);
1557
  if (m != MATCH_NO)
1558
    return m;
1559
  m = match_etag (&tag_unit, &open->unit);
1560
  if (m != MATCH_NO)
1561
    return m;
1562
  m = match_out_tag (&tag_iomsg, &open->iomsg);
1563
  if (m != MATCH_NO)
1564
    return m;
1565
  m = match_out_tag (&tag_iostat, &open->iostat);
1566
  if (m != MATCH_NO)
1567
    return m;
1568
  m = match_etag (&tag_file, &open->file);
1569
  if (m != MATCH_NO)
1570
    return m;
1571
  m = match_etag (&tag_status, &open->status);
1572
  if (m != MATCH_NO)
1573
    return m;
1574
  m = match_etag (&tag_e_access, &open->access);
1575
  if (m != MATCH_NO)
1576
    return m;
1577
  m = match_etag (&tag_e_form, &open->form);
1578
  if (m != MATCH_NO)
1579
    return m;
1580
  m = match_etag (&tag_e_recl, &open->recl);
1581
  if (m != MATCH_NO)
1582
    return m;
1583
  m = match_etag (&tag_e_blank, &open->blank);
1584
  if (m != MATCH_NO)
1585
    return m;
1586
  m = match_etag (&tag_e_position, &open->position);
1587
  if (m != MATCH_NO)
1588
    return m;
1589
  m = match_etag (&tag_e_action, &open->action);
1590
  if (m != MATCH_NO)
1591
    return m;
1592
  m = match_etag (&tag_e_delim, &open->delim);
1593
  if (m != MATCH_NO)
1594
    return m;
1595
  m = match_etag (&tag_e_pad, &open->pad);
1596
  if (m != MATCH_NO)
1597
    return m;
1598
  m = match_etag (&tag_e_decimal, &open->decimal);
1599
  if (m != MATCH_NO)
1600
    return m;
1601
  m = match_etag (&tag_e_encoding, &open->encoding);
1602
  if (m != MATCH_NO)
1603
    return m;
1604
  m = match_etag (&tag_e_round, &open->round);
1605
  if (m != MATCH_NO)
1606
    return m;
1607
  m = match_etag (&tag_e_sign, &open->sign);
1608
  if (m != MATCH_NO)
1609
    return m;
1610
  m = match_ltag (&tag_err, &open->err);
1611
  if (m != MATCH_NO)
1612
    return m;
1613
  m = match_etag (&tag_convert, &open->convert);
1614
  if (m != MATCH_NO)
1615
    return m;
1616
  m = match_out_tag (&tag_newunit, &open->newunit);
1617
  if (m != MATCH_NO)
1618
    return m;
1619
 
1620
  return MATCH_NO;
1621
}
1622
 
1623
 
1624
/* Free the gfc_open structure and all the expressions it contains.  */
1625
 
1626
void
1627
gfc_free_open (gfc_open *open)
1628
{
1629
  if (open == NULL)
1630
    return;
1631
 
1632
  gfc_free_expr (open->unit);
1633
  gfc_free_expr (open->iomsg);
1634
  gfc_free_expr (open->iostat);
1635
  gfc_free_expr (open->file);
1636
  gfc_free_expr (open->status);
1637
  gfc_free_expr (open->access);
1638
  gfc_free_expr (open->form);
1639
  gfc_free_expr (open->recl);
1640
  gfc_free_expr (open->blank);
1641
  gfc_free_expr (open->position);
1642
  gfc_free_expr (open->action);
1643
  gfc_free_expr (open->delim);
1644
  gfc_free_expr (open->pad);
1645
  gfc_free_expr (open->decimal);
1646
  gfc_free_expr (open->encoding);
1647
  gfc_free_expr (open->round);
1648
  gfc_free_expr (open->sign);
1649
  gfc_free_expr (open->convert);
1650
  gfc_free_expr (open->asynchronous);
1651
  gfc_free_expr (open->newunit);
1652
  free (open);
1653
}
1654
 
1655
 
1656
/* Resolve everything in a gfc_open structure.  */
1657
 
1658
gfc_try
1659
gfc_resolve_open (gfc_open *open)
1660
{
1661
 
1662
  RESOLVE_TAG (&tag_unit, open->unit);
1663
  RESOLVE_TAG (&tag_iomsg, open->iomsg);
1664
  RESOLVE_TAG (&tag_iostat, open->iostat);
1665
  RESOLVE_TAG (&tag_file, open->file);
1666
  RESOLVE_TAG (&tag_status, open->status);
1667
  RESOLVE_TAG (&tag_e_access, open->access);
1668
  RESOLVE_TAG (&tag_e_form, open->form);
1669
  RESOLVE_TAG (&tag_e_recl, open->recl);
1670
  RESOLVE_TAG (&tag_e_blank, open->blank);
1671
  RESOLVE_TAG (&tag_e_position, open->position);
1672
  RESOLVE_TAG (&tag_e_action, open->action);
1673
  RESOLVE_TAG (&tag_e_delim, open->delim);
1674
  RESOLVE_TAG (&tag_e_pad, open->pad);
1675
  RESOLVE_TAG (&tag_e_decimal, open->decimal);
1676
  RESOLVE_TAG (&tag_e_encoding, open->encoding);
1677
  RESOLVE_TAG (&tag_e_async, open->asynchronous);
1678
  RESOLVE_TAG (&tag_e_round, open->round);
1679
  RESOLVE_TAG (&tag_e_sign, open->sign);
1680
  RESOLVE_TAG (&tag_convert, open->convert);
1681
  RESOLVE_TAG (&tag_newunit, open->newunit);
1682
 
1683
  if (gfc_reference_st_label (open->err, ST_LABEL_TARGET) == FAILURE)
1684
    return FAILURE;
1685
 
1686
  return SUCCESS;
1687
}
1688
 
1689
 
1690
/* Check if a given value for a SPECIFIER is either in the list of values
1691
   allowed in F95 or F2003, issuing an error message and returning a zero
1692
   value if it is not allowed.  */
1693
 
1694
static int
1695
compare_to_allowed_values (const char *specifier, const char *allowed[],
1696
                           const char *allowed_f2003[],
1697
                           const char *allowed_gnu[], gfc_char_t *value,
1698
                           const char *statement, bool warn)
1699
{
1700
  int i;
1701
  unsigned int len;
1702
 
1703
  len = gfc_wide_strlen (value);
1704
  if (len > 0)
1705
  {
1706
    for (len--; len > 0; len--)
1707
      if (value[len] != ' ')
1708
        break;
1709
    len++;
1710
  }
1711
 
1712
  for (i = 0; allowed[i]; i++)
1713
    if (len == strlen (allowed[i])
1714
        && gfc_wide_strncasecmp (value, allowed[i], strlen (allowed[i])) == 0)
1715
      return 1;
1716
 
1717
  for (i = 0; allowed_f2003 && allowed_f2003[i]; i++)
1718
    if (len == strlen (allowed_f2003[i])
1719
        && gfc_wide_strncasecmp (value, allowed_f2003[i],
1720
                                 strlen (allowed_f2003[i])) == 0)
1721
      {
1722
        notification n = gfc_notification_std (GFC_STD_F2003);
1723
 
1724
        if (n == WARNING || (warn && n == ERROR))
1725
          {
1726
            gfc_warning ("Fortran 2003: %s specifier in %s statement at %C "
1727
                         "has value '%s'", specifier, statement,
1728
                         allowed_f2003[i]);
1729
            return 1;
1730
          }
1731
        else
1732
          if (n == ERROR)
1733
            {
1734
              gfc_notify_std (GFC_STD_F2003, "Fortran 2003: %s specifier in "
1735
                              "%s statement at %C has value '%s'", specifier,
1736
                              statement, allowed_f2003[i]);
1737
              return 0;
1738
            }
1739
 
1740
        /* n == SILENT */
1741
        return 1;
1742
      }
1743
 
1744
  for (i = 0; allowed_gnu && allowed_gnu[i]; i++)
1745
    if (len == strlen (allowed_gnu[i])
1746
        && gfc_wide_strncasecmp (value, allowed_gnu[i],
1747
                                 strlen (allowed_gnu[i])) == 0)
1748
      {
1749
        notification n = gfc_notification_std (GFC_STD_GNU);
1750
 
1751
        if (n == WARNING || (warn && n == ERROR))
1752
          {
1753
            gfc_warning ("Extension: %s specifier in %s statement at %C "
1754
                         "has value '%s'", specifier, statement,
1755
                         allowed_gnu[i]);
1756
            return 1;
1757
          }
1758
        else
1759
          if (n == ERROR)
1760
            {
1761
              gfc_notify_std (GFC_STD_GNU, "Extension: %s specifier in "
1762
                              "%s statement at %C has value '%s'", specifier,
1763
                              statement, allowed_gnu[i]);
1764
              return 0;
1765
            }
1766
 
1767
        /* n == SILENT */
1768
        return 1;
1769
      }
1770
 
1771
  if (warn)
1772
    {
1773
      char *s = gfc_widechar_to_char (value, -1);
1774
      gfc_warning ("%s specifier in %s statement at %C has invalid value '%s'",
1775
                   specifier, statement, s);
1776
      free (s);
1777
      return 1;
1778
    }
1779
  else
1780
    {
1781
      char *s = gfc_widechar_to_char (value, -1);
1782
      gfc_error ("%s specifier in %s statement at %C has invalid value '%s'",
1783
                 specifier, statement, s);
1784
      free (s);
1785
      return 0;
1786
    }
1787
}
1788
 
1789
 
1790
/* Match an OPEN statement.  */
1791
 
1792
match
1793
gfc_match_open (void)
1794
{
1795
  gfc_open *open;
1796
  match m;
1797
  bool warn;
1798
 
1799
  m = gfc_match_char ('(');
1800
  if (m == MATCH_NO)
1801
    return m;
1802
 
1803
  open = XCNEW (gfc_open);
1804
 
1805
  m = match_open_element (open);
1806
 
1807
  if (m == MATCH_ERROR)
1808
    goto cleanup;
1809
  if (m == MATCH_NO)
1810
    {
1811
      m = gfc_match_expr (&open->unit);
1812
      if (m == MATCH_ERROR)
1813
        goto cleanup;
1814
    }
1815
 
1816
  for (;;)
1817
    {
1818
      if (gfc_match_char (')') == MATCH_YES)
1819
        break;
1820
      if (gfc_match_char (',') != MATCH_YES)
1821
        goto syntax;
1822
 
1823
      m = match_open_element (open);
1824
      if (m == MATCH_ERROR)
1825
        goto cleanup;
1826
      if (m == MATCH_NO)
1827
        goto syntax;
1828
    }
1829
 
1830
  if (gfc_match_eos () == MATCH_NO)
1831
    goto syntax;
1832
 
1833
  if (gfc_pure (NULL))
1834
    {
1835
      gfc_error ("OPEN statement not allowed in PURE procedure at %C");
1836
      goto cleanup;
1837
    }
1838
 
1839
  if (gfc_implicit_pure (NULL))
1840
    gfc_current_ns->proc_name->attr.implicit_pure = 0;
1841
 
1842
  warn = (open->err || open->iostat) ? true : false;
1843
 
1844
  /* Checks on NEWUNIT specifier.  */
1845
  if (open->newunit)
1846
    {
1847
      if (open->unit)
1848
        {
1849
          gfc_error ("UNIT specifier not allowed with NEWUNIT at %C");
1850
          goto cleanup;
1851
        }
1852
 
1853
      if (!(open->file || (open->status
1854
          && gfc_wide_strncasecmp (open->status->value.character.string,
1855
                                   "scratch", 7) == 0)))
1856
        {
1857
          gfc_error ("NEWUNIT specifier must have FILE= "
1858
                     "or STATUS='scratch' at %C");
1859
          goto cleanup;
1860
        }
1861
    }
1862
  else if (!open->unit)
1863
    {
1864
      gfc_error ("OPEN statement at %C must have UNIT or NEWUNIT specified");
1865
      goto cleanup;
1866
    }
1867
 
1868
  /* Checks on the ACCESS specifier.  */
1869
  if (open->access && open->access->expr_type == EXPR_CONSTANT)
1870
    {
1871
      static const char *access_f95[] = { "SEQUENTIAL", "DIRECT", NULL };
1872
      static const char *access_f2003[] = { "STREAM", NULL };
1873
      static const char *access_gnu[] = { "APPEND", NULL };
1874
 
1875
      if (!compare_to_allowed_values ("ACCESS", access_f95, access_f2003,
1876
                                      access_gnu,
1877
                                      open->access->value.character.string,
1878
                                      "OPEN", warn))
1879
        goto cleanup;
1880
    }
1881
 
1882
  /* Checks on the ACTION specifier.  */
1883
  if (open->action && open->action->expr_type == EXPR_CONSTANT)
1884
    {
1885
      static const char *action[] = { "READ", "WRITE", "READWRITE", NULL };
1886
 
1887
      if (!compare_to_allowed_values ("ACTION", action, NULL, NULL,
1888
                                      open->action->value.character.string,
1889
                                      "OPEN", warn))
1890
        goto cleanup;
1891
    }
1892
 
1893
  /* Checks on the ASYNCHRONOUS specifier.  */
1894
  if (open->asynchronous)
1895
    {
1896
      if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: ASYNCHRONOUS= at %C "
1897
          "not allowed in Fortran 95") == FAILURE)
1898
        goto cleanup;
1899
 
1900
      if (open->asynchronous->expr_type == EXPR_CONSTANT)
1901
        {
1902
          static const char * asynchronous[] = { "YES", "NO", NULL };
1903
 
1904
          if (!compare_to_allowed_values ("ASYNCHRONOUS", asynchronous,
1905
                        NULL, NULL, open->asynchronous->value.character.string,
1906
                        "OPEN", warn))
1907
            goto cleanup;
1908
        }
1909
    }
1910
 
1911
  /* Checks on the BLANK specifier.  */
1912
  if (open->blank)
1913
    {
1914
      if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: BLANK= at %C "
1915
          "not allowed in Fortran 95") == FAILURE)
1916
        goto cleanup;
1917
 
1918
      if (open->blank->expr_type == EXPR_CONSTANT)
1919
        {
1920
          static const char *blank[] = { "ZERO", "NULL", NULL };
1921
 
1922
          if (!compare_to_allowed_values ("BLANK", blank, NULL, NULL,
1923
                                          open->blank->value.character.string,
1924
                                          "OPEN", warn))
1925
            goto cleanup;
1926
        }
1927
    }
1928
 
1929
  /* Checks on the DECIMAL specifier.  */
1930
  if (open->decimal)
1931
    {
1932
      if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: DECIMAL= at %C "
1933
          "not allowed in Fortran 95") == FAILURE)
1934
        goto cleanup;
1935
 
1936
      if (open->decimal->expr_type == EXPR_CONSTANT)
1937
        {
1938
          static const char * decimal[] = { "COMMA", "POINT", NULL };
1939
 
1940
          if (!compare_to_allowed_values ("DECIMAL", decimal, NULL, NULL,
1941
                                          open->decimal->value.character.string,
1942
                                          "OPEN", warn))
1943
            goto cleanup;
1944
        }
1945
    }
1946
 
1947
  /* Checks on the DELIM specifier.  */
1948
  if (open->delim)
1949
    {
1950
      if (open->delim->expr_type == EXPR_CONSTANT)
1951
        {
1952
          static const char *delim[] = { "APOSTROPHE", "QUOTE", "NONE", NULL };
1953
 
1954
          if (!compare_to_allowed_values ("DELIM", delim, NULL, NULL,
1955
                                          open->delim->value.character.string,
1956
                                          "OPEN", warn))
1957
          goto cleanup;
1958
        }
1959
    }
1960
 
1961
  /* Checks on the ENCODING specifier.  */
1962
  if (open->encoding)
1963
    {
1964
      if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: ENCODING= at %C "
1965
          "not allowed in Fortran 95") == FAILURE)
1966
        goto cleanup;
1967
 
1968
      if (open->encoding->expr_type == EXPR_CONSTANT)
1969
        {
1970
          static const char * encoding[] = { "DEFAULT", "UTF-8", NULL };
1971
 
1972
          if (!compare_to_allowed_values ("ENCODING", encoding, NULL, NULL,
1973
                                          open->encoding->value.character.string,
1974
                                          "OPEN", warn))
1975
          goto cleanup;
1976
        }
1977
    }
1978
 
1979
  /* Checks on the FORM specifier.  */
1980
  if (open->form && open->form->expr_type == EXPR_CONSTANT)
1981
    {
1982
      static const char *form[] = { "FORMATTED", "UNFORMATTED", NULL };
1983
 
1984
      if (!compare_to_allowed_values ("FORM", form, NULL, NULL,
1985
                                      open->form->value.character.string,
1986
                                      "OPEN", warn))
1987
        goto cleanup;
1988
    }
1989
 
1990
  /* Checks on the PAD specifier.  */
1991
  if (open->pad && open->pad->expr_type == EXPR_CONSTANT)
1992
    {
1993
      static const char *pad[] = { "YES", "NO", NULL };
1994
 
1995
      if (!compare_to_allowed_values ("PAD", pad, NULL, NULL,
1996
                                      open->pad->value.character.string,
1997
                                      "OPEN", warn))
1998
        goto cleanup;
1999
    }
2000
 
2001
  /* Checks on the POSITION specifier.  */
2002
  if (open->position && open->position->expr_type == EXPR_CONSTANT)
2003
    {
2004
      static const char *position[] = { "ASIS", "REWIND", "APPEND", NULL };
2005
 
2006
      if (!compare_to_allowed_values ("POSITION", position, NULL, NULL,
2007
                                      open->position->value.character.string,
2008
                                      "OPEN", warn))
2009
        goto cleanup;
2010
    }
2011
 
2012
  /* Checks on the ROUND specifier.  */
2013
  if (open->round)
2014
    {
2015
      if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: ROUND= at %C "
2016
          "not allowed in Fortran 95") == FAILURE)
2017
      goto cleanup;
2018
 
2019
      if (open->round->expr_type == EXPR_CONSTANT)
2020
        {
2021
          static const char * round[] = { "UP", "DOWN", "ZERO", "NEAREST",
2022
                                          "COMPATIBLE", "PROCESSOR_DEFINED",
2023
                                           NULL };
2024
 
2025
          if (!compare_to_allowed_values ("ROUND", round, NULL, NULL,
2026
                                          open->round->value.character.string,
2027
                                          "OPEN", warn))
2028
          goto cleanup;
2029
        }
2030
    }
2031
 
2032
  /* Checks on the SIGN specifier.  */
2033
  if (open->sign)
2034
    {
2035
      if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: SIGN= at %C "
2036
          "not allowed in Fortran 95") == FAILURE)
2037
        goto cleanup;
2038
 
2039
      if (open->sign->expr_type == EXPR_CONSTANT)
2040
        {
2041
          static const char * sign[] = { "PLUS", "SUPPRESS", "PROCESSOR_DEFINED",
2042
                                          NULL };
2043
 
2044
          if (!compare_to_allowed_values ("SIGN", sign, NULL, NULL,
2045
                                          open->sign->value.character.string,
2046
                                          "OPEN", warn))
2047
          goto cleanup;
2048
        }
2049
    }
2050
 
2051
#define warn_or_error(...) \
2052
{ \
2053
  if (warn) \
2054
    gfc_warning (__VA_ARGS__); \
2055
  else \
2056
    { \
2057
      gfc_error (__VA_ARGS__); \
2058
      goto cleanup; \
2059
    } \
2060
}
2061
 
2062
  /* Checks on the RECL specifier.  */
2063
  if (open->recl && open->recl->expr_type == EXPR_CONSTANT
2064
      && open->recl->ts.type == BT_INTEGER
2065
      && mpz_sgn (open->recl->value.integer) != 1)
2066
    {
2067
      warn_or_error ("RECL in OPEN statement at %C must be positive");
2068
    }
2069
 
2070
  /* Checks on the STATUS specifier.  */
2071
  if (open->status && open->status->expr_type == EXPR_CONSTANT)
2072
    {
2073
      static const char *status[] = { "OLD", "NEW", "SCRATCH",
2074
        "REPLACE", "UNKNOWN", NULL };
2075
 
2076
      if (!compare_to_allowed_values ("STATUS", status, NULL, NULL,
2077
                                      open->status->value.character.string,
2078
                                      "OPEN", warn))
2079
        goto cleanup;
2080
 
2081
      /* F2003, 9.4.5: If the STATUS= specifier has the value NEW or REPLACE,
2082
         the FILE= specifier shall appear.  */
2083
      if (open->file == NULL
2084
          && (gfc_wide_strncasecmp (open->status->value.character.string,
2085
                                    "replace", 7) == 0
2086
              || gfc_wide_strncasecmp (open->status->value.character.string,
2087
                                       "new", 3) == 0))
2088
        {
2089
          char *s = gfc_widechar_to_char (open->status->value.character.string,
2090
                                          -1);
2091
          warn_or_error ("The STATUS specified in OPEN statement at %C is "
2092
                         "'%s' and no FILE specifier is present", s);
2093
          free (s);
2094
        }
2095
 
2096
      /* F2003, 9.4.5: If the STATUS= specifier has the value SCRATCH,
2097
         the FILE= specifier shall not appear.  */
2098
      if (gfc_wide_strncasecmp (open->status->value.character.string,
2099
                                "scratch", 7) == 0 && open->file)
2100
        {
2101
          warn_or_error ("The STATUS specified in OPEN statement at %C "
2102
                         "cannot have the value SCRATCH if a FILE specifier "
2103
                         "is present");
2104
        }
2105
    }
2106
 
2107
  /* Things that are not allowed for unformatted I/O.  */
2108
  if (open->form && open->form->expr_type == EXPR_CONSTANT
2109
      && (open->delim || open->decimal || open->encoding || open->round
2110
          || open->sign || open->pad || open->blank)
2111
      && gfc_wide_strncasecmp (open->form->value.character.string,
2112
                               "unformatted", 11) == 0)
2113
    {
2114
      const char *spec = (open->delim ? "DELIM "
2115
                                      : (open->pad ? "PAD " : open->blank
2116
                                                            ? "BLANK " : ""));
2117
 
2118
      warn_or_error ("%s specifier at %C not allowed in OPEN statement for "
2119
                     "unformatted I/O", spec);
2120
    }
2121
 
2122
  if (open->recl && open->access && open->access->expr_type == EXPR_CONSTANT
2123
      && gfc_wide_strncasecmp (open->access->value.character.string,
2124
                               "stream", 6) == 0)
2125
    {
2126
      warn_or_error ("RECL specifier not allowed in OPEN statement at %C for "
2127
                     "stream I/O");
2128
    }
2129
 
2130
  if (open->position
2131
      && open->access && open->access->expr_type == EXPR_CONSTANT
2132
      && !(gfc_wide_strncasecmp (open->access->value.character.string,
2133
                                 "sequential", 10) == 0
2134
           || gfc_wide_strncasecmp (open->access->value.character.string,
2135
                                    "stream", 6) == 0
2136
           || gfc_wide_strncasecmp (open->access->value.character.string,
2137
                                    "append", 6) == 0))
2138
    {
2139
      warn_or_error ("POSITION specifier in OPEN statement at %C only allowed "
2140
                     "for stream or sequential ACCESS");
2141
    }
2142
 
2143
#undef warn_or_error
2144
 
2145
  new_st.op = EXEC_OPEN;
2146
  new_st.ext.open = open;
2147
  return MATCH_YES;
2148
 
2149
syntax:
2150
  gfc_syntax_error (ST_OPEN);
2151
 
2152
cleanup:
2153
  gfc_free_open (open);
2154
  return MATCH_ERROR;
2155
}
2156
 
2157
 
2158
/* Free a gfc_close structure an all its expressions.  */
2159
 
2160
void
2161
gfc_free_close (gfc_close *close)
2162
{
2163
  if (close == NULL)
2164
    return;
2165
 
2166
  gfc_free_expr (close->unit);
2167
  gfc_free_expr (close->iomsg);
2168
  gfc_free_expr (close->iostat);
2169
  gfc_free_expr (close->status);
2170
  free (close);
2171
}
2172
 
2173
 
2174
/* Match elements of a CLOSE statement.  */
2175
 
2176
static match
2177
match_close_element (gfc_close *close)
2178
{
2179
  match m;
2180
 
2181
  m = match_etag (&tag_unit, &close->unit);
2182
  if (m != MATCH_NO)
2183
    return m;
2184
  m = match_etag (&tag_status, &close->status);
2185
  if (m != MATCH_NO)
2186
    return m;
2187
  m = match_out_tag (&tag_iomsg, &close->iomsg);
2188
  if (m != MATCH_NO)
2189
    return m;
2190
  m = match_out_tag (&tag_iostat, &close->iostat);
2191
  if (m != MATCH_NO)
2192
    return m;
2193
  m = match_ltag (&tag_err, &close->err);
2194
  if (m != MATCH_NO)
2195
    return m;
2196
 
2197
  return MATCH_NO;
2198
}
2199
 
2200
 
2201
/* Match a CLOSE statement.  */
2202
 
2203
match
2204
gfc_match_close (void)
2205
{
2206
  gfc_close *close;
2207
  match m;
2208
  bool warn;
2209
 
2210
  m = gfc_match_char ('(');
2211
  if (m == MATCH_NO)
2212
    return m;
2213
 
2214
  close = XCNEW (gfc_close);
2215
 
2216
  m = match_close_element (close);
2217
 
2218
  if (m == MATCH_ERROR)
2219
    goto cleanup;
2220
  if (m == MATCH_NO)
2221
    {
2222
      m = gfc_match_expr (&close->unit);
2223
      if (m == MATCH_NO)
2224
        goto syntax;
2225
      if (m == MATCH_ERROR)
2226
        goto cleanup;
2227
    }
2228
 
2229
  for (;;)
2230
    {
2231
      if (gfc_match_char (')') == MATCH_YES)
2232
        break;
2233
      if (gfc_match_char (',') != MATCH_YES)
2234
        goto syntax;
2235
 
2236
      m = match_close_element (close);
2237
      if (m == MATCH_ERROR)
2238
        goto cleanup;
2239
      if (m == MATCH_NO)
2240
        goto syntax;
2241
    }
2242
 
2243
  if (gfc_match_eos () == MATCH_NO)
2244
    goto syntax;
2245
 
2246
  if (gfc_pure (NULL))
2247
    {
2248
      gfc_error ("CLOSE statement not allowed in PURE procedure at %C");
2249
      goto cleanup;
2250
    }
2251
 
2252
  if (gfc_implicit_pure (NULL))
2253
    gfc_current_ns->proc_name->attr.implicit_pure = 0;
2254
 
2255
  warn = (close->iostat || close->err) ? true : false;
2256
 
2257
  /* Checks on the STATUS specifier.  */
2258
  if (close->status && close->status->expr_type == EXPR_CONSTANT)
2259
    {
2260
      static const char *status[] = { "KEEP", "DELETE", NULL };
2261
 
2262
      if (!compare_to_allowed_values ("STATUS", status, NULL, NULL,
2263
                                      close->status->value.character.string,
2264
                                      "CLOSE", warn))
2265
        goto cleanup;
2266
    }
2267
 
2268
  new_st.op = EXEC_CLOSE;
2269
  new_st.ext.close = close;
2270
  return MATCH_YES;
2271
 
2272
syntax:
2273
  gfc_syntax_error (ST_CLOSE);
2274
 
2275
cleanup:
2276
  gfc_free_close (close);
2277
  return MATCH_ERROR;
2278
}
2279
 
2280
 
2281
/* Resolve everything in a gfc_close structure.  */
2282
 
2283
gfc_try
2284
gfc_resolve_close (gfc_close *close)
2285
{
2286
  RESOLVE_TAG (&tag_unit, close->unit);
2287
  RESOLVE_TAG (&tag_iomsg, close->iomsg);
2288
  RESOLVE_TAG (&tag_iostat, close->iostat);
2289
  RESOLVE_TAG (&tag_status, close->status);
2290
 
2291
  if (gfc_reference_st_label (close->err, ST_LABEL_TARGET) == FAILURE)
2292
    return FAILURE;
2293
 
2294
  if (close->unit == NULL)
2295
    {
2296
      /* Find a locus from one of the arguments to close, when UNIT is
2297
         not specified.  */
2298
      locus loc = gfc_current_locus;
2299
      if (close->status)
2300
        loc = close->status->where;
2301
      else if (close->iostat)
2302
        loc = close->iostat->where;
2303
      else if (close->iomsg)
2304
        loc = close->iomsg->where;
2305
      else if (close->err)
2306
        loc = close->err->where;
2307
 
2308
      gfc_error ("CLOSE statement at %L requires a UNIT number", &loc);
2309
      return FAILURE;
2310
    }
2311
 
2312
  if (close->unit->expr_type == EXPR_CONSTANT
2313
      && close->unit->ts.type == BT_INTEGER
2314
      && mpz_sgn (close->unit->value.integer) < 0)
2315
    {
2316
      gfc_error ("UNIT number in CLOSE statement at %L must be non-negative",
2317
                 &close->unit->where);
2318
    }
2319
 
2320
  return SUCCESS;
2321
}
2322
 
2323
 
2324
/* Free a gfc_filepos structure.  */
2325
 
2326
void
2327
gfc_free_filepos (gfc_filepos *fp)
2328
{
2329
  gfc_free_expr (fp->unit);
2330
  gfc_free_expr (fp->iomsg);
2331
  gfc_free_expr (fp->iostat);
2332
  free (fp);
2333
}
2334
 
2335
 
2336
/* Match elements of a REWIND, BACKSPACE, ENDFILE, or FLUSH statement.  */
2337
 
2338
static match
2339
match_file_element (gfc_filepos *fp)
2340
{
2341
  match m;
2342
 
2343
  m = match_etag (&tag_unit, &fp->unit);
2344
  if (m != MATCH_NO)
2345
    return m;
2346
  m = match_out_tag (&tag_iomsg, &fp->iomsg);
2347
  if (m != MATCH_NO)
2348
    return m;
2349
  m = match_out_tag (&tag_iostat, &fp->iostat);
2350
  if (m != MATCH_NO)
2351
    return m;
2352
  m = match_ltag (&tag_err, &fp->err);
2353
  if (m != MATCH_NO)
2354
    return m;
2355
 
2356
  return MATCH_NO;
2357
}
2358
 
2359
 
2360
/* Match the second half of the file-positioning statements, REWIND,
2361
   BACKSPACE, ENDFILE, or the FLUSH statement.  */
2362
 
2363
static match
2364
match_filepos (gfc_statement st, gfc_exec_op op)
2365
{
2366
  gfc_filepos *fp;
2367
  match m;
2368
 
2369
  fp = XCNEW (gfc_filepos);
2370
 
2371
  if (gfc_match_char ('(') == MATCH_NO)
2372
    {
2373
      m = gfc_match_expr (&fp->unit);
2374
      if (m == MATCH_ERROR)
2375
        goto cleanup;
2376
      if (m == MATCH_NO)
2377
        goto syntax;
2378
 
2379
      goto done;
2380
    }
2381
 
2382
  m = match_file_element (fp);
2383
  if (m == MATCH_ERROR)
2384
    goto done;
2385
  if (m == MATCH_NO)
2386
    {
2387
      m = gfc_match_expr (&fp->unit);
2388
      if (m == MATCH_ERROR)
2389
        goto done;
2390
      if (m == MATCH_NO)
2391
        goto syntax;
2392
    }
2393
 
2394
  for (;;)
2395
    {
2396
      if (gfc_match_char (')') == MATCH_YES)
2397
        break;
2398
      if (gfc_match_char (',') != MATCH_YES)
2399
        goto syntax;
2400
 
2401
      m = match_file_element (fp);
2402
      if (m == MATCH_ERROR)
2403
        goto cleanup;
2404
      if (m == MATCH_NO)
2405
        goto syntax;
2406
    }
2407
 
2408
done:
2409
  if (gfc_match_eos () != MATCH_YES)
2410
    goto syntax;
2411
 
2412
  if (gfc_pure (NULL))
2413
    {
2414
      gfc_error ("%s statement not allowed in PURE procedure at %C",
2415
                 gfc_ascii_statement (st));
2416
 
2417
      goto cleanup;
2418
    }
2419
 
2420
  if (gfc_implicit_pure (NULL))
2421
    gfc_current_ns->proc_name->attr.implicit_pure = 0;
2422
 
2423
  new_st.op = op;
2424
  new_st.ext.filepos = fp;
2425
  return MATCH_YES;
2426
 
2427
syntax:
2428
  gfc_syntax_error (st);
2429
 
2430
cleanup:
2431
  gfc_free_filepos (fp);
2432
  return MATCH_ERROR;
2433
}
2434
 
2435
 
2436
gfc_try
2437
gfc_resolve_filepos (gfc_filepos *fp)
2438
{
2439
  RESOLVE_TAG (&tag_unit, fp->unit);
2440
  RESOLVE_TAG (&tag_iostat, fp->iostat);
2441
  RESOLVE_TAG (&tag_iomsg, fp->iomsg);
2442
  if (gfc_reference_st_label (fp->err, ST_LABEL_TARGET) == FAILURE)
2443
    return FAILURE;
2444
 
2445
  if (fp->unit->expr_type == EXPR_CONSTANT
2446
      && fp->unit->ts.type == BT_INTEGER
2447
      && mpz_sgn (fp->unit->value.integer) < 0)
2448
    {
2449
      gfc_error ("UNIT number in statement at %L must be non-negative",
2450
                 &fp->unit->where);
2451
    }
2452
 
2453
  return SUCCESS;
2454
}
2455
 
2456
 
2457
/* Match the file positioning statements: ENDFILE, BACKSPACE, REWIND,
2458
   and the FLUSH statement.  */
2459
 
2460
match
2461
gfc_match_endfile (void)
2462
{
2463
  return match_filepos (ST_END_FILE, EXEC_ENDFILE);
2464
}
2465
 
2466
match
2467
gfc_match_backspace (void)
2468
{
2469
  return match_filepos (ST_BACKSPACE, EXEC_BACKSPACE);
2470
}
2471
 
2472
match
2473
gfc_match_rewind (void)
2474
{
2475
  return match_filepos (ST_REWIND, EXEC_REWIND);
2476
}
2477
 
2478
match
2479
gfc_match_flush (void)
2480
{
2481
  if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: FLUSH statement at %C")
2482
      == FAILURE)
2483
    return MATCH_ERROR;
2484
 
2485
  return match_filepos (ST_FLUSH, EXEC_FLUSH);
2486
}
2487
 
2488
/******************** Data Transfer Statements *********************/
2489
 
2490
/* Return a default unit number.  */
2491
 
2492
static gfc_expr *
2493
default_unit (io_kind k)
2494
{
2495
  int unit;
2496
 
2497
  if (k == M_READ)
2498
    unit = 5;
2499
  else
2500
    unit = 6;
2501
 
2502
  return gfc_get_int_expr (gfc_default_integer_kind, NULL, unit);
2503
}
2504
 
2505
 
2506
/* Match a unit specification for a data transfer statement.  */
2507
 
2508
static match
2509
match_dt_unit (io_kind k, gfc_dt *dt)
2510
{
2511
  gfc_expr *e;
2512
 
2513
  if (gfc_match_char ('*') == MATCH_YES)
2514
    {
2515
      if (dt->io_unit != NULL)
2516
        goto conflict;
2517
 
2518
      dt->io_unit = default_unit (k);
2519
      return MATCH_YES;
2520
    }
2521
 
2522
  if (gfc_match_expr (&e) == MATCH_YES)
2523
    {
2524
      if (dt->io_unit != NULL)
2525
        {
2526
          gfc_free_expr (e);
2527
          goto conflict;
2528
        }
2529
 
2530
      dt->io_unit = e;
2531
      return MATCH_YES;
2532
    }
2533
 
2534
  return MATCH_NO;
2535
 
2536
conflict:
2537
  gfc_error ("Duplicate UNIT specification at %C");
2538
  return MATCH_ERROR;
2539
}
2540
 
2541
 
2542
/* Match a format specification.  */
2543
 
2544
static match
2545
match_dt_format (gfc_dt *dt)
2546
{
2547
  locus where;
2548
  gfc_expr *e;
2549
  gfc_st_label *label;
2550
  match m;
2551
 
2552
  where = gfc_current_locus;
2553
 
2554
  if (gfc_match_char ('*') == MATCH_YES)
2555
    {
2556
      if (dt->format_expr != NULL || dt->format_label != NULL)
2557
        goto conflict;
2558
 
2559
      dt->format_label = &format_asterisk;
2560
      return MATCH_YES;
2561
    }
2562
 
2563
  if ((m = gfc_match_st_label (&label)) == MATCH_YES)
2564
    {
2565
      char c;
2566
 
2567
      /* Need to check if the format label is actually either an operand
2568
         to a user-defined operator or is a kind type parameter.  That is,
2569
         print 2.ip.8      ! .ip. is a user-defined operator return CHARACTER.
2570
         print 1_'(I0)', i ! 1_'(I0)' is a default character string.  */
2571
 
2572
      gfc_gobble_whitespace ();
2573
      c = gfc_peek_ascii_char ();
2574
      if (c == '.' || c == '_')
2575
        gfc_current_locus = where;
2576
      else
2577
        {
2578
          if (dt->format_expr != NULL || dt->format_label != NULL)
2579
            {
2580
              gfc_free_st_label (label);
2581
              goto conflict;
2582
            }
2583
 
2584
          if (gfc_reference_st_label (label, ST_LABEL_FORMAT) == FAILURE)
2585
            return MATCH_ERROR;
2586
 
2587
          dt->format_label = label;
2588
          return MATCH_YES;
2589
        }
2590
    }
2591
  else if (m == MATCH_ERROR)
2592
    /* The label was zero or too large.  Emit the correct diagnosis.  */
2593
    return MATCH_ERROR;
2594
 
2595
  if (gfc_match_expr (&e) == MATCH_YES)
2596
    {
2597
      if (dt->format_expr != NULL || dt->format_label != NULL)
2598
        {
2599
          gfc_free_expr (e);
2600
          goto conflict;
2601
        }
2602
      dt->format_expr = e;
2603
      return MATCH_YES;
2604
    }
2605
 
2606
  gfc_current_locus = where;    /* The only case where we have to restore */
2607
 
2608
  return MATCH_NO;
2609
 
2610
conflict:
2611
  gfc_error ("Duplicate format specification at %C");
2612
  return MATCH_ERROR;
2613
}
2614
 
2615
 
2616
/* Traverse a namelist that is part of a READ statement to make sure
2617
   that none of the variables in the namelist are INTENT(IN).  Returns
2618
   nonzero if we find such a variable.  */
2619
 
2620
static int
2621
check_namelist (gfc_symbol *sym)
2622
{
2623
  gfc_namelist *p;
2624
 
2625
  for (p = sym->namelist; p; p = p->next)
2626
    if (p->sym->attr.intent == INTENT_IN)
2627
      {
2628
        gfc_error ("Symbol '%s' in namelist '%s' is INTENT(IN) at %C",
2629
                   p->sym->name, sym->name);
2630
        return 1;
2631
      }
2632
 
2633
  return 0;
2634
}
2635
 
2636
 
2637
/* Match a single data transfer element.  */
2638
 
2639
static match
2640
match_dt_element (io_kind k, gfc_dt *dt)
2641
{
2642
  char name[GFC_MAX_SYMBOL_LEN + 1];
2643
  gfc_symbol *sym;
2644
  match m;
2645
 
2646
  if (gfc_match (" unit =") == MATCH_YES)
2647
    {
2648
      m = match_dt_unit (k, dt);
2649
      if (m != MATCH_NO)
2650
        return m;
2651
    }
2652
 
2653
  if (gfc_match (" fmt =") == MATCH_YES)
2654
    {
2655
      m = match_dt_format (dt);
2656
      if (m != MATCH_NO)
2657
        return m;
2658
    }
2659
 
2660
  if (gfc_match (" nml = %n", name) == MATCH_YES)
2661
    {
2662
      if (dt->namelist != NULL)
2663
        {
2664
          gfc_error ("Duplicate NML specification at %C");
2665
          return MATCH_ERROR;
2666
        }
2667
 
2668
      if (gfc_find_symbol (name, NULL, 1, &sym))
2669
        return MATCH_ERROR;
2670
 
2671
      if (sym == NULL || sym->attr.flavor != FL_NAMELIST)
2672
        {
2673
          gfc_error ("Symbol '%s' at %C must be a NAMELIST group name",
2674
                     sym != NULL ? sym->name : name);
2675
          return MATCH_ERROR;
2676
        }
2677
 
2678
      dt->namelist = sym;
2679
      if (k == M_READ && check_namelist (sym))
2680
        return MATCH_ERROR;
2681
 
2682
      return MATCH_YES;
2683
    }
2684
 
2685
  m = match_etag (&tag_e_async, &dt->asynchronous);
2686
  if (m != MATCH_NO)
2687
    return m;
2688
  m = match_etag (&tag_e_blank, &dt->blank);
2689
  if (m != MATCH_NO)
2690
    return m;
2691
  m = match_etag (&tag_e_delim, &dt->delim);
2692
  if (m != MATCH_NO)
2693
    return m;
2694
  m = match_etag (&tag_e_pad, &dt->pad);
2695
  if (m != MATCH_NO)
2696
    return m;
2697
  m = match_etag (&tag_e_sign, &dt->sign);
2698
  if (m != MATCH_NO)
2699
    return m;
2700
  m = match_etag (&tag_e_round, &dt->round);
2701
  if (m != MATCH_NO)
2702
    return m;
2703
  m = match_out_tag (&tag_id, &dt->id);
2704
  if (m != MATCH_NO)
2705
    return m;
2706
  m = match_etag (&tag_e_decimal, &dt->decimal);
2707
  if (m != MATCH_NO)
2708
    return m;
2709
  m = match_etag (&tag_rec, &dt->rec);
2710
  if (m != MATCH_NO)
2711
    return m;
2712
  m = match_etag (&tag_spos, &dt->pos);
2713
  if (m != MATCH_NO)
2714
    return m;
2715
  m = match_out_tag (&tag_iomsg, &dt->iomsg);
2716
  if (m != MATCH_NO)
2717
    return m;
2718
  m = match_out_tag (&tag_iostat, &dt->iostat);
2719
  if (m != MATCH_NO)
2720
    return m;
2721
  m = match_ltag (&tag_err, &dt->err);
2722
  if (m == MATCH_YES)
2723
    dt->err_where = gfc_current_locus;
2724
  if (m != MATCH_NO)
2725
    return m;
2726
  m = match_etag (&tag_advance, &dt->advance);
2727
  if (m != MATCH_NO)
2728
    return m;
2729
  m = match_out_tag (&tag_size, &dt->size);
2730
  if (m != MATCH_NO)
2731
    return m;
2732
 
2733
  m = match_ltag (&tag_end, &dt->end);
2734
  if (m == MATCH_YES)
2735
    {
2736
      if (k == M_WRITE)
2737
       {
2738
         gfc_error ("END tag at %C not allowed in output statement");
2739
         return MATCH_ERROR;
2740
       }
2741
      dt->end_where = gfc_current_locus;
2742
    }
2743
  if (m != MATCH_NO)
2744
    return m;
2745
 
2746
  m = match_ltag (&tag_eor, &dt->eor);
2747
  if (m == MATCH_YES)
2748
    dt->eor_where = gfc_current_locus;
2749
  if (m != MATCH_NO)
2750
    return m;
2751
 
2752
  return MATCH_NO;
2753
}
2754
 
2755
 
2756
/* Free a data transfer structure and everything below it.  */
2757
 
2758
void
2759
gfc_free_dt (gfc_dt *dt)
2760
{
2761
  if (dt == NULL)
2762
    return;
2763
 
2764
  gfc_free_expr (dt->io_unit);
2765
  gfc_free_expr (dt->format_expr);
2766
  gfc_free_expr (dt->rec);
2767
  gfc_free_expr (dt->advance);
2768
  gfc_free_expr (dt->iomsg);
2769
  gfc_free_expr (dt->iostat);
2770
  gfc_free_expr (dt->size);
2771
  gfc_free_expr (dt->pad);
2772
  gfc_free_expr (dt->delim);
2773
  gfc_free_expr (dt->sign);
2774
  gfc_free_expr (dt->round);
2775
  gfc_free_expr (dt->blank);
2776
  gfc_free_expr (dt->decimal);
2777
  gfc_free_expr (dt->pos);
2778
  gfc_free_expr (dt->dt_io_kind);
2779
  /* dt->extra_comma is a link to dt_io_kind if it is set.  */
2780
  free (dt);
2781
}
2782
 
2783
 
2784
/* Resolve everything in a gfc_dt structure.  */
2785
 
2786
gfc_try
2787
gfc_resolve_dt (gfc_dt *dt, locus *loc)
2788
{
2789
  gfc_expr *e;
2790
  io_kind k;
2791
 
2792
  /* This is set in any case.  */
2793
  gcc_assert (dt->dt_io_kind);
2794
  k = dt->dt_io_kind->value.iokind;
2795
 
2796
  RESOLVE_TAG (&tag_format, dt->format_expr);
2797
  RESOLVE_TAG (&tag_rec, dt->rec);
2798
  RESOLVE_TAG (&tag_spos, dt->pos);
2799
  RESOLVE_TAG (&tag_advance, dt->advance);
2800
  RESOLVE_TAG (&tag_id, dt->id);
2801
  RESOLVE_TAG (&tag_iomsg, dt->iomsg);
2802
  RESOLVE_TAG (&tag_iostat, dt->iostat);
2803
  RESOLVE_TAG (&tag_size, dt->size);
2804
  RESOLVE_TAG (&tag_e_pad, dt->pad);
2805
  RESOLVE_TAG (&tag_e_delim, dt->delim);
2806
  RESOLVE_TAG (&tag_e_sign, dt->sign);
2807
  RESOLVE_TAG (&tag_e_round, dt->round);
2808
  RESOLVE_TAG (&tag_e_blank, dt->blank);
2809
  RESOLVE_TAG (&tag_e_decimal, dt->decimal);
2810
  RESOLVE_TAG (&tag_e_async, dt->asynchronous);
2811
 
2812
  e = dt->io_unit;
2813
  if (e == NULL)
2814
    {
2815
      gfc_error ("UNIT not specified at %L", loc);
2816
      return FAILURE;
2817
    }
2818
 
2819
  if (gfc_resolve_expr (e) == SUCCESS
2820
      && (e->ts.type != BT_INTEGER
2821
          && (e->ts.type != BT_CHARACTER || e->expr_type != EXPR_VARIABLE)))
2822
    {
2823
      /* If there is no extra comma signifying the "format" form of the IO
2824
         statement, then this must be an error.  */
2825
      if (!dt->extra_comma)
2826
        {
2827
          gfc_error ("UNIT specification at %L must be an INTEGER expression "
2828
                     "or a CHARACTER variable", &e->where);
2829
          return FAILURE;
2830
        }
2831
      else
2832
        {
2833
          /* At this point, we have an extra comma.  If io_unit has arrived as
2834
             type character, we assume its really the "format" form of the I/O
2835
             statement.  We set the io_unit to the default unit and format to
2836
             the character expression.  See F95 Standard section 9.4.  */
2837
          if (e->ts.type == BT_CHARACTER && (k == M_READ || k == M_PRINT))
2838
            {
2839
              dt->format_expr = dt->io_unit;
2840
              dt->io_unit = default_unit (k);
2841
 
2842
              /* Nullify this pointer now so that a warning/error is not
2843
                 triggered below for the "Extension".  */
2844
              dt->extra_comma = NULL;
2845
            }
2846
 
2847
          if (k == M_WRITE)
2848
            {
2849
              gfc_error ("Invalid form of WRITE statement at %L, UNIT required",
2850
                         &dt->extra_comma->where);
2851
              return FAILURE;
2852
            }
2853
        }
2854
    }
2855
 
2856
  if (e->ts.type == BT_CHARACTER)
2857
    {
2858
      if (gfc_has_vector_index (e))
2859
        {
2860
          gfc_error ("Internal unit with vector subscript at %L", &e->where);
2861
          return FAILURE;
2862
        }
2863
 
2864
      /* If we are writing, make sure the internal unit can be changed.  */
2865
      gcc_assert (k != M_PRINT);
2866
      if (k == M_WRITE
2867
          && gfc_check_vardef_context (e, false, false,
2868
                                       _("internal unit in WRITE")) == FAILURE)
2869
        return FAILURE;
2870
    }
2871
 
2872
  if (e->rank && e->ts.type != BT_CHARACTER)
2873
    {
2874
      gfc_error ("External IO UNIT cannot be an array at %L", &e->where);
2875
      return FAILURE;
2876
    }
2877
 
2878
  if (e->expr_type == EXPR_CONSTANT && e->ts.type == BT_INTEGER
2879
      && mpz_sgn (e->value.integer) < 0)
2880
    {
2881
      gfc_error ("UNIT number in statement at %L must be non-negative",
2882
                 &e->where);
2883
      return FAILURE;
2884
    }
2885
 
2886
  /* If we are reading and have a namelist, check that all namelist symbols
2887
     can appear in a variable definition context.  */
2888
  if (k == M_READ && dt->namelist)
2889
    {
2890
      gfc_namelist* n;
2891
      for (n = dt->namelist->namelist; n; n = n->next)
2892
        {
2893
          gfc_expr* e;
2894
          gfc_try t;
2895
 
2896
          e = gfc_get_variable_expr (gfc_find_sym_in_symtree (n->sym));
2897
          t = gfc_check_vardef_context (e, false, false, NULL);
2898
          gfc_free_expr (e);
2899
 
2900
          if (t == FAILURE)
2901
            {
2902
              gfc_error ("NAMELIST '%s' in READ statement at %L contains"
2903
                         " the symbol '%s' which may not appear in a"
2904
                         " variable definition context",
2905
                         dt->namelist->name, loc, n->sym->name);
2906
              return FAILURE;
2907
            }
2908
        }
2909
    }
2910
 
2911
  if (dt->extra_comma
2912
      && gfc_notify_std (GFC_STD_GNU, "Extension: Comma before i/o "
2913
                         "item list at %L", &dt->extra_comma->where) == FAILURE)
2914
    return FAILURE;
2915
 
2916
  if (dt->err)
2917
    {
2918
      if (gfc_reference_st_label (dt->err, ST_LABEL_TARGET) == FAILURE)
2919
        return FAILURE;
2920
      if (dt->err->defined == ST_LABEL_UNKNOWN)
2921
        {
2922
          gfc_error ("ERR tag label %d at %L not defined",
2923
                      dt->err->value, &dt->err_where);
2924
          return FAILURE;
2925
        }
2926
    }
2927
 
2928
  if (dt->end)
2929
    {
2930
      if (gfc_reference_st_label (dt->end, ST_LABEL_TARGET) == FAILURE)
2931
        return FAILURE;
2932
      if (dt->end->defined == ST_LABEL_UNKNOWN)
2933
        {
2934
          gfc_error ("END tag label %d at %L not defined",
2935
                      dt->end->value, &dt->end_where);
2936
          return FAILURE;
2937
        }
2938
    }
2939
 
2940
  if (dt->eor)
2941
    {
2942
      if (gfc_reference_st_label (dt->eor, ST_LABEL_TARGET) == FAILURE)
2943
        return FAILURE;
2944
      if (dt->eor->defined == ST_LABEL_UNKNOWN)
2945
        {
2946
          gfc_error ("EOR tag label %d at %L not defined",
2947
                      dt->eor->value, &dt->eor_where);
2948
          return FAILURE;
2949
        }
2950
    }
2951
 
2952
  /* Check the format label actually exists.  */
2953
  if (dt->format_label && dt->format_label != &format_asterisk
2954
      && dt->format_label->defined == ST_LABEL_UNKNOWN)
2955
    {
2956
      gfc_error ("FORMAT label %d at %L not defined", dt->format_label->value,
2957
                 &dt->format_label->where);
2958
      return FAILURE;
2959
    }
2960
 
2961
  return SUCCESS;
2962
}
2963
 
2964
 
2965
/* Given an io_kind, return its name.  */
2966
 
2967
static const char *
2968
io_kind_name (io_kind k)
2969
{
2970
  const char *name;
2971
 
2972
  switch (k)
2973
    {
2974
    case M_READ:
2975
      name = "READ";
2976
      break;
2977
    case M_WRITE:
2978
      name = "WRITE";
2979
      break;
2980
    case M_PRINT:
2981
      name = "PRINT";
2982
      break;
2983
    case M_INQUIRE:
2984
      name = "INQUIRE";
2985
      break;
2986
    default:
2987
      gfc_internal_error ("io_kind_name(): bad I/O-kind");
2988
    }
2989
 
2990
  return name;
2991
}
2992
 
2993
 
2994
/* Match an IO iteration statement of the form:
2995
 
2996
   ( [<IO element> ,] <IO element>, I = <expr>, <expr> [, <expr> ] )
2997
 
2998
   which is equivalent to a single IO element.  This function is
2999
   mutually recursive with match_io_element().  */
3000
 
3001
static match match_io_element (io_kind, gfc_code **);
3002
 
3003
static match
3004
match_io_iterator (io_kind k, gfc_code **result)
3005
{
3006
  gfc_code *head, *tail, *new_code;
3007
  gfc_iterator *iter;
3008
  locus old_loc;
3009
  match m;
3010
  int n;
3011
 
3012
  iter = NULL;
3013
  head = NULL;
3014
  old_loc = gfc_current_locus;
3015
 
3016
  if (gfc_match_char ('(') != MATCH_YES)
3017
    return MATCH_NO;
3018
 
3019
  m = match_io_element (k, &head);
3020
  tail = head;
3021
 
3022
  if (m != MATCH_YES || gfc_match_char (',') != MATCH_YES)
3023
    {
3024
      m = MATCH_NO;
3025
      goto cleanup;
3026
    }
3027
 
3028
  /* Can't be anything but an IO iterator.  Build a list.  */
3029
  iter = gfc_get_iterator ();
3030
 
3031
  for (n = 1;; n++)
3032
    {
3033
      m = gfc_match_iterator (iter, 0);
3034
      if (m == MATCH_ERROR)
3035
        goto cleanup;
3036
      if (m == MATCH_YES)
3037
        {
3038
          gfc_check_do_variable (iter->var->symtree);
3039
          break;
3040
        }
3041
 
3042
      m = match_io_element (k, &new_code);
3043
      if (m == MATCH_ERROR)
3044
        goto cleanup;
3045
      if (m == MATCH_NO)
3046
        {
3047
          if (n > 2)
3048
            goto syntax;
3049
          goto cleanup;
3050
        }
3051
 
3052
      tail = gfc_append_code (tail, new_code);
3053
 
3054
      if (gfc_match_char (',') != MATCH_YES)
3055
        {
3056
          if (n > 2)
3057
            goto syntax;
3058
          m = MATCH_NO;
3059
          goto cleanup;
3060
        }
3061
    }
3062
 
3063
  if (gfc_match_char (')') != MATCH_YES)
3064
    goto syntax;
3065
 
3066
  new_code = gfc_get_code ();
3067
  new_code->op = EXEC_DO;
3068
  new_code->ext.iterator = iter;
3069
 
3070
  new_code->block = gfc_get_code ();
3071
  new_code->block->op = EXEC_DO;
3072
  new_code->block->next = head;
3073
 
3074
  *result = new_code;
3075
  return MATCH_YES;
3076
 
3077
syntax:
3078
  gfc_error ("Syntax error in I/O iterator at %C");
3079
  m = MATCH_ERROR;
3080
 
3081
cleanup:
3082
  gfc_free_iterator (iter, 1);
3083
  gfc_free_statements (head);
3084
  gfc_current_locus = old_loc;
3085
  return m;
3086
}
3087
 
3088
 
3089
/* Match a single element of an IO list, which is either a single
3090
   expression or an IO Iterator.  */
3091
 
3092
static match
3093
match_io_element (io_kind k, gfc_code **cpp)
3094
{
3095
  gfc_expr *expr;
3096
  gfc_code *cp;
3097
  match m;
3098
 
3099
  expr = NULL;
3100
 
3101
  m = match_io_iterator (k, cpp);
3102
  if (m == MATCH_YES)
3103
    return MATCH_YES;
3104
 
3105
  if (k == M_READ)
3106
    {
3107
      m = gfc_match_variable (&expr, 0);
3108
      if (m == MATCH_NO)
3109
        gfc_error ("Expected variable in READ statement at %C");
3110
    }
3111
  else
3112
    {
3113
      m = gfc_match_expr (&expr);
3114
      if (m == MATCH_NO)
3115
        gfc_error ("Expected expression in %s statement at %C",
3116
                   io_kind_name (k));
3117
    }
3118
 
3119
  if (m == MATCH_YES && k == M_READ && gfc_check_do_variable (expr->symtree))
3120
    m = MATCH_ERROR;
3121
 
3122
  if (m != MATCH_YES)
3123
    {
3124
      gfc_free_expr (expr);
3125
      return MATCH_ERROR;
3126
    }
3127
 
3128
  cp = gfc_get_code ();
3129
  cp->op = EXEC_TRANSFER;
3130
  cp->expr1 = expr;
3131
  if (k != M_INQUIRE)
3132
    cp->ext.dt = current_dt;
3133
 
3134
  *cpp = cp;
3135
  return MATCH_YES;
3136
}
3137
 
3138
 
3139
/* Match an I/O list, building gfc_code structures as we go.  */
3140
 
3141
static match
3142
match_io_list (io_kind k, gfc_code **head_p)
3143
{
3144
  gfc_code *head, *tail, *new_code;
3145
  match m;
3146
 
3147
  *head_p = head = tail = NULL;
3148
  if (gfc_match_eos () == MATCH_YES)
3149
    return MATCH_YES;
3150
 
3151
  for (;;)
3152
    {
3153
      m = match_io_element (k, &new_code);
3154
      if (m == MATCH_ERROR)
3155
        goto cleanup;
3156
      if (m == MATCH_NO)
3157
        goto syntax;
3158
 
3159
      tail = gfc_append_code (tail, new_code);
3160
      if (head == NULL)
3161
        head = new_code;
3162
 
3163
      if (gfc_match_eos () == MATCH_YES)
3164
        break;
3165
      if (gfc_match_char (',') != MATCH_YES)
3166
        goto syntax;
3167
    }
3168
 
3169
  *head_p = head;
3170
  return MATCH_YES;
3171
 
3172
syntax:
3173
  gfc_error ("Syntax error in %s statement at %C", io_kind_name (k));
3174
 
3175
cleanup:
3176
  gfc_free_statements (head);
3177
  return MATCH_ERROR;
3178
}
3179
 
3180
 
3181
/* Attach the data transfer end node.  */
3182
 
3183
static void
3184
terminate_io (gfc_code *io_code)
3185
{
3186
  gfc_code *c;
3187
 
3188
  if (io_code == NULL)
3189
    io_code = new_st.block;
3190
 
3191
  c = gfc_get_code ();
3192
  c->op = EXEC_DT_END;
3193
 
3194
  /* Point to structure that is already there */
3195
  c->ext.dt = new_st.ext.dt;
3196
  gfc_append_code (io_code, c);
3197
}
3198
 
3199
 
3200
/* Check the constraints for a data transfer statement.  The majority of the
3201
   constraints appearing in 9.4 of the standard appear here.  Some are handled
3202
   in resolve_tag and others in gfc_resolve_dt.  */
3203
 
3204
static match
3205
check_io_constraints (io_kind k, gfc_dt *dt, gfc_code *io_code,
3206
                      locus *spec_end)
3207
{
3208
#define io_constraint(condition,msg,arg)\
3209
if (condition) \
3210
  {\
3211
    gfc_error(msg,arg);\
3212
    m = MATCH_ERROR;\
3213
  }
3214
 
3215
  match m;
3216
  gfc_expr *expr;
3217
  gfc_symbol *sym = NULL;
3218
  bool warn, unformatted;
3219
 
3220
  warn = (dt->err || dt->iostat) ? true : false;
3221
  unformatted = dt->format_expr == NULL && dt->format_label == NULL
3222
                && dt->namelist == NULL;
3223
 
3224
  m = MATCH_YES;
3225
 
3226
  expr = dt->io_unit;
3227
  if (expr && expr->expr_type == EXPR_VARIABLE
3228
      && expr->ts.type == BT_CHARACTER)
3229
    {
3230
      sym = expr->symtree->n.sym;
3231
 
3232
      io_constraint (k == M_WRITE && sym->attr.intent == INTENT_IN,
3233
                     "Internal file at %L must not be INTENT(IN)",
3234
                     &expr->where);
3235
 
3236
      io_constraint (gfc_has_vector_index (dt->io_unit),
3237
                     "Internal file incompatible with vector subscript at %L",
3238
                     &expr->where);
3239
 
3240
      io_constraint (dt->rec != NULL,
3241
                     "REC tag at %L is incompatible with internal file",
3242
                     &dt->rec->where);
3243
 
3244
      io_constraint (dt->pos != NULL,
3245
                     "POS tag at %L is incompatible with internal file",
3246
                     &dt->pos->where);
3247
 
3248
      io_constraint (unformatted,
3249
                     "Unformatted I/O not allowed with internal unit at %L",
3250
                     &dt->io_unit->where);
3251
 
3252
      io_constraint (dt->asynchronous != NULL,
3253
                     "ASYNCHRONOUS tag at %L not allowed with internal file",
3254
                     &dt->asynchronous->where);
3255
 
3256
      if (dt->namelist != NULL)
3257
        {
3258
          if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: Internal file "
3259
                              "at %L with namelist", &expr->where)
3260
              == FAILURE)
3261
            m = MATCH_ERROR;
3262
        }
3263
 
3264
      io_constraint (dt->advance != NULL,
3265
                     "ADVANCE tag at %L is incompatible with internal file",
3266
                     &dt->advance->where);
3267
    }
3268
 
3269
  if (expr && expr->ts.type != BT_CHARACTER)
3270
    {
3271
 
3272
      io_constraint (gfc_pure (NULL) && (k == M_READ || k == M_WRITE),
3273
                     "IO UNIT in %s statement at %C must be "
3274
                     "an internal file in a PURE procedure",
3275
                     io_kind_name (k));
3276
 
3277
      if (gfc_implicit_pure (NULL) && (k == M_READ || k == M_WRITE))
3278
        gfc_current_ns->proc_name->attr.implicit_pure = 0;
3279
 
3280
    }
3281
 
3282
  if (k != M_READ)
3283
    {
3284
      io_constraint (dt->end, "END tag not allowed with output at %L",
3285
                     &dt->end_where);
3286
 
3287
      io_constraint (dt->eor, "EOR tag not allowed with output at %L",
3288
                     &dt->eor_where);
3289
 
3290
      io_constraint (dt->blank, "BLANK= specifier not allowed with output at %L",
3291
                     &dt->blank->where);
3292
 
3293
      io_constraint (dt->pad, "PAD= specifier not allowed with output at %L",
3294
                     &dt->pad->where);
3295
 
3296
      io_constraint (dt->size, "SIZE= specifier not allowed with output at %L",
3297
                     &dt->size->where);
3298
    }
3299
  else
3300
    {
3301
      io_constraint (dt->size && dt->advance == NULL,
3302
                     "SIZE tag at %L requires an ADVANCE tag",
3303
                     &dt->size->where);
3304
 
3305
      io_constraint (dt->eor && dt->advance == NULL,
3306
                     "EOR tag at %L requires an ADVANCE tag",
3307
                     &dt->eor_where);
3308
    }
3309
 
3310
  if (dt->asynchronous)
3311
    {
3312
      static const char * asynchronous[] = { "YES", "NO", NULL };
3313
 
3314
      if (gfc_reduce_init_expr (dt->asynchronous) != SUCCESS)
3315
        {
3316
          gfc_error ("ASYNCHRONOUS= specifier at %L must be an initialization "
3317
                     "expression", &dt->asynchronous->where);
3318
          return MATCH_ERROR;
3319
        }
3320
 
3321
      if (!compare_to_allowed_values
3322
                ("ASYNCHRONOUS", asynchronous, NULL, NULL,
3323
                 dt->asynchronous->value.character.string,
3324
                 io_kind_name (k), warn))
3325
        return MATCH_ERROR;
3326
    }
3327
 
3328
  if (dt->id)
3329
    {
3330
      bool not_yes
3331
        = !dt->asynchronous
3332
          || gfc_wide_strlen (dt->asynchronous->value.character.string) != 3
3333
          || gfc_wide_strncasecmp (dt->asynchronous->value.character.string,
3334
                                   "yes", 3) != 0;
3335
      io_constraint (not_yes,
3336
                     "ID= specifier at %L must be with ASYNCHRONOUS='yes' "
3337
                     "specifier", &dt->id->where);
3338
    }
3339
 
3340
  if (dt->decimal)
3341
    {
3342
      if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: DECIMAL= at %C "
3343
          "not allowed in Fortran 95") == FAILURE)
3344
        return MATCH_ERROR;
3345
 
3346
      if (dt->decimal->expr_type == EXPR_CONSTANT)
3347
        {
3348
          static const char * decimal[] = { "COMMA", "POINT", NULL };
3349
 
3350
          if (!compare_to_allowed_values ("DECIMAL", decimal, NULL, NULL,
3351
                                          dt->decimal->value.character.string,
3352
                                          io_kind_name (k), warn))
3353
            return MATCH_ERROR;
3354
 
3355
          io_constraint (unformatted,
3356
                         "the DECIMAL= specifier at %L must be with an "
3357
                         "explicit format expression", &dt->decimal->where);
3358
        }
3359
    }
3360
 
3361
  if (dt->blank)
3362
    {
3363
      if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: BLANK= at %C "
3364
          "not allowed in Fortran 95") == FAILURE)
3365
        return MATCH_ERROR;
3366
 
3367
      if (dt->blank->expr_type == EXPR_CONSTANT)
3368
        {
3369
          static const char * blank[] = { "NULL", "ZERO", NULL };
3370
 
3371
          if (!compare_to_allowed_values ("BLANK", blank, NULL, NULL,
3372
                                          dt->blank->value.character.string,
3373
                                          io_kind_name (k), warn))
3374
            return MATCH_ERROR;
3375
 
3376
          io_constraint (unformatted,
3377
                         "the BLANK= specifier at %L must be with an "
3378
                         "explicit format expression", &dt->blank->where);
3379
        }
3380
    }
3381
 
3382
  if (dt->pad)
3383
    {
3384
      if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: PAD= at %C "
3385
          "not allowed in Fortran 95") == FAILURE)
3386
        return MATCH_ERROR;
3387
 
3388
      if (dt->pad->expr_type == EXPR_CONSTANT)
3389
        {
3390
          static const char * pad[] = { "YES", "NO", NULL };
3391
 
3392
          if (!compare_to_allowed_values ("PAD", pad, NULL, NULL,
3393
                                          dt->pad->value.character.string,
3394
                                          io_kind_name (k), warn))
3395
            return MATCH_ERROR;
3396
 
3397
          io_constraint (unformatted,
3398
                         "the PAD= specifier at %L must be with an "
3399
                         "explicit format expression", &dt->pad->where);
3400
        }
3401
    }
3402
 
3403
  if (dt->round)
3404
    {
3405
      if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: ROUND= at %C "
3406
          "not allowed in Fortran 95") == FAILURE)
3407
        return MATCH_ERROR;
3408
 
3409
      if (dt->round->expr_type == EXPR_CONSTANT)
3410
        {
3411
          static const char * round[] = { "UP", "DOWN", "ZERO", "NEAREST",
3412
                                          "COMPATIBLE", "PROCESSOR_DEFINED",
3413
                                          NULL };
3414
 
3415
          if (!compare_to_allowed_values ("ROUND", round, NULL, NULL,
3416
                                          dt->round->value.character.string,
3417
                                          io_kind_name (k), warn))
3418
            return MATCH_ERROR;
3419
        }
3420
    }
3421
 
3422
  if (dt->sign)
3423
    {
3424
      /* When implemented, change the following to use gfc_notify_std F2003.
3425
      if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: SIGN= at %C "
3426
          "not allowed in Fortran 95") == FAILURE)
3427
        return MATCH_ERROR;  */
3428
      if (dt->sign->expr_type == EXPR_CONSTANT)
3429
        {
3430
          static const char * sign[] = { "PLUS", "SUPPRESS", "PROCESSOR_DEFINED",
3431
                                         NULL };
3432
 
3433
          if (!compare_to_allowed_values ("SIGN", sign, NULL, NULL,
3434
                                      dt->sign->value.character.string,
3435
                                      io_kind_name (k), warn))
3436
            return MATCH_ERROR;
3437
 
3438
          io_constraint (unformatted,
3439
                         "SIGN= specifier at %L must be with an "
3440
                         "explicit format expression", &dt->sign->where);
3441
 
3442
          io_constraint (k == M_READ,
3443
                         "SIGN= specifier at %L not allowed in a "
3444
                         "READ statement", &dt->sign->where);
3445
        }
3446
    }
3447
 
3448
  if (dt->delim)
3449
    {
3450
      if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: DELIM= at %C "
3451
          "not allowed in Fortran 95") == FAILURE)
3452
        return MATCH_ERROR;
3453
 
3454
      if (dt->delim->expr_type == EXPR_CONSTANT)
3455
        {
3456
          static const char *delim[] = { "APOSTROPHE", "QUOTE", "NONE", NULL };
3457
 
3458
          if (!compare_to_allowed_values ("DELIM", delim, NULL, NULL,
3459
                                          dt->delim->value.character.string,
3460
                                          io_kind_name (k), warn))
3461
            return MATCH_ERROR;
3462
 
3463
          io_constraint (k == M_READ,
3464
                         "DELIM= specifier at %L not allowed in a "
3465
                         "READ statement", &dt->delim->where);
3466
 
3467
          io_constraint (dt->format_label != &format_asterisk
3468
                         && dt->namelist == NULL,
3469
                         "DELIM= specifier at %L must have FMT=*",
3470
                         &dt->delim->where);
3471
 
3472
          io_constraint (unformatted && dt->namelist == NULL,
3473
                         "DELIM= specifier at %L must be with FMT=* or "
3474
                         "NML= specifier ", &dt->delim->where);
3475
        }
3476
    }
3477
 
3478
  if (dt->namelist)
3479
    {
3480
      io_constraint (io_code && dt->namelist,
3481
                     "NAMELIST cannot be followed by IO-list at %L",
3482
                     &io_code->loc);
3483
 
3484
      io_constraint (dt->format_expr,
3485
                     "IO spec-list cannot contain both NAMELIST group name "
3486
                     "and format specification at %L",
3487
                     &dt->format_expr->where);
3488
 
3489
      io_constraint (dt->format_label,
3490
                     "IO spec-list cannot contain both NAMELIST group name "
3491
                     "and format label at %L", spec_end);
3492
 
3493
      io_constraint (dt->rec,
3494
                     "NAMELIST IO is not allowed with a REC= specifier "
3495
                     "at %L", &dt->rec->where);
3496
 
3497
      io_constraint (dt->advance,
3498
                     "NAMELIST IO is not allowed with a ADVANCE= specifier "
3499
                     "at %L", &dt->advance->where);
3500
    }
3501
 
3502
  if (dt->rec)
3503
    {
3504
      io_constraint (dt->end,
3505
                     "An END tag is not allowed with a "
3506
                     "REC= specifier at %L", &dt->end_where);
3507
 
3508
      io_constraint (dt->format_label == &format_asterisk,
3509
                     "FMT=* is not allowed with a REC= specifier "
3510
                     "at %L", spec_end);
3511
 
3512
      io_constraint (dt->pos,
3513
                     "POS= is not allowed with REC= specifier "
3514
                     "at %L", &dt->pos->where);
3515
    }
3516
 
3517
  if (dt->advance)
3518
    {
3519
      int not_yes, not_no;
3520
      expr = dt->advance;
3521
 
3522
      io_constraint (dt->format_label == &format_asterisk,
3523
                     "List directed format(*) is not allowed with a "
3524
                     "ADVANCE= specifier at %L.", &expr->where);
3525
 
3526
      io_constraint (unformatted,
3527
                     "the ADVANCE= specifier at %L must appear with an "
3528
                     "explicit format expression", &expr->where);
3529
 
3530
      if (expr->expr_type == EXPR_CONSTANT && expr->ts.type == BT_CHARACTER)
3531
        {
3532
          const gfc_char_t *advance = expr->value.character.string;
3533
          not_no = gfc_wide_strlen (advance) != 2
3534
                   || gfc_wide_strncasecmp (advance, "no", 2) != 0;
3535
          not_yes = gfc_wide_strlen (advance) != 3
3536
                    || gfc_wide_strncasecmp (advance, "yes", 3) != 0;
3537
        }
3538
      else
3539
        {
3540
          not_no = 0;
3541
          not_yes = 0;
3542
        }
3543
 
3544
      io_constraint (not_no && not_yes,
3545
                     "ADVANCE= specifier at %L must have value = "
3546
                     "YES or NO.", &expr->where);
3547
 
3548
      io_constraint (dt->size && not_no && k == M_READ,
3549
                     "SIZE tag at %L requires an ADVANCE = 'NO'",
3550
                     &dt->size->where);
3551
 
3552
      io_constraint (dt->eor && not_no && k == M_READ,
3553
                     "EOR tag at %L requires an ADVANCE = 'NO'",
3554
                     &dt->eor_where);
3555
    }
3556
 
3557
  expr = dt->format_expr;
3558
  if (gfc_simplify_expr (expr, 0) == FAILURE
3559
      || check_format_string (expr, k == M_READ) == FAILURE)
3560
    return MATCH_ERROR;
3561
 
3562
  return m;
3563
}
3564
#undef io_constraint
3565
 
3566
 
3567
/* Match a READ, WRITE or PRINT statement.  */
3568
 
3569
static match
3570
match_io (io_kind k)
3571
{
3572
  char name[GFC_MAX_SYMBOL_LEN + 1];
3573
  gfc_code *io_code;
3574
  gfc_symbol *sym;
3575
  int comma_flag;
3576
  locus where;
3577
  locus spec_end;
3578
  gfc_dt *dt;
3579
  match m;
3580
 
3581
  where = gfc_current_locus;
3582
  comma_flag = 0;
3583
  current_dt = dt = XCNEW (gfc_dt);
3584
  m = gfc_match_char ('(');
3585
  if (m == MATCH_NO)
3586
    {
3587
      where = gfc_current_locus;
3588
      if (k == M_WRITE)
3589
        goto syntax;
3590
      else if (k == M_PRINT)
3591
        {
3592
          /* Treat the non-standard case of PRINT namelist.  */
3593
          if ((gfc_current_form == FORM_FIXED || gfc_peek_ascii_char () == ' ')
3594
              && gfc_match_name (name) == MATCH_YES)
3595
            {
3596
              gfc_find_symbol (name, NULL, 1, &sym);
3597
              if (sym && sym->attr.flavor == FL_NAMELIST)
3598
                {
3599
                  if (gfc_notify_std (GFC_STD_GNU, "PRINT namelist at "
3600
                                      "%C is an extension") == FAILURE)
3601
                    {
3602
                      m = MATCH_ERROR;
3603
                      goto cleanup;
3604
                    }
3605
 
3606
                  dt->io_unit = default_unit (k);
3607
                  dt->namelist = sym;
3608
                  goto get_io_list;
3609
                }
3610
              else
3611
                gfc_current_locus = where;
3612
            }
3613
        }
3614
 
3615
      if (gfc_current_form == FORM_FREE)
3616
        {
3617
          char c = gfc_peek_ascii_char ();
3618
          if (c != ' ' && c != '*' && c != '\'' && c != '"')
3619
            {
3620
              m = MATCH_NO;
3621
              goto cleanup;
3622
            }
3623
        }
3624
 
3625
      m = match_dt_format (dt);
3626
      if (m == MATCH_ERROR)
3627
        goto cleanup;
3628
      if (m == MATCH_NO)
3629
        goto syntax;
3630
 
3631
      comma_flag = 1;
3632
      dt->io_unit = default_unit (k);
3633
      goto get_io_list;
3634
    }
3635
  else
3636
    {
3637
      /* Before issuing an error for a malformed 'print (1,*)' type of
3638
         error, check for a default-char-expr of the form ('(I0)').  */
3639
      if (k == M_PRINT && m == MATCH_YES)
3640
        {
3641
          /* Reset current locus to get the initial '(' in an expression.  */
3642
          gfc_current_locus = where;
3643
          dt->format_expr = NULL;
3644
          m = match_dt_format (dt);
3645
 
3646
          if (m == MATCH_ERROR)
3647
            goto cleanup;
3648
          if (m == MATCH_NO || dt->format_expr == NULL)
3649
            goto syntax;
3650
 
3651
          comma_flag = 1;
3652
          dt->io_unit = default_unit (k);
3653
          goto get_io_list;
3654
        }
3655
    }
3656
 
3657
  /* Match a control list */
3658
  if (match_dt_element (k, dt) == MATCH_YES)
3659
    goto next;
3660
  if (match_dt_unit (k, dt) != MATCH_YES)
3661
    goto loop;
3662
 
3663
  if (gfc_match_char (')') == MATCH_YES)
3664
    goto get_io_list;
3665
  if (gfc_match_char (',') != MATCH_YES)
3666
    goto syntax;
3667
 
3668
  m = match_dt_element (k, dt);
3669
  if (m == MATCH_YES)
3670
    goto next;
3671
  if (m == MATCH_ERROR)
3672
    goto cleanup;
3673
 
3674
  m = match_dt_format (dt);
3675
  if (m == MATCH_YES)
3676
    goto next;
3677
  if (m == MATCH_ERROR)
3678
    goto cleanup;
3679
 
3680
  where = gfc_current_locus;
3681
 
3682
  m = gfc_match_name (name);
3683
  if (m == MATCH_YES)
3684
    {
3685
      gfc_find_symbol (name, NULL, 1, &sym);
3686
      if (sym && sym->attr.flavor == FL_NAMELIST)
3687
        {
3688
          dt->namelist = sym;
3689
          if (k == M_READ && check_namelist (sym))
3690
            {
3691
              m = MATCH_ERROR;
3692
              goto cleanup;
3693
            }
3694
          goto next;
3695
        }
3696
    }
3697
 
3698
  gfc_current_locus = where;
3699
 
3700
  goto loop;                    /* No matches, try regular elements */
3701
 
3702
next:
3703
  if (gfc_match_char (')') == MATCH_YES)
3704
    goto get_io_list;
3705
  if (gfc_match_char (',') != MATCH_YES)
3706
    goto syntax;
3707
 
3708
loop:
3709
  for (;;)
3710
    {
3711
      m = match_dt_element (k, dt);
3712
      if (m == MATCH_NO)
3713
        goto syntax;
3714
      if (m == MATCH_ERROR)
3715
        goto cleanup;
3716
 
3717
      if (gfc_match_char (')') == MATCH_YES)
3718
        break;
3719
      if (gfc_match_char (',') != MATCH_YES)
3720
        goto syntax;
3721
    }
3722
 
3723
get_io_list:
3724
 
3725
  /* Used in check_io_constraints, where no locus is available.  */
3726
  spec_end = gfc_current_locus;
3727
 
3728
  /* Save the IO kind for later use.  */
3729
  dt->dt_io_kind = gfc_get_iokind_expr (&gfc_current_locus, k);
3730
 
3731
  /* Optional leading comma (non-standard).  We use a gfc_expr structure here
3732
     to save the locus.  This is used later when resolving transfer statements
3733
     that might have a format expression without unit number.  */
3734
  if (!comma_flag && gfc_match_char (',') == MATCH_YES)
3735
    dt->extra_comma = dt->dt_io_kind;
3736
 
3737
  io_code = NULL;
3738
  if (gfc_match_eos () != MATCH_YES)
3739
    {
3740
      if (comma_flag && gfc_match_char (',') != MATCH_YES)
3741
        {
3742
          gfc_error ("Expected comma in I/O list at %C");
3743
          m = MATCH_ERROR;
3744
          goto cleanup;
3745
        }
3746
 
3747
      m = match_io_list (k, &io_code);
3748
      if (m == MATCH_ERROR)
3749
        goto cleanup;
3750
      if (m == MATCH_NO)
3751
        goto syntax;
3752
    }
3753
 
3754
  /* A full IO statement has been matched.  Check the constraints.  spec_end is
3755
     supplied for cases where no locus is supplied.  */
3756
  m = check_io_constraints (k, dt, io_code, &spec_end);
3757
 
3758
  if (m == MATCH_ERROR)
3759
    goto cleanup;
3760
 
3761
  new_st.op = (k == M_READ) ? EXEC_READ : EXEC_WRITE;
3762
  new_st.ext.dt = dt;
3763
  new_st.block = gfc_get_code ();
3764
  new_st.block->op = new_st.op;
3765
  new_st.block->next = io_code;
3766
 
3767
  terminate_io (io_code);
3768
 
3769
  return MATCH_YES;
3770
 
3771
syntax:
3772
  gfc_error ("Syntax error in %s statement at %C", io_kind_name (k));
3773
  m = MATCH_ERROR;
3774
 
3775
cleanup:
3776
  gfc_free_dt (dt);
3777
  return m;
3778
}
3779
 
3780
 
3781
match
3782
gfc_match_read (void)
3783
{
3784
  return match_io (M_READ);
3785
}
3786
 
3787
 
3788
match
3789
gfc_match_write (void)
3790
{
3791
  return match_io (M_WRITE);
3792
}
3793
 
3794
 
3795
match
3796
gfc_match_print (void)
3797
{
3798
  match m;
3799
 
3800
  m = match_io (M_PRINT);
3801
  if (m != MATCH_YES)
3802
    return m;
3803
 
3804
  if (gfc_pure (NULL))
3805
    {
3806
      gfc_error ("PRINT statement at %C not allowed within PURE procedure");
3807
      return MATCH_ERROR;
3808
    }
3809
 
3810
  if (gfc_implicit_pure (NULL))
3811
    gfc_current_ns->proc_name->attr.implicit_pure = 0;
3812
 
3813
  return MATCH_YES;
3814
}
3815
 
3816
 
3817
/* Free a gfc_inquire structure.  */
3818
 
3819
void
3820
gfc_free_inquire (gfc_inquire *inquire)
3821
{
3822
 
3823
  if (inquire == NULL)
3824
    return;
3825
 
3826
  gfc_free_expr (inquire->unit);
3827
  gfc_free_expr (inquire->file);
3828
  gfc_free_expr (inquire->iomsg);
3829
  gfc_free_expr (inquire->iostat);
3830
  gfc_free_expr (inquire->exist);
3831
  gfc_free_expr (inquire->opened);
3832
  gfc_free_expr (inquire->number);
3833
  gfc_free_expr (inquire->named);
3834
  gfc_free_expr (inquire->name);
3835
  gfc_free_expr (inquire->access);
3836
  gfc_free_expr (inquire->sequential);
3837
  gfc_free_expr (inquire->direct);
3838
  gfc_free_expr (inquire->form);
3839
  gfc_free_expr (inquire->formatted);
3840
  gfc_free_expr (inquire->unformatted);
3841
  gfc_free_expr (inquire->recl);
3842
  gfc_free_expr (inquire->nextrec);
3843
  gfc_free_expr (inquire->blank);
3844
  gfc_free_expr (inquire->position);
3845
  gfc_free_expr (inquire->action);
3846
  gfc_free_expr (inquire->read);
3847
  gfc_free_expr (inquire->write);
3848
  gfc_free_expr (inquire->readwrite);
3849
  gfc_free_expr (inquire->delim);
3850
  gfc_free_expr (inquire->encoding);
3851
  gfc_free_expr (inquire->pad);
3852
  gfc_free_expr (inquire->iolength);
3853
  gfc_free_expr (inquire->convert);
3854
  gfc_free_expr (inquire->strm_pos);
3855
  gfc_free_expr (inquire->asynchronous);
3856
  gfc_free_expr (inquire->decimal);
3857
  gfc_free_expr (inquire->pending);
3858
  gfc_free_expr (inquire->id);
3859
  gfc_free_expr (inquire->sign);
3860
  gfc_free_expr (inquire->size);
3861
  gfc_free_expr (inquire->round);
3862
  free (inquire);
3863
}
3864
 
3865
 
3866
/* Match an element of an INQUIRE statement.  */
3867
 
3868
#define RETM   if (m != MATCH_NO) return m;
3869
 
3870
static match
3871
match_inquire_element (gfc_inquire *inquire)
3872
{
3873
  match m;
3874
 
3875
  m = match_etag (&tag_unit, &inquire->unit);
3876
  RETM m = match_etag (&tag_file, &inquire->file);
3877
  RETM m = match_ltag (&tag_err, &inquire->err);
3878
  RETM m = match_out_tag (&tag_iomsg, &inquire->iomsg);
3879
  RETM m = match_out_tag (&tag_iostat, &inquire->iostat);
3880
  RETM m = match_vtag (&tag_exist, &inquire->exist);
3881
  RETM m = match_vtag (&tag_opened, &inquire->opened);
3882
  RETM m = match_vtag (&tag_named, &inquire->named);
3883
  RETM m = match_vtag (&tag_name, &inquire->name);
3884
  RETM m = match_out_tag (&tag_number, &inquire->number);
3885
  RETM m = match_vtag (&tag_s_access, &inquire->access);
3886
  RETM m = match_vtag (&tag_sequential, &inquire->sequential);
3887
  RETM m = match_vtag (&tag_direct, &inquire->direct);
3888
  RETM m = match_vtag (&tag_s_form, &inquire->form);
3889
  RETM m = match_vtag (&tag_formatted, &inquire->formatted);
3890
  RETM m = match_vtag (&tag_unformatted, &inquire->unformatted);
3891
  RETM m = match_out_tag (&tag_s_recl, &inquire->recl);
3892
  RETM m = match_out_tag (&tag_nextrec, &inquire->nextrec);
3893
  RETM m = match_vtag (&tag_s_blank, &inquire->blank);
3894
  RETM m = match_vtag (&tag_s_position, &inquire->position);
3895
  RETM m = match_vtag (&tag_s_action, &inquire->action);
3896
  RETM m = match_vtag (&tag_read, &inquire->read);
3897
  RETM m = match_vtag (&tag_write, &inquire->write);
3898
  RETM m = match_vtag (&tag_readwrite, &inquire->readwrite);
3899
  RETM m = match_vtag (&tag_s_async, &inquire->asynchronous);
3900
  RETM m = match_vtag (&tag_s_delim, &inquire->delim);
3901
  RETM m = match_vtag (&tag_s_decimal, &inquire->decimal);
3902
  RETM m = match_vtag (&tag_size, &inquire->size);
3903
  RETM m = match_vtag (&tag_s_encoding, &inquire->encoding);
3904
  RETM m = match_vtag (&tag_s_round, &inquire->round);
3905
  RETM m = match_vtag (&tag_s_sign, &inquire->sign);
3906
  RETM m = match_vtag (&tag_s_pad, &inquire->pad);
3907
  RETM m = match_vtag (&tag_iolength, &inquire->iolength);
3908
  RETM m = match_vtag (&tag_convert, &inquire->convert);
3909
  RETM m = match_out_tag (&tag_strm_out, &inquire->strm_pos);
3910
  RETM m = match_vtag (&tag_pending, &inquire->pending);
3911
  RETM m = match_vtag (&tag_id, &inquire->id);
3912
  RETM return MATCH_NO;
3913
}
3914
 
3915
#undef RETM
3916
 
3917
 
3918
match
3919
gfc_match_inquire (void)
3920
{
3921
  gfc_inquire *inquire;
3922
  gfc_code *code;
3923
  match m;
3924
  locus loc;
3925
 
3926
  m = gfc_match_char ('(');
3927
  if (m == MATCH_NO)
3928
    return m;
3929
 
3930
  inquire = XCNEW (gfc_inquire);
3931
 
3932
  loc = gfc_current_locus;
3933
 
3934
  m = match_inquire_element (inquire);
3935
  if (m == MATCH_ERROR)
3936
    goto cleanup;
3937
  if (m == MATCH_NO)
3938
    {
3939
      m = gfc_match_expr (&inquire->unit);
3940
      if (m == MATCH_ERROR)
3941
        goto cleanup;
3942
      if (m == MATCH_NO)
3943
        goto syntax;
3944
    }
3945
 
3946
  /* See if we have the IOLENGTH form of the inquire statement.  */
3947
  if (inquire->iolength != NULL)
3948
    {
3949
      if (gfc_match_char (')') != MATCH_YES)
3950
        goto syntax;
3951
 
3952
      m = match_io_list (M_INQUIRE, &code);
3953
      if (m == MATCH_ERROR)
3954
        goto cleanup;
3955
      if (m == MATCH_NO)
3956
        goto syntax;
3957
 
3958
      new_st.op = EXEC_IOLENGTH;
3959
      new_st.expr1 = inquire->iolength;
3960
      new_st.ext.inquire = inquire;
3961
 
3962
      if (gfc_pure (NULL))
3963
        {
3964
          gfc_free_statements (code);
3965
          gfc_error ("INQUIRE statement not allowed in PURE procedure at %C");
3966
          return MATCH_ERROR;
3967
        }
3968
 
3969
      if (gfc_implicit_pure (NULL))
3970
        gfc_current_ns->proc_name->attr.implicit_pure = 0;
3971
 
3972
      new_st.block = gfc_get_code ();
3973
      new_st.block->op = EXEC_IOLENGTH;
3974
      terminate_io (code);
3975
      new_st.block->next = code;
3976
      return MATCH_YES;
3977
    }
3978
 
3979
  /* At this point, we have the non-IOLENGTH inquire statement.  */
3980
  for (;;)
3981
    {
3982
      if (gfc_match_char (')') == MATCH_YES)
3983
        break;
3984
      if (gfc_match_char (',') != MATCH_YES)
3985
        goto syntax;
3986
 
3987
      m = match_inquire_element (inquire);
3988
      if (m == MATCH_ERROR)
3989
        goto cleanup;
3990
      if (m == MATCH_NO)
3991
        goto syntax;
3992
 
3993
      if (inquire->iolength != NULL)
3994
        {
3995
          gfc_error ("IOLENGTH tag invalid in INQUIRE statement at %C");
3996
          goto cleanup;
3997
        }
3998
    }
3999
 
4000
  if (gfc_match_eos () != MATCH_YES)
4001
    goto syntax;
4002
 
4003
  if (inquire->unit != NULL && inquire->file != NULL)
4004
    {
4005
      gfc_error ("INQUIRE statement at %L cannot contain both FILE and "
4006
                 "UNIT specifiers", &loc);
4007
      goto cleanup;
4008
    }
4009
 
4010
  if (inquire->unit == NULL && inquire->file == NULL)
4011
    {
4012
      gfc_error ("INQUIRE statement at %L requires either FILE or "
4013
                 "UNIT specifier", &loc);
4014
      goto cleanup;
4015
    }
4016
 
4017
  if (gfc_pure (NULL))
4018
    {
4019
      gfc_error ("INQUIRE statement not allowed in PURE procedure at %C");
4020
      goto cleanup;
4021
    }
4022
 
4023
  if (gfc_implicit_pure (NULL))
4024
    gfc_current_ns->proc_name->attr.implicit_pure = 0;
4025
 
4026
  if (inquire->id != NULL && inquire->pending == NULL)
4027
    {
4028
      gfc_error ("INQUIRE statement at %L requires a PENDING= specifier with "
4029
                 "the ID= specifier", &loc);
4030
      goto cleanup;
4031
    }
4032
 
4033
  new_st.op = EXEC_INQUIRE;
4034
  new_st.ext.inquire = inquire;
4035
  return MATCH_YES;
4036
 
4037
syntax:
4038
  gfc_syntax_error (ST_INQUIRE);
4039
 
4040
cleanup:
4041
  gfc_free_inquire (inquire);
4042
  return MATCH_ERROR;
4043
}
4044
 
4045
 
4046
/* Resolve everything in a gfc_inquire structure.  */
4047
 
4048
gfc_try
4049
gfc_resolve_inquire (gfc_inquire *inquire)
4050
{
4051
  RESOLVE_TAG (&tag_unit, inquire->unit);
4052
  RESOLVE_TAG (&tag_file, inquire->file);
4053
  RESOLVE_TAG (&tag_id, inquire->id);
4054
 
4055
  /* For INQUIRE, all tags except FILE, ID and UNIT are variable definition
4056
     contexts.  Thus, use an extended RESOLVE_TAG macro for that.  */
4057
#define INQUIRE_RESOLVE_TAG(tag, expr) \
4058
  RESOLVE_TAG (tag, expr); \
4059
  if (expr) \
4060
    { \
4061
      char context[64]; \
4062
      sprintf (context, _("%s tag with INQUIRE"), (tag)->name); \
4063
      if (gfc_check_vardef_context ((expr), false, false, context) == FAILURE) \
4064
        return FAILURE; \
4065
    }
4066
  INQUIRE_RESOLVE_TAG (&tag_iomsg, inquire->iomsg);
4067
  INQUIRE_RESOLVE_TAG (&tag_iostat, inquire->iostat);
4068
  INQUIRE_RESOLVE_TAG (&tag_exist, inquire->exist);
4069
  INQUIRE_RESOLVE_TAG (&tag_opened, inquire->opened);
4070
  INQUIRE_RESOLVE_TAG (&tag_number, inquire->number);
4071
  INQUIRE_RESOLVE_TAG (&tag_named, inquire->named);
4072
  INQUIRE_RESOLVE_TAG (&tag_name, inquire->name);
4073
  INQUIRE_RESOLVE_TAG (&tag_s_access, inquire->access);
4074
  INQUIRE_RESOLVE_TAG (&tag_sequential, inquire->sequential);
4075
  INQUIRE_RESOLVE_TAG (&tag_direct, inquire->direct);
4076
  INQUIRE_RESOLVE_TAG (&tag_s_form, inquire->form);
4077
  INQUIRE_RESOLVE_TAG (&tag_formatted, inquire->formatted);
4078
  INQUIRE_RESOLVE_TAG (&tag_unformatted, inquire->unformatted);
4079
  INQUIRE_RESOLVE_TAG (&tag_s_recl, inquire->recl);
4080
  INQUIRE_RESOLVE_TAG (&tag_nextrec, inquire->nextrec);
4081
  INQUIRE_RESOLVE_TAG (&tag_s_blank, inquire->blank);
4082
  INQUIRE_RESOLVE_TAG (&tag_s_position, inquire->position);
4083
  INQUIRE_RESOLVE_TAG (&tag_s_action, inquire->action);
4084
  INQUIRE_RESOLVE_TAG (&tag_read, inquire->read);
4085
  INQUIRE_RESOLVE_TAG (&tag_write, inquire->write);
4086
  INQUIRE_RESOLVE_TAG (&tag_readwrite, inquire->readwrite);
4087
  INQUIRE_RESOLVE_TAG (&tag_s_delim, inquire->delim);
4088
  INQUIRE_RESOLVE_TAG (&tag_s_pad, inquire->pad);
4089
  INQUIRE_RESOLVE_TAG (&tag_s_encoding, inquire->encoding);
4090
  INQUIRE_RESOLVE_TAG (&tag_s_round, inquire->round);
4091
  INQUIRE_RESOLVE_TAG (&tag_iolength, inquire->iolength);
4092
  INQUIRE_RESOLVE_TAG (&tag_convert, inquire->convert);
4093
  INQUIRE_RESOLVE_TAG (&tag_strm_out, inquire->strm_pos);
4094
  INQUIRE_RESOLVE_TAG (&tag_s_async, inquire->asynchronous);
4095
  INQUIRE_RESOLVE_TAG (&tag_s_sign, inquire->sign);
4096
  INQUIRE_RESOLVE_TAG (&tag_s_round, inquire->round);
4097
  INQUIRE_RESOLVE_TAG (&tag_pending, inquire->pending);
4098
  INQUIRE_RESOLVE_TAG (&tag_size, inquire->size);
4099
  INQUIRE_RESOLVE_TAG (&tag_s_decimal, inquire->decimal);
4100
#undef INQUIRE_RESOLVE_TAG
4101
 
4102
  if (gfc_reference_st_label (inquire->err, ST_LABEL_TARGET) == FAILURE)
4103
    return FAILURE;
4104
 
4105
  return SUCCESS;
4106
}
4107
 
4108
 
4109
void
4110
gfc_free_wait (gfc_wait *wait)
4111
{
4112
  if (wait == NULL)
4113
    return;
4114
 
4115
  gfc_free_expr (wait->unit);
4116
  gfc_free_expr (wait->iostat);
4117
  gfc_free_expr (wait->iomsg);
4118
  gfc_free_expr (wait->id);
4119
}
4120
 
4121
 
4122
gfc_try
4123
gfc_resolve_wait (gfc_wait *wait)
4124
{
4125
  RESOLVE_TAG (&tag_unit, wait->unit);
4126
  RESOLVE_TAG (&tag_iomsg, wait->iomsg);
4127
  RESOLVE_TAG (&tag_iostat, wait->iostat);
4128
  RESOLVE_TAG (&tag_id, wait->id);
4129
 
4130
  if (gfc_reference_st_label (wait->err, ST_LABEL_TARGET) == FAILURE)
4131
    return FAILURE;
4132
 
4133
  if (gfc_reference_st_label (wait->end, ST_LABEL_TARGET) == FAILURE)
4134
    return FAILURE;
4135
 
4136
  return SUCCESS;
4137
}
4138
 
4139
/* Match an element of a WAIT statement.  */
4140
 
4141
#define RETM   if (m != MATCH_NO) return m;
4142
 
4143
static match
4144
match_wait_element (gfc_wait *wait)
4145
{
4146
  match m;
4147
 
4148
  m = match_etag (&tag_unit, &wait->unit);
4149
  RETM m = match_ltag (&tag_err, &wait->err);
4150
  RETM m = match_ltag (&tag_end, &wait->eor);
4151
  RETM m = match_ltag (&tag_eor, &wait->end);
4152
  RETM m = match_out_tag (&tag_iomsg, &wait->iomsg);
4153
  RETM m = match_out_tag (&tag_iostat, &wait->iostat);
4154
  RETM m = match_etag (&tag_id, &wait->id);
4155
  RETM return MATCH_NO;
4156
}
4157
 
4158
#undef RETM
4159
 
4160
 
4161
match
4162
gfc_match_wait (void)
4163
{
4164
  gfc_wait *wait;
4165
  match m;
4166
 
4167
  m = gfc_match_char ('(');
4168
  if (m == MATCH_NO)
4169
    return m;
4170
 
4171
  wait = XCNEW (gfc_wait);
4172
 
4173
  m = match_wait_element (wait);
4174
  if (m == MATCH_ERROR)
4175
    goto cleanup;
4176
  if (m == MATCH_NO)
4177
    {
4178
      m = gfc_match_expr (&wait->unit);
4179
      if (m == MATCH_ERROR)
4180
        goto cleanup;
4181
      if (m == MATCH_NO)
4182
        goto syntax;
4183
    }
4184
 
4185
  for (;;)
4186
    {
4187
      if (gfc_match_char (')') == MATCH_YES)
4188
        break;
4189
      if (gfc_match_char (',') != MATCH_YES)
4190
        goto syntax;
4191
 
4192
      m = match_wait_element (wait);
4193
      if (m == MATCH_ERROR)
4194
        goto cleanup;
4195
      if (m == MATCH_NO)
4196
        goto syntax;
4197
    }
4198
 
4199
  if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: WAIT at %C "
4200
          "not allowed in Fortran 95") == FAILURE)
4201
    goto cleanup;
4202
 
4203
  if (gfc_pure (NULL))
4204
    {
4205
      gfc_error ("WAIT statement not allowed in PURE procedure at %C");
4206
      goto cleanup;
4207
    }
4208
 
4209
  if (gfc_implicit_pure (NULL))
4210
    gfc_current_ns->proc_name->attr.implicit_pure = 0;
4211
 
4212
  new_st.op = EXEC_WAIT;
4213
  new_st.ext.wait = wait;
4214
 
4215
  return MATCH_YES;
4216
 
4217
syntax:
4218
  gfc_syntax_error (ST_WAIT);
4219
 
4220
cleanup:
4221
  gfc_free_wait (wait);
4222
  return MATCH_ERROR;
4223
}

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