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1 712 jeremybenn
/* Main parser.
2
   Copyright (C) 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008,
3
   2009, 2010, 2011, 2012
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 <setjmp.h>
26
#include "gfortran.h"
27
#include "match.h"
28
#include "parse.h"
29
#include "debug.h"
30
 
31
/* Current statement label.  Zero means no statement label.  Because new_st
32
   can get wiped during statement matching, we have to keep it separate.  */
33
 
34
gfc_st_label *gfc_statement_label;
35
 
36
static locus label_locus;
37
static jmp_buf eof_buf;
38
 
39
gfc_state_data *gfc_state_stack;
40
static bool last_was_use_stmt = false;
41
 
42
/* TODO: Re-order functions to kill these forward decls.  */
43
static void check_statement_label (gfc_statement);
44
static void undo_new_statement (void);
45
static void reject_statement (void);
46
 
47
 
48
/* A sort of half-matching function.  We try to match the word on the
49
   input with the passed string.  If this succeeds, we call the
50
   keyword-dependent matching function that will match the rest of the
51
   statement.  For single keywords, the matching subroutine is
52
   gfc_match_eos().  */
53
 
54
static match
55
match_word (const char *str, match (*subr) (void), locus *old_locus)
56
{
57
  match m;
58
 
59
  if (str != NULL)
60
    {
61
      m = gfc_match (str);
62
      if (m != MATCH_YES)
63
        return m;
64
    }
65
 
66
  m = (*subr) ();
67
 
68
  if (m != MATCH_YES)
69
    {
70
      gfc_current_locus = *old_locus;
71
      reject_statement ();
72
    }
73
 
74
  return m;
75
}
76
 
77
 
78
/* Load symbols from all USE statements encounted in this scoping unit.  */
79
 
80
static void
81
use_modules (void)
82
{
83
  gfc_error_buf old_error;
84
 
85
  gfc_push_error (&old_error);
86
  gfc_buffer_error (0);
87
  gfc_use_modules ();
88
  gfc_buffer_error (1);
89
  gfc_pop_error (&old_error);
90
  gfc_commit_symbols ();
91
  gfc_warning_check ();
92
  gfc_current_ns->old_cl_list = gfc_current_ns->cl_list;
93
  gfc_current_ns->old_equiv = gfc_current_ns->equiv;
94
  last_was_use_stmt = false;
95
}
96
 
97
 
98
/* Figure out what the next statement is, (mostly) regardless of
99
   proper ordering.  The do...while(0) is there to prevent if/else
100
   ambiguity.  */
101
 
102
#define match(keyword, subr, st)                                \
103
    do {                                                        \
104
      if (match_word(keyword, subr, &old_locus) == MATCH_YES)   \
105
        return st;                                              \
106
      else                                                      \
107
        undo_new_statement ();                            \
108
    } while (0);
109
 
110
 
111
/* This is a specialist version of decode_statement that is used
112
   for the specification statements in a function, whose
113
   characteristics are deferred into the specification statements.
114
   eg.:  INTEGER (king = mykind) foo ()
115
         USE mymodule, ONLY mykind.....
116
   The KIND parameter needs a return after USE or IMPORT, whereas
117
   derived type declarations can occur anywhere, up the executable
118
   block.  ST_GET_FCN_CHARACTERISTICS is returned when we have run
119
   out of the correct kind of specification statements.  */
120
static gfc_statement
121
decode_specification_statement (void)
122
{
123
  gfc_statement st;
124
  locus old_locus;
125
  char c;
126
 
127
  if (gfc_match_eos () == MATCH_YES)
128
    return ST_NONE;
129
 
130
  old_locus = gfc_current_locus;
131
 
132
  if (match_word ("use", gfc_match_use, &old_locus) == MATCH_YES)
133
    {
134
      last_was_use_stmt = true;
135
      return ST_USE;
136
    }
137
  else
138
    {
139
      undo_new_statement ();
140
      if (last_was_use_stmt)
141
        use_modules ();
142
    }
143
 
144
  match ("import", gfc_match_import, ST_IMPORT);
145
 
146
  if (gfc_current_block ()->result->ts.type != BT_DERIVED)
147
    goto end_of_block;
148
 
149
  match (NULL, gfc_match_st_function, ST_STATEMENT_FUNCTION);
150
  match (NULL, gfc_match_data_decl, ST_DATA_DECL);
151
  match (NULL, gfc_match_enumerator_def, ST_ENUMERATOR);
152
 
153
  /* General statement matching: Instead of testing every possible
154
     statement, we eliminate most possibilities by peeking at the
155
     first character.  */
156
 
157
  c = gfc_peek_ascii_char ();
158
 
159
  switch (c)
160
    {
161
    case 'a':
162
      match ("abstract% interface", gfc_match_abstract_interface,
163
             ST_INTERFACE);
164
      match ("allocatable", gfc_match_asynchronous, ST_ATTR_DECL);
165
      match ("asynchronous", gfc_match_asynchronous, ST_ATTR_DECL);
166
      break;
167
 
168
    case 'b':
169
      match (NULL, gfc_match_bind_c_stmt, ST_ATTR_DECL);
170
      break;
171
 
172
    case 'c':
173
      match ("codimension", gfc_match_codimension, ST_ATTR_DECL);
174
      match ("contiguous", gfc_match_contiguous, ST_ATTR_DECL);
175
      break;
176
 
177
    case 'd':
178
      match ("data", gfc_match_data, ST_DATA);
179
      match ("dimension", gfc_match_dimension, ST_ATTR_DECL);
180
      break;
181
 
182
    case 'e':
183
      match ("enum , bind ( c )", gfc_match_enum, ST_ENUM);
184
      match ("entry% ", gfc_match_entry, ST_ENTRY);
185
      match ("equivalence", gfc_match_equivalence, ST_EQUIVALENCE);
186
      match ("external", gfc_match_external, ST_ATTR_DECL);
187
      break;
188
 
189
    case 'f':
190
      match ("format", gfc_match_format, ST_FORMAT);
191
      break;
192
 
193
    case 'g':
194
      break;
195
 
196
    case 'i':
197
      match ("implicit", gfc_match_implicit, ST_IMPLICIT);
198
      match ("implicit% none", gfc_match_implicit_none, ST_IMPLICIT_NONE);
199
      match ("interface", gfc_match_interface, ST_INTERFACE);
200
      match ("intent", gfc_match_intent, ST_ATTR_DECL);
201
      match ("intrinsic", gfc_match_intrinsic, ST_ATTR_DECL);
202
      break;
203
 
204
    case 'm':
205
      break;
206
 
207
    case 'n':
208
      match ("namelist", gfc_match_namelist, ST_NAMELIST);
209
      break;
210
 
211
    case 'o':
212
      match ("optional", gfc_match_optional, ST_ATTR_DECL);
213
      break;
214
 
215
    case 'p':
216
      match ("parameter", gfc_match_parameter, ST_PARAMETER);
217
      match ("pointer", gfc_match_pointer, ST_ATTR_DECL);
218
      if (gfc_match_private (&st) == MATCH_YES)
219
        return st;
220
      match ("procedure", gfc_match_procedure, ST_PROCEDURE);
221
      if (gfc_match_public (&st) == MATCH_YES)
222
        return st;
223
      match ("protected", gfc_match_protected, ST_ATTR_DECL);
224
      break;
225
 
226
    case 'r':
227
      break;
228
 
229
    case 's':
230
      match ("save", gfc_match_save, ST_ATTR_DECL);
231
      break;
232
 
233
    case 't':
234
      match ("target", gfc_match_target, ST_ATTR_DECL);
235
      match ("type", gfc_match_derived_decl, ST_DERIVED_DECL);
236
      break;
237
 
238
    case 'u':
239
      break;
240
 
241
    case 'v':
242
      match ("value", gfc_match_value, ST_ATTR_DECL);
243
      match ("volatile", gfc_match_volatile, ST_ATTR_DECL);
244
      break;
245
 
246
    case 'w':
247
      break;
248
    }
249
 
250
  /* This is not a specification statement.  See if any of the matchers
251
     has stored an error message of some sort.  */
252
 
253
end_of_block:
254
  gfc_clear_error ();
255
  gfc_buffer_error (0);
256
  gfc_current_locus = old_locus;
257
 
258
  return ST_GET_FCN_CHARACTERISTICS;
259
}
260
 
261
 
262
/* This is the primary 'decode_statement'.  */
263
static gfc_statement
264
decode_statement (void)
265
{
266
  gfc_statement st;
267
  locus old_locus;
268
  match m;
269
  char c;
270
 
271
  gfc_enforce_clean_symbol_state ();
272
 
273
  gfc_clear_error ();   /* Clear any pending errors.  */
274
  gfc_clear_warning (); /* Clear any pending warnings.  */
275
 
276
  gfc_matching_function = false;
277
 
278
  if (gfc_match_eos () == MATCH_YES)
279
    return ST_NONE;
280
 
281
  if (gfc_current_state () == COMP_FUNCTION
282
        && gfc_current_block ()->result->ts.kind == -1)
283
    return decode_specification_statement ();
284
 
285
  old_locus = gfc_current_locus;
286
 
287
  c = gfc_peek_ascii_char ();
288
 
289
  if (c == 'u')
290
    {
291
      if (match_word ("use", gfc_match_use, &old_locus) == MATCH_YES)
292
        {
293
          last_was_use_stmt = true;
294
          return ST_USE;
295
        }
296
      else
297
        undo_new_statement ();
298
    }
299
 
300
  if (last_was_use_stmt)
301
    use_modules ();
302
 
303
  /* Try matching a data declaration or function declaration. The
304
      input "REALFUNCTIONA(N)" can mean several things in different
305
      contexts, so it (and its relatives) get special treatment.  */
306
 
307
  if (gfc_current_state () == COMP_NONE
308
      || gfc_current_state () == COMP_INTERFACE
309
      || gfc_current_state () == COMP_CONTAINS)
310
    {
311
      gfc_matching_function = true;
312
      m = gfc_match_function_decl ();
313
      if (m == MATCH_YES)
314
        return ST_FUNCTION;
315
      else if (m == MATCH_ERROR)
316
        reject_statement ();
317
      else
318
        gfc_undo_symbols ();
319
      gfc_current_locus = old_locus;
320
    }
321
  gfc_matching_function = false;
322
 
323
 
324
  /* Match statements whose error messages are meant to be overwritten
325
     by something better.  */
326
 
327
  match (NULL, gfc_match_assignment, ST_ASSIGNMENT);
328
  match (NULL, gfc_match_pointer_assignment, ST_POINTER_ASSIGNMENT);
329
  match (NULL, gfc_match_st_function, ST_STATEMENT_FUNCTION);
330
 
331
  match (NULL, gfc_match_data_decl, ST_DATA_DECL);
332
  match (NULL, gfc_match_enumerator_def, ST_ENUMERATOR);
333
 
334
  /* Try to match a subroutine statement, which has the same optional
335
     prefixes that functions can have.  */
336
 
337
  if (gfc_match_subroutine () == MATCH_YES)
338
    return ST_SUBROUTINE;
339
  gfc_undo_symbols ();
340
  gfc_current_locus = old_locus;
341
 
342
  /* Check for the IF, DO, SELECT, WHERE, FORALL, CRITICAL, BLOCK and ASSOCIATE
343
     statements, which might begin with a block label.  The match functions for
344
     these statements are unusual in that their keyword is not seen before
345
     the matcher is called.  */
346
 
347
  if (gfc_match_if (&st) == MATCH_YES)
348
    return st;
349
  gfc_undo_symbols ();
350
  gfc_current_locus = old_locus;
351
 
352
  if (gfc_match_where (&st) == MATCH_YES)
353
    return st;
354
  gfc_undo_symbols ();
355
  gfc_current_locus = old_locus;
356
 
357
  if (gfc_match_forall (&st) == MATCH_YES)
358
    return st;
359
  gfc_undo_symbols ();
360
  gfc_current_locus = old_locus;
361
 
362
  match (NULL, gfc_match_do, ST_DO);
363
  match (NULL, gfc_match_block, ST_BLOCK);
364
  match (NULL, gfc_match_associate, ST_ASSOCIATE);
365
  match (NULL, gfc_match_critical, ST_CRITICAL);
366
  match (NULL, gfc_match_select, ST_SELECT_CASE);
367
  match (NULL, gfc_match_select_type, ST_SELECT_TYPE);
368
 
369
  /* General statement matching: Instead of testing every possible
370
     statement, we eliminate most possibilities by peeking at the
371
     first character.  */
372
 
373
  switch (c)
374
    {
375
    case 'a':
376
      match ("abstract% interface", gfc_match_abstract_interface,
377
             ST_INTERFACE);
378
      match ("allocate", gfc_match_allocate, ST_ALLOCATE);
379
      match ("allocatable", gfc_match_allocatable, ST_ATTR_DECL);
380
      match ("assign", gfc_match_assign, ST_LABEL_ASSIGNMENT);
381
      match ("asynchronous", gfc_match_asynchronous, ST_ATTR_DECL);
382
      break;
383
 
384
    case 'b':
385
      match ("backspace", gfc_match_backspace, ST_BACKSPACE);
386
      match ("block data", gfc_match_block_data, ST_BLOCK_DATA);
387
      match (NULL, gfc_match_bind_c_stmt, ST_ATTR_DECL);
388
      break;
389
 
390
    case 'c':
391
      match ("call", gfc_match_call, ST_CALL);
392
      match ("close", gfc_match_close, ST_CLOSE);
393
      match ("continue", gfc_match_continue, ST_CONTINUE);
394
      match ("contiguous", gfc_match_contiguous, ST_ATTR_DECL);
395
      match ("cycle", gfc_match_cycle, ST_CYCLE);
396
      match ("case", gfc_match_case, ST_CASE);
397
      match ("common", gfc_match_common, ST_COMMON);
398
      match ("contains", gfc_match_eos, ST_CONTAINS);
399
      match ("class", gfc_match_class_is, ST_CLASS_IS);
400
      match ("codimension", gfc_match_codimension, ST_ATTR_DECL);
401
      break;
402
 
403
    case 'd':
404
      match ("deallocate", gfc_match_deallocate, ST_DEALLOCATE);
405
      match ("data", gfc_match_data, ST_DATA);
406
      match ("dimension", gfc_match_dimension, ST_ATTR_DECL);
407
      break;
408
 
409
    case 'e':
410
      match ("end file", gfc_match_endfile, ST_END_FILE);
411
      match ("exit", gfc_match_exit, ST_EXIT);
412
      match ("else", gfc_match_else, ST_ELSE);
413
      match ("else where", gfc_match_elsewhere, ST_ELSEWHERE);
414
      match ("else if", gfc_match_elseif, ST_ELSEIF);
415
      match ("error stop", gfc_match_error_stop, ST_ERROR_STOP);
416
      match ("enum , bind ( c )", gfc_match_enum, ST_ENUM);
417
 
418
      if (gfc_match_end (&st) == MATCH_YES)
419
        return st;
420
 
421
      match ("entry% ", gfc_match_entry, ST_ENTRY);
422
      match ("equivalence", gfc_match_equivalence, ST_EQUIVALENCE);
423
      match ("external", gfc_match_external, ST_ATTR_DECL);
424
      break;
425
 
426
    case 'f':
427
      match ("final", gfc_match_final_decl, ST_FINAL);
428
      match ("flush", gfc_match_flush, ST_FLUSH);
429
      match ("format", gfc_match_format, ST_FORMAT);
430
      break;
431
 
432
    case 'g':
433
      match ("generic", gfc_match_generic, ST_GENERIC);
434
      match ("go to", gfc_match_goto, ST_GOTO);
435
      break;
436
 
437
    case 'i':
438
      match ("inquire", gfc_match_inquire, ST_INQUIRE);
439
      match ("implicit", gfc_match_implicit, ST_IMPLICIT);
440
      match ("implicit% none", gfc_match_implicit_none, ST_IMPLICIT_NONE);
441
      match ("import", gfc_match_import, ST_IMPORT);
442
      match ("interface", gfc_match_interface, ST_INTERFACE);
443
      match ("intent", gfc_match_intent, ST_ATTR_DECL);
444
      match ("intrinsic", gfc_match_intrinsic, ST_ATTR_DECL);
445
      break;
446
 
447
    case 'l':
448
      match ("lock", gfc_match_lock, ST_LOCK);
449
      break;
450
 
451
    case 'm':
452
      match ("module% procedure", gfc_match_modproc, ST_MODULE_PROC);
453
      match ("module", gfc_match_module, ST_MODULE);
454
      break;
455
 
456
    case 'n':
457
      match ("nullify", gfc_match_nullify, ST_NULLIFY);
458
      match ("namelist", gfc_match_namelist, ST_NAMELIST);
459
      break;
460
 
461
    case 'o':
462
      match ("open", gfc_match_open, ST_OPEN);
463
      match ("optional", gfc_match_optional, ST_ATTR_DECL);
464
      break;
465
 
466
    case 'p':
467
      match ("print", gfc_match_print, ST_WRITE);
468
      match ("parameter", gfc_match_parameter, ST_PARAMETER);
469
      match ("pause", gfc_match_pause, ST_PAUSE);
470
      match ("pointer", gfc_match_pointer, ST_ATTR_DECL);
471
      if (gfc_match_private (&st) == MATCH_YES)
472
        return st;
473
      match ("procedure", gfc_match_procedure, ST_PROCEDURE);
474
      match ("program", gfc_match_program, ST_PROGRAM);
475
      if (gfc_match_public (&st) == MATCH_YES)
476
        return st;
477
      match ("protected", gfc_match_protected, ST_ATTR_DECL);
478
      break;
479
 
480
    case 'r':
481
      match ("read", gfc_match_read, ST_READ);
482
      match ("return", gfc_match_return, ST_RETURN);
483
      match ("rewind", gfc_match_rewind, ST_REWIND);
484
      break;
485
 
486
    case 's':
487
      match ("sequence", gfc_match_eos, ST_SEQUENCE);
488
      match ("stop", gfc_match_stop, ST_STOP);
489
      match ("save", gfc_match_save, ST_ATTR_DECL);
490
      match ("sync all", gfc_match_sync_all, ST_SYNC_ALL);
491
      match ("sync images", gfc_match_sync_images, ST_SYNC_IMAGES);
492
      match ("sync memory", gfc_match_sync_memory, ST_SYNC_MEMORY);
493
      break;
494
 
495
    case 't':
496
      match ("target", gfc_match_target, ST_ATTR_DECL);
497
      match ("type", gfc_match_derived_decl, ST_DERIVED_DECL);
498
      match ("type is", gfc_match_type_is, ST_TYPE_IS);
499
      break;
500
 
501
    case 'u':
502
      match ("unlock", gfc_match_unlock, ST_UNLOCK);
503
      break;
504
 
505
    case 'v':
506
      match ("value", gfc_match_value, ST_ATTR_DECL);
507
      match ("volatile", gfc_match_volatile, ST_ATTR_DECL);
508
      break;
509
 
510
    case 'w':
511
      match ("wait", gfc_match_wait, ST_WAIT);
512
      match ("write", gfc_match_write, ST_WRITE);
513
      break;
514
    }
515
 
516
  /* All else has failed, so give up.  See if any of the matchers has
517
     stored an error message of some sort.  */
518
 
519
  if (gfc_error_check () == 0)
520
    gfc_error_now ("Unclassifiable statement at %C");
521
 
522
  reject_statement ();
523
 
524
  gfc_error_recovery ();
525
 
526
  return ST_NONE;
527
}
528
 
529
static gfc_statement
530
decode_omp_directive (void)
531
{
532
  locus old_locus;
533
  char c;
534
 
535
  gfc_enforce_clean_symbol_state ();
536
 
537
  gfc_clear_error ();   /* Clear any pending errors.  */
538
  gfc_clear_warning (); /* Clear any pending warnings.  */
539
 
540
  if (gfc_pure (NULL))
541
    {
542
      gfc_error_now ("OpenMP directives at %C may not appear in PURE "
543
                     "or ELEMENTAL procedures");
544
      gfc_error_recovery ();
545
      return ST_NONE;
546
    }
547
 
548
  if (gfc_implicit_pure (NULL))
549
    gfc_current_ns->proc_name->attr.implicit_pure = 0;
550
 
551
  old_locus = gfc_current_locus;
552
 
553
  /* General OpenMP directive matching: Instead of testing every possible
554
     statement, we eliminate most possibilities by peeking at the
555
     first character.  */
556
 
557
  c = gfc_peek_ascii_char ();
558
 
559
  switch (c)
560
    {
561
    case 'a':
562
      match ("atomic", gfc_match_omp_atomic, ST_OMP_ATOMIC);
563
      break;
564
    case 'b':
565
      match ("barrier", gfc_match_omp_barrier, ST_OMP_BARRIER);
566
      break;
567
    case 'c':
568
      match ("critical", gfc_match_omp_critical, ST_OMP_CRITICAL);
569
      break;
570
    case 'd':
571
      match ("do", gfc_match_omp_do, ST_OMP_DO);
572
      break;
573
    case 'e':
574
      match ("end atomic", gfc_match_omp_eos, ST_OMP_END_ATOMIC);
575
      match ("end critical", gfc_match_omp_critical, ST_OMP_END_CRITICAL);
576
      match ("end do", gfc_match_omp_end_nowait, ST_OMP_END_DO);
577
      match ("end master", gfc_match_omp_eos, ST_OMP_END_MASTER);
578
      match ("end ordered", gfc_match_omp_eos, ST_OMP_END_ORDERED);
579
      match ("end parallel do", gfc_match_omp_eos, ST_OMP_END_PARALLEL_DO);
580
      match ("end parallel sections", gfc_match_omp_eos,
581
             ST_OMP_END_PARALLEL_SECTIONS);
582
      match ("end parallel workshare", gfc_match_omp_eos,
583
             ST_OMP_END_PARALLEL_WORKSHARE);
584
      match ("end parallel", gfc_match_omp_eos, ST_OMP_END_PARALLEL);
585
      match ("end sections", gfc_match_omp_end_nowait, ST_OMP_END_SECTIONS);
586
      match ("end single", gfc_match_omp_end_single, ST_OMP_END_SINGLE);
587
      match ("end task", gfc_match_omp_eos, ST_OMP_END_TASK);
588
      match ("end workshare", gfc_match_omp_end_nowait,
589
             ST_OMP_END_WORKSHARE);
590
      break;
591
    case 'f':
592
      match ("flush", gfc_match_omp_flush, ST_OMP_FLUSH);
593
      break;
594
    case 'm':
595
      match ("master", gfc_match_omp_master, ST_OMP_MASTER);
596
      break;
597
    case 'o':
598
      match ("ordered", gfc_match_omp_ordered, ST_OMP_ORDERED);
599
      break;
600
    case 'p':
601
      match ("parallel do", gfc_match_omp_parallel_do, ST_OMP_PARALLEL_DO);
602
      match ("parallel sections", gfc_match_omp_parallel_sections,
603
             ST_OMP_PARALLEL_SECTIONS);
604
      match ("parallel workshare", gfc_match_omp_parallel_workshare,
605
             ST_OMP_PARALLEL_WORKSHARE);
606
      match ("parallel", gfc_match_omp_parallel, ST_OMP_PARALLEL);
607
      break;
608
    case 's':
609
      match ("sections", gfc_match_omp_sections, ST_OMP_SECTIONS);
610
      match ("section", gfc_match_omp_eos, ST_OMP_SECTION);
611
      match ("single", gfc_match_omp_single, ST_OMP_SINGLE);
612
      break;
613
    case 't':
614
      match ("task", gfc_match_omp_task, ST_OMP_TASK);
615
      match ("taskwait", gfc_match_omp_taskwait, ST_OMP_TASKWAIT);
616
      match ("taskyield", gfc_match_omp_taskyield, ST_OMP_TASKYIELD);
617
      match ("threadprivate", gfc_match_omp_threadprivate,
618
             ST_OMP_THREADPRIVATE);
619
    case 'w':
620
      match ("workshare", gfc_match_omp_workshare, ST_OMP_WORKSHARE);
621
      break;
622
    }
623
 
624
  /* All else has failed, so give up.  See if any of the matchers has
625
     stored an error message of some sort.  */
626
 
627
  if (gfc_error_check () == 0)
628
    gfc_error_now ("Unclassifiable OpenMP directive at %C");
629
 
630
  reject_statement ();
631
 
632
  gfc_error_recovery ();
633
 
634
  return ST_NONE;
635
}
636
 
637
static gfc_statement
638
decode_gcc_attribute (void)
639
{
640
  locus old_locus;
641
 
642
  gfc_enforce_clean_symbol_state ();
643
 
644
  gfc_clear_error ();   /* Clear any pending errors.  */
645
  gfc_clear_warning (); /* Clear any pending warnings.  */
646
  old_locus = gfc_current_locus;
647
 
648
  match ("attributes", gfc_match_gcc_attributes, ST_ATTR_DECL);
649
 
650
  /* All else has failed, so give up.  See if any of the matchers has
651
     stored an error message of some sort.  */
652
 
653
  if (gfc_error_check () == 0)
654
    gfc_error_now ("Unclassifiable GCC directive at %C");
655
 
656
  reject_statement ();
657
 
658
  gfc_error_recovery ();
659
 
660
  return ST_NONE;
661
}
662
 
663
#undef match
664
 
665
 
666
/* Get the next statement in free form source.  */
667
 
668
static gfc_statement
669
next_free (void)
670
{
671
  match m;
672
  int i, cnt, at_bol;
673
  char c;
674
 
675
  at_bol = gfc_at_bol ();
676
  gfc_gobble_whitespace ();
677
 
678
  c = gfc_peek_ascii_char ();
679
 
680
  if (ISDIGIT (c))
681
    {
682
      char d;
683
 
684
      /* Found a statement label?  */
685
      m = gfc_match_st_label (&gfc_statement_label);
686
 
687
      d = gfc_peek_ascii_char ();
688
      if (m != MATCH_YES || !gfc_is_whitespace (d))
689
        {
690
          gfc_match_small_literal_int (&i, &cnt);
691
 
692
          if (cnt > 5)
693
            gfc_error_now ("Too many digits in statement label at %C");
694
 
695
          if (i == 0)
696
            gfc_error_now ("Zero is not a valid statement label at %C");
697
 
698
          do
699
            c = gfc_next_ascii_char ();
700
          while (ISDIGIT(c));
701
 
702
          if (!gfc_is_whitespace (c))
703
            gfc_error_now ("Non-numeric character in statement label at %C");
704
 
705
          return ST_NONE;
706
        }
707
      else
708
        {
709
          label_locus = gfc_current_locus;
710
 
711
          gfc_gobble_whitespace ();
712
 
713
          if (at_bol && gfc_peek_ascii_char () == ';')
714
            {
715
              gfc_error_now ("Semicolon at %C needs to be preceded by "
716
                             "statement");
717
              gfc_next_ascii_char (); /* Eat up the semicolon.  */
718
              return ST_NONE;
719
            }
720
 
721
          if (gfc_match_eos () == MATCH_YES)
722
            {
723
              gfc_warning_now ("Ignoring statement label in empty statement "
724
                               "at %L", &label_locus);
725
              gfc_free_st_label (gfc_statement_label);
726
              gfc_statement_label = NULL;
727
              return ST_NONE;
728
            }
729
        }
730
    }
731
  else if (c == '!')
732
    {
733
      /* Comments have already been skipped by the time we get here,
734
         except for GCC attributes and OpenMP directives.  */
735
 
736
      gfc_next_ascii_char (); /* Eat up the exclamation sign.  */
737
      c = gfc_peek_ascii_char ();
738
 
739
      if (c == 'g')
740
        {
741
          int i;
742
 
743
          c = gfc_next_ascii_char ();
744
          for (i = 0; i < 4; i++, c = gfc_next_ascii_char ())
745
            gcc_assert (c == "gcc$"[i]);
746
 
747
          gfc_gobble_whitespace ();
748
          return decode_gcc_attribute ();
749
 
750
        }
751
      else if (c == '$' && gfc_option.gfc_flag_openmp)
752
        {
753
          int i;
754
 
755
          c = gfc_next_ascii_char ();
756
          for (i = 0; i < 4; i++, c = gfc_next_ascii_char ())
757
            gcc_assert (c == "$omp"[i]);
758
 
759
          gcc_assert (c == ' ' || c == '\t');
760
          gfc_gobble_whitespace ();
761
          if (last_was_use_stmt)
762
            use_modules ();
763
          return decode_omp_directive ();
764
        }
765
 
766
      gcc_unreachable ();
767
    }
768
 
769
  if (at_bol && c == ';')
770
    {
771
      if (!(gfc_option.allow_std & GFC_STD_F2008))
772
        gfc_error_now ("Fortran 2008: Semicolon at %C without preceding "
773
                       "statement");
774
      gfc_next_ascii_char (); /* Eat up the semicolon.  */
775
      return ST_NONE;
776
    }
777
 
778
  return decode_statement ();
779
}
780
 
781
 
782
/* Get the next statement in fixed-form source.  */
783
 
784
static gfc_statement
785
next_fixed (void)
786
{
787
  int label, digit_flag, i;
788
  locus loc;
789
  gfc_char_t c;
790
 
791
  if (!gfc_at_bol ())
792
    return decode_statement ();
793
 
794
  /* Skip past the current label field, parsing a statement label if
795
     one is there.  This is a weird number parser, since the number is
796
     contained within five columns and can have any kind of embedded
797
     spaces.  We also check for characters that make the rest of the
798
     line a comment.  */
799
 
800
  label = 0;
801
  digit_flag = 0;
802
 
803
  for (i = 0; i < 5; i++)
804
    {
805
      c = gfc_next_char_literal (NONSTRING);
806
 
807
      switch (c)
808
        {
809
        case ' ':
810
          break;
811
 
812
        case '0':
813
        case '1':
814
        case '2':
815
        case '3':
816
        case '4':
817
        case '5':
818
        case '6':
819
        case '7':
820
        case '8':
821
        case '9':
822
          label = label * 10 + ((unsigned char) c - '0');
823
          label_locus = gfc_current_locus;
824
          digit_flag = 1;
825
          break;
826
 
827
          /* Comments have already been skipped by the time we get
828
             here, except for GCC attributes and OpenMP directives.  */
829
 
830
        case '*':
831
          c = gfc_next_char_literal (NONSTRING);
832
 
833
          if (TOLOWER (c) == 'g')
834
            {
835
              for (i = 0; i < 4; i++, c = gfc_next_char_literal (NONSTRING))
836
                gcc_assert (TOLOWER (c) == "gcc$"[i]);
837
 
838
              return decode_gcc_attribute ();
839
            }
840
          else if (c == '$' && gfc_option.gfc_flag_openmp)
841
            {
842
              for (i = 0; i < 4; i++, c = gfc_next_char_literal (NONSTRING))
843
                gcc_assert ((char) gfc_wide_tolower (c) == "$omp"[i]);
844
 
845
              if (c != ' ' && c != '0')
846
                {
847
                  gfc_buffer_error (0);
848
                  gfc_error ("Bad continuation line at %C");
849
                  return ST_NONE;
850
                }
851
              if (last_was_use_stmt)
852
                use_modules ();
853
              return decode_omp_directive ();
854
            }
855
          /* FALLTHROUGH */
856
 
857
          /* Comments have already been skipped by the time we get
858
             here so don't bother checking for them.  */
859
 
860
        default:
861
          gfc_buffer_error (0);
862
          gfc_error ("Non-numeric character in statement label at %C");
863
          return ST_NONE;
864
        }
865
    }
866
 
867
  if (digit_flag)
868
    {
869
      if (label == 0)
870
        gfc_warning_now ("Zero is not a valid statement label at %C");
871
      else
872
        {
873
          /* We've found a valid statement label.  */
874
          gfc_statement_label = gfc_get_st_label (label);
875
        }
876
    }
877
 
878
  /* Since this line starts a statement, it cannot be a continuation
879
     of a previous statement.  If we see something here besides a
880
     space or zero, it must be a bad continuation line.  */
881
 
882
  c = gfc_next_char_literal (NONSTRING);
883
  if (c == '\n')
884
    goto blank_line;
885
 
886
  if (c != ' ' && c != '0')
887
    {
888
      gfc_buffer_error (0);
889
      gfc_error ("Bad continuation line at %C");
890
      return ST_NONE;
891
    }
892
 
893
  /* Now that we've taken care of the statement label columns, we have
894
     to make sure that the first nonblank character is not a '!'.  If
895
     it is, the rest of the line is a comment.  */
896
 
897
  do
898
    {
899
      loc = gfc_current_locus;
900
      c = gfc_next_char_literal (NONSTRING);
901
    }
902
  while (gfc_is_whitespace (c));
903
 
904
  if (c == '!')
905
    goto blank_line;
906
  gfc_current_locus = loc;
907
 
908
  if (c == ';')
909
    {
910
      if (digit_flag)
911
        gfc_error_now ("Semicolon at %C needs to be preceded by statement");
912
      else if (!(gfc_option.allow_std & GFC_STD_F2008))
913
        gfc_error_now ("Fortran 2008: Semicolon at %C without preceding "
914
                       "statement");
915
      return ST_NONE;
916
    }
917
 
918
  if (gfc_match_eos () == MATCH_YES)
919
    goto blank_line;
920
 
921
  /* At this point, we've got a nonblank statement to parse.  */
922
  return decode_statement ();
923
 
924
blank_line:
925
  if (digit_flag)
926
    gfc_warning_now ("Ignoring statement label in empty statement at %L",
927
                     &label_locus);
928
 
929
  gfc_current_locus.lb->truncated = 0;
930
  gfc_advance_line ();
931
  return ST_NONE;
932
}
933
 
934
 
935
/* Return the next non-ST_NONE statement to the caller.  We also worry
936
   about including files and the ends of include files at this stage.  */
937
 
938
static gfc_statement
939
next_statement (void)
940
{
941
  gfc_statement st;
942
  locus old_locus;
943
 
944
  gfc_enforce_clean_symbol_state ();
945
 
946
  gfc_new_block = NULL;
947
 
948
  gfc_current_ns->old_cl_list = gfc_current_ns->cl_list;
949
  gfc_current_ns->old_equiv = gfc_current_ns->equiv;
950
  for (;;)
951
    {
952
      gfc_statement_label = NULL;
953
      gfc_buffer_error (1);
954
 
955
      if (gfc_at_eol ())
956
        gfc_advance_line ();
957
 
958
      gfc_skip_comments ();
959
 
960
      if (gfc_at_end ())
961
        {
962
          st = ST_NONE;
963
          break;
964
        }
965
 
966
      if (gfc_define_undef_line ())
967
        continue;
968
 
969
      old_locus = gfc_current_locus;
970
 
971
      st = (gfc_current_form == FORM_FIXED) ? next_fixed () : next_free ();
972
 
973
      if (st != ST_NONE)
974
        break;
975
    }
976
 
977
  gfc_buffer_error (0);
978
 
979
  if (st == ST_GET_FCN_CHARACTERISTICS && gfc_statement_label != NULL)
980
    {
981
      gfc_free_st_label (gfc_statement_label);
982
      gfc_statement_label = NULL;
983
      gfc_current_locus = old_locus;
984
    }
985
 
986
  if (st != ST_NONE)
987
    check_statement_label (st);
988
 
989
  return st;
990
}
991
 
992
 
993
/****************************** Parser ***********************************/
994
 
995
/* The parser subroutines are of type 'try' that fail if the file ends
996
   unexpectedly.  */
997
 
998
/* Macros that expand to case-labels for various classes of
999
   statements.  Start with executable statements that directly do
1000
   things.  */
1001
 
1002
#define case_executable case ST_ALLOCATE: case ST_BACKSPACE: case ST_CALL: \
1003
  case ST_CLOSE: case ST_CONTINUE: case ST_DEALLOCATE: case ST_END_FILE: \
1004
  case ST_GOTO: case ST_INQUIRE: case ST_NULLIFY: case ST_OPEN: \
1005
  case ST_READ: case ST_RETURN: case ST_REWIND: case ST_SIMPLE_IF: \
1006
  case ST_PAUSE: case ST_STOP: case ST_WAIT: case ST_WRITE: \
1007
  case ST_POINTER_ASSIGNMENT: case ST_EXIT: case ST_CYCLE: \
1008
  case ST_ASSIGNMENT: case ST_ARITHMETIC_IF: case ST_WHERE: case ST_FORALL: \
1009
  case ST_LABEL_ASSIGNMENT: case ST_FLUSH: case ST_OMP_FLUSH: \
1010
  case ST_OMP_BARRIER: case ST_OMP_TASKWAIT: case ST_OMP_TASKYIELD: \
1011
  case ST_ERROR_STOP: case ST_SYNC_ALL: case ST_SYNC_IMAGES: \
1012
  case ST_SYNC_MEMORY: case ST_LOCK: case ST_UNLOCK
1013
 
1014
/* Statements that mark other executable statements.  */
1015
 
1016
#define case_exec_markers case ST_DO: case ST_FORALL_BLOCK: \
1017
  case ST_IF_BLOCK: case ST_BLOCK: case ST_ASSOCIATE: \
1018
  case ST_WHERE_BLOCK: case ST_SELECT_CASE: case ST_SELECT_TYPE: \
1019
  case ST_OMP_PARALLEL: \
1020
  case ST_OMP_PARALLEL_SECTIONS: case ST_OMP_SECTIONS: case ST_OMP_ORDERED: \
1021
  case ST_OMP_CRITICAL: case ST_OMP_MASTER: case ST_OMP_SINGLE: \
1022
  case ST_OMP_DO: case ST_OMP_PARALLEL_DO: case ST_OMP_ATOMIC: \
1023
  case ST_OMP_WORKSHARE: case ST_OMP_PARALLEL_WORKSHARE: \
1024
  case ST_OMP_TASK: case ST_CRITICAL
1025
 
1026
/* Declaration statements */
1027
 
1028
#define case_decl case ST_ATTR_DECL: case ST_COMMON: case ST_DATA_DECL: \
1029
  case ST_EQUIVALENCE: case ST_NAMELIST: case ST_STATEMENT_FUNCTION: \
1030
  case ST_TYPE: case ST_INTERFACE: case ST_OMP_THREADPRIVATE: \
1031
  case ST_PROCEDURE
1032
 
1033
/* Block end statements.  Errors associated with interchanging these
1034
   are detected in gfc_match_end().  */
1035
 
1036
#define case_end case ST_END_BLOCK_DATA: case ST_END_FUNCTION: \
1037
                 case ST_END_PROGRAM: case ST_END_SUBROUTINE: \
1038
                 case ST_END_BLOCK: case ST_END_ASSOCIATE
1039
 
1040
 
1041
/* Push a new state onto the stack.  */
1042
 
1043
static void
1044
push_state (gfc_state_data *p, gfc_compile_state new_state, gfc_symbol *sym)
1045
{
1046
  p->state = new_state;
1047
  p->previous = gfc_state_stack;
1048
  p->sym = sym;
1049
  p->head = p->tail = NULL;
1050
  p->do_variable = NULL;
1051
 
1052
  /* If this the state of a construct like BLOCK, DO or IF, the corresponding
1053
     construct statement was accepted right before pushing the state.  Thus,
1054
     the construct's gfc_code is available as tail of the parent state.  */
1055
  gcc_assert (gfc_state_stack);
1056
  p->construct = gfc_state_stack->tail;
1057
 
1058
  gfc_state_stack = p;
1059
}
1060
 
1061
 
1062
/* Pop the current state.  */
1063
static void
1064
pop_state (void)
1065
{
1066
  gfc_state_stack = gfc_state_stack->previous;
1067
}
1068
 
1069
 
1070
/* Try to find the given state in the state stack.  */
1071
 
1072
gfc_try
1073
gfc_find_state (gfc_compile_state state)
1074
{
1075
  gfc_state_data *p;
1076
 
1077
  for (p = gfc_state_stack; p; p = p->previous)
1078
    if (p->state == state)
1079
      break;
1080
 
1081
  return (p == NULL) ? FAILURE : SUCCESS;
1082
}
1083
 
1084
 
1085
/* Starts a new level in the statement list.  */
1086
 
1087
static gfc_code *
1088
new_level (gfc_code *q)
1089
{
1090
  gfc_code *p;
1091
 
1092
  p = q->block = gfc_get_code ();
1093
 
1094
  gfc_state_stack->head = gfc_state_stack->tail = p;
1095
 
1096
  return p;
1097
}
1098
 
1099
 
1100
/* Add the current new_st code structure and adds it to the current
1101
   program unit.  As a side-effect, it zeroes the new_st.  */
1102
 
1103
static gfc_code *
1104
add_statement (void)
1105
{
1106
  gfc_code *p;
1107
 
1108
  p = gfc_get_code ();
1109
  *p = new_st;
1110
 
1111
  p->loc = gfc_current_locus;
1112
 
1113
  if (gfc_state_stack->head == NULL)
1114
    gfc_state_stack->head = p;
1115
  else
1116
    gfc_state_stack->tail->next = p;
1117
 
1118
  while (p->next != NULL)
1119
    p = p->next;
1120
 
1121
  gfc_state_stack->tail = p;
1122
 
1123
  gfc_clear_new_st ();
1124
 
1125
  return p;
1126
}
1127
 
1128
 
1129
/* Frees everything associated with the current statement.  */
1130
 
1131
static void
1132
undo_new_statement (void)
1133
{
1134
  gfc_free_statements (new_st.block);
1135
  gfc_free_statements (new_st.next);
1136
  gfc_free_statement (&new_st);
1137
  gfc_clear_new_st ();
1138
}
1139
 
1140
 
1141
/* If the current statement has a statement label, make sure that it
1142
   is allowed to, or should have one.  */
1143
 
1144
static void
1145
check_statement_label (gfc_statement st)
1146
{
1147
  gfc_sl_type type;
1148
 
1149
  if (gfc_statement_label == NULL)
1150
    {
1151
      if (st == ST_FORMAT)
1152
        gfc_error ("FORMAT statement at %L does not have a statement label",
1153
                   &new_st.loc);
1154
      return;
1155
    }
1156
 
1157
  switch (st)
1158
    {
1159
    case ST_END_PROGRAM:
1160
    case ST_END_FUNCTION:
1161
    case ST_END_SUBROUTINE:
1162
    case ST_ENDDO:
1163
    case ST_ENDIF:
1164
    case ST_END_SELECT:
1165
    case ST_END_CRITICAL:
1166
    case ST_END_BLOCK:
1167
    case ST_END_ASSOCIATE:
1168
    case_executable:
1169
    case_exec_markers:
1170
      type = ST_LABEL_TARGET;
1171
      break;
1172
 
1173
    case ST_FORMAT:
1174
      type = ST_LABEL_FORMAT;
1175
      break;
1176
 
1177
      /* Statement labels are not restricted from appearing on a
1178
         particular line.  However, there are plenty of situations
1179
         where the resulting label can't be referenced.  */
1180
 
1181
    default:
1182
      type = ST_LABEL_BAD_TARGET;
1183
      break;
1184
    }
1185
 
1186
  gfc_define_st_label (gfc_statement_label, type, &label_locus);
1187
 
1188
  new_st.here = gfc_statement_label;
1189
}
1190
 
1191
 
1192
/* Figures out what the enclosing program unit is.  This will be a
1193
   function, subroutine, program, block data or module.  */
1194
 
1195
gfc_state_data *
1196
gfc_enclosing_unit (gfc_compile_state * result)
1197
{
1198
  gfc_state_data *p;
1199
 
1200
  for (p = gfc_state_stack; p; p = p->previous)
1201
    if (p->state == COMP_FUNCTION || p->state == COMP_SUBROUTINE
1202
        || p->state == COMP_MODULE || p->state == COMP_BLOCK_DATA
1203
        || p->state == COMP_PROGRAM)
1204
      {
1205
 
1206
        if (result != NULL)
1207
          *result = p->state;
1208
        return p;
1209
      }
1210
 
1211
  if (result != NULL)
1212
    *result = COMP_PROGRAM;
1213
  return NULL;
1214
}
1215
 
1216
 
1217
/* Translate a statement enum to a string.  */
1218
 
1219
const char *
1220
gfc_ascii_statement (gfc_statement st)
1221
{
1222
  const char *p;
1223
 
1224
  switch (st)
1225
    {
1226
    case ST_ARITHMETIC_IF:
1227
      p = _("arithmetic IF");
1228
      break;
1229
    case ST_ALLOCATE:
1230
      p = "ALLOCATE";
1231
      break;
1232
    case ST_ASSOCIATE:
1233
      p = "ASSOCIATE";
1234
      break;
1235
    case ST_ATTR_DECL:
1236
      p = _("attribute declaration");
1237
      break;
1238
    case ST_BACKSPACE:
1239
      p = "BACKSPACE";
1240
      break;
1241
    case ST_BLOCK:
1242
      p = "BLOCK";
1243
      break;
1244
    case ST_BLOCK_DATA:
1245
      p = "BLOCK DATA";
1246
      break;
1247
    case ST_CALL:
1248
      p = "CALL";
1249
      break;
1250
    case ST_CASE:
1251
      p = "CASE";
1252
      break;
1253
    case ST_CLOSE:
1254
      p = "CLOSE";
1255
      break;
1256
    case ST_COMMON:
1257
      p = "COMMON";
1258
      break;
1259
    case ST_CONTINUE:
1260
      p = "CONTINUE";
1261
      break;
1262
    case ST_CONTAINS:
1263
      p = "CONTAINS";
1264
      break;
1265
    case ST_CRITICAL:
1266
      p = "CRITICAL";
1267
      break;
1268
    case ST_CYCLE:
1269
      p = "CYCLE";
1270
      break;
1271
    case ST_DATA_DECL:
1272
      p = _("data declaration");
1273
      break;
1274
    case ST_DATA:
1275
      p = "DATA";
1276
      break;
1277
    case ST_DEALLOCATE:
1278
      p = "DEALLOCATE";
1279
      break;
1280
    case ST_DERIVED_DECL:
1281
      p = _("derived type declaration");
1282
      break;
1283
    case ST_DO:
1284
      p = "DO";
1285
      break;
1286
    case ST_ELSE:
1287
      p = "ELSE";
1288
      break;
1289
    case ST_ELSEIF:
1290
      p = "ELSE IF";
1291
      break;
1292
    case ST_ELSEWHERE:
1293
      p = "ELSEWHERE";
1294
      break;
1295
    case ST_END_ASSOCIATE:
1296
      p = "END ASSOCIATE";
1297
      break;
1298
    case ST_END_BLOCK:
1299
      p = "END BLOCK";
1300
      break;
1301
    case ST_END_BLOCK_DATA:
1302
      p = "END BLOCK DATA";
1303
      break;
1304
    case ST_END_CRITICAL:
1305
      p = "END CRITICAL";
1306
      break;
1307
    case ST_ENDDO:
1308
      p = "END DO";
1309
      break;
1310
    case ST_END_FILE:
1311
      p = "END FILE";
1312
      break;
1313
    case ST_END_FORALL:
1314
      p = "END FORALL";
1315
      break;
1316
    case ST_END_FUNCTION:
1317
      p = "END FUNCTION";
1318
      break;
1319
    case ST_ENDIF:
1320
      p = "END IF";
1321
      break;
1322
    case ST_END_INTERFACE:
1323
      p = "END INTERFACE";
1324
      break;
1325
    case ST_END_MODULE:
1326
      p = "END MODULE";
1327
      break;
1328
    case ST_END_PROGRAM:
1329
      p = "END PROGRAM";
1330
      break;
1331
    case ST_END_SELECT:
1332
      p = "END SELECT";
1333
      break;
1334
    case ST_END_SUBROUTINE:
1335
      p = "END SUBROUTINE";
1336
      break;
1337
    case ST_END_WHERE:
1338
      p = "END WHERE";
1339
      break;
1340
    case ST_END_TYPE:
1341
      p = "END TYPE";
1342
      break;
1343
    case ST_ENTRY:
1344
      p = "ENTRY";
1345
      break;
1346
    case ST_EQUIVALENCE:
1347
      p = "EQUIVALENCE";
1348
      break;
1349
    case ST_ERROR_STOP:
1350
      p = "ERROR STOP";
1351
      break;
1352
    case ST_EXIT:
1353
      p = "EXIT";
1354
      break;
1355
    case ST_FLUSH:
1356
      p = "FLUSH";
1357
      break;
1358
    case ST_FORALL_BLOCK:       /* Fall through */
1359
    case ST_FORALL:
1360
      p = "FORALL";
1361
      break;
1362
    case ST_FORMAT:
1363
      p = "FORMAT";
1364
      break;
1365
    case ST_FUNCTION:
1366
      p = "FUNCTION";
1367
      break;
1368
    case ST_GENERIC:
1369
      p = "GENERIC";
1370
      break;
1371
    case ST_GOTO:
1372
      p = "GOTO";
1373
      break;
1374
    case ST_IF_BLOCK:
1375
      p = _("block IF");
1376
      break;
1377
    case ST_IMPLICIT:
1378
      p = "IMPLICIT";
1379
      break;
1380
    case ST_IMPLICIT_NONE:
1381
      p = "IMPLICIT NONE";
1382
      break;
1383
    case ST_IMPLIED_ENDDO:
1384
      p = _("implied END DO");
1385
      break;
1386
    case ST_IMPORT:
1387
      p = "IMPORT";
1388
      break;
1389
    case ST_INQUIRE:
1390
      p = "INQUIRE";
1391
      break;
1392
    case ST_INTERFACE:
1393
      p = "INTERFACE";
1394
      break;
1395
    case ST_LOCK:
1396
      p = "LOCK";
1397
      break;
1398
    case ST_PARAMETER:
1399
      p = "PARAMETER";
1400
      break;
1401
    case ST_PRIVATE:
1402
      p = "PRIVATE";
1403
      break;
1404
    case ST_PUBLIC:
1405
      p = "PUBLIC";
1406
      break;
1407
    case ST_MODULE:
1408
      p = "MODULE";
1409
      break;
1410
    case ST_PAUSE:
1411
      p = "PAUSE";
1412
      break;
1413
    case ST_MODULE_PROC:
1414
      p = "MODULE PROCEDURE";
1415
      break;
1416
    case ST_NAMELIST:
1417
      p = "NAMELIST";
1418
      break;
1419
    case ST_NULLIFY:
1420
      p = "NULLIFY";
1421
      break;
1422
    case ST_OPEN:
1423
      p = "OPEN";
1424
      break;
1425
    case ST_PROGRAM:
1426
      p = "PROGRAM";
1427
      break;
1428
    case ST_PROCEDURE:
1429
      p = "PROCEDURE";
1430
      break;
1431
    case ST_READ:
1432
      p = "READ";
1433
      break;
1434
    case ST_RETURN:
1435
      p = "RETURN";
1436
      break;
1437
    case ST_REWIND:
1438
      p = "REWIND";
1439
      break;
1440
    case ST_STOP:
1441
      p = "STOP";
1442
      break;
1443
    case ST_SYNC_ALL:
1444
      p = "SYNC ALL";
1445
      break;
1446
    case ST_SYNC_IMAGES:
1447
      p = "SYNC IMAGES";
1448
      break;
1449
    case ST_SYNC_MEMORY:
1450
      p = "SYNC MEMORY";
1451
      break;
1452
    case ST_SUBROUTINE:
1453
      p = "SUBROUTINE";
1454
      break;
1455
    case ST_TYPE:
1456
      p = "TYPE";
1457
      break;
1458
    case ST_UNLOCK:
1459
      p = "UNLOCK";
1460
      break;
1461
    case ST_USE:
1462
      p = "USE";
1463
      break;
1464
    case ST_WHERE_BLOCK:        /* Fall through */
1465
    case ST_WHERE:
1466
      p = "WHERE";
1467
      break;
1468
    case ST_WAIT:
1469
      p = "WAIT";
1470
      break;
1471
    case ST_WRITE:
1472
      p = "WRITE";
1473
      break;
1474
    case ST_ASSIGNMENT:
1475
      p = _("assignment");
1476
      break;
1477
    case ST_POINTER_ASSIGNMENT:
1478
      p = _("pointer assignment");
1479
      break;
1480
    case ST_SELECT_CASE:
1481
      p = "SELECT CASE";
1482
      break;
1483
    case ST_SELECT_TYPE:
1484
      p = "SELECT TYPE";
1485
      break;
1486
    case ST_TYPE_IS:
1487
      p = "TYPE IS";
1488
      break;
1489
    case ST_CLASS_IS:
1490
      p = "CLASS IS";
1491
      break;
1492
    case ST_SEQUENCE:
1493
      p = "SEQUENCE";
1494
      break;
1495
    case ST_SIMPLE_IF:
1496
      p = _("simple IF");
1497
      break;
1498
    case ST_STATEMENT_FUNCTION:
1499
      p = "STATEMENT FUNCTION";
1500
      break;
1501
    case ST_LABEL_ASSIGNMENT:
1502
      p = "LABEL ASSIGNMENT";
1503
      break;
1504
    case ST_ENUM:
1505
      p = "ENUM DEFINITION";
1506
      break;
1507
    case ST_ENUMERATOR:
1508
      p = "ENUMERATOR DEFINITION";
1509
      break;
1510
    case ST_END_ENUM:
1511
      p = "END ENUM";
1512
      break;
1513
    case ST_OMP_ATOMIC:
1514
      p = "!$OMP ATOMIC";
1515
      break;
1516
    case ST_OMP_BARRIER:
1517
      p = "!$OMP BARRIER";
1518
      break;
1519
    case ST_OMP_CRITICAL:
1520
      p = "!$OMP CRITICAL";
1521
      break;
1522
    case ST_OMP_DO:
1523
      p = "!$OMP DO";
1524
      break;
1525
    case ST_OMP_END_ATOMIC:
1526
      p = "!$OMP END ATOMIC";
1527
      break;
1528
    case ST_OMP_END_CRITICAL:
1529
      p = "!$OMP END CRITICAL";
1530
      break;
1531
    case ST_OMP_END_DO:
1532
      p = "!$OMP END DO";
1533
      break;
1534
    case ST_OMP_END_MASTER:
1535
      p = "!$OMP END MASTER";
1536
      break;
1537
    case ST_OMP_END_ORDERED:
1538
      p = "!$OMP END ORDERED";
1539
      break;
1540
    case ST_OMP_END_PARALLEL:
1541
      p = "!$OMP END PARALLEL";
1542
      break;
1543
    case ST_OMP_END_PARALLEL_DO:
1544
      p = "!$OMP END PARALLEL DO";
1545
      break;
1546
    case ST_OMP_END_PARALLEL_SECTIONS:
1547
      p = "!$OMP END PARALLEL SECTIONS";
1548
      break;
1549
    case ST_OMP_END_PARALLEL_WORKSHARE:
1550
      p = "!$OMP END PARALLEL WORKSHARE";
1551
      break;
1552
    case ST_OMP_END_SECTIONS:
1553
      p = "!$OMP END SECTIONS";
1554
      break;
1555
    case ST_OMP_END_SINGLE:
1556
      p = "!$OMP END SINGLE";
1557
      break;
1558
    case ST_OMP_END_TASK:
1559
      p = "!$OMP END TASK";
1560
      break;
1561
    case ST_OMP_END_WORKSHARE:
1562
      p = "!$OMP END WORKSHARE";
1563
      break;
1564
    case ST_OMP_FLUSH:
1565
      p = "!$OMP FLUSH";
1566
      break;
1567
    case ST_OMP_MASTER:
1568
      p = "!$OMP MASTER";
1569
      break;
1570
    case ST_OMP_ORDERED:
1571
      p = "!$OMP ORDERED";
1572
      break;
1573
    case ST_OMP_PARALLEL:
1574
      p = "!$OMP PARALLEL";
1575
      break;
1576
    case ST_OMP_PARALLEL_DO:
1577
      p = "!$OMP PARALLEL DO";
1578
      break;
1579
    case ST_OMP_PARALLEL_SECTIONS:
1580
      p = "!$OMP PARALLEL SECTIONS";
1581
      break;
1582
    case ST_OMP_PARALLEL_WORKSHARE:
1583
      p = "!$OMP PARALLEL WORKSHARE";
1584
      break;
1585
    case ST_OMP_SECTIONS:
1586
      p = "!$OMP SECTIONS";
1587
      break;
1588
    case ST_OMP_SECTION:
1589
      p = "!$OMP SECTION";
1590
      break;
1591
    case ST_OMP_SINGLE:
1592
      p = "!$OMP SINGLE";
1593
      break;
1594
    case ST_OMP_TASK:
1595
      p = "!$OMP TASK";
1596
      break;
1597
    case ST_OMP_TASKWAIT:
1598
      p = "!$OMP TASKWAIT";
1599
      break;
1600
    case ST_OMP_TASKYIELD:
1601
      p = "!$OMP TASKYIELD";
1602
      break;
1603
    case ST_OMP_THREADPRIVATE:
1604
      p = "!$OMP THREADPRIVATE";
1605
      break;
1606
    case ST_OMP_WORKSHARE:
1607
      p = "!$OMP WORKSHARE";
1608
      break;
1609
    default:
1610
      gfc_internal_error ("gfc_ascii_statement(): Bad statement code");
1611
    }
1612
 
1613
  return p;
1614
}
1615
 
1616
 
1617
/* Create a symbol for the main program and assign it to ns->proc_name.  */
1618
 
1619
static void
1620
main_program_symbol (gfc_namespace *ns, const char *name)
1621
{
1622
  gfc_symbol *main_program;
1623
  symbol_attribute attr;
1624
 
1625
  gfc_get_symbol (name, ns, &main_program);
1626
  gfc_clear_attr (&attr);
1627
  attr.flavor = FL_PROGRAM;
1628
  attr.proc = PROC_UNKNOWN;
1629
  attr.subroutine = 1;
1630
  attr.access = ACCESS_PUBLIC;
1631
  attr.is_main_program = 1;
1632
  main_program->attr = attr;
1633
  main_program->declared_at = gfc_current_locus;
1634
  ns->proc_name = main_program;
1635
  gfc_commit_symbols ();
1636
}
1637
 
1638
 
1639
/* Do whatever is necessary to accept the last statement.  */
1640
 
1641
static void
1642
accept_statement (gfc_statement st)
1643
{
1644
  switch (st)
1645
    {
1646
    case ST_IMPLICIT_NONE:
1647
      gfc_set_implicit_none ();
1648
      break;
1649
 
1650
    case ST_IMPLICIT:
1651
      break;
1652
 
1653
    case ST_FUNCTION:
1654
    case ST_SUBROUTINE:
1655
    case ST_MODULE:
1656
      gfc_current_ns->proc_name = gfc_new_block;
1657
      break;
1658
 
1659
      /* If the statement is the end of a block, lay down a special code
1660
         that allows a branch to the end of the block from within the
1661
         construct.  IF and SELECT are treated differently from DO
1662
         (where EXEC_NOP is added inside the loop) for two
1663
         reasons:
1664
         1. END DO has a meaning in the sense that after a GOTO to
1665
            it, the loop counter must be increased.
1666
         2. IF blocks and SELECT blocks can consist of multiple
1667
            parallel blocks (IF ... ELSE IF ... ELSE ... END IF).
1668
            Putting the label before the END IF would make the jump
1669
            from, say, the ELSE IF block to the END IF illegal.  */
1670
 
1671
    case ST_ENDIF:
1672
    case ST_END_SELECT:
1673
    case ST_END_CRITICAL:
1674
      if (gfc_statement_label != NULL)
1675
        {
1676
          new_st.op = EXEC_END_NESTED_BLOCK;
1677
          add_statement ();
1678
        }
1679
      break;
1680
 
1681
      /* In the case of BLOCK and ASSOCIATE blocks, there cannot be more than
1682
         one parallel block.  Thus, we add the special code to the nested block
1683
         itself, instead of the parent one.  */
1684
    case ST_END_BLOCK:
1685
    case ST_END_ASSOCIATE:
1686
      if (gfc_statement_label != NULL)
1687
        {
1688
          new_st.op = EXEC_END_BLOCK;
1689
          add_statement ();
1690
        }
1691
      break;
1692
 
1693
      /* The end-of-program unit statements do not get the special
1694
         marker and require a statement of some sort if they are a
1695
         branch target.  */
1696
 
1697
    case ST_END_PROGRAM:
1698
    case ST_END_FUNCTION:
1699
    case ST_END_SUBROUTINE:
1700
      if (gfc_statement_label != NULL)
1701
        {
1702
          new_st.op = EXEC_RETURN;
1703
          add_statement ();
1704
        }
1705
      else
1706
        {
1707
          new_st.op = EXEC_END_PROCEDURE;
1708
          add_statement ();
1709
        }
1710
 
1711
      break;
1712
 
1713
    case ST_ENTRY:
1714
    case_executable:
1715
    case_exec_markers:
1716
      add_statement ();
1717
      break;
1718
 
1719
    default:
1720
      break;
1721
    }
1722
 
1723
  gfc_commit_symbols ();
1724
  gfc_warning_check ();
1725
  gfc_clear_new_st ();
1726
}
1727
 
1728
 
1729
/* Undo anything tentative that has been built for the current
1730
   statement.  */
1731
 
1732
static void
1733
reject_statement (void)
1734
{
1735
  /* Revert to the previous charlen chain.  */
1736
  gfc_free_charlen (gfc_current_ns->cl_list, gfc_current_ns->old_cl_list);
1737
  gfc_current_ns->cl_list = gfc_current_ns->old_cl_list;
1738
 
1739
  gfc_free_equiv_until (gfc_current_ns->equiv, gfc_current_ns->old_equiv);
1740
  gfc_current_ns->equiv = gfc_current_ns->old_equiv;
1741
 
1742
  gfc_new_block = NULL;
1743
  gfc_undo_symbols ();
1744
  gfc_clear_warning ();
1745
  undo_new_statement ();
1746
}
1747
 
1748
 
1749
/* Generic complaint about an out of order statement.  We also do
1750
   whatever is necessary to clean up.  */
1751
 
1752
static void
1753
unexpected_statement (gfc_statement st)
1754
{
1755
  gfc_error ("Unexpected %s statement at %C", gfc_ascii_statement (st));
1756
 
1757
  reject_statement ();
1758
}
1759
 
1760
 
1761
/* Given the next statement seen by the matcher, make sure that it is
1762
   in proper order with the last.  This subroutine is initialized by
1763
   calling it with an argument of ST_NONE.  If there is a problem, we
1764
   issue an error and return FAILURE.  Otherwise we return SUCCESS.
1765
 
1766
   Individual parsers need to verify that the statements seen are
1767
   valid before calling here, i.e., ENTRY statements are not allowed in
1768
   INTERFACE blocks.  The following diagram is taken from the standard:
1769
 
1770
            +---------------------------------------+
1771
            | program  subroutine  function  module |
1772
            +---------------------------------------+
1773
            |            use               |
1774
            +---------------------------------------+
1775
            |            import         |
1776
            +---------------------------------------+
1777
            |   |       implicit none    |
1778
            |   +-----------+------------------+
1779
            |   | parameter |  implicit |
1780
            |   +-----------+------------------+
1781
            | format |     |  derived type    |
1782
            | entry  | parameter |  interface       |
1783
            |   |   data    |  specification   |
1784
            |   |          |  statement func  |
1785
            |   +-----------+------------------+
1786
            |   |   data    |    executable    |
1787
            +--------+-----------+------------------+
1788
            |           contains               |
1789
            +---------------------------------------+
1790
            |      internal module/subprogram       |
1791
            +---------------------------------------+
1792
            |              end           |
1793
            +---------------------------------------+
1794
 
1795
*/
1796
 
1797
enum state_order
1798
{
1799
  ORDER_START,
1800
  ORDER_USE,
1801
  ORDER_IMPORT,
1802
  ORDER_IMPLICIT_NONE,
1803
  ORDER_IMPLICIT,
1804
  ORDER_SPEC,
1805
  ORDER_EXEC
1806
};
1807
 
1808
typedef struct
1809
{
1810
  enum state_order state;
1811
  gfc_statement last_statement;
1812
  locus where;
1813
}
1814
st_state;
1815
 
1816
static gfc_try
1817
verify_st_order (st_state *p, gfc_statement st, bool silent)
1818
{
1819
 
1820
  switch (st)
1821
    {
1822
    case ST_NONE:
1823
      p->state = ORDER_START;
1824
      break;
1825
 
1826
    case ST_USE:
1827
      if (p->state > ORDER_USE)
1828
        goto order;
1829
      p->state = ORDER_USE;
1830
      break;
1831
 
1832
    case ST_IMPORT:
1833
      if (p->state > ORDER_IMPORT)
1834
        goto order;
1835
      p->state = ORDER_IMPORT;
1836
      break;
1837
 
1838
    case ST_IMPLICIT_NONE:
1839
      if (p->state > ORDER_IMPLICIT_NONE)
1840
        goto order;
1841
 
1842
      /* The '>' sign cannot be a '>=', because a FORMAT or ENTRY
1843
         statement disqualifies a USE but not an IMPLICIT NONE.
1844
         Duplicate IMPLICIT NONEs are caught when the implicit types
1845
         are set.  */
1846
 
1847
      p->state = ORDER_IMPLICIT_NONE;
1848
      break;
1849
 
1850
    case ST_IMPLICIT:
1851
      if (p->state > ORDER_IMPLICIT)
1852
        goto order;
1853
      p->state = ORDER_IMPLICIT;
1854
      break;
1855
 
1856
    case ST_FORMAT:
1857
    case ST_ENTRY:
1858
      if (p->state < ORDER_IMPLICIT_NONE)
1859
        p->state = ORDER_IMPLICIT_NONE;
1860
      break;
1861
 
1862
    case ST_PARAMETER:
1863
      if (p->state >= ORDER_EXEC)
1864
        goto order;
1865
      if (p->state < ORDER_IMPLICIT)
1866
        p->state = ORDER_IMPLICIT;
1867
      break;
1868
 
1869
    case ST_DATA:
1870
      if (p->state < ORDER_SPEC)
1871
        p->state = ORDER_SPEC;
1872
      break;
1873
 
1874
    case ST_PUBLIC:
1875
    case ST_PRIVATE:
1876
    case ST_DERIVED_DECL:
1877
    case_decl:
1878
      if (p->state >= ORDER_EXEC)
1879
        goto order;
1880
      if (p->state < ORDER_SPEC)
1881
        p->state = ORDER_SPEC;
1882
      break;
1883
 
1884
    case_executable:
1885
    case_exec_markers:
1886
      if (p->state < ORDER_EXEC)
1887
        p->state = ORDER_EXEC;
1888
      break;
1889
 
1890
    default:
1891
      gfc_internal_error ("Unexpected %s statement in verify_st_order() at %C",
1892
                          gfc_ascii_statement (st));
1893
    }
1894
 
1895
  /* All is well, record the statement in case we need it next time.  */
1896
  p->where = gfc_current_locus;
1897
  p->last_statement = st;
1898
  return SUCCESS;
1899
 
1900
order:
1901
  if (!silent)
1902
    gfc_error ("%s statement at %C cannot follow %s statement at %L",
1903
               gfc_ascii_statement (st),
1904
               gfc_ascii_statement (p->last_statement), &p->where);
1905
 
1906
  return FAILURE;
1907
}
1908
 
1909
 
1910
/* Handle an unexpected end of file.  This is a show-stopper...  */
1911
 
1912
static void unexpected_eof (void) ATTRIBUTE_NORETURN;
1913
 
1914
static void
1915
unexpected_eof (void)
1916
{
1917
  gfc_state_data *p;
1918
 
1919
  gfc_error ("Unexpected end of file in '%s'", gfc_source_file);
1920
 
1921
  /* Memory cleanup.  Move to "second to last".  */
1922
  for (p = gfc_state_stack; p && p->previous && p->previous->previous;
1923
       p = p->previous);
1924
 
1925
  gfc_current_ns->code = (p && p->previous) ? p->head : NULL;
1926
  gfc_done_2 ();
1927
 
1928
  longjmp (eof_buf, 1);
1929
}
1930
 
1931
 
1932
/* Parse the CONTAINS section of a derived type definition.  */
1933
 
1934
gfc_access gfc_typebound_default_access;
1935
 
1936
static bool
1937
parse_derived_contains (void)
1938
{
1939
  gfc_state_data s;
1940
  bool seen_private = false;
1941
  bool seen_comps = false;
1942
  bool error_flag = false;
1943
  bool to_finish;
1944
 
1945
  gcc_assert (gfc_current_state () == COMP_DERIVED);
1946
  gcc_assert (gfc_current_block ());
1947
 
1948
  /* Derived-types with SEQUENCE and/or BIND(C) must not have a CONTAINS
1949
     section.  */
1950
  if (gfc_current_block ()->attr.sequence)
1951
    gfc_error ("Derived-type '%s' with SEQUENCE must not have a CONTAINS"
1952
               " section at %C", gfc_current_block ()->name);
1953
  if (gfc_current_block ()->attr.is_bind_c)
1954
    gfc_error ("Derived-type '%s' with BIND(C) must not have a CONTAINS"
1955
               " section at %C", gfc_current_block ()->name);
1956
 
1957
  accept_statement (ST_CONTAINS);
1958
  push_state (&s, COMP_DERIVED_CONTAINS, NULL);
1959
 
1960
  gfc_typebound_default_access = ACCESS_PUBLIC;
1961
 
1962
  to_finish = false;
1963
  while (!to_finish)
1964
    {
1965
      gfc_statement st;
1966
      st = next_statement ();
1967
      switch (st)
1968
        {
1969
        case ST_NONE:
1970
          unexpected_eof ();
1971
          break;
1972
 
1973
        case ST_DATA_DECL:
1974
          gfc_error ("Components in TYPE at %C must precede CONTAINS");
1975
          goto error;
1976
 
1977
        case ST_PROCEDURE:
1978
          if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003:  Type-bound"
1979
                                             " procedure at %C") == FAILURE)
1980
            goto error;
1981
 
1982
          accept_statement (ST_PROCEDURE);
1983
          seen_comps = true;
1984
          break;
1985
 
1986
        case ST_GENERIC:
1987
          if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003:  GENERIC binding"
1988
                                             " at %C") == FAILURE)
1989
            goto error;
1990
 
1991
          accept_statement (ST_GENERIC);
1992
          seen_comps = true;
1993
          break;
1994
 
1995
        case ST_FINAL:
1996
          if (gfc_notify_std (GFC_STD_F2003,
1997
                              "Fortran 2003:  FINAL procedure declaration"
1998
                              " at %C") == FAILURE)
1999
            goto error;
2000
 
2001
          accept_statement (ST_FINAL);
2002
          seen_comps = true;
2003
          break;
2004
 
2005
        case ST_END_TYPE:
2006
          to_finish = true;
2007
 
2008
          if (!seen_comps
2009
              && (gfc_notify_std (GFC_STD_F2008, "Fortran 2008: Derived type "
2010
                                  "definition at %C with empty CONTAINS "
2011
                                  "section") == FAILURE))
2012
            goto error;
2013
 
2014
          /* ST_END_TYPE is accepted by parse_derived after return.  */
2015
          break;
2016
 
2017
        case ST_PRIVATE:
2018
          if (gfc_find_state (COMP_MODULE) == FAILURE)
2019
            {
2020
              gfc_error ("PRIVATE statement in TYPE at %C must be inside "
2021
                         "a MODULE");
2022
              goto error;
2023
            }
2024
 
2025
          if (seen_comps)
2026
            {
2027
              gfc_error ("PRIVATE statement at %C must precede procedure"
2028
                         " bindings");
2029
              goto error;
2030
            }
2031
 
2032
          if (seen_private)
2033
            {
2034
              gfc_error ("Duplicate PRIVATE statement at %C");
2035
              goto error;
2036
            }
2037
 
2038
          accept_statement (ST_PRIVATE);
2039
          gfc_typebound_default_access = ACCESS_PRIVATE;
2040
          seen_private = true;
2041
          break;
2042
 
2043
        case ST_SEQUENCE:
2044
          gfc_error ("SEQUENCE statement at %C must precede CONTAINS");
2045
          goto error;
2046
 
2047
        case ST_CONTAINS:
2048
          gfc_error ("Already inside a CONTAINS block at %C");
2049
          goto error;
2050
 
2051
        default:
2052
          unexpected_statement (st);
2053
          break;
2054
        }
2055
 
2056
      continue;
2057
 
2058
error:
2059
      error_flag = true;
2060
      reject_statement ();
2061
    }
2062
 
2063
  pop_state ();
2064
  gcc_assert (gfc_current_state () == COMP_DERIVED);
2065
 
2066
  return error_flag;
2067
}
2068
 
2069
 
2070
/* Parse a derived type.  */
2071
 
2072
static void
2073
parse_derived (void)
2074
{
2075
  int compiling_type, seen_private, seen_sequence, seen_component;
2076
  gfc_statement st;
2077
  gfc_state_data s;
2078
  gfc_symbol *sym;
2079
  gfc_component *c, *lock_comp = NULL;
2080
 
2081
  accept_statement (ST_DERIVED_DECL);
2082
  push_state (&s, COMP_DERIVED, gfc_new_block);
2083
 
2084
  gfc_new_block->component_access = ACCESS_PUBLIC;
2085
  seen_private = 0;
2086
  seen_sequence = 0;
2087
  seen_component = 0;
2088
 
2089
  compiling_type = 1;
2090
 
2091
  while (compiling_type)
2092
    {
2093
      st = next_statement ();
2094
      switch (st)
2095
        {
2096
        case ST_NONE:
2097
          unexpected_eof ();
2098
 
2099
        case ST_DATA_DECL:
2100
        case ST_PROCEDURE:
2101
          accept_statement (st);
2102
          seen_component = 1;
2103
          break;
2104
 
2105
        case ST_FINAL:
2106
          gfc_error ("FINAL declaration at %C must be inside CONTAINS");
2107
          break;
2108
 
2109
        case ST_END_TYPE:
2110
endType:
2111
          compiling_type = 0;
2112
 
2113
          if (!seen_component)
2114
            gfc_notify_std (GFC_STD_F2003, "Fortran 2003: Derived type "
2115
                            "definition at %C without components");
2116
 
2117
          accept_statement (ST_END_TYPE);
2118
          break;
2119
 
2120
        case ST_PRIVATE:
2121
          if (gfc_find_state (COMP_MODULE) == FAILURE)
2122
            {
2123
              gfc_error ("PRIVATE statement in TYPE at %C must be inside "
2124
                         "a MODULE");
2125
              break;
2126
            }
2127
 
2128
          if (seen_component)
2129
            {
2130
              gfc_error ("PRIVATE statement at %C must precede "
2131
                         "structure components");
2132
              break;
2133
            }
2134
 
2135
          if (seen_private)
2136
            gfc_error ("Duplicate PRIVATE statement at %C");
2137
 
2138
          s.sym->component_access = ACCESS_PRIVATE;
2139
 
2140
          accept_statement (ST_PRIVATE);
2141
          seen_private = 1;
2142
          break;
2143
 
2144
        case ST_SEQUENCE:
2145
          if (seen_component)
2146
            {
2147
              gfc_error ("SEQUENCE statement at %C must precede "
2148
                         "structure components");
2149
              break;
2150
            }
2151
 
2152
          if (gfc_current_block ()->attr.sequence)
2153
            gfc_warning ("SEQUENCE attribute at %C already specified in "
2154
                         "TYPE statement");
2155
 
2156
          if (seen_sequence)
2157
            {
2158
              gfc_error ("Duplicate SEQUENCE statement at %C");
2159
            }
2160
 
2161
          seen_sequence = 1;
2162
          gfc_add_sequence (&gfc_current_block ()->attr,
2163
                            gfc_current_block ()->name, NULL);
2164
          break;
2165
 
2166
        case ST_CONTAINS:
2167
          gfc_notify_std (GFC_STD_F2003,
2168
                          "Fortran 2003:  CONTAINS block in derived type"
2169
                          " definition at %C");
2170
 
2171
          accept_statement (ST_CONTAINS);
2172
          parse_derived_contains ();
2173
          goto endType;
2174
 
2175
        default:
2176
          unexpected_statement (st);
2177
          break;
2178
        }
2179
    }
2180
 
2181
  /* need to verify that all fields of the derived type are
2182
   * interoperable with C if the type is declared to be bind(c)
2183
   */
2184
  sym = gfc_current_block ();
2185
  for (c = sym->components; c; c = c->next)
2186
    {
2187
      bool coarray, lock_type, allocatable, pointer;
2188
      coarray = lock_type = allocatable = pointer = false;
2189
 
2190
      /* Look for allocatable components.  */
2191
      if (c->attr.allocatable
2192
          || (c->ts.type == BT_CLASS && c->attr.class_ok
2193
              && CLASS_DATA (c)->attr.allocatable)
2194
          || (c->ts.type == BT_DERIVED && c->ts.u.derived->attr.alloc_comp))
2195
        {
2196
          allocatable = true;
2197
          sym->attr.alloc_comp = 1;
2198
        }
2199
 
2200
      /* Look for pointer components.  */
2201
      if (c->attr.pointer
2202
          || (c->ts.type == BT_CLASS && c->attr.class_ok
2203
              && CLASS_DATA (c)->attr.class_pointer)
2204
          || (c->ts.type == BT_DERIVED && c->ts.u.derived->attr.pointer_comp))
2205
        {
2206
          pointer = true;
2207
          sym->attr.pointer_comp = 1;
2208
        }
2209
 
2210
      /* Look for procedure pointer components.  */
2211
      if (c->attr.proc_pointer
2212
          || (c->ts.type == BT_DERIVED
2213
              && c->ts.u.derived->attr.proc_pointer_comp))
2214
        sym->attr.proc_pointer_comp = 1;
2215
 
2216
      /* Looking for coarray components.  */
2217
      if (c->attr.codimension
2218
          || (c->ts.type == BT_CLASS && c->attr.class_ok
2219
              && CLASS_DATA (c)->attr.codimension))
2220
        {
2221
          coarray = true;
2222
          sym->attr.coarray_comp = 1;
2223
        }
2224
 
2225
      if (c->ts.type == BT_DERIVED && c->ts.u.derived->attr.coarray_comp)
2226
        {
2227
          coarray = true;
2228
          if (!pointer && !allocatable)
2229
            sym->attr.coarray_comp = 1;
2230
        }
2231
 
2232
      /* Looking for lock_type components.  */
2233
      if ((c->ts.type == BT_DERIVED
2234
              && c->ts.u.derived->from_intmod == INTMOD_ISO_FORTRAN_ENV
2235
              && c->ts.u.derived->intmod_sym_id == ISOFORTRAN_LOCK_TYPE)
2236
          || (c->ts.type == BT_CLASS && c->attr.class_ok
2237
              && CLASS_DATA (c)->ts.u.derived->from_intmod
2238
                 == INTMOD_ISO_FORTRAN_ENV
2239
              && CLASS_DATA (c)->ts.u.derived->intmod_sym_id
2240
                 == ISOFORTRAN_LOCK_TYPE)
2241
          || (c->ts.type == BT_DERIVED && c->ts.u.derived->attr.lock_comp
2242
              && !allocatable && !pointer))
2243
        {
2244
          lock_type = 1;
2245
          lock_comp = c;
2246
          sym->attr.lock_comp = 1;
2247
        }
2248
 
2249
      /* Check for F2008, C1302 - and recall that pointers may not be coarrays
2250
         (5.3.14) and that subobjects of coarray are coarray themselves (2.4.7),
2251
         unless there are nondirect [allocatable or pointer] components
2252
         involved (cf. 1.3.33.1 and 1.3.33.3).  */
2253
 
2254
      if (pointer && !coarray && lock_type)
2255
        gfc_error ("Component %s at %L of type LOCK_TYPE must have a "
2256
                   "codimension or be a subcomponent of a coarray, "
2257
                   "which is not possible as the component has the "
2258
                   "pointer attribute", c->name, &c->loc);
2259
      else if (pointer && !coarray && c->ts.type == BT_DERIVED
2260
               && c->ts.u.derived->attr.lock_comp)
2261
        gfc_error ("Pointer component %s at %L has a noncoarray subcomponent "
2262
                   "of type LOCK_TYPE, which must have a codimension or be a "
2263
                   "subcomponent of a coarray", c->name, &c->loc);
2264
 
2265
      if (lock_type && allocatable && !coarray)
2266
        gfc_error ("Allocatable component %s at %L of type LOCK_TYPE must have "
2267
                   "a codimension", c->name, &c->loc);
2268
      else if (lock_type && allocatable && c->ts.type == BT_DERIVED
2269
               && c->ts.u.derived->attr.lock_comp)
2270
        gfc_error ("Allocatable component %s at %L must have a codimension as "
2271
                   "it has a noncoarray subcomponent of type LOCK_TYPE",
2272
                   c->name, &c->loc);
2273
 
2274
      if (sym->attr.coarray_comp && !coarray && lock_type)
2275
        gfc_error ("Noncoarray component %s at %L of type LOCK_TYPE or with "
2276
                   "subcomponent of type LOCK_TYPE must have a codimension or "
2277
                   "be a subcomponent of a coarray. (Variables of type %s may "
2278
                   "not have a codimension as already a coarray "
2279
                   "subcomponent exists)", c->name, &c->loc, sym->name);
2280
 
2281
      if (sym->attr.lock_comp && coarray && !lock_type)
2282
        gfc_error ("Noncoarray component %s at %L of type LOCK_TYPE or with "
2283
                   "subcomponent of type LOCK_TYPE must have a codimension or "
2284
                   "be a subcomponent of a coarray. (Variables of type %s may "
2285
                   "not have a codimension as %s at %L has a codimension or a "
2286
                   "coarray subcomponent)", lock_comp->name, &lock_comp->loc,
2287
                   sym->name, c->name, &c->loc);
2288
 
2289
      /* Look for private components.  */
2290
      if (sym->component_access == ACCESS_PRIVATE
2291
          || c->attr.access == ACCESS_PRIVATE
2292
          || (c->ts.type == BT_DERIVED && c->ts.u.derived->attr.private_comp))
2293
        sym->attr.private_comp = 1;
2294
    }
2295
 
2296
  if (!seen_component)
2297
    sym->attr.zero_comp = 1;
2298
 
2299
  pop_state ();
2300
}
2301
 
2302
 
2303
/* Parse an ENUM.  */
2304
 
2305
static void
2306
parse_enum (void)
2307
{
2308
  gfc_statement st;
2309
  int compiling_enum;
2310
  gfc_state_data s;
2311
  int seen_enumerator = 0;
2312
 
2313
  push_state (&s, COMP_ENUM, gfc_new_block);
2314
 
2315
  compiling_enum = 1;
2316
 
2317
  while (compiling_enum)
2318
    {
2319
      st = next_statement ();
2320
      switch (st)
2321
        {
2322
        case ST_NONE:
2323
          unexpected_eof ();
2324
          break;
2325
 
2326
        case ST_ENUMERATOR:
2327
          seen_enumerator = 1;
2328
          accept_statement (st);
2329
          break;
2330
 
2331
        case ST_END_ENUM:
2332
          compiling_enum = 0;
2333
          if (!seen_enumerator)
2334
            gfc_error ("ENUM declaration at %C has no ENUMERATORS");
2335
          accept_statement (st);
2336
          break;
2337
 
2338
        default:
2339
          gfc_free_enum_history ();
2340
          unexpected_statement (st);
2341
          break;
2342
        }
2343
    }
2344
  pop_state ();
2345
}
2346
 
2347
 
2348
/* Parse an interface.  We must be able to deal with the possibility
2349
   of recursive interfaces.  The parse_spec() subroutine is mutually
2350
   recursive with parse_interface().  */
2351
 
2352
static gfc_statement parse_spec (gfc_statement);
2353
 
2354
static void
2355
parse_interface (void)
2356
{
2357
  gfc_compile_state new_state = COMP_NONE, current_state;
2358
  gfc_symbol *prog_unit, *sym;
2359
  gfc_interface_info save;
2360
  gfc_state_data s1, s2;
2361
  gfc_statement st;
2362
  locus proc_locus;
2363
 
2364
  accept_statement (ST_INTERFACE);
2365
 
2366
  current_interface.ns = gfc_current_ns;
2367
  save = current_interface;
2368
 
2369
  sym = (current_interface.type == INTERFACE_GENERIC
2370
         || current_interface.type == INTERFACE_USER_OP)
2371
        ? gfc_new_block : NULL;
2372
 
2373
  push_state (&s1, COMP_INTERFACE, sym);
2374
  current_state = COMP_NONE;
2375
 
2376
loop:
2377
  gfc_current_ns = gfc_get_namespace (current_interface.ns, 0);
2378
 
2379
  st = next_statement ();
2380
  switch (st)
2381
    {
2382
    case ST_NONE:
2383
      unexpected_eof ();
2384
 
2385
    case ST_SUBROUTINE:
2386
    case ST_FUNCTION:
2387
      if (st == ST_SUBROUTINE)
2388
        new_state = COMP_SUBROUTINE;
2389
      else if (st == ST_FUNCTION)
2390
        new_state = COMP_FUNCTION;
2391
      if (gfc_new_block->attr.pointer)
2392
        {
2393
          gfc_new_block->attr.pointer = 0;
2394
          gfc_new_block->attr.proc_pointer = 1;
2395
        }
2396
      if (gfc_add_explicit_interface (gfc_new_block, IFSRC_IFBODY,
2397
                                  gfc_new_block->formal, NULL) == FAILURE)
2398
        {
2399
          reject_statement ();
2400
          gfc_free_namespace (gfc_current_ns);
2401
          goto loop;
2402
        }
2403
      break;
2404
 
2405
    case ST_PROCEDURE:
2406
    case ST_MODULE_PROC:        /* The module procedure matcher makes
2407
                                   sure the context is correct.  */
2408
      accept_statement (st);
2409
      gfc_free_namespace (gfc_current_ns);
2410
      goto loop;
2411
 
2412
    case ST_END_INTERFACE:
2413
      gfc_free_namespace (gfc_current_ns);
2414
      gfc_current_ns = current_interface.ns;
2415
      goto done;
2416
 
2417
    default:
2418
      gfc_error ("Unexpected %s statement in INTERFACE block at %C",
2419
                 gfc_ascii_statement (st));
2420
      reject_statement ();
2421
      gfc_free_namespace (gfc_current_ns);
2422
      goto loop;
2423
    }
2424
 
2425
 
2426
  /* Make sure that the generic name has the right attribute.  */
2427
  if (current_interface.type == INTERFACE_GENERIC
2428
      && current_state == COMP_NONE)
2429
    {
2430
      if (new_state == COMP_FUNCTION && sym)
2431
        gfc_add_function (&sym->attr, sym->name, NULL);
2432
      else if (new_state == COMP_SUBROUTINE && sym)
2433
        gfc_add_subroutine (&sym->attr, sym->name, NULL);
2434
 
2435
      current_state = new_state;
2436
    }
2437
 
2438
  if (current_interface.type == INTERFACE_ABSTRACT)
2439
    {
2440
      gfc_add_abstract (&gfc_new_block->attr, &gfc_current_locus);
2441
      if (gfc_is_intrinsic_typename (gfc_new_block->name))
2442
        gfc_error ("Name '%s' of ABSTRACT INTERFACE at %C "
2443
                   "cannot be the same as an intrinsic type",
2444
                   gfc_new_block->name);
2445
    }
2446
 
2447
  push_state (&s2, new_state, gfc_new_block);
2448
  accept_statement (st);
2449
  prog_unit = gfc_new_block;
2450
  prog_unit->formal_ns = gfc_current_ns;
2451
  proc_locus = gfc_current_locus;
2452
 
2453
decl:
2454
  /* Read data declaration statements.  */
2455
  st = parse_spec (ST_NONE);
2456
 
2457
  /* Since the interface block does not permit an IMPLICIT statement,
2458
     the default type for the function or the result must be taken
2459
     from the formal namespace.  */
2460
  if (new_state == COMP_FUNCTION)
2461
    {
2462
        if (prog_unit->result == prog_unit
2463
              && prog_unit->ts.type == BT_UNKNOWN)
2464
          gfc_set_default_type (prog_unit, 1, prog_unit->formal_ns);
2465
        else if (prog_unit->result != prog_unit
2466
                   && prog_unit->result->ts.type == BT_UNKNOWN)
2467
          gfc_set_default_type (prog_unit->result, 1,
2468
                                prog_unit->formal_ns);
2469
    }
2470
 
2471
  if (st != ST_END_SUBROUTINE && st != ST_END_FUNCTION)
2472
    {
2473
      gfc_error ("Unexpected %s statement at %C in INTERFACE body",
2474
                 gfc_ascii_statement (st));
2475
      reject_statement ();
2476
      goto decl;
2477
    }
2478
 
2479
  /* Add EXTERNAL attribute to function or subroutine.  */
2480
  if (current_interface.type != INTERFACE_ABSTRACT && !prog_unit->attr.dummy)
2481
    gfc_add_external (&prog_unit->attr, &gfc_current_locus);
2482
 
2483
  current_interface = save;
2484
  gfc_add_interface (prog_unit);
2485
  pop_state ();
2486
 
2487
  if (current_interface.ns
2488
        && current_interface.ns->proc_name
2489
        && strcmp (current_interface.ns->proc_name->name,
2490
                   prog_unit->name) == 0)
2491
    gfc_error ("INTERFACE procedure '%s' at %L has the same name as the "
2492
               "enclosing procedure", prog_unit->name, &proc_locus);
2493
 
2494
  goto loop;
2495
 
2496
done:
2497
  pop_state ();
2498
}
2499
 
2500
 
2501
/* Associate function characteristics by going back to the function
2502
   declaration and rematching the prefix.  */
2503
 
2504
static match
2505
match_deferred_characteristics (gfc_typespec * ts)
2506
{
2507
  locus loc;
2508
  match m = MATCH_ERROR;
2509
  char name[GFC_MAX_SYMBOL_LEN + 1];
2510
 
2511
  loc = gfc_current_locus;
2512
 
2513
  gfc_current_locus = gfc_current_block ()->declared_at;
2514
 
2515
  gfc_clear_error ();
2516
  gfc_buffer_error (1);
2517
  m = gfc_match_prefix (ts);
2518
  gfc_buffer_error (0);
2519
 
2520
  if (ts->type == BT_DERIVED)
2521
    {
2522
      ts->kind = 0;
2523
 
2524
      if (!ts->u.derived)
2525
        m = MATCH_ERROR;
2526
    }
2527
 
2528
  /* Only permit one go at the characteristic association.  */
2529
  if (ts->kind == -1)
2530
    ts->kind = 0;
2531
 
2532
  /* Set the function locus correctly.  If we have not found the
2533
     function name, there is an error.  */
2534
  if (m == MATCH_YES
2535
      && gfc_match ("function% %n", name) == MATCH_YES
2536
      && strcmp (name, gfc_current_block ()->name) == 0)
2537
    {
2538
      gfc_current_block ()->declared_at = gfc_current_locus;
2539
      gfc_commit_symbols ();
2540
    }
2541
  else
2542
    {
2543
      gfc_error_check ();
2544
      gfc_undo_symbols ();
2545
    }
2546
 
2547
  gfc_current_locus =loc;
2548
  return m;
2549
}
2550
 
2551
 
2552
/* Check specification-expressions in the function result of the currently
2553
   parsed block and ensure they are typed (give an IMPLICIT type if necessary).
2554
   For return types specified in a FUNCTION prefix, the IMPLICIT rules of the
2555
   scope are not yet parsed so this has to be delayed up to parse_spec.  */
2556
 
2557
static void
2558
check_function_result_typed (void)
2559
{
2560
  gfc_typespec* ts = &gfc_current_ns->proc_name->result->ts;
2561
 
2562
  gcc_assert (gfc_current_state () == COMP_FUNCTION);
2563
  gcc_assert (ts->type != BT_UNKNOWN);
2564
 
2565
  /* Check type-parameters, at the moment only CHARACTER lengths possible.  */
2566
  /* TODO:  Extend when KIND type parameters are implemented.  */
2567
  if (ts->type == BT_CHARACTER && ts->u.cl && ts->u.cl->length)
2568
    gfc_expr_check_typed (ts->u.cl->length, gfc_current_ns, true);
2569
}
2570
 
2571
 
2572
/* Parse a set of specification statements.  Returns the statement
2573
   that doesn't fit.  */
2574
 
2575
static gfc_statement
2576
parse_spec (gfc_statement st)
2577
{
2578
  st_state ss;
2579
  bool function_result_typed = false;
2580
  bool bad_characteristic = false;
2581
  gfc_typespec *ts;
2582
 
2583
  verify_st_order (&ss, ST_NONE, false);
2584
  if (st == ST_NONE)
2585
    st = next_statement ();
2586
 
2587
  /* If we are not inside a function or don't have a result specified so far,
2588
     do nothing special about it.  */
2589
  if (gfc_current_state () != COMP_FUNCTION)
2590
    function_result_typed = true;
2591
  else
2592
    {
2593
      gfc_symbol* proc = gfc_current_ns->proc_name;
2594
      gcc_assert (proc);
2595
 
2596
      if (proc->result->ts.type == BT_UNKNOWN)
2597
        function_result_typed = true;
2598
    }
2599
 
2600
loop:
2601
 
2602
  /* If we're inside a BLOCK construct, some statements are disallowed.
2603
     Check this here.  Attribute declaration statements like INTENT, OPTIONAL
2604
     or VALUE are also disallowed, but they don't have a particular ST_*
2605
     key so we have to check for them individually in their matcher routine.  */
2606
  if (gfc_current_state () == COMP_BLOCK)
2607
    switch (st)
2608
      {
2609
        case ST_IMPLICIT:
2610
        case ST_IMPLICIT_NONE:
2611
        case ST_NAMELIST:
2612
        case ST_COMMON:
2613
        case ST_EQUIVALENCE:
2614
        case ST_STATEMENT_FUNCTION:
2615
          gfc_error ("%s statement is not allowed inside of BLOCK at %C",
2616
                     gfc_ascii_statement (st));
2617
          reject_statement ();
2618
          break;
2619
 
2620
        default:
2621
          break;
2622
      }
2623
 
2624
  /* If we find a statement that can not be followed by an IMPLICIT statement
2625
     (and thus we can expect to see none any further), type the function result
2626
     if it has not yet been typed.  Be careful not to give the END statement
2627
     to verify_st_order!  */
2628
  if (!function_result_typed && st != ST_GET_FCN_CHARACTERISTICS)
2629
    {
2630
      bool verify_now = false;
2631
 
2632
      if (st == ST_END_FUNCTION || st == ST_CONTAINS)
2633
        verify_now = true;
2634
      else
2635
        {
2636
          st_state dummyss;
2637
          verify_st_order (&dummyss, ST_NONE, false);
2638
          verify_st_order (&dummyss, st, false);
2639
 
2640
          if (verify_st_order (&dummyss, ST_IMPLICIT, true) == FAILURE)
2641
            verify_now = true;
2642
        }
2643
 
2644
      if (verify_now)
2645
        {
2646
          check_function_result_typed ();
2647
          function_result_typed = true;
2648
        }
2649
    }
2650
 
2651
  switch (st)
2652
    {
2653
    case ST_NONE:
2654
      unexpected_eof ();
2655
 
2656
    case ST_IMPLICIT_NONE:
2657
    case ST_IMPLICIT:
2658
      if (!function_result_typed)
2659
        {
2660
          check_function_result_typed ();
2661
          function_result_typed = true;
2662
        }
2663
      goto declSt;
2664
 
2665
    case ST_FORMAT:
2666
    case ST_ENTRY:
2667
    case ST_DATA:       /* Not allowed in interfaces */
2668
      if (gfc_current_state () == COMP_INTERFACE)
2669
        break;
2670
 
2671
      /* Fall through */
2672
 
2673
    case ST_USE:
2674
    case ST_IMPORT:
2675
    case ST_PARAMETER:
2676
    case ST_PUBLIC:
2677
    case ST_PRIVATE:
2678
    case ST_DERIVED_DECL:
2679
    case_decl:
2680
declSt:
2681
      if (verify_st_order (&ss, st, false) == FAILURE)
2682
        {
2683
          reject_statement ();
2684
          st = next_statement ();
2685
          goto loop;
2686
        }
2687
 
2688
      switch (st)
2689
        {
2690
        case ST_INTERFACE:
2691
          parse_interface ();
2692
          break;
2693
 
2694
        case ST_DERIVED_DECL:
2695
          parse_derived ();
2696
          break;
2697
 
2698
        case ST_PUBLIC:
2699
        case ST_PRIVATE:
2700
          if (gfc_current_state () != COMP_MODULE)
2701
            {
2702
              gfc_error ("%s statement must appear in a MODULE",
2703
                         gfc_ascii_statement (st));
2704
              reject_statement ();
2705
              break;
2706
            }
2707
 
2708
          if (gfc_current_ns->default_access != ACCESS_UNKNOWN)
2709
            {
2710
              gfc_error ("%s statement at %C follows another accessibility "
2711
                         "specification", gfc_ascii_statement (st));
2712
              reject_statement ();
2713
              break;
2714
            }
2715
 
2716
          gfc_current_ns->default_access = (st == ST_PUBLIC)
2717
            ? ACCESS_PUBLIC : ACCESS_PRIVATE;
2718
 
2719
          break;
2720
 
2721
        case ST_STATEMENT_FUNCTION:
2722
          if (gfc_current_state () == COMP_MODULE)
2723
            {
2724
              unexpected_statement (st);
2725
              break;
2726
            }
2727
 
2728
        default:
2729
          break;
2730
        }
2731
 
2732
      accept_statement (st);
2733
      st = next_statement ();
2734
      goto loop;
2735
 
2736
    case ST_ENUM:
2737
      accept_statement (st);
2738
      parse_enum();
2739
      st = next_statement ();
2740
      goto loop;
2741
 
2742
    case ST_GET_FCN_CHARACTERISTICS:
2743
      /* This statement triggers the association of a function's result
2744
         characteristics.  */
2745
      ts = &gfc_current_block ()->result->ts;
2746
      if (match_deferred_characteristics (ts) != MATCH_YES)
2747
        bad_characteristic = true;
2748
 
2749
      st = next_statement ();
2750
      goto loop;
2751
 
2752
    default:
2753
      break;
2754
    }
2755
 
2756
  /* If match_deferred_characteristics failed, then there is an error. */
2757
  if (bad_characteristic)
2758
    {
2759
      ts = &gfc_current_block ()->result->ts;
2760
      if (ts->type != BT_DERIVED)
2761
        gfc_error ("Bad kind expression for function '%s' at %L",
2762
                   gfc_current_block ()->name,
2763
                   &gfc_current_block ()->declared_at);
2764
      else
2765
        gfc_error ("The type for function '%s' at %L is not accessible",
2766
                   gfc_current_block ()->name,
2767
                   &gfc_current_block ()->declared_at);
2768
 
2769
      gfc_current_block ()->ts.kind = 0;
2770
      /* Keep the derived type; if it's bad, it will be discovered later.  */
2771
      if (!(ts->type == BT_DERIVED && ts->u.derived))
2772
        ts->type = BT_UNKNOWN;
2773
    }
2774
 
2775
  return st;
2776
}
2777
 
2778
 
2779
/* Parse a WHERE block, (not a simple WHERE statement).  */
2780
 
2781
static void
2782
parse_where_block (void)
2783
{
2784
  int seen_empty_else;
2785
  gfc_code *top, *d;
2786
  gfc_state_data s;
2787
  gfc_statement st;
2788
 
2789
  accept_statement (ST_WHERE_BLOCK);
2790
  top = gfc_state_stack->tail;
2791
 
2792
  push_state (&s, COMP_WHERE, gfc_new_block);
2793
 
2794
  d = add_statement ();
2795
  d->expr1 = top->expr1;
2796
  d->op = EXEC_WHERE;
2797
 
2798
  top->expr1 = NULL;
2799
  top->block = d;
2800
 
2801
  seen_empty_else = 0;
2802
 
2803
  do
2804
    {
2805
      st = next_statement ();
2806
      switch (st)
2807
        {
2808
        case ST_NONE:
2809
          unexpected_eof ();
2810
 
2811
        case ST_WHERE_BLOCK:
2812
          parse_where_block ();
2813
          break;
2814
 
2815
        case ST_ASSIGNMENT:
2816
        case ST_WHERE:
2817
          accept_statement (st);
2818
          break;
2819
 
2820
        case ST_ELSEWHERE:
2821
          if (seen_empty_else)
2822
            {
2823
              gfc_error ("ELSEWHERE statement at %C follows previous "
2824
                         "unmasked ELSEWHERE");
2825
              reject_statement ();
2826
              break;
2827
            }
2828
 
2829
          if (new_st.expr1 == NULL)
2830
            seen_empty_else = 1;
2831
 
2832
          d = new_level (gfc_state_stack->head);
2833
          d->op = EXEC_WHERE;
2834
          d->expr1 = new_st.expr1;
2835
 
2836
          accept_statement (st);
2837
 
2838
          break;
2839
 
2840
        case ST_END_WHERE:
2841
          accept_statement (st);
2842
          break;
2843
 
2844
        default:
2845
          gfc_error ("Unexpected %s statement in WHERE block at %C",
2846
                     gfc_ascii_statement (st));
2847
          reject_statement ();
2848
          break;
2849
        }
2850
    }
2851
  while (st != ST_END_WHERE);
2852
 
2853
  pop_state ();
2854
}
2855
 
2856
 
2857
/* Parse a FORALL block (not a simple FORALL statement).  */
2858
 
2859
static void
2860
parse_forall_block (void)
2861
{
2862
  gfc_code *top, *d;
2863
  gfc_state_data s;
2864
  gfc_statement st;
2865
 
2866
  accept_statement (ST_FORALL_BLOCK);
2867
  top = gfc_state_stack->tail;
2868
 
2869
  push_state (&s, COMP_FORALL, gfc_new_block);
2870
 
2871
  d = add_statement ();
2872
  d->op = EXEC_FORALL;
2873
  top->block = d;
2874
 
2875
  do
2876
    {
2877
      st = next_statement ();
2878
      switch (st)
2879
        {
2880
 
2881
        case ST_ASSIGNMENT:
2882
        case ST_POINTER_ASSIGNMENT:
2883
        case ST_WHERE:
2884
        case ST_FORALL:
2885
          accept_statement (st);
2886
          break;
2887
 
2888
        case ST_WHERE_BLOCK:
2889
          parse_where_block ();
2890
          break;
2891
 
2892
        case ST_FORALL_BLOCK:
2893
          parse_forall_block ();
2894
          break;
2895
 
2896
        case ST_END_FORALL:
2897
          accept_statement (st);
2898
          break;
2899
 
2900
        case ST_NONE:
2901
          unexpected_eof ();
2902
 
2903
        default:
2904
          gfc_error ("Unexpected %s statement in FORALL block at %C",
2905
                     gfc_ascii_statement (st));
2906
 
2907
          reject_statement ();
2908
          break;
2909
        }
2910
    }
2911
  while (st != ST_END_FORALL);
2912
 
2913
  pop_state ();
2914
}
2915
 
2916
 
2917
static gfc_statement parse_executable (gfc_statement);
2918
 
2919
/* parse the statements of an IF-THEN-ELSEIF-ELSE-ENDIF block.  */
2920
 
2921
static void
2922
parse_if_block (void)
2923
{
2924
  gfc_code *top, *d;
2925
  gfc_statement st;
2926
  locus else_locus;
2927
  gfc_state_data s;
2928
  int seen_else;
2929
 
2930
  seen_else = 0;
2931
  accept_statement (ST_IF_BLOCK);
2932
 
2933
  top = gfc_state_stack->tail;
2934
  push_state (&s, COMP_IF, gfc_new_block);
2935
 
2936
  new_st.op = EXEC_IF;
2937
  d = add_statement ();
2938
 
2939
  d->expr1 = top->expr1;
2940
  top->expr1 = NULL;
2941
  top->block = d;
2942
 
2943
  do
2944
    {
2945
      st = parse_executable (ST_NONE);
2946
 
2947
      switch (st)
2948
        {
2949
        case ST_NONE:
2950
          unexpected_eof ();
2951
 
2952
        case ST_ELSEIF:
2953
          if (seen_else)
2954
            {
2955
              gfc_error ("ELSE IF statement at %C cannot follow ELSE "
2956
                         "statement at %L", &else_locus);
2957
 
2958
              reject_statement ();
2959
              break;
2960
            }
2961
 
2962
          d = new_level (gfc_state_stack->head);
2963
          d->op = EXEC_IF;
2964
          d->expr1 = new_st.expr1;
2965
 
2966
          accept_statement (st);
2967
 
2968
          break;
2969
 
2970
        case ST_ELSE:
2971
          if (seen_else)
2972
            {
2973
              gfc_error ("Duplicate ELSE statements at %L and %C",
2974
                         &else_locus);
2975
              reject_statement ();
2976
              break;
2977
            }
2978
 
2979
          seen_else = 1;
2980
          else_locus = gfc_current_locus;
2981
 
2982
          d = new_level (gfc_state_stack->head);
2983
          d->op = EXEC_IF;
2984
 
2985
          accept_statement (st);
2986
 
2987
          break;
2988
 
2989
        case ST_ENDIF:
2990
          break;
2991
 
2992
        default:
2993
          unexpected_statement (st);
2994
          break;
2995
        }
2996
    }
2997
  while (st != ST_ENDIF);
2998
 
2999
  pop_state ();
3000
  accept_statement (st);
3001
}
3002
 
3003
 
3004
/* Parse a SELECT block.  */
3005
 
3006
static void
3007
parse_select_block (void)
3008
{
3009
  gfc_statement st;
3010
  gfc_code *cp;
3011
  gfc_state_data s;
3012
 
3013
  accept_statement (ST_SELECT_CASE);
3014
 
3015
  cp = gfc_state_stack->tail;
3016
  push_state (&s, COMP_SELECT, gfc_new_block);
3017
 
3018
  /* Make sure that the next statement is a CASE or END SELECT.  */
3019
  for (;;)
3020
    {
3021
      st = next_statement ();
3022
      if (st == ST_NONE)
3023
        unexpected_eof ();
3024
      if (st == ST_END_SELECT)
3025
        {
3026
          /* Empty SELECT CASE is OK.  */
3027
          accept_statement (st);
3028
          pop_state ();
3029
          return;
3030
        }
3031
      if (st == ST_CASE)
3032
        break;
3033
 
3034
      gfc_error ("Expected a CASE or END SELECT statement following SELECT "
3035
                 "CASE at %C");
3036
 
3037
      reject_statement ();
3038
    }
3039
 
3040
  /* At this point, we're got a nonempty select block.  */
3041
  cp = new_level (cp);
3042
  *cp = new_st;
3043
 
3044
  accept_statement (st);
3045
 
3046
  do
3047
    {
3048
      st = parse_executable (ST_NONE);
3049
      switch (st)
3050
        {
3051
        case ST_NONE:
3052
          unexpected_eof ();
3053
 
3054
        case ST_CASE:
3055
          cp = new_level (gfc_state_stack->head);
3056
          *cp = new_st;
3057
          gfc_clear_new_st ();
3058
 
3059
          accept_statement (st);
3060
          /* Fall through */
3061
 
3062
        case ST_END_SELECT:
3063
          break;
3064
 
3065
        /* Can't have an executable statement because of
3066
           parse_executable().  */
3067
        default:
3068
          unexpected_statement (st);
3069
          break;
3070
        }
3071
    }
3072
  while (st != ST_END_SELECT);
3073
 
3074
  pop_state ();
3075
  accept_statement (st);
3076
}
3077
 
3078
 
3079
/* Pop the current selector from the SELECT TYPE stack.  */
3080
 
3081
static void
3082
select_type_pop (void)
3083
{
3084
  gfc_select_type_stack *old = select_type_stack;
3085
  select_type_stack = old->prev;
3086
  free (old);
3087
}
3088
 
3089
 
3090
/* Parse a SELECT TYPE construct (F03:R821).  */
3091
 
3092
static void
3093
parse_select_type_block (void)
3094
{
3095
  gfc_statement st;
3096
  gfc_code *cp;
3097
  gfc_state_data s;
3098
 
3099
  accept_statement (ST_SELECT_TYPE);
3100
 
3101
  cp = gfc_state_stack->tail;
3102
  push_state (&s, COMP_SELECT_TYPE, gfc_new_block);
3103
 
3104
  /* Make sure that the next statement is a TYPE IS, CLASS IS, CLASS DEFAULT
3105
     or END SELECT.  */
3106
  for (;;)
3107
    {
3108
      st = next_statement ();
3109
      if (st == ST_NONE)
3110
        unexpected_eof ();
3111
      if (st == ST_END_SELECT)
3112
        /* Empty SELECT CASE is OK.  */
3113
        goto done;
3114
      if (st == ST_TYPE_IS || st == ST_CLASS_IS)
3115
        break;
3116
 
3117
      gfc_error ("Expected TYPE IS, CLASS IS or END SELECT statement "
3118
                 "following SELECT TYPE at %C");
3119
 
3120
      reject_statement ();
3121
    }
3122
 
3123
  /* At this point, we're got a nonempty select block.  */
3124
  cp = new_level (cp);
3125
  *cp = new_st;
3126
 
3127
  accept_statement (st);
3128
 
3129
  do
3130
    {
3131
      st = parse_executable (ST_NONE);
3132
      switch (st)
3133
        {
3134
        case ST_NONE:
3135
          unexpected_eof ();
3136
 
3137
        case ST_TYPE_IS:
3138
        case ST_CLASS_IS:
3139
          cp = new_level (gfc_state_stack->head);
3140
          *cp = new_st;
3141
          gfc_clear_new_st ();
3142
 
3143
          accept_statement (st);
3144
          /* Fall through */
3145
 
3146
        case ST_END_SELECT:
3147
          break;
3148
 
3149
        /* Can't have an executable statement because of
3150
           parse_executable().  */
3151
        default:
3152
          unexpected_statement (st);
3153
          break;
3154
        }
3155
    }
3156
  while (st != ST_END_SELECT);
3157
 
3158
done:
3159
  pop_state ();
3160
  accept_statement (st);
3161
  gfc_current_ns = gfc_current_ns->parent;
3162
  select_type_pop ();
3163
}
3164
 
3165
 
3166
/* Given a symbol, make sure it is not an iteration variable for a DO
3167
   statement.  This subroutine is called when the symbol is seen in a
3168
   context that causes it to become redefined.  If the symbol is an
3169
   iterator, we generate an error message and return nonzero.  */
3170
 
3171
int
3172
gfc_check_do_variable (gfc_symtree *st)
3173
{
3174
  gfc_state_data *s;
3175
 
3176
  for (s=gfc_state_stack; s; s = s->previous)
3177
    if (s->do_variable == st)
3178
      {
3179
        gfc_error_now("Variable '%s' at %C cannot be redefined inside "
3180
                      "loop beginning at %L", st->name, &s->head->loc);
3181
        return 1;
3182
      }
3183
 
3184
  return 0;
3185
}
3186
 
3187
 
3188
/* Checks to see if the current statement label closes an enddo.
3189
   Returns 0 if not, 1 if closes an ENDDO correctly, or 2 (and issues
3190
   an error) if it incorrectly closes an ENDDO.  */
3191
 
3192
static int
3193
check_do_closure (void)
3194
{
3195
  gfc_state_data *p;
3196
 
3197
  if (gfc_statement_label == NULL)
3198
    return 0;
3199
 
3200
  for (p = gfc_state_stack; p; p = p->previous)
3201
    if (p->state == COMP_DO || p->state == COMP_DO_CONCURRENT)
3202
      break;
3203
 
3204
  if (p == NULL)
3205
    return 0;            /* No loops to close */
3206
 
3207
  if (p->ext.end_do_label == gfc_statement_label)
3208
    {
3209
      if (p == gfc_state_stack)
3210
        return 1;
3211
 
3212
      gfc_error ("End of nonblock DO statement at %C is within another block");
3213
      return 2;
3214
    }
3215
 
3216
  /* At this point, the label doesn't terminate the innermost loop.
3217
     Make sure it doesn't terminate another one.  */
3218
  for (; p; p = p->previous)
3219
    if ((p->state == COMP_DO || p->state == COMP_DO_CONCURRENT)
3220
        && p->ext.end_do_label == gfc_statement_label)
3221
      {
3222
        gfc_error ("End of nonblock DO statement at %C is interwoven "
3223
                   "with another DO loop");
3224
        return 2;
3225
      }
3226
 
3227
  return 0;
3228
}
3229
 
3230
 
3231
/* Parse a series of contained program units.  */
3232
 
3233
static void parse_progunit (gfc_statement);
3234
 
3235
 
3236
/* Parse a CRITICAL block.  */
3237
 
3238
static void
3239
parse_critical_block (void)
3240
{
3241
  gfc_code *top, *d;
3242
  gfc_state_data s;
3243
  gfc_statement st;
3244
 
3245
  s.ext.end_do_label = new_st.label1;
3246
 
3247
  accept_statement (ST_CRITICAL);
3248
  top = gfc_state_stack->tail;
3249
 
3250
  push_state (&s, COMP_CRITICAL, gfc_new_block);
3251
 
3252
  d = add_statement ();
3253
  d->op = EXEC_CRITICAL;
3254
  top->block = d;
3255
 
3256
  do
3257
    {
3258
      st = parse_executable (ST_NONE);
3259
 
3260
      switch (st)
3261
        {
3262
          case ST_NONE:
3263
            unexpected_eof ();
3264
            break;
3265
 
3266
          case ST_END_CRITICAL:
3267
            if (s.ext.end_do_label != NULL
3268
                && s.ext.end_do_label != gfc_statement_label)
3269
              gfc_error_now ("Statement label in END CRITICAL at %C does not "
3270
                             "match CRITIAL label");
3271
 
3272
            if (gfc_statement_label != NULL)
3273
              {
3274
                new_st.op = EXEC_NOP;
3275
                add_statement ();
3276
              }
3277
            break;
3278
 
3279
          default:
3280
            unexpected_statement (st);
3281
            break;
3282
        }
3283
    }
3284
  while (st != ST_END_CRITICAL);
3285
 
3286
  pop_state ();
3287
  accept_statement (st);
3288
}
3289
 
3290
 
3291
/* Set up the local namespace for a BLOCK construct.  */
3292
 
3293
gfc_namespace*
3294
gfc_build_block_ns (gfc_namespace *parent_ns)
3295
{
3296
  gfc_namespace* my_ns;
3297
  static int numblock = 1;
3298
 
3299
  my_ns = gfc_get_namespace (parent_ns, 1);
3300
  my_ns->construct_entities = 1;
3301
 
3302
  /* Give the BLOCK a symbol of flavor LABEL; this is later needed for correct
3303
     code generation (so it must not be NULL).
3304
     We set its recursive argument if our container procedure is recursive, so
3305
     that local variables are accordingly placed on the stack when it
3306
     will be necessary.  */
3307
  if (gfc_new_block)
3308
    my_ns->proc_name = gfc_new_block;
3309
  else
3310
    {
3311
      gfc_try t;
3312
      char buffer[20];  /* Enough to hold "block@2147483648\n".  */
3313
 
3314
      snprintf(buffer, sizeof(buffer), "block@%d", numblock++);
3315
      gfc_get_symbol (buffer, my_ns, &my_ns->proc_name);
3316
      t = gfc_add_flavor (&my_ns->proc_name->attr, FL_LABEL,
3317
                          my_ns->proc_name->name, NULL);
3318
      gcc_assert (t == SUCCESS);
3319
      gfc_commit_symbol (my_ns->proc_name);
3320
    }
3321
 
3322
  if (parent_ns->proc_name)
3323
    my_ns->proc_name->attr.recursive = parent_ns->proc_name->attr.recursive;
3324
 
3325
  return my_ns;
3326
}
3327
 
3328
 
3329
/* Parse a BLOCK construct.  */
3330
 
3331
static void
3332
parse_block_construct (void)
3333
{
3334
  gfc_namespace* my_ns;
3335
  gfc_state_data s;
3336
 
3337
  gfc_notify_std (GFC_STD_F2008, "Fortran 2008: BLOCK construct at %C");
3338
 
3339
  my_ns = gfc_build_block_ns (gfc_current_ns);
3340
 
3341
  new_st.op = EXEC_BLOCK;
3342
  new_st.ext.block.ns = my_ns;
3343
  new_st.ext.block.assoc = NULL;
3344
  accept_statement (ST_BLOCK);
3345
 
3346
  push_state (&s, COMP_BLOCK, my_ns->proc_name);
3347
  gfc_current_ns = my_ns;
3348
 
3349
  parse_progunit (ST_NONE);
3350
 
3351
  gfc_current_ns = gfc_current_ns->parent;
3352
  pop_state ();
3353
}
3354
 
3355
 
3356
/* Parse an ASSOCIATE construct.  This is essentially a BLOCK construct
3357
   behind the scenes with compiler-generated variables.  */
3358
 
3359
static void
3360
parse_associate (void)
3361
{
3362
  gfc_namespace* my_ns;
3363
  gfc_state_data s;
3364
  gfc_statement st;
3365
  gfc_association_list* a;
3366
 
3367
  gfc_notify_std (GFC_STD_F2003, "Fortran 2003: ASSOCIATE construct at %C");
3368
 
3369
  my_ns = gfc_build_block_ns (gfc_current_ns);
3370
 
3371
  new_st.op = EXEC_BLOCK;
3372
  new_st.ext.block.ns = my_ns;
3373
  gcc_assert (new_st.ext.block.assoc);
3374
 
3375
  /* Add all associate-names as BLOCK variables.  Creating them is enough
3376
     for now, they'll get their values during trans-* phase.  */
3377
  gfc_current_ns = my_ns;
3378
  for (a = new_st.ext.block.assoc; a; a = a->next)
3379
    {
3380
      gfc_symbol* sym;
3381
 
3382
      if (gfc_get_sym_tree (a->name, NULL, &a->st, false))
3383
        gcc_unreachable ();
3384
 
3385
      sym = a->st->n.sym;
3386
      sym->attr.flavor = FL_VARIABLE;
3387
      sym->assoc = a;
3388
      sym->declared_at = a->where;
3389
      gfc_set_sym_referenced (sym);
3390
 
3391
      /* Initialize the typespec.  It is not available in all cases,
3392
         however, as it may only be set on the target during resolution.
3393
         Still, sometimes it helps to have it right now -- especially
3394
         for parsing component references on the associate-name
3395
         in case of assication to a derived-type.  */
3396
      sym->ts = a->target->ts;
3397
    }
3398
 
3399
  accept_statement (ST_ASSOCIATE);
3400
  push_state (&s, COMP_ASSOCIATE, my_ns->proc_name);
3401
 
3402
loop:
3403
  st = parse_executable (ST_NONE);
3404
  switch (st)
3405
    {
3406
    case ST_NONE:
3407
      unexpected_eof ();
3408
 
3409
    case_end:
3410
      accept_statement (st);
3411
      my_ns->code = gfc_state_stack->head;
3412
      break;
3413
 
3414
    default:
3415
      unexpected_statement (st);
3416
      goto loop;
3417
    }
3418
 
3419
  gfc_current_ns = gfc_current_ns->parent;
3420
  pop_state ();
3421
}
3422
 
3423
 
3424
/* Parse a DO loop.  Note that the ST_CYCLE and ST_EXIT statements are
3425
   handled inside of parse_executable(), because they aren't really
3426
   loop statements.  */
3427
 
3428
static void
3429
parse_do_block (void)
3430
{
3431
  gfc_statement st;
3432
  gfc_code *top;
3433
  gfc_state_data s;
3434
  gfc_symtree *stree;
3435
  gfc_exec_op do_op;
3436
 
3437
  do_op = new_st.op;
3438
  s.ext.end_do_label = new_st.label1;
3439
 
3440
  if (new_st.ext.iterator != NULL)
3441
    stree = new_st.ext.iterator->var->symtree;
3442
  else
3443
    stree = NULL;
3444
 
3445
  accept_statement (ST_DO);
3446
 
3447
  top = gfc_state_stack->tail;
3448
  push_state (&s, do_op == EXEC_DO_CONCURRENT ? COMP_DO_CONCURRENT : COMP_DO,
3449
              gfc_new_block);
3450
 
3451
  s.do_variable = stree;
3452
 
3453
  top->block = new_level (top);
3454
  top->block->op = EXEC_DO;
3455
 
3456
loop:
3457
  st = parse_executable (ST_NONE);
3458
 
3459
  switch (st)
3460
    {
3461
    case ST_NONE:
3462
      unexpected_eof ();
3463
 
3464
    case ST_ENDDO:
3465
      if (s.ext.end_do_label != NULL
3466
          && s.ext.end_do_label != gfc_statement_label)
3467
        gfc_error_now ("Statement label in ENDDO at %C doesn't match "
3468
                       "DO label");
3469
 
3470
      if (gfc_statement_label != NULL)
3471
        {
3472
          new_st.op = EXEC_NOP;
3473
          add_statement ();
3474
        }
3475
      break;
3476
 
3477
    case ST_IMPLIED_ENDDO:
3478
     /* If the do-stmt of this DO construct has a do-construct-name,
3479
        the corresponding end-do must be an end-do-stmt (with a matching
3480
        name, but in that case we must have seen ST_ENDDO first).
3481
        We only complain about this in pedantic mode.  */
3482
     if (gfc_current_block () != NULL)
3483
        gfc_error_now ("Named block DO at %L requires matching ENDDO name",
3484
                       &gfc_current_block()->declared_at);
3485
 
3486
      break;
3487
 
3488
    default:
3489
      unexpected_statement (st);
3490
      goto loop;
3491
    }
3492
 
3493
  pop_state ();
3494
  accept_statement (st);
3495
}
3496
 
3497
 
3498
/* Parse the statements of OpenMP do/parallel do.  */
3499
 
3500
static gfc_statement
3501
parse_omp_do (gfc_statement omp_st)
3502
{
3503
  gfc_statement st;
3504
  gfc_code *cp, *np;
3505
  gfc_state_data s;
3506
 
3507
  accept_statement (omp_st);
3508
 
3509
  cp = gfc_state_stack->tail;
3510
  push_state (&s, COMP_OMP_STRUCTURED_BLOCK, NULL);
3511
  np = new_level (cp);
3512
  np->op = cp->op;
3513
  np->block = NULL;
3514
 
3515
  for (;;)
3516
    {
3517
      st = next_statement ();
3518
      if (st == ST_NONE)
3519
        unexpected_eof ();
3520
      else if (st == ST_DO)
3521
        break;
3522
      else
3523
        unexpected_statement (st);
3524
    }
3525
 
3526
  parse_do_block ();
3527
  if (gfc_statement_label != NULL
3528
      && gfc_state_stack->previous != NULL
3529
      && gfc_state_stack->previous->state == COMP_DO
3530
      && gfc_state_stack->previous->ext.end_do_label == gfc_statement_label)
3531
    {
3532
      /* In
3533
         DO 100 I=1,10
3534
           !$OMP DO
3535
             DO J=1,10
3536
             ...
3537
             100 CONTINUE
3538
         there should be no !$OMP END DO.  */
3539
      pop_state ();
3540
      return ST_IMPLIED_ENDDO;
3541
    }
3542
 
3543
  check_do_closure ();
3544
  pop_state ();
3545
 
3546
  st = next_statement ();
3547
  if (st == (omp_st == ST_OMP_DO ? ST_OMP_END_DO : ST_OMP_END_PARALLEL_DO))
3548
    {
3549
      if (new_st.op == EXEC_OMP_END_NOWAIT)
3550
        cp->ext.omp_clauses->nowait |= new_st.ext.omp_bool;
3551
      else
3552
        gcc_assert (new_st.op == EXEC_NOP);
3553
      gfc_clear_new_st ();
3554
      gfc_commit_symbols ();
3555
      gfc_warning_check ();
3556
      st = next_statement ();
3557
    }
3558
  return st;
3559
}
3560
 
3561
 
3562
/* Parse the statements of OpenMP atomic directive.  */
3563
 
3564
static gfc_statement
3565
parse_omp_atomic (void)
3566
{
3567
  gfc_statement st;
3568
  gfc_code *cp, *np;
3569
  gfc_state_data s;
3570
  int count;
3571
 
3572
  accept_statement (ST_OMP_ATOMIC);
3573
 
3574
  cp = gfc_state_stack->tail;
3575
  push_state (&s, COMP_OMP_STRUCTURED_BLOCK, NULL);
3576
  np = new_level (cp);
3577
  np->op = cp->op;
3578
  np->block = NULL;
3579
  count = 1 + (cp->ext.omp_atomic == GFC_OMP_ATOMIC_CAPTURE);
3580
 
3581
  while (count)
3582
    {
3583
      st = next_statement ();
3584
      if (st == ST_NONE)
3585
        unexpected_eof ();
3586
      else if (st == ST_ASSIGNMENT)
3587
        {
3588
          accept_statement (st);
3589
          count--;
3590
        }
3591
      else
3592
        unexpected_statement (st);
3593
    }
3594
 
3595
  pop_state ();
3596
 
3597
  st = next_statement ();
3598
  if (st == ST_OMP_END_ATOMIC)
3599
    {
3600
      gfc_clear_new_st ();
3601
      gfc_commit_symbols ();
3602
      gfc_warning_check ();
3603
      st = next_statement ();
3604
    }
3605
  else if (cp->ext.omp_atomic == GFC_OMP_ATOMIC_CAPTURE)
3606
    gfc_error ("Missing !$OMP END ATOMIC after !$OMP ATOMIC CAPTURE at %C");
3607
  return st;
3608
}
3609
 
3610
 
3611
/* Parse the statements of an OpenMP structured block.  */
3612
 
3613
static void
3614
parse_omp_structured_block (gfc_statement omp_st, bool workshare_stmts_only)
3615
{
3616
  gfc_statement st, omp_end_st;
3617
  gfc_code *cp, *np;
3618
  gfc_state_data s;
3619
 
3620
  accept_statement (omp_st);
3621
 
3622
  cp = gfc_state_stack->tail;
3623
  push_state (&s, COMP_OMP_STRUCTURED_BLOCK, NULL);
3624
  np = new_level (cp);
3625
  np->op = cp->op;
3626
  np->block = NULL;
3627
 
3628
  switch (omp_st)
3629
    {
3630
    case ST_OMP_PARALLEL:
3631
      omp_end_st = ST_OMP_END_PARALLEL;
3632
      break;
3633
    case ST_OMP_PARALLEL_SECTIONS:
3634
      omp_end_st = ST_OMP_END_PARALLEL_SECTIONS;
3635
      break;
3636
    case ST_OMP_SECTIONS:
3637
      omp_end_st = ST_OMP_END_SECTIONS;
3638
      break;
3639
    case ST_OMP_ORDERED:
3640
      omp_end_st = ST_OMP_END_ORDERED;
3641
      break;
3642
    case ST_OMP_CRITICAL:
3643
      omp_end_st = ST_OMP_END_CRITICAL;
3644
      break;
3645
    case ST_OMP_MASTER:
3646
      omp_end_st = ST_OMP_END_MASTER;
3647
      break;
3648
    case ST_OMP_SINGLE:
3649
      omp_end_st = ST_OMP_END_SINGLE;
3650
      break;
3651
    case ST_OMP_TASK:
3652
      omp_end_st = ST_OMP_END_TASK;
3653
      break;
3654
    case ST_OMP_WORKSHARE:
3655
      omp_end_st = ST_OMP_END_WORKSHARE;
3656
      break;
3657
    case ST_OMP_PARALLEL_WORKSHARE:
3658
      omp_end_st = ST_OMP_END_PARALLEL_WORKSHARE;
3659
      break;
3660
    default:
3661
      gcc_unreachable ();
3662
    }
3663
 
3664
  do
3665
    {
3666
      if (workshare_stmts_only)
3667
        {
3668
          /* Inside of !$omp workshare, only
3669
             scalar assignments
3670
             array assignments
3671
             where statements and constructs
3672
             forall statements and constructs
3673
             !$omp atomic
3674
             !$omp critical
3675
             !$omp parallel
3676
             are allowed.  For !$omp critical these
3677
             restrictions apply recursively.  */
3678
          bool cycle = true;
3679
 
3680
          st = next_statement ();
3681
          for (;;)
3682
            {
3683
              switch (st)
3684
                {
3685
                case ST_NONE:
3686
                  unexpected_eof ();
3687
 
3688
                case ST_ASSIGNMENT:
3689
                case ST_WHERE:
3690
                case ST_FORALL:
3691
                  accept_statement (st);
3692
                  break;
3693
 
3694
                case ST_WHERE_BLOCK:
3695
                  parse_where_block ();
3696
                  break;
3697
 
3698
                case ST_FORALL_BLOCK:
3699
                  parse_forall_block ();
3700
                  break;
3701
 
3702
                case ST_OMP_PARALLEL:
3703
                case ST_OMP_PARALLEL_SECTIONS:
3704
                  parse_omp_structured_block (st, false);
3705
                  break;
3706
 
3707
                case ST_OMP_PARALLEL_WORKSHARE:
3708
                case ST_OMP_CRITICAL:
3709
                  parse_omp_structured_block (st, true);
3710
                  break;
3711
 
3712
                case ST_OMP_PARALLEL_DO:
3713
                  st = parse_omp_do (st);
3714
                  continue;
3715
 
3716
                case ST_OMP_ATOMIC:
3717
                  st = parse_omp_atomic ();
3718
                  continue;
3719
 
3720
                default:
3721
                  cycle = false;
3722
                  break;
3723
                }
3724
 
3725
              if (!cycle)
3726
                break;
3727
 
3728
              st = next_statement ();
3729
            }
3730
        }
3731
      else
3732
        st = parse_executable (ST_NONE);
3733
      if (st == ST_NONE)
3734
        unexpected_eof ();
3735
      else if (st == ST_OMP_SECTION
3736
               && (omp_st == ST_OMP_SECTIONS
3737
                   || omp_st == ST_OMP_PARALLEL_SECTIONS))
3738
        {
3739
          np = new_level (np);
3740
          np->op = cp->op;
3741
          np->block = NULL;
3742
        }
3743
      else if (st != omp_end_st)
3744
        unexpected_statement (st);
3745
    }
3746
  while (st != omp_end_st);
3747
 
3748
  switch (new_st.op)
3749
    {
3750
    case EXEC_OMP_END_NOWAIT:
3751
      cp->ext.omp_clauses->nowait |= new_st.ext.omp_bool;
3752
      break;
3753
    case EXEC_OMP_CRITICAL:
3754
      if (((cp->ext.omp_name == NULL) ^ (new_st.ext.omp_name == NULL))
3755
          || (new_st.ext.omp_name != NULL
3756
              && strcmp (cp->ext.omp_name, new_st.ext.omp_name) != 0))
3757
        gfc_error ("Name after !$omp critical and !$omp end critical does "
3758
                   "not match at %C");
3759
      free (CONST_CAST (char *, new_st.ext.omp_name));
3760
      break;
3761
    case EXEC_OMP_END_SINGLE:
3762
      cp->ext.omp_clauses->lists[OMP_LIST_COPYPRIVATE]
3763
        = new_st.ext.omp_clauses->lists[OMP_LIST_COPYPRIVATE];
3764
      new_st.ext.omp_clauses->lists[OMP_LIST_COPYPRIVATE] = NULL;
3765
      gfc_free_omp_clauses (new_st.ext.omp_clauses);
3766
      break;
3767
    case EXEC_NOP:
3768
      break;
3769
    default:
3770
      gcc_unreachable ();
3771
    }
3772
 
3773
  gfc_clear_new_st ();
3774
  gfc_commit_symbols ();
3775
  gfc_warning_check ();
3776
  pop_state ();
3777
}
3778
 
3779
 
3780
/* Accept a series of executable statements.  We return the first
3781
   statement that doesn't fit to the caller.  Any block statements are
3782
   passed on to the correct handler, which usually passes the buck
3783
   right back here.  */
3784
 
3785
static gfc_statement
3786
parse_executable (gfc_statement st)
3787
{
3788
  int close_flag;
3789
 
3790
  if (st == ST_NONE)
3791
    st = next_statement ();
3792
 
3793
  for (;;)
3794
    {
3795
      close_flag = check_do_closure ();
3796
      if (close_flag)
3797
        switch (st)
3798
          {
3799
          case ST_GOTO:
3800
          case ST_END_PROGRAM:
3801
          case ST_RETURN:
3802
          case ST_EXIT:
3803
          case ST_END_FUNCTION:
3804
          case ST_CYCLE:
3805
          case ST_PAUSE:
3806
          case ST_STOP:
3807
          case ST_ERROR_STOP:
3808
          case ST_END_SUBROUTINE:
3809
 
3810
          case ST_DO:
3811
          case ST_FORALL:
3812
          case ST_WHERE:
3813
          case ST_SELECT_CASE:
3814
            gfc_error ("%s statement at %C cannot terminate a non-block "
3815
                       "DO loop", gfc_ascii_statement (st));
3816
            break;
3817
 
3818
          default:
3819
            break;
3820
          }
3821
 
3822
      switch (st)
3823
        {
3824
        case ST_NONE:
3825
          unexpected_eof ();
3826
 
3827
        case ST_FORMAT:
3828
        case ST_DATA:
3829
        case ST_ENTRY:
3830
        case_executable:
3831
          accept_statement (st);
3832
          if (close_flag == 1)
3833
            return ST_IMPLIED_ENDDO;
3834
          break;
3835
 
3836
        case ST_BLOCK:
3837
          parse_block_construct ();
3838
          break;
3839
 
3840
        case ST_ASSOCIATE:
3841
          parse_associate ();
3842
          break;
3843
 
3844
        case ST_IF_BLOCK:
3845
          parse_if_block ();
3846
          break;
3847
 
3848
        case ST_SELECT_CASE:
3849
          parse_select_block ();
3850
          break;
3851
 
3852
        case ST_SELECT_TYPE:
3853
          parse_select_type_block();
3854
          break;
3855
 
3856
        case ST_DO:
3857
          parse_do_block ();
3858
          if (check_do_closure () == 1)
3859
            return ST_IMPLIED_ENDDO;
3860
          break;
3861
 
3862
        case ST_CRITICAL:
3863
          parse_critical_block ();
3864
          break;
3865
 
3866
        case ST_WHERE_BLOCK:
3867
          parse_where_block ();
3868
          break;
3869
 
3870
        case ST_FORALL_BLOCK:
3871
          parse_forall_block ();
3872
          break;
3873
 
3874
        case ST_OMP_PARALLEL:
3875
        case ST_OMP_PARALLEL_SECTIONS:
3876
        case ST_OMP_SECTIONS:
3877
        case ST_OMP_ORDERED:
3878
        case ST_OMP_CRITICAL:
3879
        case ST_OMP_MASTER:
3880
        case ST_OMP_SINGLE:
3881
        case ST_OMP_TASK:
3882
          parse_omp_structured_block (st, false);
3883
          break;
3884
 
3885
        case ST_OMP_WORKSHARE:
3886
        case ST_OMP_PARALLEL_WORKSHARE:
3887
          parse_omp_structured_block (st, true);
3888
          break;
3889
 
3890
        case ST_OMP_DO:
3891
        case ST_OMP_PARALLEL_DO:
3892
          st = parse_omp_do (st);
3893
          if (st == ST_IMPLIED_ENDDO)
3894
            return st;
3895
          continue;
3896
 
3897
        case ST_OMP_ATOMIC:
3898
          st = parse_omp_atomic ();
3899
          continue;
3900
 
3901
        default:
3902
          return st;
3903
        }
3904
 
3905
      st = next_statement ();
3906
    }
3907
}
3908
 
3909
 
3910
/* Fix the symbols for sibling functions.  These are incorrectly added to
3911
   the child namespace as the parser didn't know about this procedure.  */
3912
 
3913
static void
3914
gfc_fixup_sibling_symbols (gfc_symbol *sym, gfc_namespace *siblings)
3915
{
3916
  gfc_namespace *ns;
3917
  gfc_symtree *st;
3918
  gfc_symbol *old_sym;
3919
 
3920
  sym->attr.referenced = 1;
3921
  for (ns = siblings; ns; ns = ns->sibling)
3922
    {
3923
      st = gfc_find_symtree (ns->sym_root, sym->name);
3924
 
3925
      if (!st || (st->n.sym->attr.dummy && ns == st->n.sym->ns))
3926
        goto fixup_contained;
3927
 
3928
      if ((st->n.sym->attr.flavor == FL_DERIVED
3929
           && sym->attr.generic && sym->attr.function)
3930
          ||(sym->attr.flavor == FL_DERIVED
3931
             && st->n.sym->attr.generic && st->n.sym->attr.function))
3932
        goto fixup_contained;
3933
 
3934
      old_sym = st->n.sym;
3935
      if (old_sym->ns == ns
3936
            && !old_sym->attr.contained
3937
 
3938
            /* By 14.6.1.3, host association should be excluded
3939
               for the following.  */
3940
            && !(old_sym->attr.external
3941
                  || (old_sym->ts.type != BT_UNKNOWN
3942
                        && !old_sym->attr.implicit_type)
3943
                  || old_sym->attr.flavor == FL_PARAMETER
3944
                  || old_sym->attr.use_assoc
3945
                  || old_sym->attr.in_common
3946
                  || old_sym->attr.in_equivalence
3947
                  || old_sym->attr.data
3948
                  || old_sym->attr.dummy
3949
                  || old_sym->attr.result
3950
                  || old_sym->attr.dimension
3951
                  || old_sym->attr.allocatable
3952
                  || old_sym->attr.intrinsic
3953
                  || old_sym->attr.generic
3954
                  || old_sym->attr.flavor == FL_NAMELIST
3955
                  || old_sym->attr.flavor == FL_LABEL
3956
                  || old_sym->attr.proc == PROC_ST_FUNCTION))
3957
        {
3958
          /* Replace it with the symbol from the parent namespace.  */
3959
          st->n.sym = sym;
3960
          sym->refs++;
3961
 
3962
          gfc_release_symbol (old_sym);
3963
        }
3964
 
3965
fixup_contained:
3966
      /* Do the same for any contained procedures.  */
3967
      gfc_fixup_sibling_symbols (sym, ns->contained);
3968
    }
3969
}
3970
 
3971
static void
3972
parse_contained (int module)
3973
{
3974
  gfc_namespace *ns, *parent_ns, *tmp;
3975
  gfc_state_data s1, s2;
3976
  gfc_statement st;
3977
  gfc_symbol *sym;
3978
  gfc_entry_list *el;
3979
  int contains_statements = 0;
3980
  int seen_error = 0;
3981
 
3982
  push_state (&s1, COMP_CONTAINS, NULL);
3983
  parent_ns = gfc_current_ns;
3984
 
3985
  do
3986
    {
3987
      gfc_current_ns = gfc_get_namespace (parent_ns, 1);
3988
 
3989
      gfc_current_ns->sibling = parent_ns->contained;
3990
      parent_ns->contained = gfc_current_ns;
3991
 
3992
 next:
3993
      /* Process the next available statement.  We come here if we got an error
3994
         and rejected the last statement.  */
3995
      st = next_statement ();
3996
 
3997
      switch (st)
3998
        {
3999
        case ST_NONE:
4000
          unexpected_eof ();
4001
 
4002
        case ST_FUNCTION:
4003
        case ST_SUBROUTINE:
4004
          contains_statements = 1;
4005
          accept_statement (st);
4006
 
4007
          push_state (&s2,
4008
                      (st == ST_FUNCTION) ? COMP_FUNCTION : COMP_SUBROUTINE,
4009
                      gfc_new_block);
4010
 
4011
          /* For internal procedures, create/update the symbol in the
4012
             parent namespace.  */
4013
 
4014
          if (!module)
4015
            {
4016
              if (gfc_get_symbol (gfc_new_block->name, parent_ns, &sym))
4017
                gfc_error ("Contained procedure '%s' at %C is already "
4018
                           "ambiguous", gfc_new_block->name);
4019
              else
4020
                {
4021
                  if (gfc_add_procedure (&sym->attr, PROC_INTERNAL, sym->name,
4022
                                         &gfc_new_block->declared_at) ==
4023
                      SUCCESS)
4024
                    {
4025
                      if (st == ST_FUNCTION)
4026
                        gfc_add_function (&sym->attr, sym->name,
4027
                                          &gfc_new_block->declared_at);
4028
                      else
4029
                        gfc_add_subroutine (&sym->attr, sym->name,
4030
                                            &gfc_new_block->declared_at);
4031
                    }
4032
                }
4033
 
4034
              gfc_commit_symbols ();
4035
            }
4036
          else
4037
            sym = gfc_new_block;
4038
 
4039
          /* Mark this as a contained function, so it isn't replaced
4040
             by other module functions.  */
4041
          sym->attr.contained = 1;
4042
          sym->attr.referenced = 1;
4043
 
4044
          /* Set implicit_pure so that it can be reset if any of the
4045
             tests for purity fail.  This is used for some optimisation
4046
             during translation.  */
4047
          if (!sym->attr.pure)
4048
            sym->attr.implicit_pure = 1;
4049
 
4050
          parse_progunit (ST_NONE);
4051
 
4052
          /* Fix up any sibling functions that refer to this one.  */
4053
          gfc_fixup_sibling_symbols (sym, gfc_current_ns);
4054
          /* Or refer to any of its alternate entry points.  */
4055
          for (el = gfc_current_ns->entries; el; el = el->next)
4056
            gfc_fixup_sibling_symbols (el->sym, gfc_current_ns);
4057
 
4058
          gfc_current_ns->code = s2.head;
4059
          gfc_current_ns = parent_ns;
4060
 
4061
          pop_state ();
4062
          break;
4063
 
4064
        /* These statements are associated with the end of the host unit.  */
4065
        case ST_END_FUNCTION:
4066
        case ST_END_MODULE:
4067
        case ST_END_PROGRAM:
4068
        case ST_END_SUBROUTINE:
4069
          accept_statement (st);
4070
          break;
4071
 
4072
        default:
4073
          gfc_error ("Unexpected %s statement in CONTAINS section at %C",
4074
                     gfc_ascii_statement (st));
4075
          reject_statement ();
4076
          seen_error = 1;
4077
          goto next;
4078
          break;
4079
        }
4080
    }
4081
  while (st != ST_END_FUNCTION && st != ST_END_SUBROUTINE
4082
         && st != ST_END_MODULE && st != ST_END_PROGRAM);
4083
 
4084
  /* The first namespace in the list is guaranteed to not have
4085
     anything (worthwhile) in it.  */
4086
  tmp = gfc_current_ns;
4087
  gfc_current_ns = parent_ns;
4088
  if (seen_error && tmp->refs > 1)
4089
    gfc_free_namespace (tmp);
4090
 
4091
  ns = gfc_current_ns->contained;
4092
  gfc_current_ns->contained = ns->sibling;
4093
  gfc_free_namespace (ns);
4094
 
4095
  pop_state ();
4096
  if (!contains_statements)
4097
    gfc_notify_std (GFC_STD_F2008, "Fortran 2008: CONTAINS statement without "
4098
                    "FUNCTION or SUBROUTINE statement at %C");
4099
}
4100
 
4101
 
4102
/* Parse a PROGRAM, SUBROUTINE, FUNCTION unit or BLOCK construct.  */
4103
 
4104
static void
4105
parse_progunit (gfc_statement st)
4106
{
4107
  gfc_state_data *p;
4108
  int n;
4109
 
4110
  st = parse_spec (st);
4111
  switch (st)
4112
    {
4113
    case ST_NONE:
4114
      unexpected_eof ();
4115
 
4116
    case ST_CONTAINS:
4117
      /* This is not allowed within BLOCK!  */
4118
      if (gfc_current_state () != COMP_BLOCK)
4119
        goto contains;
4120
      break;
4121
 
4122
    case_end:
4123
      accept_statement (st);
4124
      goto done;
4125
 
4126
    default:
4127
      break;
4128
    }
4129
 
4130
  if (gfc_current_state () == COMP_FUNCTION)
4131
    gfc_check_function_type (gfc_current_ns);
4132
 
4133
loop:
4134
  for (;;)
4135
    {
4136
      st = parse_executable (st);
4137
 
4138
      switch (st)
4139
        {
4140
        case ST_NONE:
4141
          unexpected_eof ();
4142
 
4143
        case ST_CONTAINS:
4144
          /* This is not allowed within BLOCK!  */
4145
          if (gfc_current_state () != COMP_BLOCK)
4146
            goto contains;
4147
          break;
4148
 
4149
        case_end:
4150
          accept_statement (st);
4151
          goto done;
4152
 
4153
        default:
4154
          break;
4155
        }
4156
 
4157
      unexpected_statement (st);
4158
      reject_statement ();
4159
      st = next_statement ();
4160
    }
4161
 
4162
contains:
4163
  n = 0;
4164
 
4165
  for (p = gfc_state_stack; p; p = p->previous)
4166
    if (p->state == COMP_CONTAINS)
4167
      n++;
4168
 
4169
  if (gfc_find_state (COMP_MODULE) == SUCCESS)
4170
    n--;
4171
 
4172
  if (n > 0)
4173
    {
4174
      gfc_error ("CONTAINS statement at %C is already in a contained "
4175
                 "program unit");
4176
      reject_statement ();
4177
      st = next_statement ();
4178
      goto loop;
4179
    }
4180
 
4181
  parse_contained (0);
4182
 
4183
done:
4184
  gfc_current_ns->code = gfc_state_stack->head;
4185
}
4186
 
4187
 
4188
/* Come here to complain about a global symbol already in use as
4189
   something else.  */
4190
 
4191
void
4192
gfc_global_used (gfc_gsymbol *sym, locus *where)
4193
{
4194
  const char *name;
4195
 
4196
  if (where == NULL)
4197
    where = &gfc_current_locus;
4198
 
4199
  switch(sym->type)
4200
    {
4201
    case GSYM_PROGRAM:
4202
      name = "PROGRAM";
4203
      break;
4204
    case GSYM_FUNCTION:
4205
      name = "FUNCTION";
4206
      break;
4207
    case GSYM_SUBROUTINE:
4208
      name = "SUBROUTINE";
4209
      break;
4210
    case GSYM_COMMON:
4211
      name = "COMMON";
4212
      break;
4213
    case GSYM_BLOCK_DATA:
4214
      name = "BLOCK DATA";
4215
      break;
4216
    case GSYM_MODULE:
4217
      name = "MODULE";
4218
      break;
4219
    default:
4220
      gfc_internal_error ("gfc_global_used(): Bad type");
4221
      name = NULL;
4222
    }
4223
 
4224
  gfc_error("Global name '%s' at %L is already being used as a %s at %L",
4225
              sym->name, where, name, &sym->where);
4226
}
4227
 
4228
 
4229
/* Parse a block data program unit.  */
4230
 
4231
static void
4232
parse_block_data (void)
4233
{
4234
  gfc_statement st;
4235
  static locus blank_locus;
4236
  static int blank_block=0;
4237
  gfc_gsymbol *s;
4238
 
4239
  gfc_current_ns->proc_name = gfc_new_block;
4240
  gfc_current_ns->is_block_data = 1;
4241
 
4242
  if (gfc_new_block == NULL)
4243
    {
4244
      if (blank_block)
4245
       gfc_error ("Blank BLOCK DATA at %C conflicts with "
4246
                  "prior BLOCK DATA at %L", &blank_locus);
4247
      else
4248
       {
4249
         blank_block = 1;
4250
         blank_locus = gfc_current_locus;
4251
       }
4252
    }
4253
  else
4254
    {
4255
      s = gfc_get_gsymbol (gfc_new_block->name);
4256
      if (s->defined
4257
          || (s->type != GSYM_UNKNOWN && s->type != GSYM_BLOCK_DATA))
4258
       gfc_global_used(s, NULL);
4259
      else
4260
       {
4261
         s->type = GSYM_BLOCK_DATA;
4262
         s->where = gfc_current_locus;
4263
         s->defined = 1;
4264
       }
4265
    }
4266
 
4267
  st = parse_spec (ST_NONE);
4268
 
4269
  while (st != ST_END_BLOCK_DATA)
4270
    {
4271
      gfc_error ("Unexpected %s statement in BLOCK DATA at %C",
4272
                 gfc_ascii_statement (st));
4273
      reject_statement ();
4274
      st = next_statement ();
4275
    }
4276
}
4277
 
4278
 
4279
/* Parse a module subprogram.  */
4280
 
4281
static void
4282
parse_module (void)
4283
{
4284
  gfc_statement st;
4285
  gfc_gsymbol *s;
4286
 
4287
  s = gfc_get_gsymbol (gfc_new_block->name);
4288
  if (s->defined || (s->type != GSYM_UNKNOWN && s->type != GSYM_MODULE))
4289
    gfc_global_used(s, NULL);
4290
  else
4291
    {
4292
      s->type = GSYM_MODULE;
4293
      s->where = gfc_current_locus;
4294
      s->defined = 1;
4295
    }
4296
 
4297
  st = parse_spec (ST_NONE);
4298
 
4299
loop:
4300
  switch (st)
4301
    {
4302
    case ST_NONE:
4303
      unexpected_eof ();
4304
 
4305
    case ST_CONTAINS:
4306
      parse_contained (1);
4307
      break;
4308
 
4309
    case ST_END_MODULE:
4310
      accept_statement (st);
4311
      break;
4312
 
4313
    default:
4314
      gfc_error ("Unexpected %s statement in MODULE at %C",
4315
                 gfc_ascii_statement (st));
4316
 
4317
      reject_statement ();
4318
      st = next_statement ();
4319
      goto loop;
4320
    }
4321
 
4322
  s->ns = gfc_current_ns;
4323
}
4324
 
4325
 
4326
/* Add a procedure name to the global symbol table.  */
4327
 
4328
static void
4329
add_global_procedure (int sub)
4330
{
4331
  gfc_gsymbol *s;
4332
 
4333
  s = gfc_get_gsymbol(gfc_new_block->name);
4334
 
4335
  if (s->defined
4336
      || (s->type != GSYM_UNKNOWN
4337
          && s->type != (sub ? GSYM_SUBROUTINE : GSYM_FUNCTION)))
4338
    gfc_global_used(s, NULL);
4339
  else
4340
    {
4341
      s->type = sub ? GSYM_SUBROUTINE : GSYM_FUNCTION;
4342
      s->where = gfc_current_locus;
4343
      s->defined = 1;
4344
      s->ns = gfc_current_ns;
4345
    }
4346
}
4347
 
4348
 
4349
/* Add a program to the global symbol table.  */
4350
 
4351
static void
4352
add_global_program (void)
4353
{
4354
  gfc_gsymbol *s;
4355
 
4356
  if (gfc_new_block == NULL)
4357
    return;
4358
  s = gfc_get_gsymbol (gfc_new_block->name);
4359
 
4360
  if (s->defined || (s->type != GSYM_UNKNOWN && s->type != GSYM_PROGRAM))
4361
    gfc_global_used(s, NULL);
4362
  else
4363
    {
4364
      s->type = GSYM_PROGRAM;
4365
      s->where = gfc_current_locus;
4366
      s->defined = 1;
4367
      s->ns = gfc_current_ns;
4368
    }
4369
}
4370
 
4371
 
4372
/* Resolve all the program units when whole file scope option
4373
   is active. */
4374
static void
4375
resolve_all_program_units (gfc_namespace *gfc_global_ns_list)
4376
{
4377
  gfc_free_dt_list ();
4378
  gfc_current_ns = gfc_global_ns_list;
4379
  for (; gfc_current_ns; gfc_current_ns = gfc_current_ns->sibling)
4380
    {
4381
      if (gfc_current_ns->proc_name
4382
          && gfc_current_ns->proc_name->attr.flavor == FL_MODULE)
4383
        continue; /* Already resolved.  */
4384
 
4385
      if (gfc_current_ns->proc_name)
4386
        gfc_current_locus = gfc_current_ns->proc_name->declared_at;
4387
      gfc_resolve (gfc_current_ns);
4388
      gfc_current_ns->derived_types = gfc_derived_types;
4389
      gfc_derived_types = NULL;
4390
    }
4391
}
4392
 
4393
 
4394
static void
4395
clean_up_modules (gfc_gsymbol *gsym)
4396
{
4397
  if (gsym == NULL)
4398
    return;
4399
 
4400
  clean_up_modules (gsym->left);
4401
  clean_up_modules (gsym->right);
4402
 
4403
  if (gsym->type != GSYM_MODULE || !gsym->ns)
4404
    return;
4405
 
4406
  gfc_current_ns = gsym->ns;
4407
  gfc_derived_types = gfc_current_ns->derived_types;
4408
  gfc_done_2 ();
4409
  gsym->ns = NULL;
4410
  return;
4411
}
4412
 
4413
 
4414
/* Translate all the program units when whole file scope option
4415
   is active. This could be in a different order to resolution if
4416
   there are forward references in the file.  */
4417
static void
4418
translate_all_program_units (gfc_namespace *gfc_global_ns_list,
4419
                             bool main_in_tu)
4420
{
4421
  int errors;
4422
 
4423
  gfc_current_ns = gfc_global_ns_list;
4424
  gfc_get_errors (NULL, &errors);
4425
 
4426
  /* If the main program is in the translation unit and we have
4427
     -fcoarray=libs, generate the static variables.  */
4428
  if (gfc_option.coarray == GFC_FCOARRAY_LIB && main_in_tu)
4429
    gfc_init_coarray_decl (true);
4430
 
4431
  /* We first translate all modules to make sure that later parts
4432
     of the program can use the decl. Then we translate the nonmodules.  */
4433
 
4434
  for (; !errors && gfc_current_ns; gfc_current_ns = gfc_current_ns->sibling)
4435
    {
4436
      if (!gfc_current_ns->proc_name
4437
          || gfc_current_ns->proc_name->attr.flavor != FL_MODULE)
4438
        continue;
4439
 
4440
      gfc_current_locus = gfc_current_ns->proc_name->declared_at;
4441
      gfc_derived_types = gfc_current_ns->derived_types;
4442
      gfc_generate_module_code (gfc_current_ns);
4443
      gfc_current_ns->translated = 1;
4444
    }
4445
 
4446
  gfc_current_ns = gfc_global_ns_list;
4447
  for (; !errors && gfc_current_ns; gfc_current_ns = gfc_current_ns->sibling)
4448
    {
4449
      if (gfc_current_ns->proc_name
4450
          && gfc_current_ns->proc_name->attr.flavor == FL_MODULE)
4451
        continue;
4452
 
4453
      gfc_current_locus = gfc_current_ns->proc_name->declared_at;
4454
      gfc_derived_types = gfc_current_ns->derived_types;
4455
      gfc_generate_code (gfc_current_ns);
4456
      gfc_current_ns->translated = 1;
4457
    }
4458
 
4459
  /* Clean up all the namespaces after translation.  */
4460
  gfc_current_ns = gfc_global_ns_list;
4461
  for (;gfc_current_ns;)
4462
    {
4463
      gfc_namespace *ns;
4464
 
4465
      if (gfc_current_ns->proc_name
4466
          && gfc_current_ns->proc_name->attr.flavor == FL_MODULE)
4467
        {
4468
          gfc_current_ns = gfc_current_ns->sibling;
4469
          continue;
4470
        }
4471
 
4472
      ns = gfc_current_ns->sibling;
4473
      gfc_derived_types = gfc_current_ns->derived_types;
4474
      gfc_done_2 ();
4475
      gfc_current_ns = ns;
4476
    }
4477
 
4478
  clean_up_modules (gfc_gsym_root);
4479
}
4480
 
4481
 
4482
/* Top level parser.  */
4483
 
4484
gfc_try
4485
gfc_parse_file (void)
4486
{
4487
  int seen_program, errors_before, errors;
4488
  gfc_state_data top, s;
4489
  gfc_statement st;
4490
  locus prog_locus;
4491
  gfc_namespace *next;
4492
 
4493
  gfc_start_source_files ();
4494
 
4495
  top.state = COMP_NONE;
4496
  top.sym = NULL;
4497
  top.previous = NULL;
4498
  top.head = top.tail = NULL;
4499
  top.do_variable = NULL;
4500
 
4501
  gfc_state_stack = &top;
4502
 
4503
  gfc_clear_new_st ();
4504
 
4505
  gfc_statement_label = NULL;
4506
 
4507
  if (setjmp (eof_buf))
4508
    return FAILURE;     /* Come here on unexpected EOF */
4509
 
4510
  /* Prepare the global namespace that will contain the
4511
     program units.  */
4512
  gfc_global_ns_list = next = NULL;
4513
 
4514
  seen_program = 0;
4515
 
4516
  /* Exit early for empty files.  */
4517
  if (gfc_at_eof ())
4518
    goto done;
4519
 
4520
loop:
4521
  gfc_init_2 ();
4522
  st = next_statement ();
4523
  switch (st)
4524
    {
4525
    case ST_NONE:
4526
      gfc_done_2 ();
4527
      goto done;
4528
 
4529
    case ST_PROGRAM:
4530
      if (seen_program)
4531
        goto duplicate_main;
4532
      seen_program = 1;
4533
      prog_locus = gfc_current_locus;
4534
 
4535
      push_state (&s, COMP_PROGRAM, gfc_new_block);
4536
      main_program_symbol(gfc_current_ns, gfc_new_block->name);
4537
      accept_statement (st);
4538
      add_global_program ();
4539
      parse_progunit (ST_NONE);
4540
      if (gfc_option.flag_whole_file)
4541
        goto prog_units;
4542
      break;
4543
 
4544
    case ST_SUBROUTINE:
4545
      add_global_procedure (1);
4546
      push_state (&s, COMP_SUBROUTINE, gfc_new_block);
4547
      accept_statement (st);
4548
      parse_progunit (ST_NONE);
4549
      if (gfc_option.flag_whole_file)
4550
        goto prog_units;
4551
      break;
4552
 
4553
    case ST_FUNCTION:
4554
      add_global_procedure (0);
4555
      push_state (&s, COMP_FUNCTION, gfc_new_block);
4556
      accept_statement (st);
4557
      parse_progunit (ST_NONE);
4558
      if (gfc_option.flag_whole_file)
4559
        goto prog_units;
4560
      break;
4561
 
4562
    case ST_BLOCK_DATA:
4563
      push_state (&s, COMP_BLOCK_DATA, gfc_new_block);
4564
      accept_statement (st);
4565
      parse_block_data ();
4566
      break;
4567
 
4568
    case ST_MODULE:
4569
      push_state (&s, COMP_MODULE, gfc_new_block);
4570
      accept_statement (st);
4571
 
4572
      gfc_get_errors (NULL, &errors_before);
4573
      parse_module ();
4574
      break;
4575
 
4576
    /* Anything else starts a nameless main program block.  */
4577
    default:
4578
      if (seen_program)
4579
        goto duplicate_main;
4580
      seen_program = 1;
4581
      prog_locus = gfc_current_locus;
4582
 
4583
      push_state (&s, COMP_PROGRAM, gfc_new_block);
4584
      main_program_symbol (gfc_current_ns, "MAIN__");
4585
      parse_progunit (st);
4586
      if (gfc_option.flag_whole_file)
4587
        goto prog_units;
4588
      break;
4589
    }
4590
 
4591
  /* Handle the non-program units.  */
4592
  gfc_current_ns->code = s.head;
4593
 
4594
  gfc_resolve (gfc_current_ns);
4595
 
4596
  /* Dump the parse tree if requested.  */
4597
  if (gfc_option.dump_fortran_original)
4598
    gfc_dump_parse_tree (gfc_current_ns, stdout);
4599
 
4600
  gfc_get_errors (NULL, &errors);
4601
  if (s.state == COMP_MODULE)
4602
    {
4603
      gfc_dump_module (s.sym->name, errors_before == errors);
4604
      if (!gfc_option.flag_whole_file)
4605
        {
4606
          if (errors == 0)
4607
            gfc_generate_module_code (gfc_current_ns);
4608
          pop_state ();
4609
          gfc_done_2 ();
4610
        }
4611
      else
4612
        {
4613
          gfc_current_ns->derived_types = gfc_derived_types;
4614
          gfc_derived_types = NULL;
4615
          goto prog_units;
4616
        }
4617
    }
4618
  else
4619
    {
4620
      if (errors == 0)
4621
        gfc_generate_code (gfc_current_ns);
4622
      pop_state ();
4623
      gfc_done_2 ();
4624
    }
4625
 
4626
  goto loop;
4627
 
4628
prog_units:
4629
  /* The main program and non-contained procedures are put
4630
     in the global namespace list, so that they can be processed
4631
     later and all their interfaces resolved.  */
4632
  gfc_current_ns->code = s.head;
4633
  if (next)
4634
    {
4635
      for (; next->sibling; next = next->sibling)
4636
        ;
4637
      next->sibling = gfc_current_ns;
4638
    }
4639
  else
4640
    gfc_global_ns_list = gfc_current_ns;
4641
 
4642
  next = gfc_current_ns;
4643
 
4644
  pop_state ();
4645
  goto loop;
4646
 
4647
  done:
4648
 
4649
  if (!gfc_option.flag_whole_file)
4650
    goto termination;
4651
 
4652
  /* Do the resolution.  */
4653
  resolve_all_program_units (gfc_global_ns_list);
4654
 
4655
  /* Do the parse tree dump.  */
4656
  gfc_current_ns
4657
        = gfc_option.dump_fortran_original ? gfc_global_ns_list : NULL;
4658
 
4659
  for (; gfc_current_ns; gfc_current_ns = gfc_current_ns->sibling)
4660
    if (!gfc_current_ns->proc_name
4661
        || gfc_current_ns->proc_name->attr.flavor != FL_MODULE)
4662
      {
4663
        gfc_dump_parse_tree (gfc_current_ns, stdout);
4664
        fputs ("------------------------------------------\n\n", stdout);
4665
      }
4666
 
4667
  /* Do the translation.  */
4668
  translate_all_program_units (gfc_global_ns_list, seen_program);
4669
 
4670
termination:
4671
 
4672
  gfc_end_source_files ();
4673
  return SUCCESS;
4674
 
4675
duplicate_main:
4676
  /* If we see a duplicate main program, shut down.  If the second
4677
     instance is an implied main program, i.e. data decls or executable
4678
     statements, we're in for lots of errors.  */
4679
  gfc_error ("Two main PROGRAMs at %L and %C", &prog_locus);
4680
  reject_statement ();
4681
  gfc_done_2 ();
4682
  return SUCCESS;
4683
}

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