OpenCores
URL https://opencores.org/ocsvn/openrisc/openrisc/trunk

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [fortran/] [openmp.c] - Blame information for rev 801

Go to most recent revision | Details | Compare with Previous | View Log

Line No. Rev Author Line
1 712 jeremybenn
/* OpenMP directive matching and resolving.
2
   Copyright (C) 2005, 2006, 2007, 2008, 2010, 2011
3
   Free Software Foundation, Inc.
4
   Contributed by Jakub Jelinek
5
 
6
This file is part of GCC.
7
 
8
GCC is free software; you can redistribute it and/or modify it under
9
the terms of the GNU General Public License as published by the Free
10
Software Foundation; either version 3, or (at your option) any later
11
version.
12
 
13
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
14
WARRANTY; without even the implied warranty of MERCHANTABILITY or
15
FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
16
for more details.
17
 
18
You should have received a copy of the GNU General Public License
19
along with GCC; see the file COPYING3.  If not see
20
<http://www.gnu.org/licenses/>.  */
21
 
22
#include "config.h"
23
#include "system.h"
24
#include "flags.h"
25
#include "gfortran.h"
26
#include "match.h"
27
#include "parse.h"
28
#include "pointer-set.h"
29
 
30
/* Match an end of OpenMP directive.  End of OpenMP directive is optional
31
   whitespace, followed by '\n' or comment '!'.  */
32
 
33
match
34
gfc_match_omp_eos (void)
35
{
36
  locus old_loc;
37
  char c;
38
 
39
  old_loc = gfc_current_locus;
40
  gfc_gobble_whitespace ();
41
 
42
  c = gfc_next_ascii_char ();
43
  switch (c)
44
    {
45
    case '!':
46
      do
47
        c = gfc_next_ascii_char ();
48
      while (c != '\n');
49
      /* Fall through */
50
 
51
    case '\n':
52
      return MATCH_YES;
53
    }
54
 
55
  gfc_current_locus = old_loc;
56
  return MATCH_NO;
57
}
58
 
59
/* Free an omp_clauses structure.  */
60
 
61
void
62
gfc_free_omp_clauses (gfc_omp_clauses *c)
63
{
64
  int i;
65
  if (c == NULL)
66
    return;
67
 
68
  gfc_free_expr (c->if_expr);
69
  gfc_free_expr (c->final_expr);
70
  gfc_free_expr (c->num_threads);
71
  gfc_free_expr (c->chunk_size);
72
  for (i = 0; i < OMP_LIST_NUM; i++)
73
    gfc_free_namelist (c->lists[i]);
74
  free (c);
75
}
76
 
77
/* Match a variable/common block list and construct a namelist from it.  */
78
 
79
static match
80
gfc_match_omp_variable_list (const char *str, gfc_namelist **list,
81
                             bool allow_common)
82
{
83
  gfc_namelist *head, *tail, *p;
84
  locus old_loc;
85
  char n[GFC_MAX_SYMBOL_LEN+1];
86
  gfc_symbol *sym;
87
  match m;
88
  gfc_symtree *st;
89
 
90
  head = tail = NULL;
91
 
92
  old_loc = gfc_current_locus;
93
 
94
  m = gfc_match (str);
95
  if (m != MATCH_YES)
96
    return m;
97
 
98
  for (;;)
99
    {
100
      m = gfc_match_symbol (&sym, 1);
101
      switch (m)
102
        {
103
        case MATCH_YES:
104
          gfc_set_sym_referenced (sym);
105
          p = gfc_get_namelist ();
106
          if (head == NULL)
107
            head = tail = p;
108
          else
109
            {
110
              tail->next = p;
111
              tail = tail->next;
112
            }
113
          tail->sym = sym;
114
          goto next_item;
115
        case MATCH_NO:
116
          break;
117
        case MATCH_ERROR:
118
          goto cleanup;
119
        }
120
 
121
      if (!allow_common)
122
        goto syntax;
123
 
124
      m = gfc_match (" / %n /", n);
125
      if (m == MATCH_ERROR)
126
        goto cleanup;
127
      if (m == MATCH_NO)
128
        goto syntax;
129
 
130
      st = gfc_find_symtree (gfc_current_ns->common_root, n);
131
      if (st == NULL)
132
        {
133
          gfc_error ("COMMON block /%s/ not found at %C", n);
134
          goto cleanup;
135
        }
136
      for (sym = st->n.common->head; sym; sym = sym->common_next)
137
        {
138
          gfc_set_sym_referenced (sym);
139
          p = gfc_get_namelist ();
140
          if (head == NULL)
141
            head = tail = p;
142
          else
143
            {
144
              tail->next = p;
145
              tail = tail->next;
146
            }
147
          tail->sym = sym;
148
        }
149
 
150
    next_item:
151
      if (gfc_match_char (')') == MATCH_YES)
152
        break;
153
      if (gfc_match_char (',') != MATCH_YES)
154
        goto syntax;
155
    }
156
 
157
  while (*list)
158
    list = &(*list)->next;
159
 
160
  *list = head;
161
  return MATCH_YES;
162
 
163
syntax:
164
  gfc_error ("Syntax error in OpenMP variable list at %C");
165
 
166
cleanup:
167
  gfc_free_namelist (head);
168
  gfc_current_locus = old_loc;
169
  return MATCH_ERROR;
170
}
171
 
172
#define OMP_CLAUSE_PRIVATE      (1 << 0)
173
#define OMP_CLAUSE_FIRSTPRIVATE (1 << 1)
174
#define OMP_CLAUSE_LASTPRIVATE  (1 << 2)
175
#define OMP_CLAUSE_COPYPRIVATE  (1 << 3)
176
#define OMP_CLAUSE_SHARED       (1 << 4)
177
#define OMP_CLAUSE_COPYIN       (1 << 5)
178
#define OMP_CLAUSE_REDUCTION    (1 << 6)
179
#define OMP_CLAUSE_IF           (1 << 7)
180
#define OMP_CLAUSE_NUM_THREADS  (1 << 8)
181
#define OMP_CLAUSE_SCHEDULE     (1 << 9)
182
#define OMP_CLAUSE_DEFAULT      (1 << 10)
183
#define OMP_CLAUSE_ORDERED      (1 << 11)
184
#define OMP_CLAUSE_COLLAPSE     (1 << 12)
185
#define OMP_CLAUSE_UNTIED       (1 << 13)
186
#define OMP_CLAUSE_FINAL        (1 << 14)
187
#define OMP_CLAUSE_MERGEABLE    (1 << 15)
188
 
189
/* Match OpenMP directive clauses. MASK is a bitmask of
190
   clauses that are allowed for a particular directive.  */
191
 
192
static match
193
gfc_match_omp_clauses (gfc_omp_clauses **cp, int mask)
194
{
195
  gfc_omp_clauses *c = gfc_get_omp_clauses ();
196
  locus old_loc;
197
  bool needs_space = true, first = true;
198
 
199
  *cp = NULL;
200
  while (1)
201
    {
202
      if ((first || gfc_match_char (',') != MATCH_YES)
203
          && (needs_space && gfc_match_space () != MATCH_YES))
204
        break;
205
      needs_space = false;
206
      first = false;
207
      gfc_gobble_whitespace ();
208
      if ((mask & OMP_CLAUSE_IF) && c->if_expr == NULL
209
          && gfc_match ("if ( %e )", &c->if_expr) == MATCH_YES)
210
        continue;
211
      if ((mask & OMP_CLAUSE_FINAL) && c->final_expr == NULL
212
          && gfc_match ("final ( %e )", &c->final_expr) == MATCH_YES)
213
        continue;
214
      if ((mask & OMP_CLAUSE_NUM_THREADS) && c->num_threads == NULL
215
          && gfc_match ("num_threads ( %e )", &c->num_threads) == MATCH_YES)
216
        continue;
217
      if ((mask & OMP_CLAUSE_PRIVATE)
218
          && gfc_match_omp_variable_list ("private (",
219
                                          &c->lists[OMP_LIST_PRIVATE], true)
220
             == MATCH_YES)
221
        continue;
222
      if ((mask & OMP_CLAUSE_FIRSTPRIVATE)
223
          && gfc_match_omp_variable_list ("firstprivate (",
224
                                          &c->lists[OMP_LIST_FIRSTPRIVATE],
225
                                          true)
226
             == MATCH_YES)
227
        continue;
228
      if ((mask & OMP_CLAUSE_LASTPRIVATE)
229
          && gfc_match_omp_variable_list ("lastprivate (",
230
                                          &c->lists[OMP_LIST_LASTPRIVATE],
231
                                          true)
232
             == MATCH_YES)
233
        continue;
234
      if ((mask & OMP_CLAUSE_COPYPRIVATE)
235
          && gfc_match_omp_variable_list ("copyprivate (",
236
                                          &c->lists[OMP_LIST_COPYPRIVATE],
237
                                          true)
238
             == MATCH_YES)
239
        continue;
240
      if ((mask & OMP_CLAUSE_SHARED)
241
          && gfc_match_omp_variable_list ("shared (",
242
                                          &c->lists[OMP_LIST_SHARED], true)
243
             == MATCH_YES)
244
        continue;
245
      if ((mask & OMP_CLAUSE_COPYIN)
246
          && gfc_match_omp_variable_list ("copyin (",
247
                                          &c->lists[OMP_LIST_COPYIN], true)
248
             == MATCH_YES)
249
        continue;
250
      old_loc = gfc_current_locus;
251
      if ((mask & OMP_CLAUSE_REDUCTION)
252
          && gfc_match ("reduction ( ") == MATCH_YES)
253
        {
254
          int reduction = OMP_LIST_NUM;
255
          char buffer[GFC_MAX_SYMBOL_LEN + 1];
256
          if (gfc_match_char ('+') == MATCH_YES)
257
            reduction = OMP_LIST_PLUS;
258
          else if (gfc_match_char ('*') == MATCH_YES)
259
            reduction = OMP_LIST_MULT;
260
          else if (gfc_match_char ('-') == MATCH_YES)
261
            reduction = OMP_LIST_SUB;
262
          else if (gfc_match (".and.") == MATCH_YES)
263
            reduction = OMP_LIST_AND;
264
          else if (gfc_match (".or.") == MATCH_YES)
265
            reduction = OMP_LIST_OR;
266
          else if (gfc_match (".eqv.") == MATCH_YES)
267
            reduction = OMP_LIST_EQV;
268
          else if (gfc_match (".neqv.") == MATCH_YES)
269
            reduction = OMP_LIST_NEQV;
270
          else if (gfc_match_name (buffer) == MATCH_YES)
271
            {
272
              gfc_symbol *sym;
273
              const char *n = buffer;
274
 
275
              gfc_find_symbol (buffer, NULL, 1, &sym);
276
              if (sym != NULL)
277
                {
278
                  if (sym->attr.intrinsic)
279
                    n = sym->name;
280
                  else if ((sym->attr.flavor != FL_UNKNOWN
281
                            && sym->attr.flavor != FL_PROCEDURE)
282
                           || sym->attr.external
283
                           || sym->attr.generic
284
                           || sym->attr.entry
285
                           || sym->attr.result
286
                           || sym->attr.dummy
287
                           || sym->attr.subroutine
288
                           || sym->attr.pointer
289
                           || sym->attr.target
290
                           || sym->attr.cray_pointer
291
                           || sym->attr.cray_pointee
292
                           || (sym->attr.proc != PROC_UNKNOWN
293
                               && sym->attr.proc != PROC_INTRINSIC)
294
                           || sym->attr.if_source != IFSRC_UNKNOWN
295
                           || sym == sym->ns->proc_name)
296
                    {
297
                      gfc_error_now ("%s is not INTRINSIC procedure name "
298
                                     "at %C", buffer);
299
                      sym = NULL;
300
                    }
301
                  else
302
                    n = sym->name;
303
                }
304
              if (strcmp (n, "max") == 0)
305
                reduction = OMP_LIST_MAX;
306
              else if (strcmp (n, "min") == 0)
307
                reduction = OMP_LIST_MIN;
308
              else if (strcmp (n, "iand") == 0)
309
                reduction = OMP_LIST_IAND;
310
              else if (strcmp (n, "ior") == 0)
311
                reduction = OMP_LIST_IOR;
312
              else if (strcmp (n, "ieor") == 0)
313
                reduction = OMP_LIST_IEOR;
314
              if (reduction != OMP_LIST_NUM
315
                  && sym != NULL
316
                  && ! sym->attr.intrinsic
317
                  && ! sym->attr.use_assoc
318
                  && ((sym->attr.flavor == FL_UNKNOWN
319
                       && gfc_add_flavor (&sym->attr, FL_PROCEDURE,
320
                                          sym->name, NULL) == FAILURE)
321
                      || gfc_add_intrinsic (&sym->attr, NULL) == FAILURE))
322
                {
323
                  gfc_free_omp_clauses (c);
324
                  return MATCH_ERROR;
325
                }
326
            }
327
          if (reduction != OMP_LIST_NUM
328
              && gfc_match_omp_variable_list (" :", &c->lists[reduction],
329
                                              false)
330
                 == MATCH_YES)
331
            continue;
332
          else
333
            gfc_current_locus = old_loc;
334
        }
335
      if ((mask & OMP_CLAUSE_DEFAULT)
336
          && c->default_sharing == OMP_DEFAULT_UNKNOWN)
337
        {
338
          if (gfc_match ("default ( shared )") == MATCH_YES)
339
            c->default_sharing = OMP_DEFAULT_SHARED;
340
          else if (gfc_match ("default ( private )") == MATCH_YES)
341
            c->default_sharing = OMP_DEFAULT_PRIVATE;
342
          else if (gfc_match ("default ( none )") == MATCH_YES)
343
            c->default_sharing = OMP_DEFAULT_NONE;
344
          else if (gfc_match ("default ( firstprivate )") == MATCH_YES)
345
            c->default_sharing = OMP_DEFAULT_FIRSTPRIVATE;
346
          if (c->default_sharing != OMP_DEFAULT_UNKNOWN)
347
            continue;
348
        }
349
      old_loc = gfc_current_locus;
350
      if ((mask & OMP_CLAUSE_SCHEDULE)
351
          && c->sched_kind == OMP_SCHED_NONE
352
          && gfc_match ("schedule ( ") == MATCH_YES)
353
        {
354
          if (gfc_match ("static") == MATCH_YES)
355
            c->sched_kind = OMP_SCHED_STATIC;
356
          else if (gfc_match ("dynamic") == MATCH_YES)
357
            c->sched_kind = OMP_SCHED_DYNAMIC;
358
          else if (gfc_match ("guided") == MATCH_YES)
359
            c->sched_kind = OMP_SCHED_GUIDED;
360
          else if (gfc_match ("runtime") == MATCH_YES)
361
            c->sched_kind = OMP_SCHED_RUNTIME;
362
          else if (gfc_match ("auto") == MATCH_YES)
363
            c->sched_kind = OMP_SCHED_AUTO;
364
          if (c->sched_kind != OMP_SCHED_NONE)
365
            {
366
              match m = MATCH_NO;
367
              if (c->sched_kind != OMP_SCHED_RUNTIME
368
                  && c->sched_kind != OMP_SCHED_AUTO)
369
                m = gfc_match (" , %e )", &c->chunk_size);
370
              if (m != MATCH_YES)
371
                m = gfc_match_char (')');
372
              if (m != MATCH_YES)
373
                c->sched_kind = OMP_SCHED_NONE;
374
            }
375
          if (c->sched_kind != OMP_SCHED_NONE)
376
            continue;
377
          else
378
            gfc_current_locus = old_loc;
379
        }
380
      if ((mask & OMP_CLAUSE_ORDERED) && !c->ordered
381
          && gfc_match ("ordered") == MATCH_YES)
382
        {
383
          c->ordered = needs_space = true;
384
          continue;
385
        }
386
      if ((mask & OMP_CLAUSE_UNTIED) && !c->untied
387
          && gfc_match ("untied") == MATCH_YES)
388
        {
389
          c->untied = needs_space = true;
390
          continue;
391
        }
392
      if ((mask & OMP_CLAUSE_MERGEABLE) && !c->mergeable
393
          && gfc_match ("mergeable") == MATCH_YES)
394
        {
395
          c->mergeable = needs_space = true;
396
          continue;
397
        }
398
      if ((mask & OMP_CLAUSE_COLLAPSE) && !c->collapse)
399
        {
400
          gfc_expr *cexpr = NULL;
401
          match m = gfc_match ("collapse ( %e )", &cexpr);
402
 
403
          if (m == MATCH_YES)
404
            {
405
              int collapse;
406
              const char *p = gfc_extract_int (cexpr, &collapse);
407
              if (p)
408
                {
409
                  gfc_error_now (p);
410
                  collapse = 1;
411
                }
412
              else if (collapse <= 0)
413
                {
414
                  gfc_error_now ("COLLAPSE clause argument not"
415
                                 " constant positive integer at %C");
416
                  collapse = 1;
417
                }
418
              c->collapse = collapse;
419
              gfc_free_expr (cexpr);
420
              continue;
421
            }
422
        }
423
 
424
      break;
425
    }
426
 
427
  if (gfc_match_omp_eos () != MATCH_YES)
428
    {
429
      gfc_free_omp_clauses (c);
430
      return MATCH_ERROR;
431
    }
432
 
433
  *cp = c;
434
  return MATCH_YES;
435
}
436
 
437
#define OMP_PARALLEL_CLAUSES \
438
  (OMP_CLAUSE_PRIVATE | OMP_CLAUSE_FIRSTPRIVATE | OMP_CLAUSE_SHARED     \
439
   | OMP_CLAUSE_COPYIN | OMP_CLAUSE_REDUCTION | OMP_CLAUSE_IF           \
440
   | OMP_CLAUSE_NUM_THREADS | OMP_CLAUSE_DEFAULT)
441
#define OMP_DO_CLAUSES \
442
  (OMP_CLAUSE_PRIVATE | OMP_CLAUSE_FIRSTPRIVATE                         \
443
   | OMP_CLAUSE_LASTPRIVATE | OMP_CLAUSE_REDUCTION                      \
444
   | OMP_CLAUSE_SCHEDULE | OMP_CLAUSE_ORDERED | OMP_CLAUSE_COLLAPSE)
445
#define OMP_SECTIONS_CLAUSES \
446
  (OMP_CLAUSE_PRIVATE | OMP_CLAUSE_FIRSTPRIVATE                         \
447
   | OMP_CLAUSE_LASTPRIVATE | OMP_CLAUSE_REDUCTION)
448
#define OMP_TASK_CLAUSES \
449
  (OMP_CLAUSE_PRIVATE | OMP_CLAUSE_FIRSTPRIVATE | OMP_CLAUSE_SHARED     \
450
   | OMP_CLAUSE_IF | OMP_CLAUSE_DEFAULT | OMP_CLAUSE_UNTIED             \
451
   | OMP_CLAUSE_FINAL | OMP_CLAUSE_MERGEABLE)
452
 
453
match
454
gfc_match_omp_parallel (void)
455
{
456
  gfc_omp_clauses *c;
457
  if (gfc_match_omp_clauses (&c, OMP_PARALLEL_CLAUSES) != MATCH_YES)
458
    return MATCH_ERROR;
459
  new_st.op = EXEC_OMP_PARALLEL;
460
  new_st.ext.omp_clauses = c;
461
  return MATCH_YES;
462
}
463
 
464
 
465
match
466
gfc_match_omp_task (void)
467
{
468
  gfc_omp_clauses *c;
469
  if (gfc_match_omp_clauses (&c, OMP_TASK_CLAUSES) != MATCH_YES)
470
    return MATCH_ERROR;
471
  new_st.op = EXEC_OMP_TASK;
472
  new_st.ext.omp_clauses = c;
473
  return MATCH_YES;
474
}
475
 
476
 
477
match
478
gfc_match_omp_taskwait (void)
479
{
480
  if (gfc_match_omp_eos () != MATCH_YES)
481
    {
482
      gfc_error ("Unexpected junk after TASKWAIT clause at %C");
483
      return MATCH_ERROR;
484
    }
485
  new_st.op = EXEC_OMP_TASKWAIT;
486
  new_st.ext.omp_clauses = NULL;
487
  return MATCH_YES;
488
}
489
 
490
 
491
match
492
gfc_match_omp_taskyield (void)
493
{
494
  if (gfc_match_omp_eos () != MATCH_YES)
495
    {
496
      gfc_error ("Unexpected junk after TASKYIELD clause at %C");
497
      return MATCH_ERROR;
498
    }
499
  new_st.op = EXEC_OMP_TASKYIELD;
500
  new_st.ext.omp_clauses = NULL;
501
  return MATCH_YES;
502
}
503
 
504
 
505
match
506
gfc_match_omp_critical (void)
507
{
508
  char n[GFC_MAX_SYMBOL_LEN+1];
509
 
510
  if (gfc_match (" ( %n )", n) != MATCH_YES)
511
    n[0] = '\0';
512
  if (gfc_match_omp_eos () != MATCH_YES)
513
    {
514
      gfc_error ("Unexpected junk after $OMP CRITICAL statement at %C");
515
      return MATCH_ERROR;
516
    }
517
  new_st.op = EXEC_OMP_CRITICAL;
518
  new_st.ext.omp_name = n[0] ? xstrdup (n) : NULL;
519
  return MATCH_YES;
520
}
521
 
522
 
523
match
524
gfc_match_omp_do (void)
525
{
526
  gfc_omp_clauses *c;
527
  if (gfc_match_omp_clauses (&c, OMP_DO_CLAUSES) != MATCH_YES)
528
    return MATCH_ERROR;
529
  new_st.op = EXEC_OMP_DO;
530
  new_st.ext.omp_clauses = c;
531
  return MATCH_YES;
532
}
533
 
534
 
535
match
536
gfc_match_omp_flush (void)
537
{
538
  gfc_namelist *list = NULL;
539
  gfc_match_omp_variable_list (" (", &list, true);
540
  if (gfc_match_omp_eos () != MATCH_YES)
541
    {
542
      gfc_error ("Unexpected junk after $OMP FLUSH statement at %C");
543
      gfc_free_namelist (list);
544
      return MATCH_ERROR;
545
    }
546
  new_st.op = EXEC_OMP_FLUSH;
547
  new_st.ext.omp_namelist = list;
548
  return MATCH_YES;
549
}
550
 
551
 
552
match
553
gfc_match_omp_threadprivate (void)
554
{
555
  locus old_loc;
556
  char n[GFC_MAX_SYMBOL_LEN+1];
557
  gfc_symbol *sym;
558
  match m;
559
  gfc_symtree *st;
560
 
561
  old_loc = gfc_current_locus;
562
 
563
  m = gfc_match (" (");
564
  if (m != MATCH_YES)
565
    return m;
566
 
567
  for (;;)
568
    {
569
      m = gfc_match_symbol (&sym, 0);
570
      switch (m)
571
        {
572
        case MATCH_YES:
573
          if (sym->attr.in_common)
574
            gfc_error_now ("Threadprivate variable at %C is an element of "
575
                           "a COMMON block");
576
          else if (gfc_add_threadprivate (&sym->attr, sym->name,
577
                   &sym->declared_at) == FAILURE)
578
            goto cleanup;
579
          goto next_item;
580
        case MATCH_NO:
581
          break;
582
        case MATCH_ERROR:
583
          goto cleanup;
584
        }
585
 
586
      m = gfc_match (" / %n /", n);
587
      if (m == MATCH_ERROR)
588
        goto cleanup;
589
      if (m == MATCH_NO || n[0] == '\0')
590
        goto syntax;
591
 
592
      st = gfc_find_symtree (gfc_current_ns->common_root, n);
593
      if (st == NULL)
594
        {
595
          gfc_error ("COMMON block /%s/ not found at %C", n);
596
          goto cleanup;
597
        }
598
      st->n.common->threadprivate = 1;
599
      for (sym = st->n.common->head; sym; sym = sym->common_next)
600
        if (gfc_add_threadprivate (&sym->attr, sym->name,
601
                                   &sym->declared_at) == FAILURE)
602
          goto cleanup;
603
 
604
    next_item:
605
      if (gfc_match_char (')') == MATCH_YES)
606
        break;
607
      if (gfc_match_char (',') != MATCH_YES)
608
        goto syntax;
609
    }
610
 
611
  return MATCH_YES;
612
 
613
syntax:
614
  gfc_error ("Syntax error in !$OMP THREADPRIVATE list at %C");
615
 
616
cleanup:
617
  gfc_current_locus = old_loc;
618
  return MATCH_ERROR;
619
}
620
 
621
 
622
match
623
gfc_match_omp_parallel_do (void)
624
{
625
  gfc_omp_clauses *c;
626
  if (gfc_match_omp_clauses (&c, OMP_PARALLEL_CLAUSES | OMP_DO_CLAUSES)
627
      != MATCH_YES)
628
    return MATCH_ERROR;
629
  new_st.op = EXEC_OMP_PARALLEL_DO;
630
  new_st.ext.omp_clauses = c;
631
  return MATCH_YES;
632
}
633
 
634
 
635
match
636
gfc_match_omp_parallel_sections (void)
637
{
638
  gfc_omp_clauses *c;
639
  if (gfc_match_omp_clauses (&c, OMP_PARALLEL_CLAUSES | OMP_SECTIONS_CLAUSES)
640
      != MATCH_YES)
641
    return MATCH_ERROR;
642
  new_st.op = EXEC_OMP_PARALLEL_SECTIONS;
643
  new_st.ext.omp_clauses = c;
644
  return MATCH_YES;
645
}
646
 
647
 
648
match
649
gfc_match_omp_parallel_workshare (void)
650
{
651
  gfc_omp_clauses *c;
652
  if (gfc_match_omp_clauses (&c, OMP_PARALLEL_CLAUSES) != MATCH_YES)
653
    return MATCH_ERROR;
654
  new_st.op = EXEC_OMP_PARALLEL_WORKSHARE;
655
  new_st.ext.omp_clauses = c;
656
  return MATCH_YES;
657
}
658
 
659
 
660
match
661
gfc_match_omp_sections (void)
662
{
663
  gfc_omp_clauses *c;
664
  if (gfc_match_omp_clauses (&c, OMP_SECTIONS_CLAUSES) != MATCH_YES)
665
    return MATCH_ERROR;
666
  new_st.op = EXEC_OMP_SECTIONS;
667
  new_st.ext.omp_clauses = c;
668
  return MATCH_YES;
669
}
670
 
671
 
672
match
673
gfc_match_omp_single (void)
674
{
675
  gfc_omp_clauses *c;
676
  if (gfc_match_omp_clauses (&c, OMP_CLAUSE_PRIVATE | OMP_CLAUSE_FIRSTPRIVATE)
677
      != MATCH_YES)
678
    return MATCH_ERROR;
679
  new_st.op = EXEC_OMP_SINGLE;
680
  new_st.ext.omp_clauses = c;
681
  return MATCH_YES;
682
}
683
 
684
 
685
match
686
gfc_match_omp_workshare (void)
687
{
688
  if (gfc_match_omp_eos () != MATCH_YES)
689
    {
690
      gfc_error ("Unexpected junk after $OMP WORKSHARE statement at %C");
691
      return MATCH_ERROR;
692
    }
693
  new_st.op = EXEC_OMP_WORKSHARE;
694
  new_st.ext.omp_clauses = gfc_get_omp_clauses ();
695
  return MATCH_YES;
696
}
697
 
698
 
699
match
700
gfc_match_omp_master (void)
701
{
702
  if (gfc_match_omp_eos () != MATCH_YES)
703
    {
704
      gfc_error ("Unexpected junk after $OMP MASTER statement at %C");
705
      return MATCH_ERROR;
706
    }
707
  new_st.op = EXEC_OMP_MASTER;
708
  new_st.ext.omp_clauses = NULL;
709
  return MATCH_YES;
710
}
711
 
712
 
713
match
714
gfc_match_omp_ordered (void)
715
{
716
  if (gfc_match_omp_eos () != MATCH_YES)
717
    {
718
      gfc_error ("Unexpected junk after $OMP ORDERED statement at %C");
719
      return MATCH_ERROR;
720
    }
721
  new_st.op = EXEC_OMP_ORDERED;
722
  new_st.ext.omp_clauses = NULL;
723
  return MATCH_YES;
724
}
725
 
726
 
727
match
728
gfc_match_omp_atomic (void)
729
{
730
  gfc_omp_atomic_op op = GFC_OMP_ATOMIC_UPDATE;
731
  if (gfc_match ("% update") == MATCH_YES)
732
    op = GFC_OMP_ATOMIC_UPDATE;
733
  else if (gfc_match ("% read") == MATCH_YES)
734
    op = GFC_OMP_ATOMIC_READ;
735
  else if (gfc_match ("% write") == MATCH_YES)
736
    op = GFC_OMP_ATOMIC_WRITE;
737
  else if (gfc_match ("% capture") == MATCH_YES)
738
    op = GFC_OMP_ATOMIC_CAPTURE;
739
  if (gfc_match_omp_eos () != MATCH_YES)
740
    {
741
      gfc_error ("Unexpected junk after $OMP ATOMIC statement at %C");
742
      return MATCH_ERROR;
743
    }
744
  new_st.op = EXEC_OMP_ATOMIC;
745
  new_st.ext.omp_atomic = op;
746
  return MATCH_YES;
747
}
748
 
749
 
750
match
751
gfc_match_omp_barrier (void)
752
{
753
  if (gfc_match_omp_eos () != MATCH_YES)
754
    {
755
      gfc_error ("Unexpected junk after $OMP BARRIER statement at %C");
756
      return MATCH_ERROR;
757
    }
758
  new_st.op = EXEC_OMP_BARRIER;
759
  new_st.ext.omp_clauses = NULL;
760
  return MATCH_YES;
761
}
762
 
763
 
764
match
765
gfc_match_omp_end_nowait (void)
766
{
767
  bool nowait = false;
768
  if (gfc_match ("% nowait") == MATCH_YES)
769
    nowait = true;
770
  if (gfc_match_omp_eos () != MATCH_YES)
771
    {
772
      gfc_error ("Unexpected junk after NOWAIT clause at %C");
773
      return MATCH_ERROR;
774
    }
775
  new_st.op = EXEC_OMP_END_NOWAIT;
776
  new_st.ext.omp_bool = nowait;
777
  return MATCH_YES;
778
}
779
 
780
 
781
match
782
gfc_match_omp_end_single (void)
783
{
784
  gfc_omp_clauses *c;
785
  if (gfc_match ("% nowait") == MATCH_YES)
786
    {
787
      new_st.op = EXEC_OMP_END_NOWAIT;
788
      new_st.ext.omp_bool = true;
789
      return MATCH_YES;
790
    }
791
  if (gfc_match_omp_clauses (&c, OMP_CLAUSE_COPYPRIVATE) != MATCH_YES)
792
    return MATCH_ERROR;
793
  new_st.op = EXEC_OMP_END_SINGLE;
794
  new_st.ext.omp_clauses = c;
795
  return MATCH_YES;
796
}
797
 
798
 
799
/* OpenMP directive resolving routines.  */
800
 
801
static void
802
resolve_omp_clauses (gfc_code *code)
803
{
804
  gfc_omp_clauses *omp_clauses = code->ext.omp_clauses;
805
  gfc_namelist *n;
806
  int list;
807
  static const char *clause_names[]
808
    = { "PRIVATE", "FIRSTPRIVATE", "LASTPRIVATE", "COPYPRIVATE", "SHARED",
809
        "COPYIN", "REDUCTION" };
810
 
811
  if (omp_clauses == NULL)
812
    return;
813
 
814
  if (omp_clauses->if_expr)
815
    {
816
      gfc_expr *expr = omp_clauses->if_expr;
817
      if (gfc_resolve_expr (expr) == FAILURE
818
          || expr->ts.type != BT_LOGICAL || expr->rank != 0)
819
        gfc_error ("IF clause at %L requires a scalar LOGICAL expression",
820
                   &expr->where);
821
    }
822
  if (omp_clauses->final_expr)
823
    {
824
      gfc_expr *expr = omp_clauses->final_expr;
825
      if (gfc_resolve_expr (expr) == FAILURE
826
          || expr->ts.type != BT_LOGICAL || expr->rank != 0)
827
        gfc_error ("FINAL clause at %L requires a scalar LOGICAL expression",
828
                   &expr->where);
829
    }
830
  if (omp_clauses->num_threads)
831
    {
832
      gfc_expr *expr = omp_clauses->num_threads;
833
      if (gfc_resolve_expr (expr) == FAILURE
834
          || expr->ts.type != BT_INTEGER || expr->rank != 0)
835
        gfc_error ("NUM_THREADS clause at %L requires a scalar "
836
                   "INTEGER expression", &expr->where);
837
    }
838
  if (omp_clauses->chunk_size)
839
    {
840
      gfc_expr *expr = omp_clauses->chunk_size;
841
      if (gfc_resolve_expr (expr) == FAILURE
842
          || expr->ts.type != BT_INTEGER || expr->rank != 0)
843
        gfc_error ("SCHEDULE clause's chunk_size at %L requires "
844
                   "a scalar INTEGER expression", &expr->where);
845
    }
846
 
847
  /* Check that no symbol appears on multiple clauses, except that
848
     a symbol can appear on both firstprivate and lastprivate.  */
849
  for (list = 0; list < OMP_LIST_NUM; list++)
850
    for (n = omp_clauses->lists[list]; n; n = n->next)
851
      {
852
        n->sym->mark = 0;
853
        if (n->sym->attr.flavor == FL_VARIABLE)
854
          continue;
855
        if (n->sym->attr.flavor == FL_PROCEDURE
856
            && n->sym->result == n->sym
857
            && n->sym->attr.function)
858
          {
859
            if (gfc_current_ns->proc_name == n->sym
860
                || (gfc_current_ns->parent
861
                    && gfc_current_ns->parent->proc_name == n->sym))
862
              continue;
863
            if (gfc_current_ns->proc_name->attr.entry_master)
864
              {
865
                gfc_entry_list *el = gfc_current_ns->entries;
866
                for (; el; el = el->next)
867
                  if (el->sym == n->sym)
868
                    break;
869
                if (el)
870
                  continue;
871
              }
872
            if (gfc_current_ns->parent
873
                && gfc_current_ns->parent->proc_name->attr.entry_master)
874
              {
875
                gfc_entry_list *el = gfc_current_ns->parent->entries;
876
                for (; el; el = el->next)
877
                  if (el->sym == n->sym)
878
                    break;
879
                if (el)
880
                  continue;
881
              }
882
            if (n->sym->attr.proc_pointer)
883
              continue;
884
          }
885
        gfc_error ("Object '%s' is not a variable at %L", n->sym->name,
886
                   &code->loc);
887
      }
888
 
889
  for (list = 0; list < OMP_LIST_NUM; list++)
890
    if (list != OMP_LIST_FIRSTPRIVATE && list != OMP_LIST_LASTPRIVATE)
891
      for (n = omp_clauses->lists[list]; n; n = n->next)
892
        {
893
          if (n->sym->mark)
894
            gfc_error ("Symbol '%s' present on multiple clauses at %L",
895
                       n->sym->name, &code->loc);
896
          else
897
            n->sym->mark = 1;
898
        }
899
 
900
  gcc_assert (OMP_LIST_LASTPRIVATE == OMP_LIST_FIRSTPRIVATE + 1);
901
  for (list = OMP_LIST_FIRSTPRIVATE; list <= OMP_LIST_LASTPRIVATE; list++)
902
    for (n = omp_clauses->lists[list]; n; n = n->next)
903
      if (n->sym->mark)
904
        {
905
          gfc_error ("Symbol '%s' present on multiple clauses at %L",
906
                     n->sym->name, &code->loc);
907
          n->sym->mark = 0;
908
        }
909
 
910
  for (n = omp_clauses->lists[OMP_LIST_FIRSTPRIVATE]; n; n = n->next)
911
    {
912
      if (n->sym->mark)
913
        gfc_error ("Symbol '%s' present on multiple clauses at %L",
914
                   n->sym->name, &code->loc);
915
      else
916
        n->sym->mark = 1;
917
    }
918
  for (n = omp_clauses->lists[OMP_LIST_LASTPRIVATE]; n; n = n->next)
919
    n->sym->mark = 0;
920
 
921
  for (n = omp_clauses->lists[OMP_LIST_LASTPRIVATE]; n; n = n->next)
922
    {
923
      if (n->sym->mark)
924
        gfc_error ("Symbol '%s' present on multiple clauses at %L",
925
                   n->sym->name, &code->loc);
926
      else
927
        n->sym->mark = 1;
928
    }
929
  for (list = 0; list < OMP_LIST_NUM; list++)
930
    if ((n = omp_clauses->lists[list]) != NULL)
931
      {
932
        const char *name;
933
 
934
        if (list < OMP_LIST_REDUCTION_FIRST)
935
          name = clause_names[list];
936
        else if (list <= OMP_LIST_REDUCTION_LAST)
937
          name = clause_names[OMP_LIST_REDUCTION_FIRST];
938
        else
939
          gcc_unreachable ();
940
 
941
        switch (list)
942
          {
943
          case OMP_LIST_COPYIN:
944
            for (; n != NULL; n = n->next)
945
              {
946
                if (!n->sym->attr.threadprivate)
947
                  gfc_error ("Non-THREADPRIVATE object '%s' in COPYIN clause"
948
                             " at %L", n->sym->name, &code->loc);
949
                if (n->sym->ts.type == BT_DERIVED && n->sym->ts.u.derived->attr.alloc_comp)
950
                  gfc_error ("COPYIN clause object '%s' at %L has ALLOCATABLE components",
951
                             n->sym->name, &code->loc);
952
              }
953
            break;
954
          case OMP_LIST_COPYPRIVATE:
955
            for (; n != NULL; n = n->next)
956
              {
957
                if (n->sym->as && n->sym->as->type == AS_ASSUMED_SIZE)
958
                  gfc_error ("Assumed size array '%s' in COPYPRIVATE clause "
959
                             "at %L", n->sym->name, &code->loc);
960
                if (n->sym->ts.type == BT_DERIVED && n->sym->ts.u.derived->attr.alloc_comp)
961
                  gfc_error ("COPYPRIVATE clause object '%s' at %L has ALLOCATABLE components",
962
                             n->sym->name, &code->loc);
963
              }
964
            break;
965
          case OMP_LIST_SHARED:
966
            for (; n != NULL; n = n->next)
967
              {
968
                if (n->sym->attr.threadprivate)
969
                  gfc_error ("THREADPRIVATE object '%s' in SHARED clause at "
970
                             "%L", n->sym->name, &code->loc);
971
                if (n->sym->attr.cray_pointee)
972
                  gfc_error ("Cray pointee '%s' in SHARED clause at %L",
973
                            n->sym->name, &code->loc);
974
              }
975
            break;
976
          default:
977
            for (; n != NULL; n = n->next)
978
              {
979
                if (n->sym->attr.threadprivate)
980
                  gfc_error ("THREADPRIVATE object '%s' in %s clause at %L",
981
                             n->sym->name, name, &code->loc);
982
                if (n->sym->attr.cray_pointee)
983
                  gfc_error ("Cray pointee '%s' in %s clause at %L",
984
                            n->sym->name, name, &code->loc);
985
                if (list != OMP_LIST_PRIVATE)
986
                  {
987
                    if (n->sym->attr.pointer
988
                        && list >= OMP_LIST_REDUCTION_FIRST
989
                        && list <= OMP_LIST_REDUCTION_LAST)
990
                      gfc_error ("POINTER object '%s' in %s clause at %L",
991
                                 n->sym->name, name, &code->loc);
992
                    /* Variables in REDUCTION-clauses must be of intrinsic type (flagged below).  */
993
                    if ((list < OMP_LIST_REDUCTION_FIRST || list > OMP_LIST_REDUCTION_LAST)
994
                         && n->sym->ts.type == BT_DERIVED
995
                         && n->sym->ts.u.derived->attr.alloc_comp)
996
                      gfc_error ("%s clause object '%s' has ALLOCATABLE components at %L",
997
                                 name, n->sym->name, &code->loc);
998
                    if (n->sym->attr.cray_pointer
999
                        && list >= OMP_LIST_REDUCTION_FIRST
1000
                        && list <= OMP_LIST_REDUCTION_LAST)
1001
                      gfc_error ("Cray pointer '%s' in %s clause at %L",
1002
                                 n->sym->name, name, &code->loc);
1003
                  }
1004
                if (n->sym->as && n->sym->as->type == AS_ASSUMED_SIZE)
1005
                  gfc_error ("Assumed size array '%s' in %s clause at %L",
1006
                             n->sym->name, name, &code->loc);
1007
                if (n->sym->attr.in_namelist
1008
                    && (list < OMP_LIST_REDUCTION_FIRST
1009
                        || list > OMP_LIST_REDUCTION_LAST))
1010
                  gfc_error ("Variable '%s' in %s clause is used in "
1011
                             "NAMELIST statement at %L",
1012
                             n->sym->name, name, &code->loc);
1013
                switch (list)
1014
                  {
1015
                  case OMP_LIST_PLUS:
1016
                  case OMP_LIST_MULT:
1017
                  case OMP_LIST_SUB:
1018
                    if (!gfc_numeric_ts (&n->sym->ts))
1019
                      gfc_error ("%c REDUCTION variable '%s' at %L must be of numeric type, got %s",
1020
                                 list == OMP_LIST_PLUS ? '+'
1021
                                 : list == OMP_LIST_MULT ? '*' : '-',
1022
                                 n->sym->name, &code->loc,
1023
                                 gfc_typename (&n->sym->ts));
1024
                    break;
1025
                  case OMP_LIST_AND:
1026
                  case OMP_LIST_OR:
1027
                  case OMP_LIST_EQV:
1028
                  case OMP_LIST_NEQV:
1029
                    if (n->sym->ts.type != BT_LOGICAL)
1030
                      gfc_error ("%s REDUCTION variable '%s' must be LOGICAL "
1031
                                 "at %L",
1032
                                 list == OMP_LIST_AND ? ".AND."
1033
                                 : list == OMP_LIST_OR ? ".OR."
1034
                                 : list == OMP_LIST_EQV ? ".EQV." : ".NEQV.",
1035
                                 n->sym->name, &code->loc);
1036
                    break;
1037
                  case OMP_LIST_MAX:
1038
                  case OMP_LIST_MIN:
1039
                    if (n->sym->ts.type != BT_INTEGER
1040
                        && n->sym->ts.type != BT_REAL)
1041
                      gfc_error ("%s REDUCTION variable '%s' must be "
1042
                                 "INTEGER or REAL at %L",
1043
                                 list == OMP_LIST_MAX ? "MAX" : "MIN",
1044
                                 n->sym->name, &code->loc);
1045
                    break;
1046
                  case OMP_LIST_IAND:
1047
                  case OMP_LIST_IOR:
1048
                  case OMP_LIST_IEOR:
1049
                    if (n->sym->ts.type != BT_INTEGER)
1050
                      gfc_error ("%s REDUCTION variable '%s' must be INTEGER "
1051
                                 "at %L",
1052
                                 list == OMP_LIST_IAND ? "IAND"
1053
                                 : list == OMP_LIST_MULT ? "IOR" : "IEOR",
1054
                                 n->sym->name, &code->loc);
1055
                    break;
1056
                  /* Workaround for PR middle-end/26316, nothing really needs
1057
                     to be done here for OMP_LIST_PRIVATE.  */
1058
                  case OMP_LIST_PRIVATE:
1059
                    gcc_assert (code->op != EXEC_NOP);
1060
                  default:
1061
                    break;
1062
                  }
1063
              }
1064
            break;
1065
          }
1066
      }
1067
}
1068
 
1069
 
1070
/* Return true if SYM is ever referenced in EXPR except in the SE node.  */
1071
 
1072
static bool
1073
expr_references_sym (gfc_expr *e, gfc_symbol *s, gfc_expr *se)
1074
{
1075
  gfc_actual_arglist *arg;
1076
  if (e == NULL || e == se)
1077
    return false;
1078
  switch (e->expr_type)
1079
    {
1080
    case EXPR_CONSTANT:
1081
    case EXPR_NULL:
1082
    case EXPR_VARIABLE:
1083
    case EXPR_STRUCTURE:
1084
    case EXPR_ARRAY:
1085
      if (e->symtree != NULL
1086
          && e->symtree->n.sym == s)
1087
        return true;
1088
      return false;
1089
    case EXPR_SUBSTRING:
1090
      if (e->ref != NULL
1091
          && (expr_references_sym (e->ref->u.ss.start, s, se)
1092
              || expr_references_sym (e->ref->u.ss.end, s, se)))
1093
        return true;
1094
      return false;
1095
    case EXPR_OP:
1096
      if (expr_references_sym (e->value.op.op2, s, se))
1097
        return true;
1098
      return expr_references_sym (e->value.op.op1, s, se);
1099
    case EXPR_FUNCTION:
1100
      for (arg = e->value.function.actual; arg; arg = arg->next)
1101
        if (expr_references_sym (arg->expr, s, se))
1102
          return true;
1103
      return false;
1104
    default:
1105
      gcc_unreachable ();
1106
    }
1107
}
1108
 
1109
 
1110
/* If EXPR is a conversion function that widens the type
1111
   if WIDENING is true or narrows the type if WIDENING is false,
1112
   return the inner expression, otherwise return NULL.  */
1113
 
1114
static gfc_expr *
1115
is_conversion (gfc_expr *expr, bool widening)
1116
{
1117
  gfc_typespec *ts1, *ts2;
1118
 
1119
  if (expr->expr_type != EXPR_FUNCTION
1120
      || expr->value.function.isym == NULL
1121
      || expr->value.function.esym != NULL
1122
      || expr->value.function.isym->id != GFC_ISYM_CONVERSION)
1123
    return NULL;
1124
 
1125
  if (widening)
1126
    {
1127
      ts1 = &expr->ts;
1128
      ts2 = &expr->value.function.actual->expr->ts;
1129
    }
1130
  else
1131
    {
1132
      ts1 = &expr->value.function.actual->expr->ts;
1133
      ts2 = &expr->ts;
1134
    }
1135
 
1136
  if (ts1->type > ts2->type
1137
      || (ts1->type == ts2->type && ts1->kind > ts2->kind))
1138
    return expr->value.function.actual->expr;
1139
 
1140
  return NULL;
1141
}
1142
 
1143
 
1144
static void
1145
resolve_omp_atomic (gfc_code *code)
1146
{
1147
  gfc_code *atomic_code = code;
1148
  gfc_symbol *var;
1149
  gfc_expr *expr2, *expr2_tmp;
1150
 
1151
  code = code->block->next;
1152
  gcc_assert (code->op == EXEC_ASSIGN);
1153
  gcc_assert ((atomic_code->ext.omp_atomic != GFC_OMP_ATOMIC_CAPTURE
1154
               && code->next == NULL)
1155
              || (atomic_code->ext.omp_atomic == GFC_OMP_ATOMIC_CAPTURE
1156
                  && code->next != NULL
1157
                  && code->next->op == EXEC_ASSIGN
1158
                  && code->next->next == NULL));
1159
 
1160
  if (code->expr1->expr_type != EXPR_VARIABLE
1161
      || code->expr1->symtree == NULL
1162
      || code->expr1->rank != 0
1163
      || (code->expr1->ts.type != BT_INTEGER
1164
          && code->expr1->ts.type != BT_REAL
1165
          && code->expr1->ts.type != BT_COMPLEX
1166
          && code->expr1->ts.type != BT_LOGICAL))
1167
    {
1168
      gfc_error ("!$OMP ATOMIC statement must set a scalar variable of "
1169
                 "intrinsic type at %L", &code->loc);
1170
      return;
1171
    }
1172
 
1173
  var = code->expr1->symtree->n.sym;
1174
  expr2 = is_conversion (code->expr2, false);
1175
  if (expr2 == NULL)
1176
    {
1177
      if (atomic_code->ext.omp_atomic == GFC_OMP_ATOMIC_READ
1178
          || atomic_code->ext.omp_atomic == GFC_OMP_ATOMIC_WRITE)
1179
        expr2 = is_conversion (code->expr2, true);
1180
      if (expr2 == NULL)
1181
        expr2 = code->expr2;
1182
    }
1183
 
1184
  switch (atomic_code->ext.omp_atomic)
1185
    {
1186
    case GFC_OMP_ATOMIC_READ:
1187
      if (expr2->expr_type != EXPR_VARIABLE
1188
          || expr2->symtree == NULL
1189
          || expr2->rank != 0
1190
          || (expr2->ts.type != BT_INTEGER
1191
              && expr2->ts.type != BT_REAL
1192
              && expr2->ts.type != BT_COMPLEX
1193
              && expr2->ts.type != BT_LOGICAL))
1194
        gfc_error ("!$OMP ATOMIC READ statement must read from a scalar "
1195
                   "variable of intrinsic type at %L", &expr2->where);
1196
      return;
1197
    case GFC_OMP_ATOMIC_WRITE:
1198
      if (expr2->rank != 0 || expr_references_sym (code->expr2, var, NULL))
1199
        gfc_error ("expr in !$OMP ATOMIC WRITE assignment var = expr "
1200
                   "must be scalar and cannot reference var at %L",
1201
                   &expr2->where);
1202
      return;
1203
    case GFC_OMP_ATOMIC_CAPTURE:
1204
      expr2_tmp = expr2;
1205
      if (expr2 == code->expr2)
1206
        {
1207
          expr2_tmp = is_conversion (code->expr2, true);
1208
          if (expr2_tmp == NULL)
1209
            expr2_tmp = expr2;
1210
        }
1211
      if (expr2_tmp->expr_type == EXPR_VARIABLE)
1212
        {
1213
          if (expr2_tmp->symtree == NULL
1214
              || expr2_tmp->rank != 0
1215
              || (expr2_tmp->ts.type != BT_INTEGER
1216
                  && expr2_tmp->ts.type != BT_REAL
1217
                  && expr2_tmp->ts.type != BT_COMPLEX
1218
                  && expr2_tmp->ts.type != BT_LOGICAL)
1219
              || expr2_tmp->symtree->n.sym == var)
1220
            {
1221
              gfc_error ("!$OMP ATOMIC CAPTURE capture statement must read from "
1222
                         "a scalar variable of intrinsic type at %L",
1223
                         &expr2_tmp->where);
1224
              return;
1225
            }
1226
          var = expr2_tmp->symtree->n.sym;
1227
          code = code->next;
1228
          if (code->expr1->expr_type != EXPR_VARIABLE
1229
              || code->expr1->symtree == NULL
1230
              || code->expr1->rank != 0
1231
              || (code->expr1->ts.type != BT_INTEGER
1232
                  && code->expr1->ts.type != BT_REAL
1233
                  && code->expr1->ts.type != BT_COMPLEX
1234
                  && code->expr1->ts.type != BT_LOGICAL))
1235
            {
1236
              gfc_error ("!$OMP ATOMIC CAPTURE update statement must set "
1237
                         "a scalar variable of intrinsic type at %L",
1238
                         &code->expr1->where);
1239
              return;
1240
            }
1241
          if (code->expr1->symtree->n.sym != var)
1242
            {
1243
              gfc_error ("!$OMP ATOMIC CAPTURE capture statement reads from "
1244
                         "different variable than update statement writes "
1245
                         "into at %L", &code->expr1->where);
1246
              return;
1247
            }
1248
          expr2 = is_conversion (code->expr2, false);
1249
          if (expr2 == NULL)
1250
            expr2 = code->expr2;
1251
        }
1252
      break;
1253
    default:
1254
      break;
1255
    }
1256
 
1257
  if (expr2->expr_type == EXPR_OP)
1258
    {
1259
      gfc_expr *v = NULL, *e, *c;
1260
      gfc_intrinsic_op op = expr2->value.op.op;
1261
      gfc_intrinsic_op alt_op = INTRINSIC_NONE;
1262
 
1263
      switch (op)
1264
        {
1265
        case INTRINSIC_PLUS:
1266
          alt_op = INTRINSIC_MINUS;
1267
          break;
1268
        case INTRINSIC_TIMES:
1269
          alt_op = INTRINSIC_DIVIDE;
1270
          break;
1271
        case INTRINSIC_MINUS:
1272
          alt_op = INTRINSIC_PLUS;
1273
          break;
1274
        case INTRINSIC_DIVIDE:
1275
          alt_op = INTRINSIC_TIMES;
1276
          break;
1277
        case INTRINSIC_AND:
1278
        case INTRINSIC_OR:
1279
          break;
1280
        case INTRINSIC_EQV:
1281
          alt_op = INTRINSIC_NEQV;
1282
          break;
1283
        case INTRINSIC_NEQV:
1284
          alt_op = INTRINSIC_EQV;
1285
          break;
1286
        default:
1287
          gfc_error ("!$OMP ATOMIC assignment operator must be "
1288
                     "+, *, -, /, .AND., .OR., .EQV. or .NEQV. at %L",
1289
                     &expr2->where);
1290
          return;
1291
        }
1292
 
1293
      /* Check for var = var op expr resp. var = expr op var where
1294
         expr doesn't reference var and var op expr is mathematically
1295
         equivalent to var op (expr) resp. expr op var equivalent to
1296
         (expr) op var.  We rely here on the fact that the matcher
1297
         for x op1 y op2 z where op1 and op2 have equal precedence
1298
         returns (x op1 y) op2 z.  */
1299
      e = expr2->value.op.op2;
1300
      if (e->expr_type == EXPR_VARIABLE
1301
          && e->symtree != NULL
1302
          && e->symtree->n.sym == var)
1303
        v = e;
1304
      else if ((c = is_conversion (e, true)) != NULL
1305
               && c->expr_type == EXPR_VARIABLE
1306
               && c->symtree != NULL
1307
               && c->symtree->n.sym == var)
1308
        v = c;
1309
      else
1310
        {
1311
          gfc_expr **p = NULL, **q;
1312
          for (q = &expr2->value.op.op1; (e = *q) != NULL; )
1313
            if (e->expr_type == EXPR_VARIABLE
1314
                && e->symtree != NULL
1315
                && e->symtree->n.sym == var)
1316
              {
1317
                v = e;
1318
                break;
1319
              }
1320
            else if ((c = is_conversion (e, true)) != NULL)
1321
              q = &e->value.function.actual->expr;
1322
            else if (e->expr_type != EXPR_OP
1323
                     || (e->value.op.op != op
1324
                         && e->value.op.op != alt_op)
1325
                     || e->rank != 0)
1326
              break;
1327
            else
1328
              {
1329
                p = q;
1330
                q = &e->value.op.op1;
1331
              }
1332
 
1333
          if (v == NULL)
1334
            {
1335
              gfc_error ("!$OMP ATOMIC assignment must be var = var op expr "
1336
                         "or var = expr op var at %L", &expr2->where);
1337
              return;
1338
            }
1339
 
1340
          if (p != NULL)
1341
            {
1342
              e = *p;
1343
              switch (e->value.op.op)
1344
                {
1345
                case INTRINSIC_MINUS:
1346
                case INTRINSIC_DIVIDE:
1347
                case INTRINSIC_EQV:
1348
                case INTRINSIC_NEQV:
1349
                  gfc_error ("!$OMP ATOMIC var = var op expr not "
1350
                             "mathematically equivalent to var = var op "
1351
                             "(expr) at %L", &expr2->where);
1352
                  break;
1353
                default:
1354
                  break;
1355
                }
1356
 
1357
              /* Canonicalize into var = var op (expr).  */
1358
              *p = e->value.op.op2;
1359
              e->value.op.op2 = expr2;
1360
              e->ts = expr2->ts;
1361
              if (code->expr2 == expr2)
1362
                code->expr2 = expr2 = e;
1363
              else
1364
                code->expr2->value.function.actual->expr = expr2 = e;
1365
 
1366
              if (!gfc_compare_types (&expr2->value.op.op1->ts, &expr2->ts))
1367
                {
1368
                  for (p = &expr2->value.op.op1; *p != v;
1369
                       p = &(*p)->value.function.actual->expr)
1370
                    ;
1371
                  *p = NULL;
1372
                  gfc_free_expr (expr2->value.op.op1);
1373
                  expr2->value.op.op1 = v;
1374
                  gfc_convert_type (v, &expr2->ts, 2);
1375
                }
1376
            }
1377
        }
1378
 
1379
      if (e->rank != 0 || expr_references_sym (code->expr2, var, v))
1380
        {
1381
          gfc_error ("expr in !$OMP ATOMIC assignment var = var op expr "
1382
                     "must be scalar and cannot reference var at %L",
1383
                     &expr2->where);
1384
          return;
1385
        }
1386
    }
1387
  else if (expr2->expr_type == EXPR_FUNCTION
1388
           && expr2->value.function.isym != NULL
1389
           && expr2->value.function.esym == NULL
1390
           && expr2->value.function.actual != NULL
1391
           && expr2->value.function.actual->next != NULL)
1392
    {
1393
      gfc_actual_arglist *arg, *var_arg;
1394
 
1395
      switch (expr2->value.function.isym->id)
1396
        {
1397
        case GFC_ISYM_MIN:
1398
        case GFC_ISYM_MAX:
1399
          break;
1400
        case GFC_ISYM_IAND:
1401
        case GFC_ISYM_IOR:
1402
        case GFC_ISYM_IEOR:
1403
          if (expr2->value.function.actual->next->next != NULL)
1404
            {
1405
              gfc_error ("!$OMP ATOMIC assignment intrinsic IAND, IOR "
1406
                         "or IEOR must have two arguments at %L",
1407
                         &expr2->where);
1408
              return;
1409
            }
1410
          break;
1411
        default:
1412
          gfc_error ("!$OMP ATOMIC assignment intrinsic must be "
1413
                     "MIN, MAX, IAND, IOR or IEOR at %L",
1414
                     &expr2->where);
1415
          return;
1416
        }
1417
 
1418
      var_arg = NULL;
1419
      for (arg = expr2->value.function.actual; arg; arg = arg->next)
1420
        {
1421
          if ((arg == expr2->value.function.actual
1422
               || (var_arg == NULL && arg->next == NULL))
1423
              && arg->expr->expr_type == EXPR_VARIABLE
1424
              && arg->expr->symtree != NULL
1425
              && arg->expr->symtree->n.sym == var)
1426
            var_arg = arg;
1427
          else if (expr_references_sym (arg->expr, var, NULL))
1428
            gfc_error ("!$OMP ATOMIC intrinsic arguments except one must not "
1429
                       "reference '%s' at %L", var->name, &arg->expr->where);
1430
          if (arg->expr->rank != 0)
1431
            gfc_error ("!$OMP ATOMIC intrinsic arguments must be scalar "
1432
                       "at %L", &arg->expr->where);
1433
        }
1434
 
1435
      if (var_arg == NULL)
1436
        {
1437
          gfc_error ("First or last !$OMP ATOMIC intrinsic argument must "
1438
                     "be '%s' at %L", var->name, &expr2->where);
1439
          return;
1440
        }
1441
 
1442
      if (var_arg != expr2->value.function.actual)
1443
        {
1444
          /* Canonicalize, so that var comes first.  */
1445
          gcc_assert (var_arg->next == NULL);
1446
          for (arg = expr2->value.function.actual;
1447
               arg->next != var_arg; arg = arg->next)
1448
            ;
1449
          var_arg->next = expr2->value.function.actual;
1450
          expr2->value.function.actual = var_arg;
1451
          arg->next = NULL;
1452
        }
1453
    }
1454
  else
1455
    gfc_error ("!$OMP ATOMIC assignment must have an operator or intrinsic "
1456
               "on right hand side at %L", &expr2->where);
1457
 
1458
  if (atomic_code->ext.omp_atomic == GFC_OMP_ATOMIC_CAPTURE && code->next)
1459
    {
1460
      code = code->next;
1461
      if (code->expr1->expr_type != EXPR_VARIABLE
1462
          || code->expr1->symtree == NULL
1463
          || code->expr1->rank != 0
1464
          || (code->expr1->ts.type != BT_INTEGER
1465
              && code->expr1->ts.type != BT_REAL
1466
              && code->expr1->ts.type != BT_COMPLEX
1467
              && code->expr1->ts.type != BT_LOGICAL))
1468
        {
1469
          gfc_error ("!$OMP ATOMIC CAPTURE capture statement must set "
1470
                     "a scalar variable of intrinsic type at %L",
1471
                     &code->expr1->where);
1472
          return;
1473
        }
1474
 
1475
      expr2 = is_conversion (code->expr2, false);
1476
      if (expr2 == NULL)
1477
        {
1478
          expr2 = is_conversion (code->expr2, true);
1479
          if (expr2 == NULL)
1480
            expr2 = code->expr2;
1481
        }
1482
 
1483
      if (expr2->expr_type != EXPR_VARIABLE
1484
          || expr2->symtree == NULL
1485
          || expr2->rank != 0
1486
          || (expr2->ts.type != BT_INTEGER
1487
              && expr2->ts.type != BT_REAL
1488
              && expr2->ts.type != BT_COMPLEX
1489
              && expr2->ts.type != BT_LOGICAL))
1490
        {
1491
          gfc_error ("!$OMP ATOMIC CAPTURE capture statement must read "
1492
                     "from a scalar variable of intrinsic type at %L",
1493
                     &expr2->where);
1494
          return;
1495
        }
1496
      if (expr2->symtree->n.sym != var)
1497
        {
1498
          gfc_error ("!$OMP ATOMIC CAPTURE capture statement reads from "
1499
                     "different variable than update statement writes "
1500
                     "into at %L", &expr2->where);
1501
          return;
1502
        }
1503
    }
1504
}
1505
 
1506
 
1507
struct omp_context
1508
{
1509
  gfc_code *code;
1510
  struct pointer_set_t *sharing_clauses;
1511
  struct pointer_set_t *private_iterators;
1512
  struct omp_context *previous;
1513
} *omp_current_ctx;
1514
static gfc_code *omp_current_do_code;
1515
static int omp_current_do_collapse;
1516
 
1517
void
1518
gfc_resolve_omp_do_blocks (gfc_code *code, gfc_namespace *ns)
1519
{
1520
  if (code->block->next && code->block->next->op == EXEC_DO)
1521
    {
1522
      int i;
1523
      gfc_code *c;
1524
 
1525
      omp_current_do_code = code->block->next;
1526
      omp_current_do_collapse = code->ext.omp_clauses->collapse;
1527
      for (i = 1, c = omp_current_do_code; i < omp_current_do_collapse; i++)
1528
        {
1529
          c = c->block;
1530
          if (c->op != EXEC_DO || c->next == NULL)
1531
            break;
1532
          c = c->next;
1533
          if (c->op != EXEC_DO)
1534
            break;
1535
        }
1536
      if (i < omp_current_do_collapse || omp_current_do_collapse <= 0)
1537
        omp_current_do_collapse = 1;
1538
    }
1539
  gfc_resolve_blocks (code->block, ns);
1540
  omp_current_do_collapse = 0;
1541
  omp_current_do_code = NULL;
1542
}
1543
 
1544
 
1545
void
1546
gfc_resolve_omp_parallel_blocks (gfc_code *code, gfc_namespace *ns)
1547
{
1548
  struct omp_context ctx;
1549
  gfc_omp_clauses *omp_clauses = code->ext.omp_clauses;
1550
  gfc_namelist *n;
1551
  int list;
1552
 
1553
  ctx.code = code;
1554
  ctx.sharing_clauses = pointer_set_create ();
1555
  ctx.private_iterators = pointer_set_create ();
1556
  ctx.previous = omp_current_ctx;
1557
  omp_current_ctx = &ctx;
1558
 
1559
  for (list = 0; list < OMP_LIST_NUM; list++)
1560
    for (n = omp_clauses->lists[list]; n; n = n->next)
1561
      pointer_set_insert (ctx.sharing_clauses, n->sym);
1562
 
1563
  if (code->op == EXEC_OMP_PARALLEL_DO)
1564
    gfc_resolve_omp_do_blocks (code, ns);
1565
  else
1566
    gfc_resolve_blocks (code->block, ns);
1567
 
1568
  omp_current_ctx = ctx.previous;
1569
  pointer_set_destroy (ctx.sharing_clauses);
1570
  pointer_set_destroy (ctx.private_iterators);
1571
}
1572
 
1573
 
1574
/* Save and clear openmp.c private state.  */
1575
 
1576
void
1577
gfc_omp_save_and_clear_state (struct gfc_omp_saved_state *state)
1578
{
1579
  state->ptrs[0] = omp_current_ctx;
1580
  state->ptrs[1] = omp_current_do_code;
1581
  state->ints[0] = omp_current_do_collapse;
1582
  omp_current_ctx = NULL;
1583
  omp_current_do_code = NULL;
1584
  omp_current_do_collapse = 0;
1585
}
1586
 
1587
 
1588
/* Restore openmp.c private state from the saved state.  */
1589
 
1590
void
1591
gfc_omp_restore_state (struct gfc_omp_saved_state *state)
1592
{
1593
  omp_current_ctx = (struct omp_context *) state->ptrs[0];
1594
  omp_current_do_code = (gfc_code *) state->ptrs[1];
1595
  omp_current_do_collapse = state->ints[0];
1596
}
1597
 
1598
 
1599
/* Note a DO iterator variable.  This is special in !$omp parallel
1600
   construct, where they are predetermined private.  */
1601
 
1602
void
1603
gfc_resolve_do_iterator (gfc_code *code, gfc_symbol *sym)
1604
{
1605
  int i = omp_current_do_collapse;
1606
  gfc_code *c = omp_current_do_code;
1607
 
1608
  if (sym->attr.threadprivate)
1609
    return;
1610
 
1611
  /* !$omp do and !$omp parallel do iteration variable is predetermined
1612
     private just in the !$omp do resp. !$omp parallel do construct,
1613
     with no implications for the outer parallel constructs.  */
1614
 
1615
  while (i-- >= 1)
1616
    {
1617
      if (code == c)
1618
        return;
1619
 
1620
      c = c->block->next;
1621
    }
1622
 
1623
  if (omp_current_ctx == NULL)
1624
    return;
1625
 
1626
  if (pointer_set_contains (omp_current_ctx->sharing_clauses, sym))
1627
    return;
1628
 
1629
  if (! pointer_set_insert (omp_current_ctx->private_iterators, sym))
1630
    {
1631
      gfc_omp_clauses *omp_clauses = omp_current_ctx->code->ext.omp_clauses;
1632
      gfc_namelist *p;
1633
 
1634
      p = gfc_get_namelist ();
1635
      p->sym = sym;
1636
      p->next = omp_clauses->lists[OMP_LIST_PRIVATE];
1637
      omp_clauses->lists[OMP_LIST_PRIVATE] = p;
1638
    }
1639
}
1640
 
1641
 
1642
static void
1643
resolve_omp_do (gfc_code *code)
1644
{
1645
  gfc_code *do_code, *c;
1646
  int list, i, collapse;
1647
  gfc_namelist *n;
1648
  gfc_symbol *dovar;
1649
 
1650
  if (code->ext.omp_clauses)
1651
    resolve_omp_clauses (code);
1652
 
1653
  do_code = code->block->next;
1654
  collapse = code->ext.omp_clauses->collapse;
1655
  if (collapse <= 0)
1656
    collapse = 1;
1657
  for (i = 1; i <= collapse; i++)
1658
    {
1659
      if (do_code->op == EXEC_DO_WHILE)
1660
        {
1661
          gfc_error ("!$OMP DO cannot be a DO WHILE or DO without loop control "
1662
                     "at %L", &do_code->loc);
1663
          break;
1664
        }
1665
      gcc_assert (do_code->op == EXEC_DO);
1666
      if (do_code->ext.iterator->var->ts.type != BT_INTEGER)
1667
        gfc_error ("!$OMP DO iteration variable must be of type integer at %L",
1668
                   &do_code->loc);
1669
      dovar = do_code->ext.iterator->var->symtree->n.sym;
1670
      if (dovar->attr.threadprivate)
1671
        gfc_error ("!$OMP DO iteration variable must not be THREADPRIVATE "
1672
                   "at %L", &do_code->loc);
1673
      if (code->ext.omp_clauses)
1674
        for (list = 0; list < OMP_LIST_NUM; list++)
1675
          if (list != OMP_LIST_PRIVATE && list != OMP_LIST_LASTPRIVATE)
1676
            for (n = code->ext.omp_clauses->lists[list]; n; n = n->next)
1677
              if (dovar == n->sym)
1678
                {
1679
                  gfc_error ("!$OMP DO iteration variable present on clause "
1680
                             "other than PRIVATE or LASTPRIVATE at %L",
1681
                             &do_code->loc);
1682
                  break;
1683
                }
1684
      if (i > 1)
1685
        {
1686
          gfc_code *do_code2 = code->block->next;
1687
          int j;
1688
 
1689
          for (j = 1; j < i; j++)
1690
            {
1691
              gfc_symbol *ivar = do_code2->ext.iterator->var->symtree->n.sym;
1692
              if (dovar == ivar
1693
                  || gfc_find_sym_in_expr (ivar, do_code->ext.iterator->start)
1694
                  || gfc_find_sym_in_expr (ivar, do_code->ext.iterator->end)
1695
                  || gfc_find_sym_in_expr (ivar, do_code->ext.iterator->step))
1696
                {
1697
                  gfc_error ("!$OMP DO collapsed loops don't form rectangular iteration space at %L",
1698
                             &do_code->loc);
1699
                  break;
1700
                }
1701
              if (j < i)
1702
                break;
1703
              do_code2 = do_code2->block->next;
1704
            }
1705
        }
1706
      if (i == collapse)
1707
        break;
1708
      for (c = do_code->next; c; c = c->next)
1709
        if (c->op != EXEC_NOP && c->op != EXEC_CONTINUE)
1710
          {
1711
            gfc_error ("collapsed !$OMP DO loops not perfectly nested at %L",
1712
                       &c->loc);
1713
            break;
1714
          }
1715
      if (c)
1716
        break;
1717
      do_code = do_code->block;
1718
      if (do_code->op != EXEC_DO && do_code->op != EXEC_DO_WHILE)
1719
        {
1720
          gfc_error ("not enough DO loops for collapsed !$OMP DO at %L",
1721
                     &code->loc);
1722
          break;
1723
        }
1724
      do_code = do_code->next;
1725
      if (do_code == NULL
1726
          || (do_code->op != EXEC_DO && do_code->op != EXEC_DO_WHILE))
1727
        {
1728
          gfc_error ("not enough DO loops for collapsed !$OMP DO at %L",
1729
                     &code->loc);
1730
          break;
1731
        }
1732
    }
1733
}
1734
 
1735
 
1736
/* Resolve OpenMP directive clauses and check various requirements
1737
   of each directive.  */
1738
 
1739
void
1740
gfc_resolve_omp_directive (gfc_code *code, gfc_namespace *ns ATTRIBUTE_UNUSED)
1741
{
1742
  if (code->op != EXEC_OMP_ATOMIC)
1743
    gfc_maybe_initialize_eh ();
1744
 
1745
  switch (code->op)
1746
    {
1747
    case EXEC_OMP_DO:
1748
    case EXEC_OMP_PARALLEL_DO:
1749
      resolve_omp_do (code);
1750
      break;
1751
    case EXEC_OMP_WORKSHARE:
1752
    case EXEC_OMP_PARALLEL_WORKSHARE:
1753
    case EXEC_OMP_PARALLEL:
1754
    case EXEC_OMP_PARALLEL_SECTIONS:
1755
    case EXEC_OMP_SECTIONS:
1756
    case EXEC_OMP_SINGLE:
1757
    case EXEC_OMP_TASK:
1758
      if (code->ext.omp_clauses)
1759
        resolve_omp_clauses (code);
1760
      break;
1761
    case EXEC_OMP_ATOMIC:
1762
      resolve_omp_atomic (code);
1763
      break;
1764
    default:
1765
      break;
1766
    }
1767
}

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.