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[/] [openrisc/] [trunk/] [gnu-stable/] [gcc-4.5.1/] [gcc/] [fortran/] [iresolve.c] - Blame information for rev 847

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Line No. Rev Author Line
1 285 jeremybenn
/* Intrinsic function resolution.
2
   Copyright (C) 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008,
3
   2009, 2010
4
   Free Software Foundation, Inc.
5
   Contributed by Andy Vaught & Katherine Holcomb
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
 
24
/* Assign name and types to intrinsic procedures.  For functions, the
25
   first argument to a resolution function is an expression pointer to
26
   the original function node and the rest are pointers to the
27
   arguments of the function call.  For subroutines, a pointer to the
28
   code node is passed.  The result type and library subroutine name
29
   are generally set according to the function arguments.  */
30
 
31
#include "config.h"
32
#include "system.h"
33
#include "coretypes.h"
34
#include "tree.h"
35
#include "gfortran.h"
36
#include "intrinsic.h"
37
 
38
/* Given printf-like arguments, return a stable version of the result string.
39
 
40
   We already have a working, optimized string hashing table in the form of
41
   the identifier table.  Reusing this table is likely not to be wasted,
42
   since if the function name makes it to the gimple output of the frontend,
43
   we'll have to create the identifier anyway.  */
44
 
45
const char *
46
gfc_get_string (const char *format, ...)
47
{
48
  char temp_name[128];
49
  va_list ap;
50
  tree ident;
51
 
52
  va_start (ap, format);
53
  vsnprintf (temp_name, sizeof (temp_name), format, ap);
54
  va_end (ap);
55
  temp_name[sizeof (temp_name) - 1] = 0;
56
 
57
  ident = get_identifier (temp_name);
58
  return IDENTIFIER_POINTER (ident);
59
}
60
 
61
/* MERGE and SPREAD need to have source charlen's present for passing
62
   to the result expression.  */
63
static void
64
check_charlen_present (gfc_expr *source)
65
{
66
  if (source->ts.u.cl == NULL)
67
    source->ts.u.cl = gfc_new_charlen (gfc_current_ns, NULL);
68
 
69
  if (source->expr_type == EXPR_CONSTANT)
70
    {
71
      source->ts.u.cl->length = gfc_int_expr (source->value.character.length);
72
      source->rank = 0;
73
    }
74
  else if (source->expr_type == EXPR_ARRAY)
75
    source->ts.u.cl->length =
76
        gfc_int_expr (source->value.constructor->expr->value.character.length);
77
}
78
 
79
/* Helper function for resolving the "mask" argument.  */
80
 
81
static void
82
resolve_mask_arg (gfc_expr *mask)
83
{
84
 
85
  gfc_typespec ts;
86
  gfc_clear_ts (&ts);
87
 
88
  if (mask->rank == 0)
89
    {
90
      /* For the scalar case, coerce the mask to kind=4 unconditionally
91
         (because this is the only kind we have a library function
92
         for).  */
93
 
94
      if (mask->ts.kind != 4)
95
        {
96
          ts.type = BT_LOGICAL;
97
          ts.kind = 4;
98
          gfc_convert_type (mask, &ts, 2);
99
        }
100
    }
101
  else
102
    {
103
      /* In the library, we access the mask with a GFC_LOGICAL_1
104
         argument.  No need to waste memory if we are about to create
105
         a temporary array.  */
106
      if (mask->expr_type == EXPR_OP && mask->ts.kind != 1)
107
        {
108
          ts.type = BT_LOGICAL;
109
          ts.kind = 1;
110
          gfc_convert_type_warn (mask, &ts, 2, 0);
111
        }
112
    }
113
}
114
 
115
/********************** Resolution functions **********************/
116
 
117
 
118
void
119
gfc_resolve_abs (gfc_expr *f, gfc_expr *a)
120
{
121
  f->ts = a->ts;
122
  if (f->ts.type == BT_COMPLEX)
123
    f->ts.type = BT_REAL;
124
 
125
  f->value.function.name
126
    = gfc_get_string ("__abs_%c%d", gfc_type_letter (a->ts.type), a->ts.kind);
127
}
128
 
129
 
130
void
131
gfc_resolve_access (gfc_expr *f, gfc_expr *name ATTRIBUTE_UNUSED,
132
                    gfc_expr *mode ATTRIBUTE_UNUSED)
133
{
134
  f->ts.type = BT_INTEGER;
135
  f->ts.kind = gfc_c_int_kind;
136
  f->value.function.name = PREFIX ("access_func");
137
}
138
 
139
 
140
void
141
gfc_resolve_adjustl (gfc_expr *f, gfc_expr *string)
142
{
143
  f->ts.type = BT_CHARACTER;
144
  f->ts.kind = string->ts.kind;
145
  f->value.function.name = gfc_get_string ("__adjustl_s%d", f->ts.kind);
146
}
147
 
148
 
149
void
150
gfc_resolve_adjustr (gfc_expr *f, gfc_expr *string)
151
{
152
  f->ts.type = BT_CHARACTER;
153
  f->ts.kind = string->ts.kind;
154
  f->value.function.name = gfc_get_string ("__adjustr_s%d", f->ts.kind);
155
}
156
 
157
 
158
static void
159
gfc_resolve_char_achar (gfc_expr *f, gfc_expr *x, gfc_expr *kind,
160
                        const char *name)
161
{
162
  f->ts.type = BT_CHARACTER;
163
  f->ts.kind = (kind == NULL)
164
             ? gfc_default_character_kind : mpz_get_si (kind->value.integer);
165
  f->ts.u.cl = gfc_new_charlen (gfc_current_ns, NULL);
166
  f->ts.u.cl->length = gfc_int_expr (1);
167
 
168
  f->value.function.name = gfc_get_string (name, f->ts.kind,
169
                                           gfc_type_letter (x->ts.type),
170
                                           x->ts.kind);
171
}
172
 
173
 
174
void
175
gfc_resolve_achar (gfc_expr *f, gfc_expr *x, gfc_expr *kind)
176
{
177
  gfc_resolve_char_achar (f, x, kind, "__achar_%d_%c%d");
178
}
179
 
180
 
181
void
182
gfc_resolve_acos (gfc_expr *f, gfc_expr *x)
183
{
184
  f->ts = x->ts;
185
  f->value.function.name
186
    = gfc_get_string ("__acos_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
187
}
188
 
189
 
190
void
191
gfc_resolve_acosh (gfc_expr *f, gfc_expr *x)
192
{
193
  f->ts = x->ts;
194
  f->value.function.name
195
    = gfc_get_string ("__acosh_%c%d", gfc_type_letter (x->ts.type),
196
                      x->ts.kind);
197
}
198
 
199
 
200
void
201
gfc_resolve_aimag (gfc_expr *f, gfc_expr *x)
202
{
203
  f->ts.type = BT_REAL;
204
  f->ts.kind = x->ts.kind;
205
  f->value.function.name
206
    = gfc_get_string ("__aimag_%c%d", gfc_type_letter (x->ts.type),
207
                      x->ts.kind);
208
}
209
 
210
 
211
void
212
gfc_resolve_and (gfc_expr *f, gfc_expr *i, gfc_expr *j)
213
{
214
  f->ts.type = i->ts.type;
215
  f->ts.kind = gfc_kind_max (i, j);
216
 
217
  if (i->ts.kind != j->ts.kind)
218
    {
219
      if (i->ts.kind == gfc_kind_max (i, j))
220
        gfc_convert_type (j, &i->ts, 2);
221
      else
222
        gfc_convert_type (i, &j->ts, 2);
223
    }
224
 
225
  f->value.function.name
226
    = gfc_get_string ("__and_%c%d", gfc_type_letter (i->ts.type), f->ts.kind);
227
}
228
 
229
 
230
void
231
gfc_resolve_aint (gfc_expr *f, gfc_expr *a, gfc_expr *kind)
232
{
233
  gfc_typespec ts;
234
  gfc_clear_ts (&ts);
235
 
236
  f->ts.type = a->ts.type;
237
  f->ts.kind = (kind == NULL) ? a->ts.kind : mpz_get_si (kind->value.integer);
238
 
239
  if (a->ts.kind != f->ts.kind)
240
    {
241
      ts.type = f->ts.type;
242
      ts.kind = f->ts.kind;
243
      gfc_convert_type (a, &ts, 2);
244
    }
245
  /* The resolved name is only used for specific intrinsics where
246
     the return kind is the same as the arg kind.  */
247
  f->value.function.name
248
    = gfc_get_string ("__aint_%c%d", gfc_type_letter (a->ts.type), a->ts.kind);
249
}
250
 
251
 
252
void
253
gfc_resolve_dint (gfc_expr *f, gfc_expr *a)
254
{
255
  gfc_resolve_aint (f, a, NULL);
256
}
257
 
258
 
259
void
260
gfc_resolve_all (gfc_expr *f, gfc_expr *mask, gfc_expr *dim)
261
{
262
  f->ts = mask->ts;
263
 
264
  if (dim != NULL)
265
    {
266
      gfc_resolve_dim_arg (dim);
267
      f->rank = mask->rank - 1;
268
      f->shape = gfc_copy_shape_excluding (mask->shape, mask->rank, dim);
269
    }
270
 
271
  f->value.function.name
272
    = gfc_get_string (PREFIX ("all_%c%d"), gfc_type_letter (mask->ts.type),
273
                      mask->ts.kind);
274
}
275
 
276
 
277
void
278
gfc_resolve_anint (gfc_expr *f, gfc_expr *a, gfc_expr *kind)
279
{
280
  gfc_typespec ts;
281
  gfc_clear_ts (&ts);
282
 
283
  f->ts.type = a->ts.type;
284
  f->ts.kind = (kind == NULL) ? a->ts.kind : mpz_get_si (kind->value.integer);
285
 
286
  if (a->ts.kind != f->ts.kind)
287
    {
288
      ts.type = f->ts.type;
289
      ts.kind = f->ts.kind;
290
      gfc_convert_type (a, &ts, 2);
291
    }
292
 
293
  /* The resolved name is only used for specific intrinsics where
294
     the return kind is the same as the arg kind.  */
295
  f->value.function.name
296
    = gfc_get_string ("__anint_%c%d", gfc_type_letter (a->ts.type),
297
                      a->ts.kind);
298
}
299
 
300
 
301
void
302
gfc_resolve_dnint (gfc_expr *f, gfc_expr *a)
303
{
304
  gfc_resolve_anint (f, a, NULL);
305
}
306
 
307
 
308
void
309
gfc_resolve_any (gfc_expr *f, gfc_expr *mask, gfc_expr *dim)
310
{
311
  f->ts = mask->ts;
312
 
313
  if (dim != NULL)
314
    {
315
      gfc_resolve_dim_arg (dim);
316
      f->rank = mask->rank - 1;
317
      f->shape = gfc_copy_shape_excluding (mask->shape, mask->rank, dim);
318
    }
319
 
320
  f->value.function.name
321
    = gfc_get_string (PREFIX ("any_%c%d"), gfc_type_letter (mask->ts.type),
322
                      mask->ts.kind);
323
}
324
 
325
 
326
void
327
gfc_resolve_asin (gfc_expr *f, gfc_expr *x)
328
{
329
  f->ts = x->ts;
330
  f->value.function.name
331
    = gfc_get_string ("__asin_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
332
}
333
 
334
void
335
gfc_resolve_asinh (gfc_expr *f, gfc_expr *x)
336
{
337
  f->ts = x->ts;
338
  f->value.function.name
339
    = gfc_get_string ("__asinh_%c%d", gfc_type_letter (x->ts.type),
340
                      x->ts.kind);
341
}
342
 
343
void
344
gfc_resolve_atan (gfc_expr *f, gfc_expr *x)
345
{
346
  f->ts = x->ts;
347
  f->value.function.name
348
    = gfc_get_string ("__atan_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
349
}
350
 
351
void
352
gfc_resolve_atanh (gfc_expr *f, gfc_expr *x)
353
{
354
  f->ts = x->ts;
355
  f->value.function.name
356
    = gfc_get_string ("__atanh_%c%d", gfc_type_letter (x->ts.type),
357
                      x->ts.kind);
358
}
359
 
360
void
361
gfc_resolve_atan2 (gfc_expr *f, gfc_expr *x, gfc_expr *y ATTRIBUTE_UNUSED)
362
{
363
  f->ts = x->ts;
364
  f->value.function.name
365
    = gfc_get_string ("__atan2_%c%d", gfc_type_letter (x->ts.type),
366
                      x->ts.kind);
367
}
368
 
369
 
370
/* Resolve the BESYN and BESJN intrinsics.  */
371
 
372
void
373
gfc_resolve_besn (gfc_expr *f, gfc_expr *n, gfc_expr *x)
374
{
375
  gfc_typespec ts;
376
  gfc_clear_ts (&ts);
377
 
378
  f->ts = x->ts;
379
  if (n->ts.kind != gfc_c_int_kind)
380
    {
381
      ts.type = BT_INTEGER;
382
      ts.kind = gfc_c_int_kind;
383
      gfc_convert_type (n, &ts, 2);
384
    }
385
  f->value.function.name = gfc_get_string ("<intrinsic>");
386
}
387
 
388
 
389
void
390
gfc_resolve_btest (gfc_expr *f, gfc_expr *i, gfc_expr *pos)
391
{
392
  f->ts.type = BT_LOGICAL;
393
  f->ts.kind = gfc_default_logical_kind;
394
  f->value.function.name
395
    = gfc_get_string ("__btest_%d_%d", i->ts.kind, pos->ts.kind);
396
}
397
 
398
 
399
void
400
gfc_resolve_ceiling (gfc_expr *f, gfc_expr *a, gfc_expr *kind)
401
{
402
  f->ts.type = BT_INTEGER;
403
  f->ts.kind = (kind == NULL)
404
             ? gfc_default_integer_kind : mpz_get_si (kind->value.integer);
405
  f->value.function.name
406
    = gfc_get_string ("__ceiling_%d_%c%d", f->ts.kind,
407
                      gfc_type_letter (a->ts.type), a->ts.kind);
408
}
409
 
410
 
411
void
412
gfc_resolve_char (gfc_expr *f, gfc_expr *a, gfc_expr *kind)
413
{
414
  gfc_resolve_char_achar (f, a, kind, "__char_%d_%c%d");
415
}
416
 
417
 
418
void
419
gfc_resolve_chdir (gfc_expr *f, gfc_expr *d ATTRIBUTE_UNUSED)
420
{
421
  f->ts.type = BT_INTEGER;
422
  f->ts.kind = gfc_default_integer_kind;
423
  f->value.function.name = gfc_get_string (PREFIX ("chdir_i%d"), f->ts.kind);
424
}
425
 
426
 
427
void
428
gfc_resolve_chdir_sub (gfc_code *c)
429
{
430
  const char *name;
431
  int kind;
432
 
433
  if (c->ext.actual->next->expr != NULL)
434
    kind = c->ext.actual->next->expr->ts.kind;
435
  else
436
    kind = gfc_default_integer_kind;
437
 
438
  name = gfc_get_string (PREFIX ("chdir_i%d_sub"), kind);
439
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
440
}
441
 
442
 
443
void
444
gfc_resolve_chmod (gfc_expr *f, gfc_expr *name ATTRIBUTE_UNUSED,
445
                   gfc_expr *mode ATTRIBUTE_UNUSED)
446
{
447
  f->ts.type = BT_INTEGER;
448
  f->ts.kind = gfc_c_int_kind;
449
  f->value.function.name = PREFIX ("chmod_func");
450
}
451
 
452
 
453
void
454
gfc_resolve_chmod_sub (gfc_code *c)
455
{
456
  const char *name;
457
  int kind;
458
 
459
  if (c->ext.actual->next->next->expr != NULL)
460
    kind = c->ext.actual->next->next->expr->ts.kind;
461
  else
462
    kind = gfc_default_integer_kind;
463
 
464
  name = gfc_get_string (PREFIX ("chmod_i%d_sub"), kind);
465
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
466
}
467
 
468
 
469
void
470
gfc_resolve_cmplx (gfc_expr *f, gfc_expr *x, gfc_expr *y, gfc_expr *kind)
471
{
472
  f->ts.type = BT_COMPLEX;
473
  f->ts.kind = (kind == NULL)
474
             ? gfc_default_real_kind : mpz_get_si (kind->value.integer);
475
 
476
  if (y == NULL)
477
    f->value.function.name
478
      = gfc_get_string ("__cmplx0_%d_%c%d", f->ts.kind,
479
                        gfc_type_letter (x->ts.type), x->ts.kind);
480
  else
481
    f->value.function.name
482
      = gfc_get_string ("__cmplx1_%d_%c%d_%c%d", f->ts.kind,
483
                        gfc_type_letter (x->ts.type), x->ts.kind,
484
                        gfc_type_letter (y->ts.type), y->ts.kind);
485
}
486
 
487
 
488
void
489
gfc_resolve_dcmplx (gfc_expr *f, gfc_expr *x, gfc_expr *y)
490
{
491
  gfc_resolve_cmplx (f, x, y, gfc_int_expr (gfc_default_double_kind));
492
}
493
 
494
 
495
void
496
gfc_resolve_complex (gfc_expr *f, gfc_expr *x, gfc_expr *y)
497
{
498
  int kind;
499
 
500
  if (x->ts.type == BT_INTEGER)
501
    {
502
      if (y->ts.type == BT_INTEGER)
503
        kind = gfc_default_real_kind;
504
      else
505
        kind = y->ts.kind;
506
    }
507
  else
508
    {
509
      if (y->ts.type == BT_REAL)
510
        kind = (x->ts.kind > y->ts.kind) ? x->ts.kind : y->ts.kind;
511
      else
512
        kind = x->ts.kind;
513
    }
514
 
515
  f->ts.type = BT_COMPLEX;
516
  f->ts.kind = kind;
517
  f->value.function.name
518
    = gfc_get_string ("__cmplx1_%d_%c%d_%c%d", f->ts.kind,
519
                      gfc_type_letter (x->ts.type), x->ts.kind,
520
                      gfc_type_letter (y->ts.type), y->ts.kind);
521
}
522
 
523
 
524
void
525
gfc_resolve_conjg (gfc_expr *f, gfc_expr *x)
526
{
527
  f->ts = x->ts;
528
  f->value.function.name = gfc_get_string ("__conjg_%d", x->ts.kind);
529
}
530
 
531
 
532
void
533
gfc_resolve_cos (gfc_expr *f, gfc_expr *x)
534
{
535
  f->ts = x->ts;
536
  f->value.function.name
537
    = gfc_get_string ("__cos_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
538
}
539
 
540
 
541
void
542
gfc_resolve_cosh (gfc_expr *f, gfc_expr *x)
543
{
544
  f->ts = x->ts;
545
  f->value.function.name
546
    = gfc_get_string ("__cosh_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
547
}
548
 
549
 
550
void
551
gfc_resolve_count (gfc_expr *f, gfc_expr *mask, gfc_expr *dim, gfc_expr *kind)
552
{
553
  f->ts.type = BT_INTEGER;
554
  if (kind)
555
    f->ts.kind = mpz_get_si (kind->value.integer);
556
  else
557
    f->ts.kind = gfc_default_integer_kind;
558
 
559
  if (dim != NULL)
560
    {
561
      f->rank = mask->rank - 1;
562
      gfc_resolve_dim_arg (dim);
563
      f->shape = gfc_copy_shape_excluding (mask->shape, mask->rank, dim);
564
    }
565
 
566
  resolve_mask_arg (mask);
567
 
568
  f->value.function.name
569
    = gfc_get_string (PREFIX ("count_%d_%c"), f->ts.kind,
570
                      gfc_type_letter (mask->ts.type));
571
}
572
 
573
 
574
void
575
gfc_resolve_cshift (gfc_expr *f, gfc_expr *array, gfc_expr *shift,
576
                    gfc_expr *dim)
577
{
578
  int n, m;
579
 
580
  if (array->ts.type == BT_CHARACTER && array->ref)
581
    gfc_resolve_substring_charlen (array);
582
 
583
  f->ts = array->ts;
584
  f->rank = array->rank;
585
  f->shape = gfc_copy_shape (array->shape, array->rank);
586
 
587
  if (shift->rank > 0)
588
    n = 1;
589
  else
590
    n = 0;
591
 
592
  /* If dim kind is greater than default integer we need to use the larger.  */
593
  m = gfc_default_integer_kind;
594
  if (dim != NULL)
595
    m = m < dim->ts.kind ? dim->ts.kind : m;
596
 
597
  /* Convert shift to at least m, so we don't need
598
      kind=1 and kind=2 versions of the library functions.  */
599
  if (shift->ts.kind < m)
600
    {
601
      gfc_typespec ts;
602
      gfc_clear_ts (&ts);
603
      ts.type = BT_INTEGER;
604
      ts.kind = m;
605
      gfc_convert_type_warn (shift, &ts, 2, 0);
606
    }
607
 
608
  if (dim != NULL)
609
    {
610
      if (dim->expr_type != EXPR_CONSTANT && dim->symtree != NULL
611
          && dim->symtree->n.sym->attr.optional)
612
        {
613
          /* Mark this for later setting the type in gfc_conv_missing_dummy.  */
614
          dim->representation.length = shift->ts.kind;
615
        }
616
      else
617
        {
618
          gfc_resolve_dim_arg (dim);
619
          /* Convert dim to shift's kind to reduce variations.  */
620
          if (dim->ts.kind != shift->ts.kind)
621
            gfc_convert_type_warn (dim, &shift->ts, 2, 0);
622
        }
623
    }
624
 
625
  if (array->ts.type == BT_CHARACTER)
626
    {
627
      if (array->ts.kind == gfc_default_character_kind)
628
        f->value.function.name
629
          = gfc_get_string (PREFIX ("cshift%d_%d_char"), n, shift->ts.kind);
630
      else
631
        f->value.function.name
632
          = gfc_get_string (PREFIX ("cshift%d_%d_char%d"), n, shift->ts.kind,
633
                            array->ts.kind);
634
    }
635
  else
636
    f->value.function.name
637
        = gfc_get_string (PREFIX ("cshift%d_%d"), n, shift->ts.kind);
638
}
639
 
640
 
641
void
642
gfc_resolve_ctime (gfc_expr *f, gfc_expr *time)
643
{
644
  gfc_typespec ts;
645
  gfc_clear_ts (&ts);
646
 
647
  f->ts.type = BT_CHARACTER;
648
  f->ts.kind = gfc_default_character_kind;
649
 
650
  /* ctime TIME argument is a INTEGER(KIND=8), says the doc */
651
  if (time->ts.kind != 8)
652
    {
653
      ts.type = BT_INTEGER;
654
      ts.kind = 8;
655
      ts.u.derived = NULL;
656
      ts.u.cl = NULL;
657
      gfc_convert_type (time, &ts, 2);
658
    }
659
 
660
  f->value.function.name = gfc_get_string (PREFIX ("ctime"));
661
}
662
 
663
 
664
void
665
gfc_resolve_dble (gfc_expr *f, gfc_expr *a)
666
{
667
  f->ts.type = BT_REAL;
668
  f->ts.kind = gfc_default_double_kind;
669
  f->value.function.name
670
    = gfc_get_string ("__dble_%c%d", gfc_type_letter (a->ts.type), a->ts.kind);
671
}
672
 
673
 
674
void
675
gfc_resolve_dim (gfc_expr *f, gfc_expr *a, gfc_expr *p)
676
{
677
  f->ts.type = a->ts.type;
678
  if (p != NULL)
679
    f->ts.kind = gfc_kind_max (a,p);
680
  else
681
    f->ts.kind = a->ts.kind;
682
 
683
  if (p != NULL && a->ts.kind != p->ts.kind)
684
    {
685
      if (a->ts.kind == gfc_kind_max (a,p))
686
        gfc_convert_type (p, &a->ts, 2);
687
      else
688
        gfc_convert_type (a, &p->ts, 2);
689
    }
690
 
691
  f->value.function.name
692
    = gfc_get_string ("__dim_%c%d", gfc_type_letter (f->ts.type), f->ts.kind);
693
}
694
 
695
 
696
void
697
gfc_resolve_dot_product (gfc_expr *f, gfc_expr *a, gfc_expr *b)
698
{
699
  gfc_expr temp;
700
 
701
  temp.expr_type = EXPR_OP;
702
  gfc_clear_ts (&temp.ts);
703
  temp.value.op.op = INTRINSIC_NONE;
704
  temp.value.op.op1 = a;
705
  temp.value.op.op2 = b;
706
  gfc_type_convert_binary (&temp, 1);
707
  f->ts = temp.ts;
708
  f->value.function.name
709
    = gfc_get_string (PREFIX ("dot_product_%c%d"),
710
                      gfc_type_letter (f->ts.type), f->ts.kind);
711
}
712
 
713
 
714
void
715
gfc_resolve_dprod (gfc_expr *f, gfc_expr *a ATTRIBUTE_UNUSED,
716
                   gfc_expr *b ATTRIBUTE_UNUSED)
717
{
718
  f->ts.kind = gfc_default_double_kind;
719
  f->ts.type = BT_REAL;
720
  f->value.function.name = gfc_get_string ("__dprod_r%d", f->ts.kind);
721
}
722
 
723
 
724
void
725
gfc_resolve_eoshift (gfc_expr *f, gfc_expr *array, gfc_expr *shift,
726
                     gfc_expr *boundary, gfc_expr *dim)
727
{
728
  int n, m;
729
 
730
  if (array->ts.type == BT_CHARACTER && array->ref)
731
    gfc_resolve_substring_charlen (array);
732
 
733
  f->ts = array->ts;
734
  f->rank = array->rank;
735
  f->shape = gfc_copy_shape (array->shape, array->rank);
736
 
737
  n = 0;
738
  if (shift->rank > 0)
739
    n = n | 1;
740
  if (boundary && boundary->rank > 0)
741
    n = n | 2;
742
 
743
  /* If dim kind is greater than default integer we need to use the larger.  */
744
  m = gfc_default_integer_kind;
745
  if (dim != NULL)
746
    m = m < dim->ts.kind ? dim->ts.kind : m;
747
 
748
  /* Convert shift to at least m, so we don't need
749
      kind=1 and kind=2 versions of the library functions.  */
750
  if (shift->ts.kind < m)
751
    {
752
      gfc_typespec ts;
753
      gfc_clear_ts (&ts);
754
      ts.type = BT_INTEGER;
755
      ts.kind = m;
756
      gfc_convert_type_warn (shift, &ts, 2, 0);
757
    }
758
 
759
  if (dim != NULL)
760
    {
761
      if (dim->expr_type != EXPR_CONSTANT && dim->symtree != NULL
762
          && dim->symtree->n.sym->attr.optional)
763
        {
764
          /* Mark this for later setting the type in gfc_conv_missing_dummy.  */
765
          dim->representation.length = shift->ts.kind;
766
        }
767
      else
768
        {
769
          gfc_resolve_dim_arg (dim);
770
          /* Convert dim to shift's kind to reduce variations.  */
771
          if (dim->ts.kind != shift->ts.kind)
772
            gfc_convert_type_warn (dim, &shift->ts, 2, 0);
773
        }
774
    }
775
 
776
  if (array->ts.type == BT_CHARACTER)
777
    {
778
      if (array->ts.kind == gfc_default_character_kind)
779
        f->value.function.name
780
          = gfc_get_string (PREFIX ("eoshift%d_%d_char"), n, shift->ts.kind);
781
      else
782
        f->value.function.name
783
          = gfc_get_string (PREFIX ("eoshift%d_%d_char%d"), n, shift->ts.kind,
784
                            array->ts.kind);
785
    }
786
  else
787
    f->value.function.name
788
        = gfc_get_string (PREFIX ("eoshift%d_%d"), n, shift->ts.kind);
789
}
790
 
791
 
792
void
793
gfc_resolve_exp (gfc_expr *f, gfc_expr *x)
794
{
795
  f->ts = x->ts;
796
  f->value.function.name
797
    = gfc_get_string ("__exp_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
798
}
799
 
800
 
801
void
802
gfc_resolve_exponent (gfc_expr *f, gfc_expr *x)
803
{
804
  f->ts.type = BT_INTEGER;
805
  f->ts.kind = gfc_default_integer_kind;
806
  f->value.function.name = gfc_get_string ("__exponent_%d", x->ts.kind);
807
}
808
 
809
 
810
/* Resolve the EXTENDS_TYPE_OF intrinsic function.  */
811
 
812
void
813
gfc_resolve_extends_type_of (gfc_expr *f, gfc_expr *a, gfc_expr *mo)
814
{
815
  gfc_symbol *vtab;
816
  gfc_symtree *st;
817
 
818
  /* Prevent double resolution.  */
819
  if (f->ts.type == BT_LOGICAL)
820
    return;
821
 
822
  /* Replace the first argument with the corresponding vtab.  */
823
  if (a->ts.type == BT_CLASS)
824
    gfc_add_component_ref (a, "$vptr");
825
  else if (a->ts.type == BT_DERIVED)
826
    {
827
      vtab = gfc_find_derived_vtab (a->ts.u.derived);
828
      /* Clear the old expr.  */
829
      gfc_free_ref_list (a->ref);
830
      memset (a, '\0', sizeof (gfc_expr));
831
      /* Construct a new one.  */
832
      a->expr_type = EXPR_VARIABLE;
833
      st = gfc_find_symtree (vtab->ns->sym_root, vtab->name);
834
      a->symtree = st;
835
      a->ts = vtab->ts;
836
    }
837
 
838
  /* Replace the second argument with the corresponding vtab.  */
839
  if (mo->ts.type == BT_CLASS)
840
    gfc_add_component_ref (mo, "$vptr");
841
  else if (mo->ts.type == BT_DERIVED)
842
    {
843
      vtab = gfc_find_derived_vtab (mo->ts.u.derived);
844
      /* Clear the old expr.  */
845
      gfc_free_ref_list (mo->ref);
846
      memset (mo, '\0', sizeof (gfc_expr));
847
      /* Construct a new one.  */
848
      mo->expr_type = EXPR_VARIABLE;
849
      st = gfc_find_symtree (vtab->ns->sym_root, vtab->name);
850
      mo->symtree = st;
851
      mo->ts = vtab->ts;
852
    }
853
 
854
  f->ts.type = BT_LOGICAL;
855
  f->ts.kind = 4;
856
  /* Call library function.  */
857
  f->value.function.name = gfc_get_string (PREFIX ("is_extension_of"));
858
}
859
 
860
 
861
void
862
gfc_resolve_fdate (gfc_expr *f)
863
{
864
  f->ts.type = BT_CHARACTER;
865
  f->ts.kind = gfc_default_character_kind;
866
  f->value.function.name = gfc_get_string (PREFIX ("fdate"));
867
}
868
 
869
 
870
void
871
gfc_resolve_floor (gfc_expr *f, gfc_expr *a, gfc_expr *kind)
872
{
873
  f->ts.type = BT_INTEGER;
874
  f->ts.kind = (kind == NULL)
875
             ? gfc_default_integer_kind : mpz_get_si (kind->value.integer);
876
  f->value.function.name
877
    = gfc_get_string ("__floor%d_%c%d", f->ts.kind,
878
                      gfc_type_letter (a->ts.type), a->ts.kind);
879
}
880
 
881
 
882
void
883
gfc_resolve_fnum (gfc_expr *f, gfc_expr *n)
884
{
885
  f->ts.type = BT_INTEGER;
886
  f->ts.kind = gfc_default_integer_kind;
887
  if (n->ts.kind != f->ts.kind)
888
    gfc_convert_type (n, &f->ts, 2);
889
  f->value.function.name = gfc_get_string (PREFIX ("fnum_i%d"), f->ts.kind);
890
}
891
 
892
 
893
void
894
gfc_resolve_fraction (gfc_expr *f, gfc_expr *x)
895
{
896
  f->ts = x->ts;
897
  f->value.function.name = gfc_get_string ("__fraction_%d", x->ts.kind);
898
}
899
 
900
 
901
/* Resolve single-argument g77 math intrinsics, eg BESY0, ERF.  */
902
 
903
void
904
gfc_resolve_g77_math1 (gfc_expr *f, gfc_expr *x)
905
{
906
  f->ts = x->ts;
907
  f->value.function.name = gfc_get_string ("<intrinsic>");
908
}
909
 
910
 
911
void
912
gfc_resolve_gamma (gfc_expr *f, gfc_expr *x)
913
{
914
  f->ts = x->ts;
915
  f->value.function.name
916
    = gfc_get_string ("__tgamma_%d", x->ts.kind);
917
}
918
 
919
 
920
void
921
gfc_resolve_getcwd (gfc_expr *f, gfc_expr *n ATTRIBUTE_UNUSED)
922
{
923
  f->ts.type = BT_INTEGER;
924
  f->ts.kind = 4;
925
  f->value.function.name = gfc_get_string (PREFIX ("getcwd"));
926
}
927
 
928
 
929
void
930
gfc_resolve_getgid (gfc_expr *f)
931
{
932
  f->ts.type = BT_INTEGER;
933
  f->ts.kind = 4;
934
  f->value.function.name = gfc_get_string (PREFIX ("getgid"));
935
}
936
 
937
 
938
void
939
gfc_resolve_getpid (gfc_expr *f)
940
{
941
  f->ts.type = BT_INTEGER;
942
  f->ts.kind = 4;
943
  f->value.function.name = gfc_get_string (PREFIX ("getpid"));
944
}
945
 
946
 
947
void
948
gfc_resolve_getuid (gfc_expr *f)
949
{
950
  f->ts.type = BT_INTEGER;
951
  f->ts.kind = 4;
952
  f->value.function.name = gfc_get_string (PREFIX ("getuid"));
953
}
954
 
955
 
956
void
957
gfc_resolve_hostnm (gfc_expr *f, gfc_expr *n ATTRIBUTE_UNUSED)
958
{
959
  f->ts.type = BT_INTEGER;
960
  f->ts.kind = 4;
961
  f->value.function.name = gfc_get_string (PREFIX ("hostnm"));
962
}
963
 
964
 
965
void
966
gfc_resolve_hypot (gfc_expr *f, gfc_expr *x, gfc_expr *y ATTRIBUTE_UNUSED)
967
{
968
  f->ts = x->ts;
969
  f->value.function.name = gfc_get_string ("__hypot_r%d", x->ts.kind);
970
}
971
 
972
 
973
void
974
gfc_resolve_iand (gfc_expr *f, gfc_expr *i, gfc_expr *j)
975
{
976
  /* If the kind of i and j are different, then g77 cross-promoted the
977
     kinds to the largest value.  The Fortran 95 standard requires the
978
     kinds to match.  */
979
  if (i->ts.kind != j->ts.kind)
980
    {
981
      if (i->ts.kind == gfc_kind_max (i, j))
982
        gfc_convert_type (j, &i->ts, 2);
983
      else
984
        gfc_convert_type (i, &j->ts, 2);
985
    }
986
 
987
  f->ts = i->ts;
988
  f->value.function.name = gfc_get_string ("__iand_%d", i->ts.kind);
989
}
990
 
991
 
992
void
993
gfc_resolve_ibclr (gfc_expr *f, gfc_expr *i, gfc_expr *pos ATTRIBUTE_UNUSED)
994
{
995
  f->ts = i->ts;
996
  f->value.function.name = gfc_get_string ("__ibclr_%d", i->ts.kind);
997
}
998
 
999
 
1000
void
1001
gfc_resolve_ibits (gfc_expr *f, gfc_expr *i, gfc_expr *pos ATTRIBUTE_UNUSED,
1002
                   gfc_expr *len ATTRIBUTE_UNUSED)
1003
{
1004
  f->ts = i->ts;
1005
  f->value.function.name = gfc_get_string ("__ibits_%d", i->ts.kind);
1006
}
1007
 
1008
 
1009
void
1010
gfc_resolve_ibset (gfc_expr *f, gfc_expr *i, gfc_expr *pos ATTRIBUTE_UNUSED)
1011
{
1012
  f->ts = i->ts;
1013
  f->value.function.name = gfc_get_string ("__ibset_%d", i->ts.kind);
1014
}
1015
 
1016
 
1017
void
1018
gfc_resolve_iachar (gfc_expr *f, gfc_expr *c, gfc_expr *kind)
1019
{
1020
  f->ts.type = BT_INTEGER;
1021
  if (kind)
1022
    f->ts.kind = mpz_get_si (kind->value.integer);
1023
  else
1024
    f->ts.kind = gfc_default_integer_kind;
1025
  f->value.function.name = gfc_get_string ("__ichar_%d", c->ts.kind);
1026
}
1027
 
1028
 
1029
void
1030
gfc_resolve_ichar (gfc_expr *f, gfc_expr *c, gfc_expr *kind)
1031
{
1032
  f->ts.type = BT_INTEGER;
1033
  if (kind)
1034
    f->ts.kind = mpz_get_si (kind->value.integer);
1035
  else
1036
    f->ts.kind = gfc_default_integer_kind;
1037
  f->value.function.name = gfc_get_string ("__ichar_%d", c->ts.kind);
1038
}
1039
 
1040
 
1041
void
1042
gfc_resolve_idnint (gfc_expr *f, gfc_expr *a)
1043
{
1044
  gfc_resolve_nint (f, a, NULL);
1045
}
1046
 
1047
 
1048
void
1049
gfc_resolve_ierrno (gfc_expr *f)
1050
{
1051
  f->ts.type = BT_INTEGER;
1052
  f->ts.kind = gfc_default_integer_kind;
1053
  f->value.function.name = gfc_get_string (PREFIX ("ierrno_i%d"), f->ts.kind);
1054
}
1055
 
1056
 
1057
void
1058
gfc_resolve_ieor (gfc_expr *f, gfc_expr *i, gfc_expr *j)
1059
{
1060
  /* If the kind of i and j are different, then g77 cross-promoted the
1061
     kinds to the largest value.  The Fortran 95 standard requires the
1062
     kinds to match.  */
1063
  if (i->ts.kind != j->ts.kind)
1064
    {
1065
      if (i->ts.kind == gfc_kind_max (i, j))
1066
        gfc_convert_type (j, &i->ts, 2);
1067
      else
1068
        gfc_convert_type (i, &j->ts, 2);
1069
    }
1070
 
1071
  f->ts = i->ts;
1072
  f->value.function.name = gfc_get_string ("__ieor_%d", i->ts.kind);
1073
}
1074
 
1075
 
1076
void
1077
gfc_resolve_ior (gfc_expr *f, gfc_expr *i, gfc_expr *j)
1078
{
1079
  /* If the kind of i and j are different, then g77 cross-promoted the
1080
     kinds to the largest value.  The Fortran 95 standard requires the
1081
     kinds to match.  */
1082
  if (i->ts.kind != j->ts.kind)
1083
    {
1084
      if (i->ts.kind == gfc_kind_max (i, j))
1085
        gfc_convert_type (j, &i->ts, 2);
1086
      else
1087
        gfc_convert_type (i, &j->ts, 2);
1088
    }
1089
 
1090
  f->ts = i->ts;
1091
  f->value.function.name = gfc_get_string ("__ior_%d", i->ts.kind);
1092
}
1093
 
1094
 
1095
void
1096
gfc_resolve_index_func (gfc_expr *f, gfc_expr *str,
1097
                        gfc_expr *sub_str ATTRIBUTE_UNUSED, gfc_expr *back,
1098
                        gfc_expr *kind)
1099
{
1100
  gfc_typespec ts;
1101
  gfc_clear_ts (&ts);
1102
 
1103
  f->ts.type = BT_INTEGER;
1104
  if (kind)
1105
    f->ts.kind = mpz_get_si (kind->value.integer);
1106
  else
1107
    f->ts.kind = gfc_default_integer_kind;
1108
 
1109
  if (back && back->ts.kind != gfc_default_integer_kind)
1110
    {
1111
      ts.type = BT_LOGICAL;
1112
      ts.kind = gfc_default_integer_kind;
1113
      ts.u.derived = NULL;
1114
      ts.u.cl = NULL;
1115
      gfc_convert_type (back, &ts, 2);
1116
    }
1117
 
1118
  f->value.function.name
1119
    = gfc_get_string ("__index_%d_i%d", str->ts.kind, f->ts.kind);
1120
}
1121
 
1122
 
1123
void
1124
gfc_resolve_int (gfc_expr *f, gfc_expr *a, gfc_expr *kind)
1125
{
1126
  f->ts.type = BT_INTEGER;
1127
  f->ts.kind = (kind == NULL)
1128
             ? gfc_default_integer_kind : mpz_get_si (kind->value.integer);
1129
  f->value.function.name
1130
    = gfc_get_string ("__int_%d_%c%d", f->ts.kind,
1131
                      gfc_type_letter (a->ts.type), a->ts.kind);
1132
}
1133
 
1134
 
1135
void
1136
gfc_resolve_int2 (gfc_expr *f, gfc_expr *a)
1137
{
1138
  f->ts.type = BT_INTEGER;
1139
  f->ts.kind = 2;
1140
  f->value.function.name
1141
    = gfc_get_string ("__int_%d_%c%d", f->ts.kind,
1142
                      gfc_type_letter (a->ts.type), a->ts.kind);
1143
}
1144
 
1145
 
1146
void
1147
gfc_resolve_int8 (gfc_expr *f, gfc_expr *a)
1148
{
1149
  f->ts.type = BT_INTEGER;
1150
  f->ts.kind = 8;
1151
  f->value.function.name
1152
    = gfc_get_string ("__int_%d_%c%d", f->ts.kind,
1153
                      gfc_type_letter (a->ts.type), a->ts.kind);
1154
}
1155
 
1156
 
1157
void
1158
gfc_resolve_long (gfc_expr *f, gfc_expr *a)
1159
{
1160
  f->ts.type = BT_INTEGER;
1161
  f->ts.kind = 4;
1162
  f->value.function.name
1163
    = gfc_get_string ("__int_%d_%c%d", f->ts.kind,
1164
                      gfc_type_letter (a->ts.type), a->ts.kind);
1165
}
1166
 
1167
 
1168
void
1169
gfc_resolve_isatty (gfc_expr *f, gfc_expr *u)
1170
{
1171
  gfc_typespec ts;
1172
  gfc_clear_ts (&ts);
1173
 
1174
  f->ts.type = BT_LOGICAL;
1175
  f->ts.kind = gfc_default_integer_kind;
1176
  if (u->ts.kind != gfc_c_int_kind)
1177
    {
1178
      ts.type = BT_INTEGER;
1179
      ts.kind = gfc_c_int_kind;
1180
      ts.u.derived = NULL;
1181
      ts.u.cl = NULL;
1182
      gfc_convert_type (u, &ts, 2);
1183
    }
1184
 
1185
  f->value.function.name = gfc_get_string (PREFIX ("isatty_l%d"), f->ts.kind);
1186
}
1187
 
1188
 
1189
void
1190
gfc_resolve_ishft (gfc_expr *f, gfc_expr *i, gfc_expr *shift)
1191
{
1192
  f->ts = i->ts;
1193
  f->value.function.name
1194
    = gfc_get_string ("__ishft_%d_%d", i->ts.kind, shift->ts.kind);
1195
}
1196
 
1197
 
1198
void
1199
gfc_resolve_rshift (gfc_expr *f, gfc_expr *i, gfc_expr *shift)
1200
{
1201
  f->ts = i->ts;
1202
  f->value.function.name
1203
    = gfc_get_string ("__rshift_%d_%d", i->ts.kind, shift->ts.kind);
1204
}
1205
 
1206
 
1207
void
1208
gfc_resolve_lshift (gfc_expr *f, gfc_expr *i, gfc_expr *shift)
1209
{
1210
  f->ts = i->ts;
1211
  f->value.function.name
1212
    = gfc_get_string ("__lshift_%d_%d", i->ts.kind, shift->ts.kind);
1213
}
1214
 
1215
 
1216
void
1217
gfc_resolve_ishftc (gfc_expr *f, gfc_expr *i, gfc_expr *shift, gfc_expr *size)
1218
{
1219
  int s_kind;
1220
 
1221
  s_kind = (size == NULL) ? gfc_default_integer_kind : size->ts.kind;
1222
 
1223
  f->ts = i->ts;
1224
  f->value.function.name
1225
    = gfc_get_string ("__ishftc_%d_%d_%d", i->ts.kind, shift->ts.kind, s_kind);
1226
}
1227
 
1228
 
1229
void
1230
gfc_resolve_kill (gfc_expr *f, gfc_expr *p ATTRIBUTE_UNUSED,
1231
                  gfc_expr *s ATTRIBUTE_UNUSED)
1232
{
1233
  f->ts.type = BT_INTEGER;
1234
  f->ts.kind = gfc_default_integer_kind;
1235
  f->value.function.name = gfc_get_string (PREFIX ("kill_i%d"), f->ts.kind);
1236
}
1237
 
1238
 
1239
void
1240
gfc_resolve_lbound (gfc_expr *f, gfc_expr *array, gfc_expr *dim, gfc_expr *kind)
1241
{
1242
  static char lbound[] = "__lbound";
1243
 
1244
  f->ts.type = BT_INTEGER;
1245
  if (kind)
1246
    f->ts.kind = mpz_get_si (kind->value.integer);
1247
  else
1248
    f->ts.kind = gfc_default_integer_kind;
1249
 
1250
  if (dim == NULL)
1251
    {
1252
      f->rank = 1;
1253
      f->shape = gfc_get_shape (1);
1254
      mpz_init_set_ui (f->shape[0], array->rank);
1255
    }
1256
 
1257
  f->value.function.name = lbound;
1258
}
1259
 
1260
 
1261
void
1262
gfc_resolve_len (gfc_expr *f, gfc_expr *string, gfc_expr *kind)
1263
{
1264
  f->ts.type = BT_INTEGER;
1265
  if (kind)
1266
    f->ts.kind = mpz_get_si (kind->value.integer);
1267
  else
1268
    f->ts.kind = gfc_default_integer_kind;
1269
  f->value.function.name
1270
    = gfc_get_string ("__len_%d_i%d", string->ts.kind,
1271
                      gfc_default_integer_kind);
1272
}
1273
 
1274
 
1275
void
1276
gfc_resolve_len_trim (gfc_expr *f, gfc_expr *string, gfc_expr *kind)
1277
{
1278
  f->ts.type = BT_INTEGER;
1279
  if (kind)
1280
    f->ts.kind = mpz_get_si (kind->value.integer);
1281
  else
1282
    f->ts.kind = gfc_default_integer_kind;
1283
  f->value.function.name = gfc_get_string ("__len_trim%d", string->ts.kind);
1284
}
1285
 
1286
 
1287
void
1288
gfc_resolve_lgamma (gfc_expr *f, gfc_expr *x)
1289
{
1290
  f->ts = x->ts;
1291
  f->value.function.name
1292
    = gfc_get_string ("__lgamma_%d", x->ts.kind);
1293
}
1294
 
1295
 
1296
void
1297
gfc_resolve_link (gfc_expr *f, gfc_expr *p1 ATTRIBUTE_UNUSED,
1298
                  gfc_expr *p2 ATTRIBUTE_UNUSED)
1299
{
1300
  f->ts.type = BT_INTEGER;
1301
  f->ts.kind = gfc_default_integer_kind;
1302
  f->value.function.name = gfc_get_string (PREFIX ("link_i%d"), f->ts.kind);
1303
}
1304
 
1305
 
1306
void
1307
gfc_resolve_loc (gfc_expr *f, gfc_expr *x)
1308
{
1309
  f->ts.type= BT_INTEGER;
1310
  f->ts.kind = gfc_index_integer_kind;
1311
  f->value.function.name = gfc_get_string ("__loc_%d", x->ts.kind);
1312
}
1313
 
1314
 
1315
void
1316
gfc_resolve_log (gfc_expr *f, gfc_expr *x)
1317
{
1318
  f->ts = x->ts;
1319
  f->value.function.name
1320
    = gfc_get_string ("__log_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
1321
}
1322
 
1323
 
1324
void
1325
gfc_resolve_log10 (gfc_expr *f, gfc_expr *x)
1326
{
1327
  f->ts = x->ts;
1328
  f->value.function.name
1329
    = gfc_get_string ("__log10_%c%d", gfc_type_letter (x->ts.type),
1330
                      x->ts.kind);
1331
}
1332
 
1333
 
1334
void
1335
gfc_resolve_logical (gfc_expr *f, gfc_expr *a, gfc_expr *kind)
1336
{
1337
  f->ts.type = BT_LOGICAL;
1338
  f->ts.kind = (kind == NULL)
1339
             ? gfc_default_logical_kind : mpz_get_si (kind->value.integer);
1340
  f->rank = a->rank;
1341
 
1342
  f->value.function.name
1343
    = gfc_get_string ("__logical_%d_%c%d", f->ts.kind,
1344
                      gfc_type_letter (a->ts.type), a->ts.kind);
1345
}
1346
 
1347
 
1348
void
1349
gfc_resolve_malloc (gfc_expr *f, gfc_expr *size)
1350
{
1351
  if (size->ts.kind < gfc_index_integer_kind)
1352
    {
1353
      gfc_typespec ts;
1354
      gfc_clear_ts (&ts);
1355
 
1356
      ts.type = BT_INTEGER;
1357
      ts.kind = gfc_index_integer_kind;
1358
      gfc_convert_type_warn (size, &ts, 2, 0);
1359
    }
1360
 
1361
  f->ts.type = BT_INTEGER;
1362
  f->ts.kind = gfc_index_integer_kind;
1363
  f->value.function.name = gfc_get_string (PREFIX ("malloc"));
1364
}
1365
 
1366
 
1367
void
1368
gfc_resolve_matmul (gfc_expr *f, gfc_expr *a, gfc_expr *b)
1369
{
1370
  gfc_expr temp;
1371
 
1372
  if (a->ts.type == BT_LOGICAL && b->ts.type == BT_LOGICAL)
1373
    {
1374
      f->ts.type = BT_LOGICAL;
1375
      f->ts.kind = gfc_default_logical_kind;
1376
    }
1377
  else
1378
    {
1379
      temp.expr_type = EXPR_OP;
1380
      gfc_clear_ts (&temp.ts);
1381
      temp.value.op.op = INTRINSIC_NONE;
1382
      temp.value.op.op1 = a;
1383
      temp.value.op.op2 = b;
1384
      gfc_type_convert_binary (&temp, 1);
1385
      f->ts = temp.ts;
1386
    }
1387
 
1388
  f->rank = (a->rank == 2 && b->rank == 2) ? 2 : 1;
1389
 
1390
  if (a->rank == 2 && b->rank == 2)
1391
    {
1392
      if (a->shape && b->shape)
1393
        {
1394
          f->shape = gfc_get_shape (f->rank);
1395
          mpz_init_set (f->shape[0], a->shape[0]);
1396
          mpz_init_set (f->shape[1], b->shape[1]);
1397
        }
1398
    }
1399
  else if (a->rank == 1)
1400
    {
1401
      if (b->shape)
1402
        {
1403
          f->shape = gfc_get_shape (f->rank);
1404
          mpz_init_set (f->shape[0], b->shape[1]);
1405
        }
1406
    }
1407
  else
1408
    {
1409
      /* b->rank == 1 and a->rank == 2 here, all other cases have
1410
         been caught in check.c.   */
1411
      if (a->shape)
1412
        {
1413
          f->shape = gfc_get_shape (f->rank);
1414
          mpz_init_set (f->shape[0], a->shape[0]);
1415
        }
1416
    }
1417
 
1418
  f->value.function.name
1419
    = gfc_get_string (PREFIX ("matmul_%c%d"), gfc_type_letter (f->ts.type),
1420
                      f->ts.kind);
1421
}
1422
 
1423
 
1424
static void
1425
gfc_resolve_minmax (const char *name, gfc_expr *f, gfc_actual_arglist *args)
1426
{
1427
  gfc_actual_arglist *a;
1428
 
1429
  f->ts.type = args->expr->ts.type;
1430
  f->ts.kind = args->expr->ts.kind;
1431
  /* Find the largest type kind.  */
1432
  for (a = args->next; a; a = a->next)
1433
    {
1434
      if (a->expr->ts.kind > f->ts.kind)
1435
        f->ts.kind = a->expr->ts.kind;
1436
    }
1437
 
1438
  /* Convert all parameters to the required kind.  */
1439
  for (a = args; a; a = a->next)
1440
    {
1441
      if (a->expr->ts.kind != f->ts.kind)
1442
        gfc_convert_type (a->expr, &f->ts, 2);
1443
    }
1444
 
1445
  f->value.function.name
1446
    = gfc_get_string (name, gfc_type_letter (f->ts.type), f->ts.kind);
1447
}
1448
 
1449
 
1450
void
1451
gfc_resolve_max (gfc_expr *f, gfc_actual_arglist *args)
1452
{
1453
  gfc_resolve_minmax ("__max_%c%d", f, args);
1454
}
1455
 
1456
 
1457
void
1458
gfc_resolve_maxloc (gfc_expr *f, gfc_expr *array, gfc_expr *dim,
1459
                    gfc_expr *mask)
1460
{
1461
  const char *name;
1462
  int i, j, idim;
1463
 
1464
  f->ts.type = BT_INTEGER;
1465
  f->ts.kind = gfc_default_integer_kind;
1466
 
1467
  if (dim == NULL)
1468
    {
1469
      f->rank = 1;
1470
      f->shape = gfc_get_shape (1);
1471
      mpz_init_set_si (f->shape[0], array->rank);
1472
    }
1473
  else
1474
    {
1475
      f->rank = array->rank - 1;
1476
      gfc_resolve_dim_arg (dim);
1477
      if (array->shape && dim->expr_type == EXPR_CONSTANT)
1478
        {
1479
          idim = (int) mpz_get_si (dim->value.integer);
1480
          f->shape = gfc_get_shape (f->rank);
1481
          for (i = 0, j = 0; i < f->rank; i++, j++)
1482
            {
1483
              if (i == (idim - 1))
1484
                j++;
1485
              mpz_init_set (f->shape[i], array->shape[j]);
1486
            }
1487
        }
1488
    }
1489
 
1490
  if (mask)
1491
    {
1492
      if (mask->rank == 0)
1493
        name = "smaxloc";
1494
      else
1495
        name = "mmaxloc";
1496
 
1497
      resolve_mask_arg (mask);
1498
    }
1499
  else
1500
    name = "maxloc";
1501
 
1502
  f->value.function.name
1503
    = gfc_get_string (PREFIX ("%s%d_%d_%c%d"), name, dim != NULL, f->ts.kind,
1504
                      gfc_type_letter (array->ts.type), array->ts.kind);
1505
}
1506
 
1507
 
1508
void
1509
gfc_resolve_maxval (gfc_expr *f, gfc_expr *array, gfc_expr *dim,
1510
                    gfc_expr *mask)
1511
{
1512
  const char *name;
1513
  int i, j, idim;
1514
 
1515
  f->ts = array->ts;
1516
 
1517
  if (dim != NULL)
1518
    {
1519
      f->rank = array->rank - 1;
1520
      gfc_resolve_dim_arg (dim);
1521
 
1522
      if (f->rank && array->shape && dim->expr_type == EXPR_CONSTANT)
1523
        {
1524
          idim = (int) mpz_get_si (dim->value.integer);
1525
          f->shape = gfc_get_shape (f->rank);
1526
          for (i = 0, j = 0; i < f->rank; i++, j++)
1527
            {
1528
              if (i == (idim - 1))
1529
                j++;
1530
              mpz_init_set (f->shape[i], array->shape[j]);
1531
            }
1532
        }
1533
    }
1534
 
1535
  if (mask)
1536
    {
1537
      if (mask->rank == 0)
1538
        name = "smaxval";
1539
      else
1540
        name = "mmaxval";
1541
 
1542
      resolve_mask_arg (mask);
1543
    }
1544
  else
1545
    name = "maxval";
1546
 
1547
  f->value.function.name
1548
    = gfc_get_string (PREFIX ("%s_%c%d"), name,
1549
                      gfc_type_letter (array->ts.type), array->ts.kind);
1550
}
1551
 
1552
 
1553
void
1554
gfc_resolve_mclock (gfc_expr *f)
1555
{
1556
  f->ts.type = BT_INTEGER;
1557
  f->ts.kind = 4;
1558
  f->value.function.name = PREFIX ("mclock");
1559
}
1560
 
1561
 
1562
void
1563
gfc_resolve_mclock8 (gfc_expr *f)
1564
{
1565
  f->ts.type = BT_INTEGER;
1566
  f->ts.kind = 8;
1567
  f->value.function.name = PREFIX ("mclock8");
1568
}
1569
 
1570
 
1571
void
1572
gfc_resolve_merge (gfc_expr *f, gfc_expr *tsource,
1573
                   gfc_expr *fsource ATTRIBUTE_UNUSED,
1574
                   gfc_expr *mask ATTRIBUTE_UNUSED)
1575
{
1576
  if (tsource->ts.type == BT_CHARACTER && tsource->ref)
1577
    gfc_resolve_substring_charlen (tsource);
1578
 
1579
  if (fsource->ts.type == BT_CHARACTER && fsource->ref)
1580
    gfc_resolve_substring_charlen (fsource);
1581
 
1582
  if (tsource->ts.type == BT_CHARACTER)
1583
    check_charlen_present (tsource);
1584
 
1585
  f->ts = tsource->ts;
1586
  f->value.function.name
1587
    = gfc_get_string ("__merge_%c%d", gfc_type_letter (tsource->ts.type),
1588
                      tsource->ts.kind);
1589
}
1590
 
1591
 
1592
void
1593
gfc_resolve_min (gfc_expr *f, gfc_actual_arglist *args)
1594
{
1595
  gfc_resolve_minmax ("__min_%c%d", f, args);
1596
}
1597
 
1598
 
1599
void
1600
gfc_resolve_minloc (gfc_expr *f, gfc_expr *array, gfc_expr *dim,
1601
                    gfc_expr *mask)
1602
{
1603
  const char *name;
1604
  int i, j, idim;
1605
 
1606
  f->ts.type = BT_INTEGER;
1607
  f->ts.kind = gfc_default_integer_kind;
1608
 
1609
  if (dim == NULL)
1610
    {
1611
      f->rank = 1;
1612
      f->shape = gfc_get_shape (1);
1613
      mpz_init_set_si (f->shape[0], array->rank);
1614
    }
1615
  else
1616
    {
1617
      f->rank = array->rank - 1;
1618
      gfc_resolve_dim_arg (dim);
1619
      if (array->shape && dim->expr_type == EXPR_CONSTANT)
1620
        {
1621
          idim = (int) mpz_get_si (dim->value.integer);
1622
          f->shape = gfc_get_shape (f->rank);
1623
          for (i = 0, j = 0; i < f->rank; i++, j++)
1624
            {
1625
              if (i == (idim - 1))
1626
                j++;
1627
              mpz_init_set (f->shape[i], array->shape[j]);
1628
            }
1629
        }
1630
    }
1631
 
1632
  if (mask)
1633
    {
1634
      if (mask->rank == 0)
1635
        name = "sminloc";
1636
      else
1637
        name = "mminloc";
1638
 
1639
      resolve_mask_arg (mask);
1640
    }
1641
  else
1642
    name = "minloc";
1643
 
1644
  f->value.function.name
1645
    = gfc_get_string (PREFIX ("%s%d_%d_%c%d"), name, dim != NULL, f->ts.kind,
1646
                      gfc_type_letter (array->ts.type), array->ts.kind);
1647
}
1648
 
1649
 
1650
void
1651
gfc_resolve_minval (gfc_expr *f, gfc_expr *array, gfc_expr *dim,
1652
                    gfc_expr *mask)
1653
{
1654
  const char *name;
1655
  int i, j, idim;
1656
 
1657
  f->ts = array->ts;
1658
 
1659
  if (dim != NULL)
1660
    {
1661
      f->rank = array->rank - 1;
1662
      gfc_resolve_dim_arg (dim);
1663
 
1664
      if (f->rank && array->shape && dim->expr_type == EXPR_CONSTANT)
1665
        {
1666
          idim = (int) mpz_get_si (dim->value.integer);
1667
          f->shape = gfc_get_shape (f->rank);
1668
          for (i = 0, j = 0; i < f->rank; i++, j++)
1669
            {
1670
              if (i == (idim - 1))
1671
                j++;
1672
              mpz_init_set (f->shape[i], array->shape[j]);
1673
            }
1674
        }
1675
    }
1676
 
1677
  if (mask)
1678
    {
1679
      if (mask->rank == 0)
1680
        name = "sminval";
1681
      else
1682
        name = "mminval";
1683
 
1684
      resolve_mask_arg (mask);
1685
    }
1686
  else
1687
    name = "minval";
1688
 
1689
  f->value.function.name
1690
    = gfc_get_string (PREFIX ("%s_%c%d"), name,
1691
                      gfc_type_letter (array->ts.type), array->ts.kind);
1692
}
1693
 
1694
 
1695
void
1696
gfc_resolve_mod (gfc_expr *f, gfc_expr *a, gfc_expr *p)
1697
{
1698
  f->ts.type = a->ts.type;
1699
  if (p != NULL)
1700
    f->ts.kind = gfc_kind_max (a,p);
1701
  else
1702
    f->ts.kind = a->ts.kind;
1703
 
1704
  if (p != NULL && a->ts.kind != p->ts.kind)
1705
    {
1706
      if (a->ts.kind == gfc_kind_max (a,p))
1707
        gfc_convert_type (p, &a->ts, 2);
1708
      else
1709
        gfc_convert_type (a, &p->ts, 2);
1710
    }
1711
 
1712
  f->value.function.name
1713
    = gfc_get_string ("__mod_%c%d", gfc_type_letter (f->ts.type), f->ts.kind);
1714
}
1715
 
1716
 
1717
void
1718
gfc_resolve_modulo (gfc_expr *f, gfc_expr *a, gfc_expr *p)
1719
{
1720
  f->ts.type = a->ts.type;
1721
  if (p != NULL)
1722
    f->ts.kind = gfc_kind_max (a,p);
1723
  else
1724
    f->ts.kind = a->ts.kind;
1725
 
1726
  if (p != NULL && a->ts.kind != p->ts.kind)
1727
    {
1728
      if (a->ts.kind == gfc_kind_max (a,p))
1729
        gfc_convert_type (p, &a->ts, 2);
1730
      else
1731
        gfc_convert_type (a, &p->ts, 2);
1732
    }
1733
 
1734
  f->value.function.name
1735
    = gfc_get_string ("__modulo_%c%d", gfc_type_letter (f->ts.type),
1736
                      f->ts.kind);
1737
}
1738
 
1739
void
1740
gfc_resolve_nearest (gfc_expr *f, gfc_expr *a, gfc_expr *p)
1741
{
1742
  if (p->ts.kind != a->ts.kind)
1743
    gfc_convert_type (p, &a->ts, 2);
1744
 
1745
  f->ts = a->ts;
1746
  f->value.function.name
1747
    = gfc_get_string ("__nearest_%c%d", gfc_type_letter (a->ts.type),
1748
                      a->ts.kind);
1749
}
1750
 
1751
void
1752
gfc_resolve_nint (gfc_expr *f, gfc_expr *a, gfc_expr *kind)
1753
{
1754
  f->ts.type = BT_INTEGER;
1755
  f->ts.kind = (kind == NULL)
1756
             ? gfc_default_integer_kind : mpz_get_si (kind->value.integer);
1757
  f->value.function.name
1758
    = gfc_get_string ("__nint_%d_%d", f->ts.kind, a->ts.kind);
1759
}
1760
 
1761
 
1762
void
1763
gfc_resolve_not (gfc_expr *f, gfc_expr *i)
1764
{
1765
  f->ts = i->ts;
1766
  f->value.function.name = gfc_get_string ("__not_%d", i->ts.kind);
1767
}
1768
 
1769
 
1770
void
1771
gfc_resolve_or (gfc_expr *f, gfc_expr *i, gfc_expr *j)
1772
{
1773
  f->ts.type = i->ts.type;
1774
  f->ts.kind = gfc_kind_max (i, j);
1775
 
1776
  if (i->ts.kind != j->ts.kind)
1777
    {
1778
      if (i->ts.kind == gfc_kind_max (i, j))
1779
        gfc_convert_type (j, &i->ts, 2);
1780
      else
1781
        gfc_convert_type (i, &j->ts, 2);
1782
    }
1783
 
1784
  f->value.function.name
1785
    = gfc_get_string ("__or_%c%d", gfc_type_letter (i->ts.type), f->ts.kind);
1786
}
1787
 
1788
 
1789
void
1790
gfc_resolve_pack (gfc_expr *f, gfc_expr *array, gfc_expr *mask,
1791
                  gfc_expr *vector ATTRIBUTE_UNUSED)
1792
{
1793
  if (array->ts.type == BT_CHARACTER && array->ref)
1794
    gfc_resolve_substring_charlen (array);
1795
 
1796
  f->ts = array->ts;
1797
  f->rank = 1;
1798
 
1799
  resolve_mask_arg (mask);
1800
 
1801
  if (mask->rank != 0)
1802
    {
1803
      if (array->ts.type == BT_CHARACTER)
1804
        f->value.function.name
1805
          = array->ts.kind == 1 ? PREFIX ("pack_char")
1806
                                : gfc_get_string
1807
                                        (PREFIX ("pack_char%d"),
1808
                                         array->ts.kind);
1809
      else
1810
        f->value.function.name = PREFIX ("pack");
1811
    }
1812
  else
1813
    {
1814
      if (array->ts.type == BT_CHARACTER)
1815
        f->value.function.name
1816
          = array->ts.kind == 1 ? PREFIX ("pack_s_char")
1817
                                : gfc_get_string
1818
                                        (PREFIX ("pack_s_char%d"),
1819
                                         array->ts.kind);
1820
      else
1821
        f->value.function.name = PREFIX ("pack_s");
1822
    }
1823
}
1824
 
1825
 
1826
void
1827
gfc_resolve_product (gfc_expr *f, gfc_expr *array, gfc_expr *dim,
1828
                     gfc_expr *mask)
1829
{
1830
  const char *name;
1831
 
1832
  f->ts = array->ts;
1833
 
1834
  if (dim != NULL)
1835
    {
1836
      f->rank = array->rank - 1;
1837
      f->shape = gfc_copy_shape_excluding (array->shape, array->rank, dim);
1838
      gfc_resolve_dim_arg (dim);
1839
    }
1840
 
1841
  if (mask)
1842
    {
1843
      if (mask->rank == 0)
1844
        name = "sproduct";
1845
      else
1846
        name = "mproduct";
1847
 
1848
      resolve_mask_arg (mask);
1849
    }
1850
  else
1851
    name = "product";
1852
 
1853
  f->value.function.name
1854
    = gfc_get_string (PREFIX ("%s_%c%d"), name,
1855
                      gfc_type_letter (array->ts.type), array->ts.kind);
1856
}
1857
 
1858
 
1859
void
1860
gfc_resolve_real (gfc_expr *f, gfc_expr *a, gfc_expr *kind)
1861
{
1862
  f->ts.type = BT_REAL;
1863
 
1864
  if (kind != NULL)
1865
    f->ts.kind = mpz_get_si (kind->value.integer);
1866
  else
1867
    f->ts.kind = (a->ts.type == BT_COMPLEX)
1868
               ? a->ts.kind : gfc_default_real_kind;
1869
 
1870
  f->value.function.name
1871
    = gfc_get_string ("__real_%d_%c%d", f->ts.kind,
1872
                      gfc_type_letter (a->ts.type), a->ts.kind);
1873
}
1874
 
1875
 
1876
void
1877
gfc_resolve_realpart (gfc_expr *f, gfc_expr *a)
1878
{
1879
  f->ts.type = BT_REAL;
1880
  f->ts.kind = a->ts.kind;
1881
  f->value.function.name
1882
    = gfc_get_string ("__real_%d_%c%d", f->ts.kind,
1883
                      gfc_type_letter (a->ts.type), a->ts.kind);
1884
}
1885
 
1886
 
1887
void
1888
gfc_resolve_rename (gfc_expr *f, gfc_expr *p1 ATTRIBUTE_UNUSED,
1889
                    gfc_expr *p2 ATTRIBUTE_UNUSED)
1890
{
1891
  f->ts.type = BT_INTEGER;
1892
  f->ts.kind = gfc_default_integer_kind;
1893
  f->value.function.name = gfc_get_string (PREFIX ("rename_i%d"), f->ts.kind);
1894
}
1895
 
1896
 
1897
void
1898
gfc_resolve_repeat (gfc_expr *f, gfc_expr *string,
1899
                    gfc_expr *ncopies ATTRIBUTE_UNUSED)
1900
{
1901
  f->ts.type = BT_CHARACTER;
1902
  f->ts.kind = string->ts.kind;
1903
  f->value.function.name = gfc_get_string ("__repeat_%d", string->ts.kind);
1904
}
1905
 
1906
 
1907
void
1908
gfc_resolve_reshape (gfc_expr *f, gfc_expr *source, gfc_expr *shape,
1909
                     gfc_expr *pad ATTRIBUTE_UNUSED,
1910
                     gfc_expr *order ATTRIBUTE_UNUSED)
1911
{
1912
  mpz_t rank;
1913
  int kind;
1914
  int i;
1915
 
1916
  if (source->ts.type == BT_CHARACTER && source->ref)
1917
    gfc_resolve_substring_charlen (source);
1918
 
1919
  f->ts = source->ts;
1920
 
1921
  gfc_array_size (shape, &rank);
1922
  f->rank = mpz_get_si (rank);
1923
  mpz_clear (rank);
1924
  switch (source->ts.type)
1925
    {
1926
    case BT_COMPLEX:
1927
    case BT_REAL:
1928
    case BT_INTEGER:
1929
    case BT_LOGICAL:
1930
    case BT_CHARACTER:
1931
      kind = source->ts.kind;
1932
      break;
1933
 
1934
    default:
1935
      kind = 0;
1936
      break;
1937
    }
1938
 
1939
  switch (kind)
1940
    {
1941
    case 4:
1942
    case 8:
1943
    case 10:
1944
    case 16:
1945
      if (source->ts.type == BT_COMPLEX || source->ts.type == BT_REAL)
1946
        f->value.function.name
1947
          = gfc_get_string (PREFIX ("reshape_%c%d"),
1948
                            gfc_type_letter (source->ts.type),
1949
                            source->ts.kind);
1950
      else if (source->ts.type == BT_CHARACTER)
1951
        f->value.function.name = gfc_get_string (PREFIX ("reshape_char%d"),
1952
                                                 kind);
1953
      else
1954
        f->value.function.name
1955
          = gfc_get_string (PREFIX ("reshape_%d"), source->ts.kind);
1956
      break;
1957
 
1958
    default:
1959
      f->value.function.name = (source->ts.type == BT_CHARACTER
1960
                                ? PREFIX ("reshape_char") : PREFIX ("reshape"));
1961
      break;
1962
    }
1963
 
1964
  /* TODO: Make this work with a constant ORDER parameter.  */
1965
  if (shape->expr_type == EXPR_ARRAY
1966
      && gfc_is_constant_expr (shape)
1967
      && order == NULL)
1968
    {
1969
      gfc_constructor *c;
1970
      f->shape = gfc_get_shape (f->rank);
1971
      c = shape->value.constructor;
1972
      for (i = 0; i < f->rank; i++)
1973
        {
1974
          mpz_init_set (f->shape[i], c->expr->value.integer);
1975
          c = c->next;
1976
        }
1977
    }
1978
 
1979
  /* Force-convert both SHAPE and ORDER to index_kind so that we don't need
1980
     so many runtime variations.  */
1981
  if (shape->ts.kind != gfc_index_integer_kind)
1982
    {
1983
      gfc_typespec ts = shape->ts;
1984
      ts.kind = gfc_index_integer_kind;
1985
      gfc_convert_type_warn (shape, &ts, 2, 0);
1986
    }
1987
  if (order && order->ts.kind != gfc_index_integer_kind)
1988
    gfc_convert_type_warn (order, &shape->ts, 2, 0);
1989
}
1990
 
1991
 
1992
void
1993
gfc_resolve_rrspacing (gfc_expr *f, gfc_expr *x)
1994
{
1995
  f->ts = x->ts;
1996
  f->value.function.name = gfc_get_string ("__rrspacing_%d", x->ts.kind);
1997
}
1998
 
1999
 
2000
void
2001
gfc_resolve_scale (gfc_expr *f, gfc_expr *x, gfc_expr *i ATTRIBUTE_UNUSED)
2002
{
2003
  f->ts = x->ts;
2004
  f->value.function.name = gfc_get_string ("__scale_%d", x->ts.kind);
2005
}
2006
 
2007
 
2008
void
2009
gfc_resolve_scan (gfc_expr *f, gfc_expr *string,
2010
                  gfc_expr *set ATTRIBUTE_UNUSED,
2011
                  gfc_expr *back ATTRIBUTE_UNUSED, gfc_expr *kind)
2012
{
2013
  f->ts.type = BT_INTEGER;
2014
  if (kind)
2015
    f->ts.kind = mpz_get_si (kind->value.integer);
2016
  else
2017
    f->ts.kind = gfc_default_integer_kind;
2018
  f->value.function.name = gfc_get_string ("__scan_%d", string->ts.kind);
2019
}
2020
 
2021
 
2022
void
2023
gfc_resolve_secnds (gfc_expr *t1, gfc_expr *t0)
2024
{
2025
  t1->ts = t0->ts;
2026
  t1->value.function.name = gfc_get_string (PREFIX ("secnds"));
2027
}
2028
 
2029
 
2030
void
2031
gfc_resolve_set_exponent (gfc_expr *f, gfc_expr *x,
2032
                          gfc_expr *i ATTRIBUTE_UNUSED)
2033
{
2034
  f->ts = x->ts;
2035
  f->value.function.name = gfc_get_string ("__set_exponent_%d", x->ts.kind);
2036
}
2037
 
2038
 
2039
void
2040
gfc_resolve_shape (gfc_expr *f, gfc_expr *array)
2041
{
2042
  f->ts.type = BT_INTEGER;
2043
  f->ts.kind = gfc_default_integer_kind;
2044
  f->rank = 1;
2045
  f->shape = gfc_get_shape (1);
2046
  mpz_init_set_ui (f->shape[0], array->rank);
2047
  f->value.function.name = gfc_get_string (PREFIX ("shape_%d"), f->ts.kind);
2048
}
2049
 
2050
 
2051
void
2052
gfc_resolve_sign (gfc_expr *f, gfc_expr *a, gfc_expr *b ATTRIBUTE_UNUSED)
2053
{
2054
  f->ts = a->ts;
2055
  f->value.function.name
2056
    = gfc_get_string ("__sign_%c%d", gfc_type_letter (a->ts.type), a->ts.kind);
2057
}
2058
 
2059
 
2060
void
2061
gfc_resolve_signal (gfc_expr *f, gfc_expr *number, gfc_expr *handler)
2062
{
2063
  f->ts.type = BT_INTEGER;
2064
  f->ts.kind = gfc_c_int_kind;
2065
 
2066
  /* handler can be either BT_INTEGER or BT_PROCEDURE  */
2067
  if (handler->ts.type == BT_INTEGER)
2068
    {
2069
      if (handler->ts.kind != gfc_c_int_kind)
2070
        gfc_convert_type (handler, &f->ts, 2);
2071
      f->value.function.name = gfc_get_string (PREFIX ("signal_func_int"));
2072
    }
2073
  else
2074
    f->value.function.name = gfc_get_string (PREFIX ("signal_func"));
2075
 
2076
  if (number->ts.kind != gfc_c_int_kind)
2077
    gfc_convert_type (number, &f->ts, 2);
2078
}
2079
 
2080
 
2081
void
2082
gfc_resolve_sin (gfc_expr *f, gfc_expr *x)
2083
{
2084
  f->ts = x->ts;
2085
  f->value.function.name
2086
    = gfc_get_string ("__sin_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
2087
}
2088
 
2089
 
2090
void
2091
gfc_resolve_sinh (gfc_expr *f, gfc_expr *x)
2092
{
2093
  f->ts = x->ts;
2094
  f->value.function.name
2095
    = gfc_get_string ("__sinh_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
2096
}
2097
 
2098
 
2099
void
2100
gfc_resolve_size (gfc_expr *f, gfc_expr *array ATTRIBUTE_UNUSED,
2101
                  gfc_expr *dim ATTRIBUTE_UNUSED, gfc_expr *kind)
2102
{
2103
  f->ts.type = BT_INTEGER;
2104
  if (kind)
2105
    f->ts.kind = mpz_get_si (kind->value.integer);
2106
  else
2107
    f->ts.kind = gfc_default_integer_kind;
2108
}
2109
 
2110
 
2111
void
2112
gfc_resolve_spacing (gfc_expr *f, gfc_expr *x)
2113
{
2114
  f->ts = x->ts;
2115
  f->value.function.name = gfc_get_string ("__spacing_%d", x->ts.kind);
2116
}
2117
 
2118
 
2119
void
2120
gfc_resolve_spread (gfc_expr *f, gfc_expr *source, gfc_expr *dim,
2121
                    gfc_expr *ncopies)
2122
{
2123
  if (source->ts.type == BT_CHARACTER && source->ref)
2124
    gfc_resolve_substring_charlen (source);
2125
 
2126
  if (source->ts.type == BT_CHARACTER)
2127
    check_charlen_present (source);
2128
 
2129
  f->ts = source->ts;
2130
  f->rank = source->rank + 1;
2131
  if (source->rank == 0)
2132
    {
2133
      if (source->ts.type == BT_CHARACTER)
2134
        f->value.function.name
2135
          = source->ts.kind == 1 ? PREFIX ("spread_char_scalar")
2136
                                 : gfc_get_string
2137
                                        (PREFIX ("spread_char%d_scalar"),
2138
                                         source->ts.kind);
2139
      else
2140
        f->value.function.name = PREFIX ("spread_scalar");
2141
    }
2142
  else
2143
    {
2144
      if (source->ts.type == BT_CHARACTER)
2145
        f->value.function.name
2146
          = source->ts.kind == 1 ? PREFIX ("spread_char")
2147
                                 : gfc_get_string
2148
                                        (PREFIX ("spread_char%d"),
2149
                                         source->ts.kind);
2150
      else
2151
        f->value.function.name = PREFIX ("spread");
2152
    }
2153
 
2154
  if (dim && gfc_is_constant_expr (dim)
2155
      && ncopies && gfc_is_constant_expr (ncopies) && source->shape[0])
2156
    {
2157
      int i, idim;
2158
      idim = mpz_get_ui (dim->value.integer);
2159
      f->shape = gfc_get_shape (f->rank);
2160
      for (i = 0; i < (idim - 1); i++)
2161
        mpz_init_set (f->shape[i], source->shape[i]);
2162
 
2163
      mpz_init_set (f->shape[idim - 1], ncopies->value.integer);
2164
 
2165
      for (i = idim; i < f->rank ; i++)
2166
        mpz_init_set (f->shape[i], source->shape[i-1]);
2167
    }
2168
 
2169
 
2170
  gfc_resolve_dim_arg (dim);
2171
  gfc_resolve_index (ncopies, 1);
2172
}
2173
 
2174
 
2175
void
2176
gfc_resolve_sqrt (gfc_expr *f, gfc_expr *x)
2177
{
2178
  f->ts = x->ts;
2179
  f->value.function.name
2180
    = gfc_get_string ("__sqrt_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
2181
}
2182
 
2183
 
2184
/* Resolve the g77 compatibility function STAT AND FSTAT.  */
2185
 
2186
void
2187
gfc_resolve_stat (gfc_expr *f, gfc_expr *n ATTRIBUTE_UNUSED,
2188
                  gfc_expr *a ATTRIBUTE_UNUSED)
2189
{
2190
  f->ts.type = BT_INTEGER;
2191
  f->ts.kind = gfc_default_integer_kind;
2192
  f->value.function.name = gfc_get_string (PREFIX ("stat_i%d"), f->ts.kind);
2193
}
2194
 
2195
 
2196
void
2197
gfc_resolve_lstat (gfc_expr *f, gfc_expr *n ATTRIBUTE_UNUSED,
2198
                   gfc_expr *a ATTRIBUTE_UNUSED)
2199
{
2200
  f->ts.type = BT_INTEGER;
2201
  f->ts.kind = gfc_default_integer_kind;
2202
  f->value.function.name = gfc_get_string (PREFIX ("lstat_i%d"), f->ts.kind);
2203
}
2204
 
2205
 
2206
void
2207
gfc_resolve_fstat (gfc_expr *f, gfc_expr *n, gfc_expr *a ATTRIBUTE_UNUSED)
2208
{
2209
  f->ts.type = BT_INTEGER;
2210
  f->ts.kind = gfc_default_integer_kind;
2211
  if (n->ts.kind != f->ts.kind)
2212
    gfc_convert_type (n, &f->ts, 2);
2213
 
2214
  f->value.function.name = gfc_get_string (PREFIX ("fstat_i%d"), f->ts.kind);
2215
}
2216
 
2217
 
2218
void
2219
gfc_resolve_fgetc (gfc_expr *f, gfc_expr *u, gfc_expr *c ATTRIBUTE_UNUSED)
2220
{
2221
  gfc_typespec ts;
2222
  gfc_clear_ts (&ts);
2223
 
2224
  f->ts.type = BT_INTEGER;
2225
  f->ts.kind = gfc_c_int_kind;
2226
  if (u->ts.kind != gfc_c_int_kind)
2227
    {
2228
      ts.type = BT_INTEGER;
2229
      ts.kind = gfc_c_int_kind;
2230
      ts.u.derived = NULL;
2231
      ts.u.cl = NULL;
2232
      gfc_convert_type (u, &ts, 2);
2233
    }
2234
 
2235
  f->value.function.name = gfc_get_string (PREFIX ("fgetc"));
2236
}
2237
 
2238
 
2239
void
2240
gfc_resolve_fget (gfc_expr *f, gfc_expr *c ATTRIBUTE_UNUSED)
2241
{
2242
  f->ts.type = BT_INTEGER;
2243
  f->ts.kind = gfc_c_int_kind;
2244
  f->value.function.name = gfc_get_string (PREFIX ("fget"));
2245
}
2246
 
2247
 
2248
void
2249
gfc_resolve_fputc (gfc_expr *f, gfc_expr *u, gfc_expr *c ATTRIBUTE_UNUSED)
2250
{
2251
  gfc_typespec ts;
2252
  gfc_clear_ts (&ts);
2253
 
2254
  f->ts.type = BT_INTEGER;
2255
  f->ts.kind = gfc_c_int_kind;
2256
  if (u->ts.kind != gfc_c_int_kind)
2257
    {
2258
      ts.type = BT_INTEGER;
2259
      ts.kind = gfc_c_int_kind;
2260
      ts.u.derived = NULL;
2261
      ts.u.cl = NULL;
2262
      gfc_convert_type (u, &ts, 2);
2263
    }
2264
 
2265
  f->value.function.name = gfc_get_string (PREFIX ("fputc"));
2266
}
2267
 
2268
 
2269
void
2270
gfc_resolve_fput (gfc_expr *f, gfc_expr *c ATTRIBUTE_UNUSED)
2271
{
2272
  f->ts.type = BT_INTEGER;
2273
  f->ts.kind = gfc_c_int_kind;
2274
  f->value.function.name = gfc_get_string (PREFIX ("fput"));
2275
}
2276
 
2277
 
2278
void
2279
gfc_resolve_ftell (gfc_expr *f, gfc_expr *u)
2280
{
2281
  gfc_typespec ts;
2282
  gfc_clear_ts (&ts);
2283
 
2284
  f->ts.type = BT_INTEGER;
2285
  f->ts.kind = gfc_index_integer_kind;
2286
  if (u->ts.kind != gfc_c_int_kind)
2287
    {
2288
      ts.type = BT_INTEGER;
2289
      ts.kind = gfc_c_int_kind;
2290
      ts.u.derived = NULL;
2291
      ts.u.cl = NULL;
2292
      gfc_convert_type (u, &ts, 2);
2293
    }
2294
 
2295
  f->value.function.name = gfc_get_string (PREFIX ("ftell"));
2296
}
2297
 
2298
 
2299
void
2300
gfc_resolve_sum (gfc_expr *f, gfc_expr *array, gfc_expr *dim, gfc_expr *mask)
2301
{
2302
  const char *name;
2303
 
2304
  f->ts = array->ts;
2305
 
2306
  if (mask)
2307
    {
2308
      if (mask->rank == 0)
2309
        name = "ssum";
2310
      else
2311
        name = "msum";
2312
 
2313
      resolve_mask_arg (mask);
2314
    }
2315
  else
2316
    name = "sum";
2317
 
2318
  if (dim != NULL)
2319
    {
2320
      f->rank = array->rank - 1;
2321
      f->shape = gfc_copy_shape_excluding (array->shape, array->rank, dim);
2322
      gfc_resolve_dim_arg (dim);
2323
    }
2324
 
2325
  f->value.function.name
2326
    = gfc_get_string (PREFIX ("%s_%c%d"), name,
2327
                    gfc_type_letter (array->ts.type), array->ts.kind);
2328
}
2329
 
2330
 
2331
void
2332
gfc_resolve_symlnk (gfc_expr *f, gfc_expr *p1 ATTRIBUTE_UNUSED,
2333
                    gfc_expr *p2 ATTRIBUTE_UNUSED)
2334
{
2335
  f->ts.type = BT_INTEGER;
2336
  f->ts.kind = gfc_default_integer_kind;
2337
  f->value.function.name = gfc_get_string (PREFIX ("symlnk_i%d"), f->ts.kind);
2338
}
2339
 
2340
 
2341
/* Resolve the g77 compatibility function SYSTEM.  */
2342
 
2343
void
2344
gfc_resolve_system (gfc_expr *f, gfc_expr *n ATTRIBUTE_UNUSED)
2345
{
2346
  f->ts.type = BT_INTEGER;
2347
  f->ts.kind = 4;
2348
  f->value.function.name = gfc_get_string (PREFIX ("system"));
2349
}
2350
 
2351
 
2352
void
2353
gfc_resolve_tan (gfc_expr *f, gfc_expr *x)
2354
{
2355
  f->ts = x->ts;
2356
  f->value.function.name
2357
    = gfc_get_string ("__tan_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
2358
}
2359
 
2360
 
2361
void
2362
gfc_resolve_tanh (gfc_expr *f, gfc_expr *x)
2363
{
2364
  f->ts = x->ts;
2365
  f->value.function.name
2366
    = gfc_get_string ("__tanh_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
2367
}
2368
 
2369
 
2370
void
2371
gfc_resolve_time (gfc_expr *f)
2372
{
2373
  f->ts.type = BT_INTEGER;
2374
  f->ts.kind = 4;
2375
  f->value.function.name = gfc_get_string (PREFIX ("time_func"));
2376
}
2377
 
2378
 
2379
void
2380
gfc_resolve_time8 (gfc_expr *f)
2381
{
2382
  f->ts.type = BT_INTEGER;
2383
  f->ts.kind = 8;
2384
  f->value.function.name = gfc_get_string (PREFIX ("time8_func"));
2385
}
2386
 
2387
 
2388
void
2389
gfc_resolve_transfer (gfc_expr *f, gfc_expr *source ATTRIBUTE_UNUSED,
2390
                      gfc_expr *mold, gfc_expr *size)
2391
{
2392
  /* TODO: Make this do something meaningful.  */
2393
  static char transfer0[] = "__transfer0", transfer1[] = "__transfer1";
2394
 
2395
  if (mold->ts.type == BT_CHARACTER
2396
        && !mold->ts.u.cl->length
2397
        && gfc_is_constant_expr (mold))
2398
    {
2399
      int len;
2400
      if (mold->expr_type == EXPR_CONSTANT)
2401
        mold->ts.u.cl->length = gfc_int_expr (mold->value.character.length);
2402
      else
2403
        {
2404
          len = mold->value.constructor->expr->value.character.length;
2405
          mold->ts.u.cl->length = gfc_int_expr (len);
2406
        }
2407
    }
2408
 
2409
  f->ts = mold->ts;
2410
 
2411
  if (size == NULL && mold->rank == 0)
2412
    {
2413
      f->rank = 0;
2414
      f->value.function.name = transfer0;
2415
    }
2416
  else
2417
    {
2418
      f->rank = 1;
2419
      f->value.function.name = transfer1;
2420
      if (size && gfc_is_constant_expr (size))
2421
        {
2422
          f->shape = gfc_get_shape (1);
2423
          mpz_init_set (f->shape[0], size->value.integer);
2424
        }
2425
    }
2426
}
2427
 
2428
 
2429
void
2430
gfc_resolve_transpose (gfc_expr *f, gfc_expr *matrix)
2431
{
2432
 
2433
  if (matrix->ts.type == BT_CHARACTER && matrix->ref)
2434
    gfc_resolve_substring_charlen (matrix);
2435
 
2436
  f->ts = matrix->ts;
2437
  f->rank = 2;
2438
  if (matrix->shape)
2439
    {
2440
      f->shape = gfc_get_shape (2);
2441
      mpz_init_set (f->shape[0], matrix->shape[1]);
2442
      mpz_init_set (f->shape[1], matrix->shape[0]);
2443
    }
2444
 
2445
  switch (matrix->ts.kind)
2446
    {
2447
    case 4:
2448
    case 8:
2449
    case 10:
2450
    case 16:
2451
      switch (matrix->ts.type)
2452
        {
2453
        case BT_REAL:
2454
        case BT_COMPLEX:
2455
          f->value.function.name
2456
            = gfc_get_string (PREFIX ("transpose_%c%d"),
2457
                              gfc_type_letter (matrix->ts.type),
2458
                              matrix->ts.kind);
2459
          break;
2460
 
2461
        case BT_INTEGER:
2462
        case BT_LOGICAL:
2463
          /* Use the integer routines for real and logical cases.  This
2464
             assumes they all have the same alignment requirements.  */
2465
          f->value.function.name
2466
            = gfc_get_string (PREFIX ("transpose_i%d"), matrix->ts.kind);
2467
          break;
2468
 
2469
        default:
2470
          if (matrix->ts.type == BT_CHARACTER && matrix->ts.kind == 4)
2471
            f->value.function.name = PREFIX ("transpose_char4");
2472
          else
2473
            f->value.function.name = PREFIX ("transpose");
2474
          break;
2475
        }
2476
      break;
2477
 
2478
    default:
2479
      f->value.function.name = (matrix->ts.type == BT_CHARACTER
2480
                                ? PREFIX ("transpose_char")
2481
                                : PREFIX ("transpose"));
2482
      break;
2483
    }
2484
}
2485
 
2486
 
2487
void
2488
gfc_resolve_trim (gfc_expr *f, gfc_expr *string)
2489
{
2490
  f->ts.type = BT_CHARACTER;
2491
  f->ts.kind = string->ts.kind;
2492
  f->value.function.name = gfc_get_string ("__trim_%d", string->ts.kind);
2493
}
2494
 
2495
 
2496
void
2497
gfc_resolve_ubound (gfc_expr *f, gfc_expr *array, gfc_expr *dim, gfc_expr *kind)
2498
{
2499
  static char ubound[] = "__ubound";
2500
 
2501
  f->ts.type = BT_INTEGER;
2502
  if (kind)
2503
    f->ts.kind = mpz_get_si (kind->value.integer);
2504
  else
2505
    f->ts.kind = gfc_default_integer_kind;
2506
 
2507
  if (dim == NULL)
2508
    {
2509
      f->rank = 1;
2510
      f->shape = gfc_get_shape (1);
2511
      mpz_init_set_ui (f->shape[0], array->rank);
2512
    }
2513
 
2514
  f->value.function.name = ubound;
2515
}
2516
 
2517
 
2518
/* Resolve the g77 compatibility function UMASK.  */
2519
 
2520
void
2521
gfc_resolve_umask (gfc_expr *f, gfc_expr *n)
2522
{
2523
  f->ts.type = BT_INTEGER;
2524
  f->ts.kind = n->ts.kind;
2525
  f->value.function.name = gfc_get_string (PREFIX ("umask_i%d"), n->ts.kind);
2526
}
2527
 
2528
 
2529
/* Resolve the g77 compatibility function UNLINK.  */
2530
 
2531
void
2532
gfc_resolve_unlink (gfc_expr *f, gfc_expr *n ATTRIBUTE_UNUSED)
2533
{
2534
  f->ts.type = BT_INTEGER;
2535
  f->ts.kind = 4;
2536
  f->value.function.name = gfc_get_string (PREFIX ("unlink"));
2537
}
2538
 
2539
 
2540
void
2541
gfc_resolve_ttynam (gfc_expr *f, gfc_expr *unit)
2542
{
2543
  gfc_typespec ts;
2544
  gfc_clear_ts (&ts);
2545
 
2546
  f->ts.type = BT_CHARACTER;
2547
  f->ts.kind = gfc_default_character_kind;
2548
 
2549
  if (unit->ts.kind != gfc_c_int_kind)
2550
    {
2551
      ts.type = BT_INTEGER;
2552
      ts.kind = gfc_c_int_kind;
2553
      ts.u.derived = NULL;
2554
      ts.u.cl = NULL;
2555
      gfc_convert_type (unit, &ts, 2);
2556
    }
2557
 
2558
  f->value.function.name = gfc_get_string (PREFIX ("ttynam"));
2559
}
2560
 
2561
 
2562
void
2563
gfc_resolve_unpack (gfc_expr *f, gfc_expr *vector, gfc_expr *mask,
2564
                    gfc_expr *field ATTRIBUTE_UNUSED)
2565
{
2566
  if (vector->ts.type == BT_CHARACTER && vector->ref)
2567
    gfc_resolve_substring_charlen (vector);
2568
 
2569
  f->ts = vector->ts;
2570
  f->rank = mask->rank;
2571
  resolve_mask_arg (mask);
2572
 
2573
  if (vector->ts.type == BT_CHARACTER)
2574
    {
2575
      if (vector->ts.kind == 1)
2576
        f->value.function.name
2577
          = gfc_get_string (PREFIX ("unpack%d_char"), field->rank > 0 ? 1 : 0);
2578
      else
2579
        f->value.function.name
2580
          = gfc_get_string (PREFIX ("unpack%d_char%d"),
2581
                            field->rank > 0 ? 1 : 0, vector->ts.kind);
2582
    }
2583
  else
2584
    f->value.function.name
2585
      = gfc_get_string (PREFIX ("unpack%d"), field->rank > 0 ? 1 : 0);
2586
}
2587
 
2588
 
2589
void
2590
gfc_resolve_verify (gfc_expr *f, gfc_expr *string,
2591
                    gfc_expr *set ATTRIBUTE_UNUSED,
2592
                    gfc_expr *back ATTRIBUTE_UNUSED, gfc_expr *kind)
2593
{
2594
  f->ts.type = BT_INTEGER;
2595
  if (kind)
2596
    f->ts.kind = mpz_get_si (kind->value.integer);
2597
  else
2598
    f->ts.kind = gfc_default_integer_kind;
2599
  f->value.function.name = gfc_get_string ("__verify_%d", string->ts.kind);
2600
}
2601
 
2602
 
2603
void
2604
gfc_resolve_xor (gfc_expr *f, gfc_expr *i, gfc_expr *j)
2605
{
2606
  f->ts.type = i->ts.type;
2607
  f->ts.kind = gfc_kind_max (i, j);
2608
 
2609
  if (i->ts.kind != j->ts.kind)
2610
    {
2611
      if (i->ts.kind == gfc_kind_max (i, j))
2612
        gfc_convert_type (j, &i->ts, 2);
2613
      else
2614
        gfc_convert_type (i, &j->ts, 2);
2615
    }
2616
 
2617
  f->value.function.name
2618
    = gfc_get_string ("__xor_%c%d", gfc_type_letter (i->ts.type), f->ts.kind);
2619
}
2620
 
2621
 
2622
/* Intrinsic subroutine resolution.  */
2623
 
2624
void
2625
gfc_resolve_alarm_sub (gfc_code *c)
2626
{
2627
  const char *name;
2628
  gfc_expr *seconds, *handler;
2629
  gfc_typespec ts;
2630
  gfc_clear_ts (&ts);
2631
 
2632
  seconds = c->ext.actual->expr;
2633
  handler = c->ext.actual->next->expr;
2634
  ts.type = BT_INTEGER;
2635
  ts.kind = gfc_c_int_kind;
2636
 
2637
  /* handler can be either BT_INTEGER or BT_PROCEDURE.
2638
     In all cases, the status argument is of default integer kind
2639
     (enforced in check.c) so that the function suffix is fixed.  */
2640
  if (handler->ts.type == BT_INTEGER)
2641
    {
2642
      if (handler->ts.kind != gfc_c_int_kind)
2643
        gfc_convert_type (handler, &ts, 2);
2644
      name = gfc_get_string (PREFIX ("alarm_sub_int_i%d"),
2645
                             gfc_default_integer_kind);
2646
    }
2647
  else
2648
    name = gfc_get_string (PREFIX ("alarm_sub_i%d"),
2649
                           gfc_default_integer_kind);
2650
 
2651
  if (seconds->ts.kind != gfc_c_int_kind)
2652
    gfc_convert_type (seconds, &ts, 2);
2653
 
2654
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2655
}
2656
 
2657
void
2658
gfc_resolve_cpu_time (gfc_code *c)
2659
{
2660
  const char *name;
2661
  name = gfc_get_string (PREFIX ("cpu_time_%d"), c->ext.actual->expr->ts.kind);
2662
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2663
}
2664
 
2665
 
2666
/* Create a formal arglist based on an actual one and set the INTENTs given.  */
2667
 
2668
static gfc_formal_arglist*
2669
create_formal_for_intents (gfc_actual_arglist* actual, const sym_intent* ints)
2670
{
2671
  gfc_formal_arglist* head;
2672
  gfc_formal_arglist* tail;
2673
  int i;
2674
 
2675
  if (!actual)
2676
    return NULL;
2677
 
2678
  head = tail = gfc_get_formal_arglist ();
2679
  for (i = 0; actual; actual = actual->next, tail = tail->next, ++i)
2680
    {
2681
      gfc_symbol* sym;
2682
 
2683
      sym = gfc_new_symbol ("dummyarg", NULL);
2684
      sym->ts = actual->expr->ts;
2685
 
2686
      sym->attr.intent = ints[i];
2687
      tail->sym = sym;
2688
 
2689
      if (actual->next)
2690
        tail->next = gfc_get_formal_arglist ();
2691
    }
2692
 
2693
  return head;
2694
}
2695
 
2696
 
2697
void
2698
gfc_resolve_mvbits (gfc_code *c)
2699
{
2700
  static const sym_intent INTENTS[] = {INTENT_IN, INTENT_IN, INTENT_IN,
2701
                                       INTENT_INOUT, INTENT_IN};
2702
 
2703
  const char *name;
2704
  gfc_typespec ts;
2705
  gfc_clear_ts (&ts);
2706
 
2707
  /* FROMPOS, LEN and TOPOS are restricted to small values.  As such,
2708
     they will be converted so that they fit into a C int.  */
2709
  ts.type = BT_INTEGER;
2710
  ts.kind = gfc_c_int_kind;
2711
  if (c->ext.actual->next->expr->ts.kind != gfc_c_int_kind)
2712
    gfc_convert_type (c->ext.actual->next->expr, &ts, 2);
2713
  if (c->ext.actual->next->next->expr->ts.kind != gfc_c_int_kind)
2714
    gfc_convert_type (c->ext.actual->next->next->expr, &ts, 2);
2715
  if (c->ext.actual->next->next->next->next->expr->ts.kind != gfc_c_int_kind)
2716
    gfc_convert_type (c->ext.actual->next->next->next->next->expr, &ts, 2);
2717
 
2718
  /* TO and FROM are guaranteed to have the same kind parameter.  */
2719
  name = gfc_get_string (PREFIX ("mvbits_i%d"),
2720
                         c->ext.actual->expr->ts.kind);
2721
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2722
  /* Mark as elemental subroutine as this does not happen automatically.  */
2723
  c->resolved_sym->attr.elemental = 1;
2724
 
2725
  /* Create a dummy formal arglist so the INTENTs are known later for purpose
2726
     of creating temporaries.  */
2727
  c->resolved_sym->formal = create_formal_for_intents (c->ext.actual, INTENTS);
2728
}
2729
 
2730
 
2731
void
2732
gfc_resolve_random_number (gfc_code *c)
2733
{
2734
  const char *name;
2735
  int kind;
2736
 
2737
  kind = c->ext.actual->expr->ts.kind;
2738
  if (c->ext.actual->expr->rank == 0)
2739
    name = gfc_get_string (PREFIX ("random_r%d"), kind);
2740
  else
2741
    name = gfc_get_string (PREFIX ("arandom_r%d"), kind);
2742
 
2743
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2744
}
2745
 
2746
 
2747
void
2748
gfc_resolve_random_seed (gfc_code *c)
2749
{
2750
  const char *name;
2751
 
2752
  name = gfc_get_string (PREFIX ("random_seed_i%d"), gfc_default_integer_kind);
2753
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2754
}
2755
 
2756
 
2757
void
2758
gfc_resolve_rename_sub (gfc_code *c)
2759
{
2760
  const char *name;
2761
  int kind;
2762
 
2763
  if (c->ext.actual->next->next->expr != NULL)
2764
    kind = c->ext.actual->next->next->expr->ts.kind;
2765
  else
2766
    kind = gfc_default_integer_kind;
2767
 
2768
  name = gfc_get_string (PREFIX ("rename_i%d_sub"), kind);
2769
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2770
}
2771
 
2772
 
2773
void
2774
gfc_resolve_kill_sub (gfc_code *c)
2775
{
2776
  const char *name;
2777
  int kind;
2778
 
2779
  if (c->ext.actual->next->next->expr != NULL)
2780
    kind = c->ext.actual->next->next->expr->ts.kind;
2781
  else
2782
    kind = gfc_default_integer_kind;
2783
 
2784
  name = gfc_get_string (PREFIX ("kill_i%d_sub"), kind);
2785
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2786
}
2787
 
2788
 
2789
void
2790
gfc_resolve_link_sub (gfc_code *c)
2791
{
2792
  const char *name;
2793
  int kind;
2794
 
2795
  if (c->ext.actual->next->next->expr != NULL)
2796
    kind = c->ext.actual->next->next->expr->ts.kind;
2797
  else
2798
    kind = gfc_default_integer_kind;
2799
 
2800
  name = gfc_get_string (PREFIX ("link_i%d_sub"), kind);
2801
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2802
}
2803
 
2804
 
2805
void
2806
gfc_resolve_symlnk_sub (gfc_code *c)
2807
{
2808
  const char *name;
2809
  int kind;
2810
 
2811
  if (c->ext.actual->next->next->expr != NULL)
2812
    kind = c->ext.actual->next->next->expr->ts.kind;
2813
  else
2814
    kind = gfc_default_integer_kind;
2815
 
2816
  name = gfc_get_string (PREFIX ("symlnk_i%d_sub"), kind);
2817
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2818
}
2819
 
2820
 
2821
/* G77 compatibility subroutines dtime() and etime().  */
2822
 
2823
void
2824
gfc_resolve_dtime_sub (gfc_code *c)
2825
{
2826
  const char *name;
2827
  name = gfc_get_string (PREFIX ("dtime_sub"));
2828
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2829
}
2830
 
2831
void
2832
gfc_resolve_etime_sub (gfc_code *c)
2833
{
2834
  const char *name;
2835
  name = gfc_get_string (PREFIX ("etime_sub"));
2836
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2837
}
2838
 
2839
 
2840
/* G77 compatibility subroutines itime(), idate(), ltime() and gmtime().  */
2841
 
2842
void
2843
gfc_resolve_itime (gfc_code *c)
2844
{
2845
  c->resolved_sym
2846
    = gfc_get_intrinsic_sub_symbol (gfc_get_string (PREFIX ("itime_i%d"),
2847
                                                    gfc_default_integer_kind));
2848
}
2849
 
2850
void
2851
gfc_resolve_idate (gfc_code *c)
2852
{
2853
  c->resolved_sym
2854
    = gfc_get_intrinsic_sub_symbol (gfc_get_string (PREFIX ("idate_i%d"),
2855
                                                    gfc_default_integer_kind));
2856
}
2857
 
2858
void
2859
gfc_resolve_ltime (gfc_code *c)
2860
{
2861
  c->resolved_sym
2862
    = gfc_get_intrinsic_sub_symbol (gfc_get_string (PREFIX ("ltime_i%d"),
2863
                                                    gfc_default_integer_kind));
2864
}
2865
 
2866
void
2867
gfc_resolve_gmtime (gfc_code *c)
2868
{
2869
  c->resolved_sym
2870
    = gfc_get_intrinsic_sub_symbol (gfc_get_string (PREFIX ("gmtime_i%d"),
2871
                                                    gfc_default_integer_kind));
2872
}
2873
 
2874
 
2875
/* G77 compatibility subroutine second().  */
2876
 
2877
void
2878
gfc_resolve_second_sub (gfc_code *c)
2879
{
2880
  const char *name;
2881
  name = gfc_get_string (PREFIX ("second_sub"));
2882
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2883
}
2884
 
2885
 
2886
void
2887
gfc_resolve_sleep_sub (gfc_code *c)
2888
{
2889
  const char *name;
2890
  int kind;
2891
 
2892
  if (c->ext.actual->expr != NULL)
2893
    kind = c->ext.actual->expr->ts.kind;
2894
  else
2895
    kind = gfc_default_integer_kind;
2896
 
2897
  name = gfc_get_string (PREFIX ("sleep_i%d_sub"), kind);
2898
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2899
}
2900
 
2901
 
2902
/* G77 compatibility function srand().  */
2903
 
2904
void
2905
gfc_resolve_srand (gfc_code *c)
2906
{
2907
  const char *name;
2908
  name = gfc_get_string (PREFIX ("srand"));
2909
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2910
}
2911
 
2912
 
2913
/* Resolve the getarg intrinsic subroutine.  */
2914
 
2915
void
2916
gfc_resolve_getarg (gfc_code *c)
2917
{
2918
  const char *name;
2919
 
2920
  if (c->ext.actual->expr->ts.kind != gfc_default_integer_kind)
2921
    {
2922
      gfc_typespec ts;
2923
      gfc_clear_ts (&ts);
2924
 
2925
      ts.type = BT_INTEGER;
2926
      ts.kind = gfc_default_integer_kind;
2927
 
2928
      gfc_convert_type (c->ext.actual->expr, &ts, 2);
2929
    }
2930
 
2931
  name = gfc_get_string (PREFIX ("getarg_i%d"), gfc_default_integer_kind);
2932
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2933
}
2934
 
2935
 
2936
/* Resolve the getcwd intrinsic subroutine.  */
2937
 
2938
void
2939
gfc_resolve_getcwd_sub (gfc_code *c)
2940
{
2941
  const char *name;
2942
  int kind;
2943
 
2944
  if (c->ext.actual->next->expr != NULL)
2945
    kind = c->ext.actual->next->expr->ts.kind;
2946
  else
2947
    kind = gfc_default_integer_kind;
2948
 
2949
  name = gfc_get_string (PREFIX ("getcwd_i%d_sub"), kind);
2950
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2951
}
2952
 
2953
 
2954
/* Resolve the get_command intrinsic subroutine.  */
2955
 
2956
void
2957
gfc_resolve_get_command (gfc_code *c)
2958
{
2959
  const char *name;
2960
  int kind;
2961
  kind = gfc_default_integer_kind;
2962
  name = gfc_get_string (PREFIX ("get_command_i%d"), kind);
2963
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2964
}
2965
 
2966
 
2967
/* Resolve the get_command_argument intrinsic subroutine.  */
2968
 
2969
void
2970
gfc_resolve_get_command_argument (gfc_code *c)
2971
{
2972
  const char *name;
2973
  int kind;
2974
  kind = gfc_default_integer_kind;
2975
  name = gfc_get_string (PREFIX ("get_command_argument_i%d"), kind);
2976
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2977
}
2978
 
2979
 
2980
/* Resolve the get_environment_variable intrinsic subroutine.  */
2981
 
2982
void
2983
gfc_resolve_get_environment_variable (gfc_code *code)
2984
{
2985
  const char *name;
2986
  int kind;
2987
  kind = gfc_default_integer_kind;
2988
  name = gfc_get_string (PREFIX ("get_environment_variable_i%d"), kind);
2989
  code->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
2990
}
2991
 
2992
 
2993
void
2994
gfc_resolve_signal_sub (gfc_code *c)
2995
{
2996
  const char *name;
2997
  gfc_expr *number, *handler, *status;
2998
  gfc_typespec ts;
2999
  gfc_clear_ts (&ts);
3000
 
3001
  number = c->ext.actual->expr;
3002
  handler = c->ext.actual->next->expr;
3003
  status = c->ext.actual->next->next->expr;
3004
  ts.type = BT_INTEGER;
3005
  ts.kind = gfc_c_int_kind;
3006
 
3007
  /* handler can be either BT_INTEGER or BT_PROCEDURE  */
3008
  if (handler->ts.type == BT_INTEGER)
3009
    {
3010
      if (handler->ts.kind != gfc_c_int_kind)
3011
        gfc_convert_type (handler, &ts, 2);
3012
      name = gfc_get_string (PREFIX ("signal_sub_int"));
3013
    }
3014
  else
3015
    name = gfc_get_string (PREFIX ("signal_sub"));
3016
 
3017
  if (number->ts.kind != gfc_c_int_kind)
3018
    gfc_convert_type (number, &ts, 2);
3019
  if (status != NULL && status->ts.kind != gfc_c_int_kind)
3020
    gfc_convert_type (status, &ts, 2);
3021
 
3022
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
3023
}
3024
 
3025
 
3026
/* Resolve the SYSTEM intrinsic subroutine.  */
3027
 
3028
void
3029
gfc_resolve_system_sub (gfc_code *c)
3030
{
3031
  const char *name;
3032
  name = gfc_get_string (PREFIX ("system_sub"));
3033
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
3034
}
3035
 
3036
 
3037
/* Determine if the arguments to SYSTEM_CLOCK are INTEGER(4) or INTEGER(8) */
3038
 
3039
void
3040
gfc_resolve_system_clock (gfc_code *c)
3041
{
3042
  const char *name;
3043
  int kind;
3044
 
3045
  if (c->ext.actual->expr != NULL)
3046
    kind = c->ext.actual->expr->ts.kind;
3047
  else if (c->ext.actual->next->expr != NULL)
3048
      kind = c->ext.actual->next->expr->ts.kind;
3049
  else if (c->ext.actual->next->next->expr != NULL)
3050
      kind = c->ext.actual->next->next->expr->ts.kind;
3051
  else
3052
    kind = gfc_default_integer_kind;
3053
 
3054
  name = gfc_get_string (PREFIX ("system_clock_%d"), kind);
3055
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
3056
}
3057
 
3058
 
3059
/* Resolve the EXIT intrinsic subroutine.  */
3060
 
3061
void
3062
gfc_resolve_exit (gfc_code *c)
3063
{
3064
  const char *name;
3065
  gfc_typespec ts;
3066
  gfc_expr *n;
3067
  gfc_clear_ts (&ts);
3068
 
3069
  /* The STATUS argument has to be of default kind.  If it is not,
3070
     we convert it.  */
3071
  ts.type = BT_INTEGER;
3072
  ts.kind = gfc_default_integer_kind;
3073
  n = c->ext.actual->expr;
3074
  if (n != NULL && n->ts.kind != ts.kind)
3075
    gfc_convert_type (n, &ts, 2);
3076
 
3077
  name = gfc_get_string (PREFIX ("exit_i%d"), ts.kind);
3078
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
3079
}
3080
 
3081
 
3082
/* Resolve the FLUSH intrinsic subroutine.  */
3083
 
3084
void
3085
gfc_resolve_flush (gfc_code *c)
3086
{
3087
  const char *name;
3088
  gfc_typespec ts;
3089
  gfc_expr *n;
3090
  gfc_clear_ts (&ts);
3091
 
3092
  ts.type = BT_INTEGER;
3093
  ts.kind = gfc_default_integer_kind;
3094
  n = c->ext.actual->expr;
3095
  if (n != NULL && n->ts.kind != ts.kind)
3096
    gfc_convert_type (n, &ts, 2);
3097
 
3098
  name = gfc_get_string (PREFIX ("flush_i%d"), ts.kind);
3099
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
3100
}
3101
 
3102
 
3103
void
3104
gfc_resolve_free (gfc_code *c)
3105
{
3106
  gfc_typespec ts;
3107
  gfc_expr *n;
3108
  gfc_clear_ts (&ts);
3109
 
3110
  ts.type = BT_INTEGER;
3111
  ts.kind = gfc_index_integer_kind;
3112
  n = c->ext.actual->expr;
3113
  if (n->ts.kind != ts.kind)
3114
    gfc_convert_type (n, &ts, 2);
3115
 
3116
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (PREFIX ("free"));
3117
}
3118
 
3119
 
3120
void
3121
gfc_resolve_ctime_sub (gfc_code *c)
3122
{
3123
  gfc_typespec ts;
3124
  gfc_clear_ts (&ts);
3125
 
3126
  /* ctime TIME argument is a INTEGER(KIND=8), says the doc */
3127
  if (c->ext.actual->expr->ts.kind != 8)
3128
    {
3129
      ts.type = BT_INTEGER;
3130
      ts.kind = 8;
3131
      ts.u.derived = NULL;
3132
      ts.u.cl = NULL;
3133
      gfc_convert_type (c->ext.actual->expr, &ts, 2);
3134
    }
3135
 
3136
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (PREFIX ("ctime_sub"));
3137
}
3138
 
3139
 
3140
void
3141
gfc_resolve_fdate_sub (gfc_code *c)
3142
{
3143
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (PREFIX ("fdate_sub"));
3144
}
3145
 
3146
 
3147
void
3148
gfc_resolve_gerror (gfc_code *c)
3149
{
3150
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (PREFIX ("gerror"));
3151
}
3152
 
3153
 
3154
void
3155
gfc_resolve_getlog (gfc_code *c)
3156
{
3157
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (PREFIX ("getlog"));
3158
}
3159
 
3160
 
3161
void
3162
gfc_resolve_hostnm_sub (gfc_code *c)
3163
{
3164
  const char *name;
3165
  int kind;
3166
 
3167
  if (c->ext.actual->next->expr != NULL)
3168
    kind = c->ext.actual->next->expr->ts.kind;
3169
  else
3170
    kind = gfc_default_integer_kind;
3171
 
3172
  name = gfc_get_string (PREFIX ("hostnm_i%d_sub"), kind);
3173
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
3174
}
3175
 
3176
 
3177
void
3178
gfc_resolve_perror (gfc_code *c)
3179
{
3180
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (PREFIX ("perror_sub"));
3181
}
3182
 
3183
/* Resolve the STAT and FSTAT intrinsic subroutines.  */
3184
 
3185
void
3186
gfc_resolve_stat_sub (gfc_code *c)
3187
{
3188
  const char *name;
3189
  name = gfc_get_string (PREFIX ("stat_i%d_sub"), gfc_default_integer_kind);
3190
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
3191
}
3192
 
3193
 
3194
void
3195
gfc_resolve_lstat_sub (gfc_code *c)
3196
{
3197
  const char *name;
3198
  name = gfc_get_string (PREFIX ("lstat_i%d_sub"), gfc_default_integer_kind);
3199
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
3200
}
3201
 
3202
 
3203
void
3204
gfc_resolve_fstat_sub (gfc_code *c)
3205
{
3206
  const char *name;
3207
  gfc_expr *u;
3208
  gfc_typespec *ts;
3209
 
3210
  u = c->ext.actual->expr;
3211
  ts = &c->ext.actual->next->expr->ts;
3212
  if (u->ts.kind != ts->kind)
3213
    gfc_convert_type (u, ts, 2);
3214
  name = gfc_get_string (PREFIX ("fstat_i%d_sub"), ts->kind);
3215
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
3216
}
3217
 
3218
 
3219
void
3220
gfc_resolve_fgetc_sub (gfc_code *c)
3221
{
3222
  const char *name;
3223
  gfc_typespec ts;
3224
  gfc_expr *u, *st;
3225
  gfc_clear_ts (&ts);
3226
 
3227
  u = c->ext.actual->expr;
3228
  st = c->ext.actual->next->next->expr;
3229
 
3230
  if (u->ts.kind != gfc_c_int_kind)
3231
    {
3232
      ts.type = BT_INTEGER;
3233
      ts.kind = gfc_c_int_kind;
3234
      ts.u.derived = NULL;
3235
      ts.u.cl = NULL;
3236
      gfc_convert_type (u, &ts, 2);
3237
    }
3238
 
3239
  if (st != NULL)
3240
    name = gfc_get_string (PREFIX ("fgetc_i%d_sub"), st->ts.kind);
3241
  else
3242
    name = gfc_get_string (PREFIX ("fgetc_i%d_sub"), gfc_default_integer_kind);
3243
 
3244
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
3245
}
3246
 
3247
 
3248
void
3249
gfc_resolve_fget_sub (gfc_code *c)
3250
{
3251
  const char *name;
3252
  gfc_expr *st;
3253
 
3254
  st = c->ext.actual->next->expr;
3255
  if (st != NULL)
3256
    name = gfc_get_string (PREFIX ("fget_i%d_sub"), st->ts.kind);
3257
  else
3258
    name = gfc_get_string (PREFIX ("fget_i%d_sub"), gfc_default_integer_kind);
3259
 
3260
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
3261
}
3262
 
3263
 
3264
void
3265
gfc_resolve_fputc_sub (gfc_code *c)
3266
{
3267
  const char *name;
3268
  gfc_typespec ts;
3269
  gfc_expr *u, *st;
3270
  gfc_clear_ts (&ts);
3271
 
3272
  u = c->ext.actual->expr;
3273
  st = c->ext.actual->next->next->expr;
3274
 
3275
  if (u->ts.kind != gfc_c_int_kind)
3276
    {
3277
      ts.type = BT_INTEGER;
3278
      ts.kind = gfc_c_int_kind;
3279
      ts.u.derived = NULL;
3280
      ts.u.cl = NULL;
3281
      gfc_convert_type (u, &ts, 2);
3282
    }
3283
 
3284
  if (st != NULL)
3285
    name = gfc_get_string (PREFIX ("fputc_i%d_sub"), st->ts.kind);
3286
  else
3287
    name = gfc_get_string (PREFIX ("fputc_i%d_sub"), gfc_default_integer_kind);
3288
 
3289
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
3290
}
3291
 
3292
 
3293
void
3294
gfc_resolve_fput_sub (gfc_code *c)
3295
{
3296
  const char *name;
3297
  gfc_expr *st;
3298
 
3299
  st = c->ext.actual->next->expr;
3300
  if (st != NULL)
3301
    name = gfc_get_string (PREFIX ("fput_i%d_sub"), st->ts.kind);
3302
  else
3303
    name = gfc_get_string (PREFIX ("fput_i%d_sub"), gfc_default_integer_kind);
3304
 
3305
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
3306
}
3307
 
3308
 
3309
void
3310
gfc_resolve_fseek_sub (gfc_code *c)
3311
{
3312
  gfc_expr *unit;
3313
  gfc_expr *offset;
3314
  gfc_expr *whence;
3315
  gfc_typespec ts;
3316
  gfc_clear_ts (&ts);
3317
 
3318
  unit   = c->ext.actual->expr;
3319
  offset = c->ext.actual->next->expr;
3320
  whence = c->ext.actual->next->next->expr;
3321
 
3322
  if (unit->ts.kind != gfc_c_int_kind)
3323
    {
3324
      ts.type = BT_INTEGER;
3325
      ts.kind = gfc_c_int_kind;
3326
      ts.u.derived = NULL;
3327
      ts.u.cl = NULL;
3328
      gfc_convert_type (unit, &ts, 2);
3329
    }
3330
 
3331
  if (offset->ts.kind != gfc_intio_kind)
3332
    {
3333
      ts.type = BT_INTEGER;
3334
      ts.kind = gfc_intio_kind;
3335
      ts.u.derived = NULL;
3336
      ts.u.cl = NULL;
3337
      gfc_convert_type (offset, &ts, 2);
3338
    }
3339
 
3340
  if (whence->ts.kind != gfc_c_int_kind)
3341
    {
3342
      ts.type = BT_INTEGER;
3343
      ts.kind = gfc_c_int_kind;
3344
      ts.u.derived = NULL;
3345
      ts.u.cl = NULL;
3346
      gfc_convert_type (whence, &ts, 2);
3347
    }
3348
 
3349
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (PREFIX ("fseek_sub"));
3350
}
3351
 
3352
void
3353
gfc_resolve_ftell_sub (gfc_code *c)
3354
{
3355
  const char *name;
3356
  gfc_expr *unit;
3357
  gfc_expr *offset;
3358
  gfc_typespec ts;
3359
  gfc_clear_ts (&ts);
3360
 
3361
  unit = c->ext.actual->expr;
3362
  offset = c->ext.actual->next->expr;
3363
 
3364
  if (unit->ts.kind != gfc_c_int_kind)
3365
    {
3366
      ts.type = BT_INTEGER;
3367
      ts.kind = gfc_c_int_kind;
3368
      ts.u.derived = NULL;
3369
      ts.u.cl = NULL;
3370
      gfc_convert_type (unit, &ts, 2);
3371
    }
3372
 
3373
  name = gfc_get_string (PREFIX ("ftell_i%d_sub"), offset->ts.kind);
3374
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
3375
}
3376
 
3377
 
3378
void
3379
gfc_resolve_ttynam_sub (gfc_code *c)
3380
{
3381
  gfc_typespec ts;
3382
  gfc_clear_ts (&ts);
3383
 
3384
  if (c->ext.actual->expr->ts.kind != gfc_c_int_kind)
3385
    {
3386
      ts.type = BT_INTEGER;
3387
      ts.kind = gfc_c_int_kind;
3388
      ts.u.derived = NULL;
3389
      ts.u.cl = NULL;
3390
      gfc_convert_type (c->ext.actual->expr, &ts, 2);
3391
    }
3392
 
3393
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (PREFIX ("ttynam_sub"));
3394
}
3395
 
3396
 
3397
/* Resolve the UMASK intrinsic subroutine.  */
3398
 
3399
void
3400
gfc_resolve_umask_sub (gfc_code *c)
3401
{
3402
  const char *name;
3403
  int kind;
3404
 
3405
  if (c->ext.actual->next->expr != NULL)
3406
    kind = c->ext.actual->next->expr->ts.kind;
3407
  else
3408
    kind = gfc_default_integer_kind;
3409
 
3410
  name = gfc_get_string (PREFIX ("umask_i%d_sub"), kind);
3411
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
3412
}
3413
 
3414
/* Resolve the UNLINK intrinsic subroutine.  */
3415
 
3416
void
3417
gfc_resolve_unlink_sub (gfc_code *c)
3418
{
3419
  const char *name;
3420
  int kind;
3421
 
3422
  if (c->ext.actual->next->expr != NULL)
3423
    kind = c->ext.actual->next->expr->ts.kind;
3424
  else
3425
    kind = gfc_default_integer_kind;
3426
 
3427
  name = gfc_get_string (PREFIX ("unlink_i%d_sub"), kind);
3428
  c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
3429
}

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