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

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [fortran/] [trans-expr.c] - Blame information for rev 774

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

Line No. Rev Author Line
1 712 jeremybenn
/* Expression translation
2
   Copyright (C) 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010,
3
   2011, 2012
4
   Free Software Foundation, Inc.
5
   Contributed by Paul Brook <paul@nowt.org>
6
   and Steven Bosscher <s.bosscher@student.tudelft.nl>
7
 
8
This file is part of GCC.
9
 
10
GCC is free software; you can redistribute it and/or modify it under
11
the terms of the GNU General Public License as published by the Free
12
Software Foundation; either version 3, or (at your option) any later
13
version.
14
 
15
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
16
WARRANTY; without even the implied warranty of MERCHANTABILITY or
17
FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
18
for more details.
19
 
20
You should have received a copy of the GNU General Public License
21
along with GCC; see the file COPYING3.  If not see
22
<http://www.gnu.org/licenses/>.  */
23
 
24
/* trans-expr.c-- generate GENERIC trees for gfc_expr.  */
25
 
26
#include "config.h"
27
#include "system.h"
28
#include "coretypes.h"
29
#include "tree.h"
30
#include "diagnostic-core.h"    /* For fatal_error.  */
31
#include "langhooks.h"
32
#include "flags.h"
33
#include "gfortran.h"
34
#include "arith.h"
35
#include "constructor.h"
36
#include "trans.h"
37
#include "trans-const.h"
38
#include "trans-types.h"
39
#include "trans-array.h"
40
/* Only for gfc_trans_assign and gfc_trans_pointer_assign.  */
41
#include "trans-stmt.h"
42
#include "dependency.h"
43
 
44
 
45
/* This is the seed for an eventual trans-class.c
46
 
47
   The following parameters should not be used directly since they might
48
   in future implementations.  Use the corresponding APIs.  */
49
#define CLASS_DATA_FIELD 0
50
#define CLASS_VPTR_FIELD 1
51
#define VTABLE_HASH_FIELD 0
52
#define VTABLE_SIZE_FIELD 1
53
#define VTABLE_EXTENDS_FIELD 2
54
#define VTABLE_DEF_INIT_FIELD 3
55
#define VTABLE_COPY_FIELD 4
56
 
57
 
58
tree
59
gfc_class_data_get (tree decl)
60
{
61
  tree data;
62
  if (POINTER_TYPE_P (TREE_TYPE (decl)))
63
    decl = build_fold_indirect_ref_loc (input_location, decl);
64
  data = gfc_advance_chain (TYPE_FIELDS (TREE_TYPE (decl)),
65
                            CLASS_DATA_FIELD);
66
  return fold_build3_loc (input_location, COMPONENT_REF,
67
                          TREE_TYPE (data), decl, data,
68
                          NULL_TREE);
69
}
70
 
71
 
72
tree
73
gfc_class_vptr_get (tree decl)
74
{
75
  tree vptr;
76
  if (POINTER_TYPE_P (TREE_TYPE (decl)))
77
    decl = build_fold_indirect_ref_loc (input_location, decl);
78
  vptr = gfc_advance_chain (TYPE_FIELDS (TREE_TYPE (decl)),
79
                            CLASS_VPTR_FIELD);
80
  return fold_build3_loc (input_location, COMPONENT_REF,
81
                          TREE_TYPE (vptr), decl, vptr,
82
                          NULL_TREE);
83
}
84
 
85
 
86
static tree
87
gfc_vtable_field_get (tree decl, int field)
88
{
89
  tree size;
90
  tree vptr;
91
  vptr = gfc_class_vptr_get (decl);
92
  vptr = build_fold_indirect_ref_loc (input_location, vptr);
93
  size = gfc_advance_chain (TYPE_FIELDS (TREE_TYPE (vptr)),
94
                            field);
95
  size = fold_build3_loc (input_location, COMPONENT_REF,
96
                          TREE_TYPE (size), vptr, size,
97
                          NULL_TREE);
98
  /* Always return size as an array index type.  */
99
  if (field == VTABLE_SIZE_FIELD)
100
    size = fold_convert (gfc_array_index_type, size);
101
  gcc_assert (size);
102
  return size;
103
}
104
 
105
 
106
tree
107
gfc_vtable_hash_get (tree decl)
108
{
109
  return gfc_vtable_field_get (decl, VTABLE_HASH_FIELD);
110
}
111
 
112
 
113
tree
114
gfc_vtable_size_get (tree decl)
115
{
116
  return gfc_vtable_field_get (decl, VTABLE_SIZE_FIELD);
117
}
118
 
119
 
120
tree
121
gfc_vtable_extends_get (tree decl)
122
{
123
  return gfc_vtable_field_get (decl, VTABLE_EXTENDS_FIELD);
124
}
125
 
126
 
127
tree
128
gfc_vtable_def_init_get (tree decl)
129
{
130
  return gfc_vtable_field_get (decl, VTABLE_DEF_INIT_FIELD);
131
}
132
 
133
 
134
tree
135
gfc_vtable_copy_get (tree decl)
136
{
137
  return gfc_vtable_field_get (decl, VTABLE_COPY_FIELD);
138
}
139
 
140
 
141
#undef CLASS_DATA_FIELD
142
#undef CLASS_VPTR_FIELD
143
#undef VTABLE_HASH_FIELD
144
#undef VTABLE_SIZE_FIELD
145
#undef VTABLE_EXTENDS_FIELD
146
#undef VTABLE_DEF_INIT_FIELD
147
#undef VTABLE_COPY_FIELD
148
 
149
 
150
/* Takes a derived type expression and returns the address of a temporary
151
   class object of the 'declared' type.  */
152
static void
153
gfc_conv_derived_to_class (gfc_se *parmse, gfc_expr *e,
154
                           gfc_typespec class_ts)
155
{
156
  gfc_symbol *vtab;
157
  gfc_ss *ss;
158
  tree ctree;
159
  tree var;
160
  tree tmp;
161
 
162
  /* The derived type needs to be converted to a temporary
163
     CLASS object.  */
164
  tmp = gfc_typenode_for_spec (&class_ts);
165
  var = gfc_create_var (tmp, "class");
166
 
167
  /* Set the vptr.  */
168
  ctree =  gfc_class_vptr_get (var);
169
 
170
  /* Remember the vtab corresponds to the derived type
171
     not to the class declared type.  */
172
  vtab = gfc_find_derived_vtab (e->ts.u.derived);
173
  gcc_assert (vtab);
174
  tmp = gfc_build_addr_expr (NULL_TREE, gfc_get_symbol_decl (vtab));
175
  gfc_add_modify (&parmse->pre, ctree,
176
                  fold_convert (TREE_TYPE (ctree), tmp));
177
 
178
  /* Now set the data field.  */
179
  ctree =  gfc_class_data_get (var);
180
 
181
  if (parmse->ss && parmse->ss->info->useflags)
182
    {
183
      /* For an array reference in an elemental procedure call we need
184
         to retain the ss to provide the scalarized array reference.  */
185
      gfc_conv_expr_reference (parmse, e);
186
      tmp = fold_convert (TREE_TYPE (ctree), parmse->expr);
187
      gfc_add_modify (&parmse->pre, ctree, tmp);
188
    }
189
  else
190
    {
191
      ss = gfc_walk_expr (e);
192
      if (ss == gfc_ss_terminator)
193
        {
194
          parmse->ss = NULL;
195
          gfc_conv_expr_reference (parmse, e);
196
          tmp = fold_convert (TREE_TYPE (ctree), parmse->expr);
197
          gfc_add_modify (&parmse->pre, ctree, tmp);
198
        }
199
      else
200
        {
201
          parmse->ss = ss;
202
          gfc_conv_expr_descriptor (parmse, e, ss);
203
          gfc_add_modify (&parmse->pre, ctree, parmse->expr);
204
        }
205
    }
206
 
207
  /* Pass the address of the class object.  */
208
  parmse->expr = gfc_build_addr_expr (NULL_TREE, var);
209
}
210
 
211
 
212
/* Takes a scalarized class array expression and returns the
213
   address of a temporary scalar class object of the 'declared'
214
   type.
215
   OOP-TODO: This could be improved by adding code that branched on
216
   the dynamic type being the same as the declared type. In this case
217
   the original class expression can be passed directly.  */
218
void
219
gfc_conv_class_to_class (gfc_se *parmse, gfc_expr *e,
220
                         gfc_typespec class_ts, bool elemental)
221
{
222
  tree ctree;
223
  tree var;
224
  tree tmp;
225
  tree vptr;
226
  gfc_ref *ref;
227
  gfc_ref *class_ref;
228
  bool full_array = false;
229
 
230
  class_ref = NULL;
231
  for (ref = e->ref; ref; ref = ref->next)
232
    {
233
      if (ref->type == REF_COMPONENT
234
            && ref->u.c.component->ts.type == BT_CLASS)
235
        class_ref = ref;
236
 
237
      if (ref->next == NULL)
238
        break;
239
    }
240
 
241
  if (ref == NULL || class_ref == ref)
242
    return;
243
 
244
  /* Test for FULL_ARRAY.  */
245
  gfc_is_class_array_ref (e, &full_array);
246
 
247
  /* The derived type needs to be converted to a temporary
248
     CLASS object.  */
249
  tmp = gfc_typenode_for_spec (&class_ts);
250
  var = gfc_create_var (tmp, "class");
251
 
252
  /* Set the data.  */
253
  ctree = gfc_class_data_get (var);
254
  gfc_add_modify (&parmse->pre, ctree, parmse->expr);
255
 
256
  /* Return the data component, except in the case of scalarized array
257
     references, where nullification of the cannot occur and so there
258
     is no need.  */
259
  if (!elemental && full_array)
260
    gfc_add_modify (&parmse->post, parmse->expr, ctree);
261
 
262
  /* Set the vptr.  */
263
  ctree = gfc_class_vptr_get (var);
264
 
265
  /* The vptr is the second field of the actual argument.
266
     First we have to find the corresponding class reference. */
267
 
268
  tmp = NULL_TREE;
269
  if (class_ref == NULL
270
        && e->symtree && e->symtree->n.sym->ts.type == BT_CLASS)
271
    tmp = e->symtree->n.sym->backend_decl;
272
  else
273
    {
274
      /* Remove everything after the last class reference, convert the
275
         expression and then recover its tailend once more.  */
276
      gfc_se tmpse;
277
      ref = class_ref->next;
278
      class_ref->next = NULL;
279
      gfc_init_se (&tmpse, NULL);
280
      gfc_conv_expr (&tmpse, e);
281
      class_ref->next = ref;
282
      tmp = tmpse.expr;
283
    }
284
 
285
  gcc_assert (tmp != NULL_TREE);
286
 
287
  /* Dereference if needs be.  */
288
  if (TREE_CODE (TREE_TYPE (tmp)) == REFERENCE_TYPE)
289
    tmp = build_fold_indirect_ref_loc (input_location, tmp);
290
 
291
  vptr = gfc_class_vptr_get (tmp);
292
  gfc_add_modify (&parmse->pre, ctree,
293
                  fold_convert (TREE_TYPE (ctree), vptr));
294
 
295
  /* Return the vptr component, except in the case of scalarized array
296
     references, where the dynamic type cannot change.  */
297
  if (!elemental && full_array)
298
    gfc_add_modify (&parmse->post, vptr,
299
                    fold_convert (TREE_TYPE (vptr), ctree));
300
 
301
  /* Pass the address of the class object.  */
302
  parmse->expr = gfc_build_addr_expr (NULL_TREE, var);
303
}
304
 
305
 
306
/* Given a class array declaration and an index, returns the address
307
   of the referenced element.  */
308
 
309
tree
310
gfc_get_class_array_ref (tree index, tree class_decl)
311
{
312
  tree data = gfc_class_data_get (class_decl);
313
  tree size = gfc_vtable_size_get (class_decl);
314
  tree offset = fold_build2_loc (input_location, MULT_EXPR,
315
                                 gfc_array_index_type,
316
                                 index, size);
317
  tree ptr;
318
  data = gfc_conv_descriptor_data_get (data);
319
  ptr = fold_convert (pvoid_type_node, data);
320
  ptr = fold_build_pointer_plus_loc (input_location, ptr, offset);
321
  return fold_convert (TREE_TYPE (data), ptr);
322
}
323
 
324
 
325
/* Copies one class expression to another, assuming that if either
326
   'to' or 'from' are arrays they are packed.  Should 'from' be
327
   NULL_TREE, the inialization expression for 'to' is used, assuming
328
   that the _vptr is set.  */
329
 
330
tree
331
gfc_copy_class_to_class (tree from, tree to, tree nelems)
332
{
333
  tree fcn;
334
  tree fcn_type;
335
  tree from_data;
336
  tree to_data;
337
  tree to_ref;
338
  tree from_ref;
339
  VEC(tree,gc) *args;
340
  tree tmp;
341
  tree index;
342
  stmtblock_t loopbody;
343
  stmtblock_t body;
344
  gfc_loopinfo loop;
345
 
346
  args = NULL;
347
 
348
  if (from != NULL_TREE)
349
    fcn = gfc_vtable_copy_get (from);
350
  else
351
    fcn = gfc_vtable_copy_get (to);
352
 
353
  fcn_type = TREE_TYPE (TREE_TYPE (fcn));
354
 
355
  if (from != NULL_TREE)
356
    from_data = gfc_class_data_get (from);
357
  else
358
    from_data = gfc_vtable_def_init_get (to);
359
 
360
  to_data = gfc_class_data_get (to);
361
 
362
  if (GFC_DESCRIPTOR_TYPE_P (TREE_TYPE (to_data)))
363
    {
364
      gfc_init_block (&body);
365
      tmp = fold_build2_loc (input_location, MINUS_EXPR,
366
                             gfc_array_index_type, nelems,
367
                             gfc_index_one_node);
368
      nelems = gfc_evaluate_now (tmp, &body);
369
      index = gfc_create_var (gfc_array_index_type, "S");
370
 
371
      if (GFC_DESCRIPTOR_TYPE_P (TREE_TYPE (from_data)))
372
        {
373
          from_ref = gfc_get_class_array_ref (index, from);
374
          VEC_safe_push (tree, gc, args, from_ref);
375
        }
376
      else
377
        VEC_safe_push (tree, gc, args, from_data);
378
 
379
      to_ref = gfc_get_class_array_ref (index, to);
380
      VEC_safe_push (tree, gc, args, to_ref);
381
 
382
      tmp = build_call_vec (fcn_type, fcn, args);
383
 
384
      /* Build the body of the loop.  */
385
      gfc_init_block (&loopbody);
386
      gfc_add_expr_to_block (&loopbody, tmp);
387
 
388
      /* Build the loop and return.  */
389
      gfc_init_loopinfo (&loop);
390
      loop.dimen = 1;
391
      loop.from[0] = gfc_index_zero_node;
392
      loop.loopvar[0] = index;
393
      loop.to[0] = nelems;
394
      gfc_trans_scalarizing_loops (&loop, &loopbody);
395
      gfc_add_block_to_block (&body, &loop.pre);
396
      tmp = gfc_finish_block (&body);
397
    }
398
  else
399
    {
400
      gcc_assert (!GFC_DESCRIPTOR_TYPE_P (TREE_TYPE (from_data)));
401
      VEC_safe_push (tree, gc, args, from_data);
402
      VEC_safe_push (tree, gc, args, to_data);
403
      tmp = build_call_vec (fcn_type, fcn, args);
404
    }
405
 
406
  return tmp;
407
}
408
 
409
static tree
410
gfc_trans_class_array_init_assign (gfc_expr *rhs, gfc_expr *lhs, gfc_expr *obj)
411
{
412
  gfc_actual_arglist *actual;
413
  gfc_expr *ppc;
414
  gfc_code *ppc_code;
415
  tree res;
416
 
417
  actual = gfc_get_actual_arglist ();
418
  actual->expr = gfc_copy_expr (rhs);
419
  actual->next = gfc_get_actual_arglist ();
420
  actual->next->expr = gfc_copy_expr (lhs);
421
  ppc = gfc_copy_expr (obj);
422
  gfc_add_vptr_component (ppc);
423
  gfc_add_component_ref (ppc, "_copy");
424
  ppc_code = gfc_get_code ();
425
  ppc_code->resolved_sym = ppc->symtree->n.sym;
426
  /* Although '_copy' is set to be elemental in class.c, it is
427
     not staying that way.  Find out why, sometime....  */
428
  ppc_code->resolved_sym->attr.elemental = 1;
429
  ppc_code->ext.actual = actual;
430
  ppc_code->expr1 = ppc;
431
  ppc_code->op = EXEC_CALL;
432
  /* Since '_copy' is elemental, the scalarizer will take care
433
     of arrays in gfc_trans_call.  */
434
  res = gfc_trans_call (ppc_code, false, NULL, NULL, false);
435
  gfc_free_statements (ppc_code);
436
  return res;
437
}
438
 
439
/* Special case for initializing a polymorphic dummy with INTENT(OUT).
440
   A MEMCPY is needed to copy the full data from the default initializer
441
   of the dynamic type.  */
442
 
443
tree
444
gfc_trans_class_init_assign (gfc_code *code)
445
{
446
  stmtblock_t block;
447
  tree tmp;
448
  gfc_se dst,src,memsz;
449
  gfc_expr *lhs, *rhs, *sz;
450
 
451
  gfc_start_block (&block);
452
 
453
  lhs = gfc_copy_expr (code->expr1);
454
  gfc_add_data_component (lhs);
455
 
456
  rhs = gfc_copy_expr (code->expr1);
457
  gfc_add_vptr_component (rhs);
458
 
459
  /* Make sure that the component backend_decls have been built, which
460
     will not have happened if the derived types concerned have not
461
     been referenced.  */
462
  gfc_get_derived_type (rhs->ts.u.derived);
463
  gfc_add_def_init_component (rhs);
464
 
465
  if (code->expr1->ts.type == BT_CLASS
466
        && CLASS_DATA (code->expr1)->attr.dimension)
467
    tmp = gfc_trans_class_array_init_assign (rhs, lhs, code->expr1);
468
  else
469
    {
470
      sz = gfc_copy_expr (code->expr1);
471
      gfc_add_vptr_component (sz);
472
      gfc_add_size_component (sz);
473
 
474
      gfc_init_se (&dst, NULL);
475
      gfc_init_se (&src, NULL);
476
      gfc_init_se (&memsz, NULL);
477
      gfc_conv_expr (&dst, lhs);
478
      gfc_conv_expr (&src, rhs);
479
      gfc_conv_expr (&memsz, sz);
480
      gfc_add_block_to_block (&block, &src.pre);
481
      tmp = gfc_build_memcpy_call (dst.expr, src.expr, memsz.expr);
482
    }
483
  gfc_add_expr_to_block (&block, tmp);
484
 
485
  return gfc_finish_block (&block);
486
}
487
 
488
 
489
/* Translate an assignment to a CLASS object
490
   (pointer or ordinary assignment).  */
491
 
492
tree
493
gfc_trans_class_assign (gfc_expr *expr1, gfc_expr *expr2, gfc_exec_op op)
494
{
495
  stmtblock_t block;
496
  tree tmp;
497
  gfc_expr *lhs;
498
  gfc_expr *rhs;
499
  gfc_ref *ref;
500
 
501
  gfc_start_block (&block);
502
 
503
  ref = expr1->ref;
504
  while (ref && ref->next)
505
     ref = ref->next;
506
 
507
  /* Class valued proc_pointer assignments do not need any further
508
     preparation.  */
509
  if (ref && ref->type == REF_COMPONENT
510
        && ref->u.c.component->attr.proc_pointer
511
        && expr2->expr_type == EXPR_VARIABLE
512
        && expr2->symtree->n.sym->attr.flavor == FL_PROCEDURE
513
        && op == EXEC_POINTER_ASSIGN)
514
    goto assign;
515
 
516
  if (expr2->ts.type != BT_CLASS)
517
    {
518
      /* Insert an additional assignment which sets the '_vptr' field.  */
519
      gfc_symbol *vtab = NULL;
520
      gfc_symtree *st;
521
 
522
      lhs = gfc_copy_expr (expr1);
523
      gfc_add_vptr_component (lhs);
524
 
525
      if (expr2->ts.type == BT_DERIVED)
526
        vtab = gfc_find_derived_vtab (expr2->ts.u.derived);
527
      else if (expr2->expr_type == EXPR_NULL)
528
        vtab = gfc_find_derived_vtab (expr1->ts.u.derived);
529
      gcc_assert (vtab);
530
 
531
      rhs = gfc_get_expr ();
532
      rhs->expr_type = EXPR_VARIABLE;
533
      gfc_find_sym_tree (vtab->name, vtab->ns, 1, &st);
534
      rhs->symtree = st;
535
      rhs->ts = vtab->ts;
536
 
537
      tmp = gfc_trans_pointer_assignment (lhs, rhs);
538
      gfc_add_expr_to_block (&block, tmp);
539
 
540
      gfc_free_expr (lhs);
541
      gfc_free_expr (rhs);
542
    }
543
  else if (CLASS_DATA (expr2)->attr.dimension)
544
    {
545
      /* Insert an additional assignment which sets the '_vptr' field.  */
546
      lhs = gfc_copy_expr (expr1);
547
      gfc_add_vptr_component (lhs);
548
 
549
      rhs = gfc_copy_expr (expr2);
550
      gfc_add_vptr_component (rhs);
551
 
552
      tmp = gfc_trans_pointer_assignment (lhs, rhs);
553
      gfc_add_expr_to_block (&block, tmp);
554
 
555
      gfc_free_expr (lhs);
556
      gfc_free_expr (rhs);
557
    }
558
 
559
  /* Do the actual CLASS assignment.  */
560
  if (expr2->ts.type == BT_CLASS
561
        && !CLASS_DATA (expr2)->attr.dimension)
562
    op = EXEC_ASSIGN;
563
  else
564
    gfc_add_data_component (expr1);
565
 
566
assign:
567
 
568
  if (op == EXEC_ASSIGN)
569
    tmp = gfc_trans_assignment (expr1, expr2, false, true);
570
  else if (op == EXEC_POINTER_ASSIGN)
571
    tmp = gfc_trans_pointer_assignment (expr1, expr2);
572
  else
573
    gcc_unreachable();
574
 
575
  gfc_add_expr_to_block (&block, tmp);
576
 
577
  return gfc_finish_block (&block);
578
}
579
 
580
 
581
/* End of prototype trans-class.c  */
582
 
583
 
584
static tree gfc_trans_structure_assign (tree dest, gfc_expr * expr);
585
static void gfc_apply_interface_mapping_to_expr (gfc_interface_mapping *,
586
                                                 gfc_expr *);
587
 
588
/* Copy the scalarization loop variables.  */
589
 
590
static void
591
gfc_copy_se_loopvars (gfc_se * dest, gfc_se * src)
592
{
593
  dest->ss = src->ss;
594
  dest->loop = src->loop;
595
}
596
 
597
 
598
/* Initialize a simple expression holder.
599
 
600
   Care must be taken when multiple se are created with the same parent.
601
   The child se must be kept in sync.  The easiest way is to delay creation
602
   of a child se until after after the previous se has been translated.  */
603
 
604
void
605
gfc_init_se (gfc_se * se, gfc_se * parent)
606
{
607
  memset (se, 0, sizeof (gfc_se));
608
  gfc_init_block (&se->pre);
609
  gfc_init_block (&se->post);
610
 
611
  se->parent = parent;
612
 
613
  if (parent)
614
    gfc_copy_se_loopvars (se, parent);
615
}
616
 
617
 
618
/* Advances to the next SS in the chain.  Use this rather than setting
619
   se->ss = se->ss->next because all the parents needs to be kept in sync.
620
   See gfc_init_se.  */
621
 
622
void
623
gfc_advance_se_ss_chain (gfc_se * se)
624
{
625
  gfc_se *p;
626
  gfc_ss *ss;
627
 
628
  gcc_assert (se != NULL && se->ss != NULL && se->ss != gfc_ss_terminator);
629
 
630
  p = se;
631
  /* Walk down the parent chain.  */
632
  while (p != NULL)
633
    {
634
      /* Simple consistency check.  */
635
      gcc_assert (p->parent == NULL || p->parent->ss == p->ss
636
                  || p->parent->ss->nested_ss == p->ss);
637
 
638
      /* If we were in a nested loop, the next scalarized expression can be
639
         on the parent ss' next pointer.  Thus we should not take the next
640
         pointer blindly, but rather go up one nest level as long as next
641
         is the end of chain.  */
642
      ss = p->ss;
643
      while (ss->next == gfc_ss_terminator && ss->parent != NULL)
644
        ss = ss->parent;
645
 
646
      p->ss = ss->next;
647
 
648
      p = p->parent;
649
    }
650
}
651
 
652
 
653
/* Ensures the result of the expression as either a temporary variable
654
   or a constant so that it can be used repeatedly.  */
655
 
656
void
657
gfc_make_safe_expr (gfc_se * se)
658
{
659
  tree var;
660
 
661
  if (CONSTANT_CLASS_P (se->expr))
662
    return;
663
 
664
  /* We need a temporary for this result.  */
665
  var = gfc_create_var (TREE_TYPE (se->expr), NULL);
666
  gfc_add_modify (&se->pre, var, se->expr);
667
  se->expr = var;
668
}
669
 
670
 
671
/* Return an expression which determines if a dummy parameter is present.
672
   Also used for arguments to procedures with multiple entry points.  */
673
 
674
tree
675
gfc_conv_expr_present (gfc_symbol * sym)
676
{
677
  tree decl, cond;
678
 
679
  gcc_assert (sym->attr.dummy);
680
 
681
  decl = gfc_get_symbol_decl (sym);
682
  if (TREE_CODE (decl) != PARM_DECL)
683
    {
684
      /* Array parameters use a temporary descriptor, we want the real
685
         parameter.  */
686
      gcc_assert (GFC_DESCRIPTOR_TYPE_P (TREE_TYPE (decl))
687
             || GFC_ARRAY_TYPE_P (TREE_TYPE (decl)));
688
      decl = GFC_DECL_SAVED_DESCRIPTOR (decl);
689
    }
690
 
691
  cond = fold_build2_loc (input_location, NE_EXPR, boolean_type_node, decl,
692
                          fold_convert (TREE_TYPE (decl), null_pointer_node));
693
 
694
  /* Fortran 2008 allows to pass null pointers and non-associated pointers
695
     as actual argument to denote absent dummies. For array descriptors,
696
     we thus also need to check the array descriptor.  */
697
  if (!sym->attr.pointer && !sym->attr.allocatable
698
      && sym->as && sym->as->type == AS_ASSUMED_SHAPE
699
      && (gfc_option.allow_std & GFC_STD_F2008) != 0)
700
    {
701
      tree tmp;
702
      tmp = build_fold_indirect_ref_loc (input_location, decl);
703
      tmp = gfc_conv_array_data (tmp);
704
      tmp = fold_build2_loc (input_location, NE_EXPR, boolean_type_node, tmp,
705
                             fold_convert (TREE_TYPE (tmp), null_pointer_node));
706
      cond = fold_build2_loc (input_location, TRUTH_ANDIF_EXPR,
707
                              boolean_type_node, cond, tmp);
708
    }
709
 
710
  return cond;
711
}
712
 
713
 
714
/* Converts a missing, dummy argument into a null or zero.  */
715
 
716
void
717
gfc_conv_missing_dummy (gfc_se * se, gfc_expr * arg, gfc_typespec ts, int kind)
718
{
719
  tree present;
720
  tree tmp;
721
 
722
  present = gfc_conv_expr_present (arg->symtree->n.sym);
723
 
724
  if (kind > 0)
725
    {
726
      /* Create a temporary and convert it to the correct type.  */
727
      tmp = gfc_get_int_type (kind);
728
      tmp = fold_convert (tmp, build_fold_indirect_ref_loc (input_location,
729
                                                        se->expr));
730
 
731
      /* Test for a NULL value.  */
732
      tmp = build3_loc (input_location, COND_EXPR, TREE_TYPE (tmp), present,
733
                        tmp, fold_convert (TREE_TYPE (tmp), integer_one_node));
734
      tmp = gfc_evaluate_now (tmp, &se->pre);
735
      se->expr = gfc_build_addr_expr (NULL_TREE, tmp);
736
    }
737
  else
738
    {
739
      tmp = build3_loc (input_location, COND_EXPR, TREE_TYPE (se->expr),
740
                        present, se->expr,
741
                        build_zero_cst (TREE_TYPE (se->expr)));
742
      tmp = gfc_evaluate_now (tmp, &se->pre);
743
      se->expr = tmp;
744
    }
745
 
746
  if (ts.type == BT_CHARACTER)
747
    {
748
      tmp = build_int_cst (gfc_charlen_type_node, 0);
749
      tmp = fold_build3_loc (input_location, COND_EXPR, gfc_charlen_type_node,
750
                             present, se->string_length, tmp);
751
      tmp = gfc_evaluate_now (tmp, &se->pre);
752
      se->string_length = tmp;
753
    }
754
  return;
755
}
756
 
757
 
758
/* Get the character length of an expression, looking through gfc_refs
759
   if necessary.  */
760
 
761
tree
762
gfc_get_expr_charlen (gfc_expr *e)
763
{
764
  gfc_ref *r;
765
  tree length;
766
 
767
  gcc_assert (e->expr_type == EXPR_VARIABLE
768
              && e->ts.type == BT_CHARACTER);
769
 
770
  length = NULL; /* To silence compiler warning.  */
771
 
772
  if (is_subref_array (e) && e->ts.u.cl->length)
773
    {
774
      gfc_se tmpse;
775
      gfc_init_se (&tmpse, NULL);
776
      gfc_conv_expr_type (&tmpse, e->ts.u.cl->length, gfc_charlen_type_node);
777
      e->ts.u.cl->backend_decl = tmpse.expr;
778
      return tmpse.expr;
779
    }
780
 
781
  /* First candidate: if the variable is of type CHARACTER, the
782
     expression's length could be the length of the character
783
     variable.  */
784
  if (e->symtree->n.sym->ts.type == BT_CHARACTER)
785
    length = e->symtree->n.sym->ts.u.cl->backend_decl;
786
 
787
  /* Look through the reference chain for component references.  */
788
  for (r = e->ref; r; r = r->next)
789
    {
790
      switch (r->type)
791
        {
792
        case REF_COMPONENT:
793
          if (r->u.c.component->ts.type == BT_CHARACTER)
794
            length = r->u.c.component->ts.u.cl->backend_decl;
795
          break;
796
 
797
        case REF_ARRAY:
798
          /* Do nothing.  */
799
          break;
800
 
801
        default:
802
          /* We should never got substring references here.  These will be
803
             broken down by the scalarizer.  */
804
          gcc_unreachable ();
805
          break;
806
        }
807
    }
808
 
809
  gcc_assert (length != NULL);
810
  return length;
811
}
812
 
813
 
814
/* Return for an expression the backend decl of the coarray.  */
815
 
816
static tree
817
get_tree_for_caf_expr (gfc_expr *expr)
818
{
819
   tree caf_decl = NULL_TREE;
820
   gfc_ref *ref;
821
 
822
   gcc_assert (expr && expr->expr_type == EXPR_VARIABLE);
823
   if (expr->symtree->n.sym->attr.codimension)
824
     caf_decl = expr->symtree->n.sym->backend_decl;
825
 
826
   for (ref = expr->ref; ref; ref = ref->next)
827
     if (ref->type == REF_COMPONENT)
828
       {
829
        gfc_component *comp = ref->u.c.component;
830
        if (comp->attr.pointer || comp->attr.allocatable)
831
          caf_decl = NULL_TREE;
832
        if (comp->attr.codimension)
833
          caf_decl = comp->backend_decl;
834
       }
835
 
836
   gcc_assert (caf_decl != NULL_TREE);
837
   return caf_decl;
838
}
839
 
840
 
841
/* For each character array constructor subexpression without a ts.u.cl->length,
842
   replace it by its first element (if there aren't any elements, the length
843
   should already be set to zero).  */
844
 
845
static void
846
flatten_array_ctors_without_strlen (gfc_expr* e)
847
{
848
  gfc_actual_arglist* arg;
849
  gfc_constructor* c;
850
 
851
  if (!e)
852
    return;
853
 
854
  switch (e->expr_type)
855
    {
856
 
857
    case EXPR_OP:
858
      flatten_array_ctors_without_strlen (e->value.op.op1);
859
      flatten_array_ctors_without_strlen (e->value.op.op2);
860
      break;
861
 
862
    case EXPR_COMPCALL:
863
      /* TODO: Implement as with EXPR_FUNCTION when needed.  */
864
      gcc_unreachable ();
865
 
866
    case EXPR_FUNCTION:
867
      for (arg = e->value.function.actual; arg; arg = arg->next)
868
        flatten_array_ctors_without_strlen (arg->expr);
869
      break;
870
 
871
    case EXPR_ARRAY:
872
 
873
      /* We've found what we're looking for.  */
874
      if (e->ts.type == BT_CHARACTER && !e->ts.u.cl->length)
875
        {
876
          gfc_constructor *c;
877
          gfc_expr* new_expr;
878
 
879
          gcc_assert (e->value.constructor);
880
 
881
          c = gfc_constructor_first (e->value.constructor);
882
          new_expr = c->expr;
883
          c->expr = NULL;
884
 
885
          flatten_array_ctors_without_strlen (new_expr);
886
          gfc_replace_expr (e, new_expr);
887
          break;
888
        }
889
 
890
      /* Otherwise, fall through to handle constructor elements.  */
891
    case EXPR_STRUCTURE:
892
      for (c = gfc_constructor_first (e->value.constructor);
893
           c; c = gfc_constructor_next (c))
894
        flatten_array_ctors_without_strlen (c->expr);
895
      break;
896
 
897
    default:
898
      break;
899
 
900
    }
901
}
902
 
903
 
904
/* Generate code to initialize a string length variable. Returns the
905
   value.  For array constructors, cl->length might be NULL and in this case,
906
   the first element of the constructor is needed.  expr is the original
907
   expression so we can access it but can be NULL if this is not needed.  */
908
 
909
void
910
gfc_conv_string_length (gfc_charlen * cl, gfc_expr * expr, stmtblock_t * pblock)
911
{
912
  gfc_se se;
913
 
914
  gfc_init_se (&se, NULL);
915
 
916
  if (!cl->length
917
        && cl->backend_decl
918
        && TREE_CODE (cl->backend_decl) == VAR_DECL)
919
    return;
920
 
921
  /* If cl->length is NULL, use gfc_conv_expr to obtain the string length but
922
     "flatten" array constructors by taking their first element; all elements
923
     should be the same length or a cl->length should be present.  */
924
  if (!cl->length)
925
    {
926
      gfc_expr* expr_flat;
927
      gcc_assert (expr);
928
      expr_flat = gfc_copy_expr (expr);
929
      flatten_array_ctors_without_strlen (expr_flat);
930
      gfc_resolve_expr (expr_flat);
931
 
932
      gfc_conv_expr (&se, expr_flat);
933
      gfc_add_block_to_block (pblock, &se.pre);
934
      cl->backend_decl = convert (gfc_charlen_type_node, se.string_length);
935
 
936
      gfc_free_expr (expr_flat);
937
      return;
938
    }
939
 
940
  /* Convert cl->length.  */
941
 
942
  gcc_assert (cl->length);
943
 
944
  gfc_conv_expr_type (&se, cl->length, gfc_charlen_type_node);
945
  se.expr = fold_build2_loc (input_location, MAX_EXPR, gfc_charlen_type_node,
946
                             se.expr, build_int_cst (gfc_charlen_type_node, 0));
947
  gfc_add_block_to_block (pblock, &se.pre);
948
 
949
  if (cl->backend_decl)
950
    gfc_add_modify (pblock, cl->backend_decl, se.expr);
951
  else
952
    cl->backend_decl = gfc_evaluate_now (se.expr, pblock);
953
}
954
 
955
 
956
static void
957
gfc_conv_substring (gfc_se * se, gfc_ref * ref, int kind,
958
                    const char *name, locus *where)
959
{
960
  tree tmp;
961
  tree type;
962
  tree fault;
963
  gfc_se start;
964
  gfc_se end;
965
  char *msg;
966
 
967
  type = gfc_get_character_type (kind, ref->u.ss.length);
968
  type = build_pointer_type (type);
969
 
970
  gfc_init_se (&start, se);
971
  gfc_conv_expr_type (&start, ref->u.ss.start, gfc_charlen_type_node);
972
  gfc_add_block_to_block (&se->pre, &start.pre);
973
 
974
  if (integer_onep (start.expr))
975
    gfc_conv_string_parameter (se);
976
  else
977
    {
978
      tmp = start.expr;
979
      STRIP_NOPS (tmp);
980
      /* Avoid multiple evaluation of substring start.  */
981
      if (!CONSTANT_CLASS_P (tmp) && !DECL_P (tmp))
982
        start.expr = gfc_evaluate_now (start.expr, &se->pre);
983
 
984
      /* Change the start of the string.  */
985
      if (TYPE_STRING_FLAG (TREE_TYPE (se->expr)))
986
        tmp = se->expr;
987
      else
988
        tmp = build_fold_indirect_ref_loc (input_location,
989
                                       se->expr);
990
      tmp = gfc_build_array_ref (tmp, start.expr, NULL);
991
      se->expr = gfc_build_addr_expr (type, tmp);
992
    }
993
 
994
  /* Length = end + 1 - start.  */
995
  gfc_init_se (&end, se);
996
  if (ref->u.ss.end == NULL)
997
    end.expr = se->string_length;
998
  else
999
    {
1000
      gfc_conv_expr_type (&end, ref->u.ss.end, gfc_charlen_type_node);
1001
      gfc_add_block_to_block (&se->pre, &end.pre);
1002
    }
1003
  tmp = end.expr;
1004
  STRIP_NOPS (tmp);
1005
  if (!CONSTANT_CLASS_P (tmp) && !DECL_P (tmp))
1006
    end.expr = gfc_evaluate_now (end.expr, &se->pre);
1007
 
1008
  if (gfc_option.rtcheck & GFC_RTCHECK_BOUNDS)
1009
    {
1010
      tree nonempty = fold_build2_loc (input_location, LE_EXPR,
1011
                                       boolean_type_node, start.expr,
1012
                                       end.expr);
1013
 
1014
      /* Check lower bound.  */
1015
      fault = fold_build2_loc (input_location, LT_EXPR, boolean_type_node,
1016
                               start.expr,
1017
                               build_int_cst (gfc_charlen_type_node, 1));
1018
      fault = fold_build2_loc (input_location, TRUTH_ANDIF_EXPR,
1019
                               boolean_type_node, nonempty, fault);
1020
      if (name)
1021
        asprintf (&msg, "Substring out of bounds: lower bound (%%ld) of '%s' "
1022
                  "is less than one", name);
1023
      else
1024
        asprintf (&msg, "Substring out of bounds: lower bound (%%ld)"
1025
                  "is less than one");
1026
      gfc_trans_runtime_check (true, false, fault, &se->pre, where, msg,
1027
                               fold_convert (long_integer_type_node,
1028
                                             start.expr));
1029
      free (msg);
1030
 
1031
      /* Check upper bound.  */
1032
      fault = fold_build2_loc (input_location, GT_EXPR, boolean_type_node,
1033
                               end.expr, se->string_length);
1034
      fault = fold_build2_loc (input_location, TRUTH_ANDIF_EXPR,
1035
                               boolean_type_node, nonempty, fault);
1036
      if (name)
1037
        asprintf (&msg, "Substring out of bounds: upper bound (%%ld) of '%s' "
1038
                  "exceeds string length (%%ld)", name);
1039
      else
1040
        asprintf (&msg, "Substring out of bounds: upper bound (%%ld) "
1041
                  "exceeds string length (%%ld)");
1042
      gfc_trans_runtime_check (true, false, fault, &se->pre, where, msg,
1043
                               fold_convert (long_integer_type_node, end.expr),
1044
                               fold_convert (long_integer_type_node,
1045
                                             se->string_length));
1046
      free (msg);
1047
    }
1048
 
1049
  /* If the start and end expressions are equal, the length is one.  */
1050
  if (ref->u.ss.end
1051
      && gfc_dep_compare_expr (ref->u.ss.start, ref->u.ss.end) == 0)
1052
    tmp = build_int_cst (gfc_charlen_type_node, 1);
1053
  else
1054
    {
1055
      tmp = fold_build2_loc (input_location, MINUS_EXPR, gfc_charlen_type_node,
1056
                             end.expr, start.expr);
1057
      tmp = fold_build2_loc (input_location, PLUS_EXPR, gfc_charlen_type_node,
1058
                             build_int_cst (gfc_charlen_type_node, 1), tmp);
1059
      tmp = fold_build2_loc (input_location, MAX_EXPR, gfc_charlen_type_node,
1060
                             tmp, build_int_cst (gfc_charlen_type_node, 0));
1061
    }
1062
 
1063
  se->string_length = tmp;
1064
}
1065
 
1066
 
1067
/* Convert a derived type component reference.  */
1068
 
1069
static void
1070
gfc_conv_component_ref (gfc_se * se, gfc_ref * ref)
1071
{
1072
  gfc_component *c;
1073
  tree tmp;
1074
  tree decl;
1075
  tree field;
1076
 
1077
  c = ref->u.c.component;
1078
 
1079
  gcc_assert (c->backend_decl);
1080
 
1081
  field = c->backend_decl;
1082
  gcc_assert (TREE_CODE (field) == FIELD_DECL);
1083
  decl = se->expr;
1084
 
1085
  /* Components can correspond to fields of different containing
1086
     types, as components are created without context, whereas
1087
     a concrete use of a component has the type of decl as context.
1088
     So, if the type doesn't match, we search the corresponding
1089
     FIELD_DECL in the parent type.  To not waste too much time
1090
     we cache this result in norestrict_decl.  */
1091
 
1092
  if (DECL_FIELD_CONTEXT (field) != TREE_TYPE (decl))
1093
    {
1094
      tree f2 = c->norestrict_decl;
1095
      if (!f2 || DECL_FIELD_CONTEXT (f2) != TREE_TYPE (decl))
1096
        for (f2 = TYPE_FIELDS (TREE_TYPE (decl)); f2; f2 = DECL_CHAIN (f2))
1097
          if (TREE_CODE (f2) == FIELD_DECL
1098
              && DECL_NAME (f2) == DECL_NAME (field))
1099
            break;
1100
      gcc_assert (f2);
1101
      c->norestrict_decl = f2;
1102
      field = f2;
1103
    }
1104
  tmp = fold_build3_loc (input_location, COMPONENT_REF, TREE_TYPE (field),
1105
                         decl, field, NULL_TREE);
1106
 
1107
  se->expr = tmp;
1108
 
1109
  if (c->ts.type == BT_CHARACTER && !c->attr.proc_pointer)
1110
    {
1111
      tmp = c->ts.u.cl->backend_decl;
1112
      /* Components must always be constant length.  */
1113
      gcc_assert (tmp && INTEGER_CST_P (tmp));
1114
      se->string_length = tmp;
1115
    }
1116
 
1117
  if (((c->attr.pointer || c->attr.allocatable)
1118
       && (!c->attr.dimension && !c->attr.codimension)
1119
       && c->ts.type != BT_CHARACTER)
1120
      || c->attr.proc_pointer)
1121
    se->expr = build_fold_indirect_ref_loc (input_location,
1122
                                        se->expr);
1123
}
1124
 
1125
 
1126
/* This function deals with component references to components of the
1127
   parent type for derived type extensons.  */
1128
static void
1129
conv_parent_component_references (gfc_se * se, gfc_ref * ref)
1130
{
1131
  gfc_component *c;
1132
  gfc_component *cmp;
1133
  gfc_symbol *dt;
1134
  gfc_ref parent;
1135
 
1136
  dt = ref->u.c.sym;
1137
  c = ref->u.c.component;
1138
 
1139
  /* Return if the component is not in the parent type.  */
1140
  for (cmp = dt->components; cmp; cmp = cmp->next)
1141
    if (strcmp (c->name, cmp->name) == 0)
1142
      return;
1143
 
1144
  /* Build a gfc_ref to recursively call gfc_conv_component_ref.  */
1145
  parent.type = REF_COMPONENT;
1146
  parent.next = NULL;
1147
  parent.u.c.sym = dt;
1148
  parent.u.c.component = dt->components;
1149
 
1150
  if (dt->backend_decl == NULL)
1151
    gfc_get_derived_type (dt);
1152
 
1153
  /* Build the reference and call self.  */
1154
  gfc_conv_component_ref (se, &parent);
1155
  parent.u.c.sym = dt->components->ts.u.derived;
1156
  parent.u.c.component = c;
1157
  conv_parent_component_references (se, &parent);
1158
}
1159
 
1160
/* Return the contents of a variable. Also handles reference/pointer
1161
   variables (all Fortran pointer references are implicit).  */
1162
 
1163
static void
1164
gfc_conv_variable (gfc_se * se, gfc_expr * expr)
1165
{
1166
  gfc_ss *ss;
1167
  gfc_ref *ref;
1168
  gfc_symbol *sym;
1169
  tree parent_decl = NULL_TREE;
1170
  int parent_flag;
1171
  bool return_value;
1172
  bool alternate_entry;
1173
  bool entry_master;
1174
 
1175
  sym = expr->symtree->n.sym;
1176
  ss = se->ss;
1177
  if (ss != NULL)
1178
    {
1179
      gfc_ss_info *ss_info = ss->info;
1180
 
1181
      /* Check that something hasn't gone horribly wrong.  */
1182
      gcc_assert (ss != gfc_ss_terminator);
1183
      gcc_assert (ss_info->expr == expr);
1184
 
1185
      /* A scalarized term.  We already know the descriptor.  */
1186
      se->expr = ss_info->data.array.descriptor;
1187
      se->string_length = ss_info->string_length;
1188
      for (ref = ss_info->data.array.ref; ref; ref = ref->next)
1189
        if (ref->type == REF_ARRAY && ref->u.ar.type != AR_ELEMENT)
1190
          break;
1191
    }
1192
  else
1193
    {
1194
      tree se_expr = NULL_TREE;
1195
 
1196
      se->expr = gfc_get_symbol_decl (sym);
1197
 
1198
      /* Deal with references to a parent results or entries by storing
1199
         the current_function_decl and moving to the parent_decl.  */
1200
      return_value = sym->attr.function && sym->result == sym;
1201
      alternate_entry = sym->attr.function && sym->attr.entry
1202
                        && sym->result == sym;
1203
      entry_master = sym->attr.result
1204
                     && sym->ns->proc_name->attr.entry_master
1205
                     && !gfc_return_by_reference (sym->ns->proc_name);
1206
      if (current_function_decl)
1207
        parent_decl = DECL_CONTEXT (current_function_decl);
1208
 
1209
      if ((se->expr == parent_decl && return_value)
1210
           || (sym->ns && sym->ns->proc_name
1211
               && parent_decl
1212
               && sym->ns->proc_name->backend_decl == parent_decl
1213
               && (alternate_entry || entry_master)))
1214
        parent_flag = 1;
1215
      else
1216
        parent_flag = 0;
1217
 
1218
      /* Special case for assigning the return value of a function.
1219
         Self recursive functions must have an explicit return value.  */
1220
      if (return_value && (se->expr == current_function_decl || parent_flag))
1221
        se_expr = gfc_get_fake_result_decl (sym, parent_flag);
1222
 
1223
      /* Similarly for alternate entry points.  */
1224
      else if (alternate_entry
1225
               && (sym->ns->proc_name->backend_decl == current_function_decl
1226
                   || parent_flag))
1227
        {
1228
          gfc_entry_list *el = NULL;
1229
 
1230
          for (el = sym->ns->entries; el; el = el->next)
1231
            if (sym == el->sym)
1232
              {
1233
                se_expr = gfc_get_fake_result_decl (sym, parent_flag);
1234
                break;
1235
              }
1236
        }
1237
 
1238
      else if (entry_master
1239
               && (sym->ns->proc_name->backend_decl == current_function_decl
1240
                   || parent_flag))
1241
        se_expr = gfc_get_fake_result_decl (sym, parent_flag);
1242
 
1243
      if (se_expr)
1244
        se->expr = se_expr;
1245
 
1246
      /* Procedure actual arguments.  */
1247
      else if (sym->attr.flavor == FL_PROCEDURE
1248
               && se->expr != current_function_decl)
1249
        {
1250
          if (!sym->attr.dummy && !sym->attr.proc_pointer)
1251
            {
1252
              gcc_assert (TREE_CODE (se->expr) == FUNCTION_DECL);
1253
              se->expr = gfc_build_addr_expr (NULL_TREE, se->expr);
1254
            }
1255
          return;
1256
        }
1257
 
1258
 
1259
      /* Dereference the expression, where needed. Since characters
1260
         are entirely different from other types, they are treated
1261
         separately.  */
1262
      if (sym->ts.type == BT_CHARACTER)
1263
        {
1264
          /* Dereference character pointer dummy arguments
1265
             or results.  */
1266
          if ((sym->attr.pointer || sym->attr.allocatable)
1267
              && (sym->attr.dummy
1268
                  || sym->attr.function
1269
                  || sym->attr.result))
1270
            se->expr = build_fold_indirect_ref_loc (input_location,
1271
                                                se->expr);
1272
 
1273
        }
1274
      else if (!sym->attr.value)
1275
        {
1276
          /* Dereference non-character scalar dummy arguments.  */
1277
          if (sym->attr.dummy && !sym->attr.dimension
1278
              && !(sym->attr.codimension && sym->attr.allocatable))
1279
            se->expr = build_fold_indirect_ref_loc (input_location,
1280
                                                se->expr);
1281
 
1282
          /* Dereference scalar hidden result.  */
1283
          if (gfc_option.flag_f2c && sym->ts.type == BT_COMPLEX
1284
              && (sym->attr.function || sym->attr.result)
1285
              && !sym->attr.dimension && !sym->attr.pointer
1286
              && !sym->attr.always_explicit)
1287
            se->expr = build_fold_indirect_ref_loc (input_location,
1288
                                                se->expr);
1289
 
1290
          /* Dereference non-character pointer variables.
1291
             These must be dummies, results, or scalars.  */
1292
          if ((sym->attr.pointer || sym->attr.allocatable
1293
               || gfc_is_associate_pointer (sym))
1294
              && (sym->attr.dummy
1295
                  || sym->attr.function
1296
                  || sym->attr.result
1297
                  || (!sym->attr.dimension
1298
                      && (!sym->attr.codimension || !sym->attr.allocatable))))
1299
            se->expr = build_fold_indirect_ref_loc (input_location,
1300
                                                se->expr);
1301
        }
1302
 
1303
      ref = expr->ref;
1304
    }
1305
 
1306
  /* For character variables, also get the length.  */
1307
  if (sym->ts.type == BT_CHARACTER)
1308
    {
1309
      /* If the character length of an entry isn't set, get the length from
1310
         the master function instead.  */
1311
      if (sym->attr.entry && !sym->ts.u.cl->backend_decl)
1312
        se->string_length = sym->ns->proc_name->ts.u.cl->backend_decl;
1313
      else
1314
        se->string_length = sym->ts.u.cl->backend_decl;
1315
      gcc_assert (se->string_length);
1316
    }
1317
 
1318
  while (ref)
1319
    {
1320
      switch (ref->type)
1321
        {
1322
        case REF_ARRAY:
1323
          /* Return the descriptor if that's what we want and this is an array
1324
             section reference.  */
1325
          if (se->descriptor_only && ref->u.ar.type != AR_ELEMENT)
1326
            return;
1327
/* TODO: Pointers to single elements of array sections, eg elemental subs.  */
1328
          /* Return the descriptor for array pointers and allocations.  */
1329
          if (se->want_pointer
1330
              && ref->next == NULL && (se->descriptor_only))
1331
            return;
1332
 
1333
          gfc_conv_array_ref (se, &ref->u.ar, sym, &expr->where);
1334
          /* Return a pointer to an element.  */
1335
          break;
1336
 
1337
        case REF_COMPONENT:
1338
          if (ref->u.c.sym->attr.extension)
1339
            conv_parent_component_references (se, ref);
1340
 
1341
          gfc_conv_component_ref (se, ref);
1342
 
1343
          break;
1344
 
1345
        case REF_SUBSTRING:
1346
          gfc_conv_substring (se, ref, expr->ts.kind,
1347
                              expr->symtree->name, &expr->where);
1348
          break;
1349
 
1350
        default:
1351
          gcc_unreachable ();
1352
          break;
1353
        }
1354
      ref = ref->next;
1355
    }
1356
  /* Pointer assignment, allocation or pass by reference.  Arrays are handled
1357
     separately.  */
1358
  if (se->want_pointer)
1359
    {
1360
      if (expr->ts.type == BT_CHARACTER && !gfc_is_proc_ptr_comp (expr, NULL))
1361
        gfc_conv_string_parameter (se);
1362
      else
1363
        se->expr = gfc_build_addr_expr (NULL_TREE, se->expr);
1364
    }
1365
}
1366
 
1367
 
1368
/* Unary ops are easy... Or they would be if ! was a valid op.  */
1369
 
1370
static void
1371
gfc_conv_unary_op (enum tree_code code, gfc_se * se, gfc_expr * expr)
1372
{
1373
  gfc_se operand;
1374
  tree type;
1375
 
1376
  gcc_assert (expr->ts.type != BT_CHARACTER);
1377
  /* Initialize the operand.  */
1378
  gfc_init_se (&operand, se);
1379
  gfc_conv_expr_val (&operand, expr->value.op.op1);
1380
  gfc_add_block_to_block (&se->pre, &operand.pre);
1381
 
1382
  type = gfc_typenode_for_spec (&expr->ts);
1383
 
1384
  /* TRUTH_NOT_EXPR is not a "true" unary operator in GCC.
1385
     We must convert it to a compare to 0 (e.g. EQ_EXPR (op1, 0)).
1386
     All other unary operators have an equivalent GIMPLE unary operator.  */
1387
  if (code == TRUTH_NOT_EXPR)
1388
    se->expr = fold_build2_loc (input_location, EQ_EXPR, type, operand.expr,
1389
                                build_int_cst (type, 0));
1390
  else
1391
    se->expr = fold_build1_loc (input_location, code, type, operand.expr);
1392
 
1393
}
1394
 
1395
/* Expand power operator to optimal multiplications when a value is raised
1396
   to a constant integer n. See section 4.6.3, "Evaluation of Powers" of
1397
   Donald E. Knuth, "Seminumerical Algorithms", Vol. 2, "The Art of Computer
1398
   Programming", 3rd Edition, 1998.  */
1399
 
1400
/* This code is mostly duplicated from expand_powi in the backend.
1401
   We establish the "optimal power tree" lookup table with the defined size.
1402
   The items in the table are the exponents used to calculate the index
1403
   exponents. Any integer n less than the value can get an "addition chain",
1404
   with the first node being one.  */
1405
#define POWI_TABLE_SIZE 256
1406
 
1407
/* The table is from builtins.c.  */
1408
static const unsigned char powi_table[POWI_TABLE_SIZE] =
1409
  {
1410
      0,   1,   1,   2,   2,   3,   3,   4,  /*   0 -   7 */
1411
      4,   6,   5,   6,   6,  10,   7,   9,  /*   8 -  15 */
1412
      8,  16,   9,  16,  10,  12,  11,  13,  /*  16 -  23 */
1413
     12,  17,  13,  18,  14,  24,  15,  26,  /*  24 -  31 */
1414
     16,  17,  17,  19,  18,  33,  19,  26,  /*  32 -  39 */
1415
     20,  25,  21,  40,  22,  27,  23,  44,  /*  40 -  47 */
1416
     24,  32,  25,  34,  26,  29,  27,  44,  /*  48 -  55 */
1417
     28,  31,  29,  34,  30,  60,  31,  36,  /*  56 -  63 */
1418
     32,  64,  33,  34,  34,  46,  35,  37,  /*  64 -  71 */
1419
     36,  65,  37,  50,  38,  48,  39,  69,  /*  72 -  79 */
1420
     40,  49,  41,  43,  42,  51,  43,  58,  /*  80 -  87 */
1421
     44,  64,  45,  47,  46,  59,  47,  76,  /*  88 -  95 */
1422
     48,  65,  49,  66,  50,  67,  51,  66,  /*  96 - 103 */
1423
     52,  70,  53,  74,  54, 104,  55,  74,  /* 104 - 111 */
1424
     56,  64,  57,  69,  58,  78,  59,  68,  /* 112 - 119 */
1425
     60,  61,  61,  80,  62,  75,  63,  68,  /* 120 - 127 */
1426
     64,  65,  65, 128,  66, 129,  67,  90,  /* 128 - 135 */
1427
     68,  73,  69, 131,  70,  94,  71,  88,  /* 136 - 143 */
1428
     72, 128,  73,  98,  74, 132,  75, 121,  /* 144 - 151 */
1429
     76, 102,  77, 124,  78, 132,  79, 106,  /* 152 - 159 */
1430
     80,  97,  81, 160,  82,  99,  83, 134,  /* 160 - 167 */
1431
     84,  86,  85,  95,  86, 160,  87, 100,  /* 168 - 175 */
1432
     88, 113,  89,  98,  90, 107,  91, 122,  /* 176 - 183 */
1433
     92, 111,  93, 102,  94, 126,  95, 150,  /* 184 - 191 */
1434
     96, 128,  97, 130,  98, 133,  99, 195,  /* 192 - 199 */
1435
    100, 128, 101, 123, 102, 164, 103, 138,  /* 200 - 207 */
1436
    104, 145, 105, 146, 106, 109, 107, 149,  /* 208 - 215 */
1437
    108, 200, 109, 146, 110, 170, 111, 157,  /* 216 - 223 */
1438
    112, 128, 113, 130, 114, 182, 115, 132,  /* 224 - 231 */
1439
    116, 200, 117, 132, 118, 158, 119, 206,  /* 232 - 239 */
1440
    120, 240, 121, 162, 122, 147, 123, 152,  /* 240 - 247 */
1441
    124, 166, 125, 214, 126, 138, 127, 153,  /* 248 - 255 */
1442
  };
1443
 
1444
/* If n is larger than lookup table's max index, we use the "window
1445
   method".  */
1446
#define POWI_WINDOW_SIZE 3
1447
 
1448
/* Recursive function to expand the power operator. The temporary
1449
   values are put in tmpvar. The function returns tmpvar[1] ** n.  */
1450
static tree
1451
gfc_conv_powi (gfc_se * se, unsigned HOST_WIDE_INT n, tree * tmpvar)
1452
{
1453
  tree op0;
1454
  tree op1;
1455
  tree tmp;
1456
  int digit;
1457
 
1458
  if (n < POWI_TABLE_SIZE)
1459
    {
1460
      if (tmpvar[n])
1461
        return tmpvar[n];
1462
 
1463
      op0 = gfc_conv_powi (se, n - powi_table[n], tmpvar);
1464
      op1 = gfc_conv_powi (se, powi_table[n], tmpvar);
1465
    }
1466
  else if (n & 1)
1467
    {
1468
      digit = n & ((1 << POWI_WINDOW_SIZE) - 1);
1469
      op0 = gfc_conv_powi (se, n - digit, tmpvar);
1470
      op1 = gfc_conv_powi (se, digit, tmpvar);
1471
    }
1472
  else
1473
    {
1474
      op0 = gfc_conv_powi (se, n >> 1, tmpvar);
1475
      op1 = op0;
1476
    }
1477
 
1478
  tmp = fold_build2_loc (input_location, MULT_EXPR, TREE_TYPE (op0), op0, op1);
1479
  tmp = gfc_evaluate_now (tmp, &se->pre);
1480
 
1481
  if (n < POWI_TABLE_SIZE)
1482
    tmpvar[n] = tmp;
1483
 
1484
  return tmp;
1485
}
1486
 
1487
 
1488
/* Expand lhs ** rhs. rhs is a constant integer. If it expands successfully,
1489
   return 1. Else return 0 and a call to runtime library functions
1490
   will have to be built.  */
1491
static int
1492
gfc_conv_cst_int_power (gfc_se * se, tree lhs, tree rhs)
1493
{
1494
  tree cond;
1495
  tree tmp;
1496
  tree type;
1497
  tree vartmp[POWI_TABLE_SIZE];
1498
  HOST_WIDE_INT m;
1499
  unsigned HOST_WIDE_INT n;
1500
  int sgn;
1501
 
1502
  /* If exponent is too large, we won't expand it anyway, so don't bother
1503
     with large integer values.  */
1504
  if (!double_int_fits_in_shwi_p (TREE_INT_CST (rhs)))
1505
    return 0;
1506
 
1507
  m = double_int_to_shwi (TREE_INT_CST (rhs));
1508
  /* There's no ABS for HOST_WIDE_INT, so here we go. It also takes care
1509
     of the asymmetric range of the integer type.  */
1510
  n = (unsigned HOST_WIDE_INT) (m < 0 ? -m : m);
1511
 
1512
  type = TREE_TYPE (lhs);
1513
  sgn = tree_int_cst_sgn (rhs);
1514
 
1515
  if (((FLOAT_TYPE_P (type) && !flag_unsafe_math_optimizations)
1516
       || optimize_size) && (m > 2 || m < -1))
1517
    return 0;
1518
 
1519
  /* rhs == 0  */
1520
  if (sgn == 0)
1521
    {
1522
      se->expr = gfc_build_const (type, integer_one_node);
1523
      return 1;
1524
    }
1525
 
1526
  /* If rhs < 0 and lhs is an integer, the result is -1, 0 or 1.  */
1527
  if ((sgn == -1) && (TREE_CODE (type) == INTEGER_TYPE))
1528
    {
1529
      tmp = fold_build2_loc (input_location, EQ_EXPR, boolean_type_node,
1530
                             lhs, build_int_cst (TREE_TYPE (lhs), -1));
1531
      cond = fold_build2_loc (input_location, EQ_EXPR, boolean_type_node,
1532
                              lhs, build_int_cst (TREE_TYPE (lhs), 1));
1533
 
1534
      /* If rhs is even,
1535
         result = (lhs == 1 || lhs == -1) ? 1 : 0.  */
1536
      if ((n & 1) == 0)
1537
        {
1538
          tmp = fold_build2_loc (input_location, TRUTH_OR_EXPR,
1539
                                 boolean_type_node, tmp, cond);
1540
          se->expr = fold_build3_loc (input_location, COND_EXPR, type,
1541
                                      tmp, build_int_cst (type, 1),
1542
                                      build_int_cst (type, 0));
1543
          return 1;
1544
        }
1545
      /* If rhs is odd,
1546
         result = (lhs == 1) ? 1 : (lhs == -1) ? -1 : 0.  */
1547
      tmp = fold_build3_loc (input_location, COND_EXPR, type, tmp,
1548
                             build_int_cst (type, -1),
1549
                             build_int_cst (type, 0));
1550
      se->expr = fold_build3_loc (input_location, COND_EXPR, type,
1551
                                  cond, build_int_cst (type, 1), tmp);
1552
      return 1;
1553
    }
1554
 
1555
  memset (vartmp, 0, sizeof (vartmp));
1556
  vartmp[1] = lhs;
1557
  if (sgn == -1)
1558
    {
1559
      tmp = gfc_build_const (type, integer_one_node);
1560
      vartmp[1] = fold_build2_loc (input_location, RDIV_EXPR, type, tmp,
1561
                                   vartmp[1]);
1562
    }
1563
 
1564
  se->expr = gfc_conv_powi (se, n, vartmp);
1565
 
1566
  return 1;
1567
}
1568
 
1569
 
1570
/* Power op (**).  Constant integer exponent has special handling.  */
1571
 
1572
static void
1573
gfc_conv_power_op (gfc_se * se, gfc_expr * expr)
1574
{
1575
  tree gfc_int4_type_node;
1576
  int kind;
1577
  int ikind;
1578
  int res_ikind_1, res_ikind_2;
1579
  gfc_se lse;
1580
  gfc_se rse;
1581
  tree fndecl = NULL;
1582
 
1583
  gfc_init_se (&lse, se);
1584
  gfc_conv_expr_val (&lse, expr->value.op.op1);
1585
  lse.expr = gfc_evaluate_now (lse.expr, &lse.pre);
1586
  gfc_add_block_to_block (&se->pre, &lse.pre);
1587
 
1588
  gfc_init_se (&rse, se);
1589
  gfc_conv_expr_val (&rse, expr->value.op.op2);
1590
  gfc_add_block_to_block (&se->pre, &rse.pre);
1591
 
1592
  if (expr->value.op.op2->ts.type == BT_INTEGER
1593
      && expr->value.op.op2->expr_type == EXPR_CONSTANT)
1594
    if (gfc_conv_cst_int_power (se, lse.expr, rse.expr))
1595
      return;
1596
 
1597
  gfc_int4_type_node = gfc_get_int_type (4);
1598
 
1599
  /* In case of integer operands with kinds 1 or 2, we call the integer kind 4
1600
     library routine.  But in the end, we have to convert the result back
1601
     if this case applies -- with res_ikind_K, we keep track whether operand K
1602
     falls into this case.  */
1603
  res_ikind_1 = -1;
1604
  res_ikind_2 = -1;
1605
 
1606
  kind = expr->value.op.op1->ts.kind;
1607
  switch (expr->value.op.op2->ts.type)
1608
    {
1609
    case BT_INTEGER:
1610
      ikind = expr->value.op.op2->ts.kind;
1611
      switch (ikind)
1612
        {
1613
        case 1:
1614
        case 2:
1615
          rse.expr = convert (gfc_int4_type_node, rse.expr);
1616
          res_ikind_2 = ikind;
1617
          /* Fall through.  */
1618
 
1619
        case 4:
1620
          ikind = 0;
1621
          break;
1622
 
1623
        case 8:
1624
          ikind = 1;
1625
          break;
1626
 
1627
        case 16:
1628
          ikind = 2;
1629
          break;
1630
 
1631
        default:
1632
          gcc_unreachable ();
1633
        }
1634
      switch (kind)
1635
        {
1636
        case 1:
1637
        case 2:
1638
          if (expr->value.op.op1->ts.type == BT_INTEGER)
1639
            {
1640
              lse.expr = convert (gfc_int4_type_node, lse.expr);
1641
              res_ikind_1 = kind;
1642
            }
1643
          else
1644
            gcc_unreachable ();
1645
          /* Fall through.  */
1646
 
1647
        case 4:
1648
          kind = 0;
1649
          break;
1650
 
1651
        case 8:
1652
          kind = 1;
1653
          break;
1654
 
1655
        case 10:
1656
          kind = 2;
1657
          break;
1658
 
1659
        case 16:
1660
          kind = 3;
1661
          break;
1662
 
1663
        default:
1664
          gcc_unreachable ();
1665
        }
1666
 
1667
      switch (expr->value.op.op1->ts.type)
1668
        {
1669
        case BT_INTEGER:
1670
          if (kind == 3) /* Case 16 was not handled properly above.  */
1671
            kind = 2;
1672
          fndecl = gfor_fndecl_math_powi[kind][ikind].integer;
1673
          break;
1674
 
1675
        case BT_REAL:
1676
          /* Use builtins for real ** int4.  */
1677
          if (ikind == 0)
1678
            {
1679
              switch (kind)
1680
                {
1681
                case 0:
1682
                  fndecl = builtin_decl_explicit (BUILT_IN_POWIF);
1683
                  break;
1684
 
1685
                case 1:
1686
                  fndecl = builtin_decl_explicit (BUILT_IN_POWI);
1687
                  break;
1688
 
1689
                case 2:
1690
                  fndecl = builtin_decl_explicit (BUILT_IN_POWIL);
1691
                  break;
1692
 
1693
                case 3:
1694
                  /* Use the __builtin_powil() only if real(kind=16) is
1695
                     actually the C long double type.  */
1696
                  if (!gfc_real16_is_float128)
1697
                    fndecl = builtin_decl_explicit (BUILT_IN_POWIL);
1698
                  break;
1699
 
1700
                default:
1701
                  gcc_unreachable ();
1702
                }
1703
            }
1704
 
1705
          /* If we don't have a good builtin for this, go for the
1706
             library function.  */
1707
          if (!fndecl)
1708
            fndecl = gfor_fndecl_math_powi[kind][ikind].real;
1709
          break;
1710
 
1711
        case BT_COMPLEX:
1712
          fndecl = gfor_fndecl_math_powi[kind][ikind].cmplx;
1713
          break;
1714
 
1715
        default:
1716
          gcc_unreachable ();
1717
        }
1718
      break;
1719
 
1720
    case BT_REAL:
1721
      fndecl = gfc_builtin_decl_for_float_kind (BUILT_IN_POW, kind);
1722
      break;
1723
 
1724
    case BT_COMPLEX:
1725
      fndecl = gfc_builtin_decl_for_float_kind (BUILT_IN_CPOW, kind);
1726
      break;
1727
 
1728
    default:
1729
      gcc_unreachable ();
1730
      break;
1731
    }
1732
 
1733
  se->expr = build_call_expr_loc (input_location,
1734
                              fndecl, 2, lse.expr, rse.expr);
1735
 
1736
  /* Convert the result back if it is of wrong integer kind.  */
1737
  if (res_ikind_1 != -1 && res_ikind_2 != -1)
1738
    {
1739
      /* We want the maximum of both operand kinds as result.  */
1740
      if (res_ikind_1 < res_ikind_2)
1741
        res_ikind_1 = res_ikind_2;
1742
      se->expr = convert (gfc_get_int_type (res_ikind_1), se->expr);
1743
    }
1744
}
1745
 
1746
 
1747
/* Generate code to allocate a string temporary.  */
1748
 
1749
tree
1750
gfc_conv_string_tmp (gfc_se * se, tree type, tree len)
1751
{
1752
  tree var;
1753
  tree tmp;
1754
 
1755
  if (gfc_can_put_var_on_stack (len))
1756
    {
1757
      /* Create a temporary variable to hold the result.  */
1758
      tmp = fold_build2_loc (input_location, MINUS_EXPR,
1759
                             gfc_charlen_type_node, len,
1760
                             build_int_cst (gfc_charlen_type_node, 1));
1761
      tmp = build_range_type (gfc_array_index_type, gfc_index_zero_node, tmp);
1762
 
1763
      if (TREE_CODE (TREE_TYPE (type)) == ARRAY_TYPE)
1764
        tmp = build_array_type (TREE_TYPE (TREE_TYPE (type)), tmp);
1765
      else
1766
        tmp = build_array_type (TREE_TYPE (type), tmp);
1767
 
1768
      var = gfc_create_var (tmp, "str");
1769
      var = gfc_build_addr_expr (type, var);
1770
    }
1771
  else
1772
    {
1773
      /* Allocate a temporary to hold the result.  */
1774
      var = gfc_create_var (type, "pstr");
1775
      tmp = gfc_call_malloc (&se->pre, type,
1776
                             fold_build2_loc (input_location, MULT_EXPR,
1777
                                              TREE_TYPE (len), len,
1778
                                              fold_convert (TREE_TYPE (len),
1779
                                                            TYPE_SIZE (type))));
1780
      gfc_add_modify (&se->pre, var, tmp);
1781
 
1782
      /* Free the temporary afterwards.  */
1783
      tmp = gfc_call_free (convert (pvoid_type_node, var));
1784
      gfc_add_expr_to_block (&se->post, tmp);
1785
    }
1786
 
1787
  return var;
1788
}
1789
 
1790
 
1791
/* Handle a string concatenation operation.  A temporary will be allocated to
1792
   hold the result.  */
1793
 
1794
static void
1795
gfc_conv_concat_op (gfc_se * se, gfc_expr * expr)
1796
{
1797
  gfc_se lse, rse;
1798
  tree len, type, var, tmp, fndecl;
1799
 
1800
  gcc_assert (expr->value.op.op1->ts.type == BT_CHARACTER
1801
              && expr->value.op.op2->ts.type == BT_CHARACTER);
1802
  gcc_assert (expr->value.op.op1->ts.kind == expr->value.op.op2->ts.kind);
1803
 
1804
  gfc_init_se (&lse, se);
1805
  gfc_conv_expr (&lse, expr->value.op.op1);
1806
  gfc_conv_string_parameter (&lse);
1807
  gfc_init_se (&rse, se);
1808
  gfc_conv_expr (&rse, expr->value.op.op2);
1809
  gfc_conv_string_parameter (&rse);
1810
 
1811
  gfc_add_block_to_block (&se->pre, &lse.pre);
1812
  gfc_add_block_to_block (&se->pre, &rse.pre);
1813
 
1814
  type = gfc_get_character_type (expr->ts.kind, expr->ts.u.cl);
1815
  len = TYPE_MAX_VALUE (TYPE_DOMAIN (type));
1816
  if (len == NULL_TREE)
1817
    {
1818
      len = fold_build2_loc (input_location, PLUS_EXPR,
1819
                             TREE_TYPE (lse.string_length),
1820
                             lse.string_length, rse.string_length);
1821
    }
1822
 
1823
  type = build_pointer_type (type);
1824
 
1825
  var = gfc_conv_string_tmp (se, type, len);
1826
 
1827
  /* Do the actual concatenation.  */
1828
  if (expr->ts.kind == 1)
1829
    fndecl = gfor_fndecl_concat_string;
1830
  else if (expr->ts.kind == 4)
1831
    fndecl = gfor_fndecl_concat_string_char4;
1832
  else
1833
    gcc_unreachable ();
1834
 
1835
  tmp = build_call_expr_loc (input_location,
1836
                         fndecl, 6, len, var, lse.string_length, lse.expr,
1837
                         rse.string_length, rse.expr);
1838
  gfc_add_expr_to_block (&se->pre, tmp);
1839
 
1840
  /* Add the cleanup for the operands.  */
1841
  gfc_add_block_to_block (&se->pre, &rse.post);
1842
  gfc_add_block_to_block (&se->pre, &lse.post);
1843
 
1844
  se->expr = var;
1845
  se->string_length = len;
1846
}
1847
 
1848
/* Translates an op expression. Common (binary) cases are handled by this
1849
   function, others are passed on. Recursion is used in either case.
1850
   We use the fact that (op1.ts == op2.ts) (except for the power
1851
   operator **).
1852
   Operators need no special handling for scalarized expressions as long as
1853
   they call gfc_conv_simple_val to get their operands.
1854
   Character strings get special handling.  */
1855
 
1856
static void
1857
gfc_conv_expr_op (gfc_se * se, gfc_expr * expr)
1858
{
1859
  enum tree_code code;
1860
  gfc_se lse;
1861
  gfc_se rse;
1862
  tree tmp, type;
1863
  int lop;
1864
  int checkstring;
1865
 
1866
  checkstring = 0;
1867
  lop = 0;
1868
  switch (expr->value.op.op)
1869
    {
1870
    case INTRINSIC_PARENTHESES:
1871
      if ((expr->ts.type == BT_REAL
1872
           || expr->ts.type == BT_COMPLEX)
1873
          && gfc_option.flag_protect_parens)
1874
        {
1875
          gfc_conv_unary_op (PAREN_EXPR, se, expr);
1876
          gcc_assert (FLOAT_TYPE_P (TREE_TYPE (se->expr)));
1877
          return;
1878
        }
1879
 
1880
      /* Fallthrough.  */
1881
    case INTRINSIC_UPLUS:
1882
      gfc_conv_expr (se, expr->value.op.op1);
1883
      return;
1884
 
1885
    case INTRINSIC_UMINUS:
1886
      gfc_conv_unary_op (NEGATE_EXPR, se, expr);
1887
      return;
1888
 
1889
    case INTRINSIC_NOT:
1890
      gfc_conv_unary_op (TRUTH_NOT_EXPR, se, expr);
1891
      return;
1892
 
1893
    case INTRINSIC_PLUS:
1894
      code = PLUS_EXPR;
1895
      break;
1896
 
1897
    case INTRINSIC_MINUS:
1898
      code = MINUS_EXPR;
1899
      break;
1900
 
1901
    case INTRINSIC_TIMES:
1902
      code = MULT_EXPR;
1903
      break;
1904
 
1905
    case INTRINSIC_DIVIDE:
1906
      /* If expr is a real or complex expr, use an RDIV_EXPR. If op1 is
1907
         an integer, we must round towards zero, so we use a
1908
         TRUNC_DIV_EXPR.  */
1909
      if (expr->ts.type == BT_INTEGER)
1910
        code = TRUNC_DIV_EXPR;
1911
      else
1912
        code = RDIV_EXPR;
1913
      break;
1914
 
1915
    case INTRINSIC_POWER:
1916
      gfc_conv_power_op (se, expr);
1917
      return;
1918
 
1919
    case INTRINSIC_CONCAT:
1920
      gfc_conv_concat_op (se, expr);
1921
      return;
1922
 
1923
    case INTRINSIC_AND:
1924
      code = TRUTH_ANDIF_EXPR;
1925
      lop = 1;
1926
      break;
1927
 
1928
    case INTRINSIC_OR:
1929
      code = TRUTH_ORIF_EXPR;
1930
      lop = 1;
1931
      break;
1932
 
1933
      /* EQV and NEQV only work on logicals, but since we represent them
1934
         as integers, we can use EQ_EXPR and NE_EXPR for them in GIMPLE.  */
1935
    case INTRINSIC_EQ:
1936
    case INTRINSIC_EQ_OS:
1937
    case INTRINSIC_EQV:
1938
      code = EQ_EXPR;
1939
      checkstring = 1;
1940
      lop = 1;
1941
      break;
1942
 
1943
    case INTRINSIC_NE:
1944
    case INTRINSIC_NE_OS:
1945
    case INTRINSIC_NEQV:
1946
      code = NE_EXPR;
1947
      checkstring = 1;
1948
      lop = 1;
1949
      break;
1950
 
1951
    case INTRINSIC_GT:
1952
    case INTRINSIC_GT_OS:
1953
      code = GT_EXPR;
1954
      checkstring = 1;
1955
      lop = 1;
1956
      break;
1957
 
1958
    case INTRINSIC_GE:
1959
    case INTRINSIC_GE_OS:
1960
      code = GE_EXPR;
1961
      checkstring = 1;
1962
      lop = 1;
1963
      break;
1964
 
1965
    case INTRINSIC_LT:
1966
    case INTRINSIC_LT_OS:
1967
      code = LT_EXPR;
1968
      checkstring = 1;
1969
      lop = 1;
1970
      break;
1971
 
1972
    case INTRINSIC_LE:
1973
    case INTRINSIC_LE_OS:
1974
      code = LE_EXPR;
1975
      checkstring = 1;
1976
      lop = 1;
1977
      break;
1978
 
1979
    case INTRINSIC_USER:
1980
    case INTRINSIC_ASSIGN:
1981
      /* These should be converted into function calls by the frontend.  */
1982
      gcc_unreachable ();
1983
 
1984
    default:
1985
      fatal_error ("Unknown intrinsic op");
1986
      return;
1987
    }
1988
 
1989
  /* The only exception to this is **, which is handled separately anyway.  */
1990
  gcc_assert (expr->value.op.op1->ts.type == expr->value.op.op2->ts.type);
1991
 
1992
  if (checkstring && expr->value.op.op1->ts.type != BT_CHARACTER)
1993
    checkstring = 0;
1994
 
1995
  /* lhs */
1996
  gfc_init_se (&lse, se);
1997
  gfc_conv_expr (&lse, expr->value.op.op1);
1998
  gfc_add_block_to_block (&se->pre, &lse.pre);
1999
 
2000
  /* rhs */
2001
  gfc_init_se (&rse, se);
2002
  gfc_conv_expr (&rse, expr->value.op.op2);
2003
  gfc_add_block_to_block (&se->pre, &rse.pre);
2004
 
2005
  if (checkstring)
2006
    {
2007
      gfc_conv_string_parameter (&lse);
2008
      gfc_conv_string_parameter (&rse);
2009
 
2010
      lse.expr = gfc_build_compare_string (lse.string_length, lse.expr,
2011
                                           rse.string_length, rse.expr,
2012
                                           expr->value.op.op1->ts.kind,
2013
                                           code);
2014
      rse.expr = build_int_cst (TREE_TYPE (lse.expr), 0);
2015
      gfc_add_block_to_block (&lse.post, &rse.post);
2016
    }
2017
 
2018
  type = gfc_typenode_for_spec (&expr->ts);
2019
 
2020
  if (lop)
2021
    {
2022
      /* The result of logical ops is always boolean_type_node.  */
2023
      tmp = fold_build2_loc (input_location, code, boolean_type_node,
2024
                             lse.expr, rse.expr);
2025
      se->expr = convert (type, tmp);
2026
    }
2027
  else
2028
    se->expr = fold_build2_loc (input_location, code, type, lse.expr, rse.expr);
2029
 
2030
  /* Add the post blocks.  */
2031
  gfc_add_block_to_block (&se->post, &rse.post);
2032
  gfc_add_block_to_block (&se->post, &lse.post);
2033
}
2034
 
2035
/* If a string's length is one, we convert it to a single character.  */
2036
 
2037
tree
2038
gfc_string_to_single_character (tree len, tree str, int kind)
2039
{
2040
 
2041
  if (!INTEGER_CST_P (len) || TREE_INT_CST_HIGH (len) != 0
2042
      || !POINTER_TYPE_P (TREE_TYPE (str)))
2043
    return NULL_TREE;
2044
 
2045
  if (TREE_INT_CST_LOW (len) == 1)
2046
    {
2047
      str = fold_convert (gfc_get_pchar_type (kind), str);
2048
      return build_fold_indirect_ref_loc (input_location, str);
2049
    }
2050
 
2051
  if (kind == 1
2052
      && TREE_CODE (str) == ADDR_EXPR
2053
      && TREE_CODE (TREE_OPERAND (str, 0)) == ARRAY_REF
2054
      && TREE_CODE (TREE_OPERAND (TREE_OPERAND (str, 0), 0)) == STRING_CST
2055
      && array_ref_low_bound (TREE_OPERAND (str, 0))
2056
         == TREE_OPERAND (TREE_OPERAND (str, 0), 1)
2057
      && TREE_INT_CST_LOW (len) > 1
2058
      && TREE_INT_CST_LOW (len)
2059
         == (unsigned HOST_WIDE_INT)
2060
            TREE_STRING_LENGTH (TREE_OPERAND (TREE_OPERAND (str, 0), 0)))
2061
    {
2062
      tree ret = fold_convert (gfc_get_pchar_type (kind), str);
2063
      ret = build_fold_indirect_ref_loc (input_location, ret);
2064
      if (TREE_CODE (ret) == INTEGER_CST)
2065
        {
2066
          tree string_cst = TREE_OPERAND (TREE_OPERAND (str, 0), 0);
2067
          int i, length = TREE_STRING_LENGTH (string_cst);
2068
          const char *ptr = TREE_STRING_POINTER (string_cst);
2069
 
2070
          for (i = 1; i < length; i++)
2071
            if (ptr[i] != ' ')
2072
              return NULL_TREE;
2073
 
2074
          return ret;
2075
        }
2076
    }
2077
 
2078
  return NULL_TREE;
2079
}
2080
 
2081
 
2082
void
2083
gfc_conv_scalar_char_value (gfc_symbol *sym, gfc_se *se, gfc_expr **expr)
2084
{
2085
 
2086
  if (sym->backend_decl)
2087
    {
2088
      /* This becomes the nominal_type in
2089
         function.c:assign_parm_find_data_types.  */
2090
      TREE_TYPE (sym->backend_decl) = unsigned_char_type_node;
2091
      /* This becomes the passed_type in
2092
         function.c:assign_parm_find_data_types.  C promotes char to
2093
         integer for argument passing.  */
2094
      DECL_ARG_TYPE (sym->backend_decl) = unsigned_type_node;
2095
 
2096
      DECL_BY_REFERENCE (sym->backend_decl) = 0;
2097
    }
2098
 
2099
  if (expr != NULL)
2100
    {
2101
      /* If we have a constant character expression, make it into an
2102
         integer.  */
2103
      if ((*expr)->expr_type == EXPR_CONSTANT)
2104
        {
2105
          gfc_typespec ts;
2106
          gfc_clear_ts (&ts);
2107
 
2108
          *expr = gfc_get_int_expr (gfc_default_integer_kind, NULL,
2109
                                    (int)(*expr)->value.character.string[0]);
2110
          if ((*expr)->ts.kind != gfc_c_int_kind)
2111
            {
2112
              /* The expr needs to be compatible with a C int.  If the
2113
                 conversion fails, then the 2 causes an ICE.  */
2114
              ts.type = BT_INTEGER;
2115
              ts.kind = gfc_c_int_kind;
2116
              gfc_convert_type (*expr, &ts, 2);
2117
            }
2118
        }
2119
      else if (se != NULL && (*expr)->expr_type == EXPR_VARIABLE)
2120
        {
2121
          if ((*expr)->ref == NULL)
2122
            {
2123
              se->expr = gfc_string_to_single_character
2124
                (build_int_cst (integer_type_node, 1),
2125
                 gfc_build_addr_expr (gfc_get_pchar_type ((*expr)->ts.kind),
2126
                                      gfc_get_symbol_decl
2127
                                      ((*expr)->symtree->n.sym)),
2128
                 (*expr)->ts.kind);
2129
            }
2130
          else
2131
            {
2132
              gfc_conv_variable (se, *expr);
2133
              se->expr = gfc_string_to_single_character
2134
                (build_int_cst (integer_type_node, 1),
2135
                 gfc_build_addr_expr (gfc_get_pchar_type ((*expr)->ts.kind),
2136
                                      se->expr),
2137
                 (*expr)->ts.kind);
2138
            }
2139
        }
2140
    }
2141
}
2142
 
2143
/* Helper function for gfc_build_compare_string.  Return LEN_TRIM value
2144
   if STR is a string literal, otherwise return -1.  */
2145
 
2146
static int
2147
gfc_optimize_len_trim (tree len, tree str, int kind)
2148
{
2149
  if (kind == 1
2150
      && TREE_CODE (str) == ADDR_EXPR
2151
      && TREE_CODE (TREE_OPERAND (str, 0)) == ARRAY_REF
2152
      && TREE_CODE (TREE_OPERAND (TREE_OPERAND (str, 0), 0)) == STRING_CST
2153
      && array_ref_low_bound (TREE_OPERAND (str, 0))
2154
         == TREE_OPERAND (TREE_OPERAND (str, 0), 1)
2155
      && TREE_INT_CST_LOW (len) >= 1
2156
      && TREE_INT_CST_LOW (len)
2157
         == (unsigned HOST_WIDE_INT)
2158
            TREE_STRING_LENGTH (TREE_OPERAND (TREE_OPERAND (str, 0), 0)))
2159
    {
2160
      tree folded = fold_convert (gfc_get_pchar_type (kind), str);
2161
      folded = build_fold_indirect_ref_loc (input_location, folded);
2162
      if (TREE_CODE (folded) == INTEGER_CST)
2163
        {
2164
          tree string_cst = TREE_OPERAND (TREE_OPERAND (str, 0), 0);
2165
          int length = TREE_STRING_LENGTH (string_cst);
2166
          const char *ptr = TREE_STRING_POINTER (string_cst);
2167
 
2168
          for (; length > 0; length--)
2169
            if (ptr[length - 1] != ' ')
2170
              break;
2171
 
2172
          return length;
2173
        }
2174
    }
2175
  return -1;
2176
}
2177
 
2178
/* Compare two strings. If they are all single characters, the result is the
2179
   subtraction of them. Otherwise, we build a library call.  */
2180
 
2181
tree
2182
gfc_build_compare_string (tree len1, tree str1, tree len2, tree str2, int kind,
2183
                          enum tree_code code)
2184
{
2185
  tree sc1;
2186
  tree sc2;
2187
  tree fndecl;
2188
 
2189
  gcc_assert (POINTER_TYPE_P (TREE_TYPE (str1)));
2190
  gcc_assert (POINTER_TYPE_P (TREE_TYPE (str2)));
2191
 
2192
  sc1 = gfc_string_to_single_character (len1, str1, kind);
2193
  sc2 = gfc_string_to_single_character (len2, str2, kind);
2194
 
2195
  if (sc1 != NULL_TREE && sc2 != NULL_TREE)
2196
    {
2197
      /* Deal with single character specially.  */
2198
      sc1 = fold_convert (integer_type_node, sc1);
2199
      sc2 = fold_convert (integer_type_node, sc2);
2200
      return fold_build2_loc (input_location, MINUS_EXPR, integer_type_node,
2201
                              sc1, sc2);
2202
    }
2203
 
2204
  if ((code == EQ_EXPR || code == NE_EXPR)
2205
      && optimize
2206
      && INTEGER_CST_P (len1) && INTEGER_CST_P (len2))
2207
    {
2208
      /* If one string is a string literal with LEN_TRIM longer
2209
         than the length of the second string, the strings
2210
         compare unequal.  */
2211
      int len = gfc_optimize_len_trim (len1, str1, kind);
2212
      if (len > 0 && compare_tree_int (len2, len) < 0)
2213
        return integer_one_node;
2214
      len = gfc_optimize_len_trim (len2, str2, kind);
2215
      if (len > 0 && compare_tree_int (len1, len) < 0)
2216
        return integer_one_node;
2217
    }
2218
 
2219
  /* Build a call for the comparison.  */
2220
  if (kind == 1)
2221
    fndecl = gfor_fndecl_compare_string;
2222
  else if (kind == 4)
2223
    fndecl = gfor_fndecl_compare_string_char4;
2224
  else
2225
    gcc_unreachable ();
2226
 
2227
  return build_call_expr_loc (input_location, fndecl, 4,
2228
                              len1, str1, len2, str2);
2229
}
2230
 
2231
 
2232
/* Return the backend_decl for a procedure pointer component.  */
2233
 
2234
static tree
2235
get_proc_ptr_comp (gfc_expr *e)
2236
{
2237
  gfc_se comp_se;
2238
  gfc_expr *e2;
2239
  expr_t old_type;
2240
 
2241
  gfc_init_se (&comp_se, NULL);
2242
  e2 = gfc_copy_expr (e);
2243
  /* We have to restore the expr type later so that gfc_free_expr frees
2244
     the exact same thing that was allocated.
2245
     TODO: This is ugly.  */
2246
  old_type = e2->expr_type;
2247
  e2->expr_type = EXPR_VARIABLE;
2248
  gfc_conv_expr (&comp_se, e2);
2249
  e2->expr_type = old_type;
2250
  gfc_free_expr (e2);
2251
  return build_fold_addr_expr_loc (input_location, comp_se.expr);
2252
}
2253
 
2254
 
2255
/* Convert a typebound function reference from a class object.  */
2256
static void
2257
conv_base_obj_fcn_val (gfc_se * se, tree base_object, gfc_expr * expr)
2258
{
2259
  gfc_ref *ref;
2260
  tree var;
2261
 
2262
  if (TREE_CODE (base_object) != VAR_DECL)
2263
    {
2264
      var = gfc_create_var (TREE_TYPE (base_object), NULL);
2265
      gfc_add_modify (&se->pre, var, base_object);
2266
    }
2267
  se->expr = gfc_class_vptr_get (base_object);
2268
  se->expr = build_fold_indirect_ref_loc (input_location, se->expr);
2269
  ref = expr->ref;
2270
  while (ref && ref->next)
2271
    ref = ref->next;
2272
  gcc_assert (ref && ref->type == REF_COMPONENT);
2273
  if (ref->u.c.sym->attr.extension)
2274
    conv_parent_component_references (se, ref);
2275
  gfc_conv_component_ref (se, ref);
2276
  se->expr = build_fold_addr_expr_loc (input_location, se->expr);
2277
}
2278
 
2279
 
2280
static void
2281
conv_function_val (gfc_se * se, gfc_symbol * sym, gfc_expr * expr)
2282
{
2283
  tree tmp;
2284
 
2285
  if (gfc_is_proc_ptr_comp (expr, NULL))
2286
    tmp = get_proc_ptr_comp (expr);
2287
  else if (sym->attr.dummy)
2288
    {
2289
      tmp = gfc_get_symbol_decl (sym);
2290
      if (sym->attr.proc_pointer)
2291
        tmp = build_fold_indirect_ref_loc (input_location,
2292
                                       tmp);
2293
      gcc_assert (TREE_CODE (TREE_TYPE (tmp)) == POINTER_TYPE
2294
              && TREE_CODE (TREE_TYPE (TREE_TYPE (tmp))) == FUNCTION_TYPE);
2295
    }
2296
  else
2297
    {
2298
      if (!sym->backend_decl)
2299
        sym->backend_decl = gfc_get_extern_function_decl (sym);
2300
 
2301
      tmp = sym->backend_decl;
2302
 
2303
      if (sym->attr.cray_pointee)
2304
        {
2305
          /* TODO - make the cray pointee a pointer to a procedure,
2306
             assign the pointer to it and use it for the call.  This
2307
             will do for now!  */
2308
          tmp = convert (build_pointer_type (TREE_TYPE (tmp)),
2309
                         gfc_get_symbol_decl (sym->cp_pointer));
2310
          tmp = gfc_evaluate_now (tmp, &se->pre);
2311
        }
2312
 
2313
      if (!POINTER_TYPE_P (TREE_TYPE (tmp)))
2314
        {
2315
          gcc_assert (TREE_CODE (tmp) == FUNCTION_DECL);
2316
          tmp = gfc_build_addr_expr (NULL_TREE, tmp);
2317
        }
2318
    }
2319
  se->expr = tmp;
2320
}
2321
 
2322
 
2323
/* Initialize MAPPING.  */
2324
 
2325
void
2326
gfc_init_interface_mapping (gfc_interface_mapping * mapping)
2327
{
2328
  mapping->syms = NULL;
2329
  mapping->charlens = NULL;
2330
}
2331
 
2332
 
2333
/* Free all memory held by MAPPING (but not MAPPING itself).  */
2334
 
2335
void
2336
gfc_free_interface_mapping (gfc_interface_mapping * mapping)
2337
{
2338
  gfc_interface_sym_mapping *sym;
2339
  gfc_interface_sym_mapping *nextsym;
2340
  gfc_charlen *cl;
2341
  gfc_charlen *nextcl;
2342
 
2343
  for (sym = mapping->syms; sym; sym = nextsym)
2344
    {
2345
      nextsym = sym->next;
2346
      sym->new_sym->n.sym->formal = NULL;
2347
      gfc_free_symbol (sym->new_sym->n.sym);
2348
      gfc_free_expr (sym->expr);
2349
      free (sym->new_sym);
2350
      free (sym);
2351
    }
2352
  for (cl = mapping->charlens; cl; cl = nextcl)
2353
    {
2354
      nextcl = cl->next;
2355
      gfc_free_expr (cl->length);
2356
      free (cl);
2357
    }
2358
}
2359
 
2360
 
2361
/* Return a copy of gfc_charlen CL.  Add the returned structure to
2362
   MAPPING so that it will be freed by gfc_free_interface_mapping.  */
2363
 
2364
static gfc_charlen *
2365
gfc_get_interface_mapping_charlen (gfc_interface_mapping * mapping,
2366
                                   gfc_charlen * cl)
2367
{
2368
  gfc_charlen *new_charlen;
2369
 
2370
  new_charlen = gfc_get_charlen ();
2371
  new_charlen->next = mapping->charlens;
2372
  new_charlen->length = gfc_copy_expr (cl->length);
2373
 
2374
  mapping->charlens = new_charlen;
2375
  return new_charlen;
2376
}
2377
 
2378
 
2379
/* A subroutine of gfc_add_interface_mapping.  Return a descriptorless
2380
   array variable that can be used as the actual argument for dummy
2381
   argument SYM.  Add any initialization code to BLOCK.  PACKED is as
2382
   for gfc_get_nodesc_array_type and DATA points to the first element
2383
   in the passed array.  */
2384
 
2385
static tree
2386
gfc_get_interface_mapping_array (stmtblock_t * block, gfc_symbol * sym,
2387
                                 gfc_packed packed, tree data)
2388
{
2389
  tree type;
2390
  tree var;
2391
 
2392
  type = gfc_typenode_for_spec (&sym->ts);
2393
  type = gfc_get_nodesc_array_type (type, sym->as, packed,
2394
                                    !sym->attr.target && !sym->attr.pointer
2395
                                    && !sym->attr.proc_pointer);
2396
 
2397
  var = gfc_create_var (type, "ifm");
2398
  gfc_add_modify (block, var, fold_convert (type, data));
2399
 
2400
  return var;
2401
}
2402
 
2403
 
2404
/* A subroutine of gfc_add_interface_mapping.  Set the stride, upper bounds
2405
   and offset of descriptorless array type TYPE given that it has the same
2406
   size as DESC.  Add any set-up code to BLOCK.  */
2407
 
2408
static void
2409
gfc_set_interface_mapping_bounds (stmtblock_t * block, tree type, tree desc)
2410
{
2411
  int n;
2412
  tree dim;
2413
  tree offset;
2414
  tree tmp;
2415
 
2416
  offset = gfc_index_zero_node;
2417
  for (n = 0; n < GFC_TYPE_ARRAY_RANK (type); n++)
2418
    {
2419
      dim = gfc_rank_cst[n];
2420
      GFC_TYPE_ARRAY_STRIDE (type, n) = gfc_conv_array_stride (desc, n);
2421
      if (GFC_TYPE_ARRAY_LBOUND (type, n) == NULL_TREE)
2422
        {
2423
          GFC_TYPE_ARRAY_LBOUND (type, n)
2424
                = gfc_conv_descriptor_lbound_get (desc, dim);
2425
          GFC_TYPE_ARRAY_UBOUND (type, n)
2426
                = gfc_conv_descriptor_ubound_get (desc, dim);
2427
        }
2428
      else if (GFC_TYPE_ARRAY_UBOUND (type, n) == NULL_TREE)
2429
        {
2430
          tmp = fold_build2_loc (input_location, MINUS_EXPR,
2431
                                 gfc_array_index_type,
2432
                                 gfc_conv_descriptor_ubound_get (desc, dim),
2433
                                 gfc_conv_descriptor_lbound_get (desc, dim));
2434
          tmp = fold_build2_loc (input_location, PLUS_EXPR,
2435
                                 gfc_array_index_type,
2436
                                 GFC_TYPE_ARRAY_LBOUND (type, n), tmp);
2437
          tmp = gfc_evaluate_now (tmp, block);
2438
          GFC_TYPE_ARRAY_UBOUND (type, n) = tmp;
2439
        }
2440
      tmp = fold_build2_loc (input_location, MULT_EXPR, gfc_array_index_type,
2441
                             GFC_TYPE_ARRAY_LBOUND (type, n),
2442
                             GFC_TYPE_ARRAY_STRIDE (type, n));
2443
      offset = fold_build2_loc (input_location, MINUS_EXPR,
2444
                                gfc_array_index_type, offset, tmp);
2445
    }
2446
  offset = gfc_evaluate_now (offset, block);
2447
  GFC_TYPE_ARRAY_OFFSET (type) = offset;
2448
}
2449
 
2450
 
2451
/* Extend MAPPING so that it maps dummy argument SYM to the value stored
2452
   in SE.  The caller may still use se->expr and se->string_length after
2453
   calling this function.  */
2454
 
2455
void
2456
gfc_add_interface_mapping (gfc_interface_mapping * mapping,
2457
                           gfc_symbol * sym, gfc_se * se,
2458
                           gfc_expr *expr)
2459
{
2460
  gfc_interface_sym_mapping *sm;
2461
  tree desc;
2462
  tree tmp;
2463
  tree value;
2464
  gfc_symbol *new_sym;
2465
  gfc_symtree *root;
2466
  gfc_symtree *new_symtree;
2467
 
2468
  /* Create a new symbol to represent the actual argument.  */
2469
  new_sym = gfc_new_symbol (sym->name, NULL);
2470
  new_sym->ts = sym->ts;
2471
  new_sym->as = gfc_copy_array_spec (sym->as);
2472
  new_sym->attr.referenced = 1;
2473
  new_sym->attr.dimension = sym->attr.dimension;
2474
  new_sym->attr.contiguous = sym->attr.contiguous;
2475
  new_sym->attr.codimension = sym->attr.codimension;
2476
  new_sym->attr.pointer = sym->attr.pointer;
2477
  new_sym->attr.allocatable = sym->attr.allocatable;
2478
  new_sym->attr.flavor = sym->attr.flavor;
2479
  new_sym->attr.function = sym->attr.function;
2480
 
2481
  /* Ensure that the interface is available and that
2482
     descriptors are passed for array actual arguments.  */
2483
  if (sym->attr.flavor == FL_PROCEDURE)
2484
    {
2485
      new_sym->formal = expr->symtree->n.sym->formal;
2486
      new_sym->attr.always_explicit
2487
            = expr->symtree->n.sym->attr.always_explicit;
2488
    }
2489
 
2490
  /* Create a fake symtree for it.  */
2491
  root = NULL;
2492
  new_symtree = gfc_new_symtree (&root, sym->name);
2493
  new_symtree->n.sym = new_sym;
2494
  gcc_assert (new_symtree == root);
2495
 
2496
  /* Create a dummy->actual mapping.  */
2497
  sm = XCNEW (gfc_interface_sym_mapping);
2498
  sm->next = mapping->syms;
2499
  sm->old = sym;
2500
  sm->new_sym = new_symtree;
2501
  sm->expr = gfc_copy_expr (expr);
2502
  mapping->syms = sm;
2503
 
2504
  /* Stabilize the argument's value.  */
2505
  if (!sym->attr.function && se)
2506
    se->expr = gfc_evaluate_now (se->expr, &se->pre);
2507
 
2508
  if (sym->ts.type == BT_CHARACTER)
2509
    {
2510
      /* Create a copy of the dummy argument's length.  */
2511
      new_sym->ts.u.cl = gfc_get_interface_mapping_charlen (mapping, sym->ts.u.cl);
2512
      sm->expr->ts.u.cl = new_sym->ts.u.cl;
2513
 
2514
      /* If the length is specified as "*", record the length that
2515
         the caller is passing.  We should use the callee's length
2516
         in all other cases.  */
2517
      if (!new_sym->ts.u.cl->length && se)
2518
        {
2519
          se->string_length = gfc_evaluate_now (se->string_length, &se->pre);
2520
          new_sym->ts.u.cl->backend_decl = se->string_length;
2521
        }
2522
    }
2523
 
2524
  if (!se)
2525
    return;
2526
 
2527
  /* Use the passed value as-is if the argument is a function.  */
2528
  if (sym->attr.flavor == FL_PROCEDURE)
2529
    value = se->expr;
2530
 
2531
  /* If the argument is either a string or a pointer to a string,
2532
     convert it to a boundless character type.  */
2533
  else if (!sym->attr.dimension && sym->ts.type == BT_CHARACTER)
2534
    {
2535
      tmp = gfc_get_character_type_len (sym->ts.kind, NULL);
2536
      tmp = build_pointer_type (tmp);
2537
      if (sym->attr.pointer)
2538
        value = build_fold_indirect_ref_loc (input_location,
2539
                                         se->expr);
2540
      else
2541
        value = se->expr;
2542
      value = fold_convert (tmp, value);
2543
    }
2544
 
2545
  /* If the argument is a scalar, a pointer to an array or an allocatable,
2546
     dereference it.  */
2547
  else if (!sym->attr.dimension || sym->attr.pointer || sym->attr.allocatable)
2548
    value = build_fold_indirect_ref_loc (input_location,
2549
                                     se->expr);
2550
 
2551
  /* For character(*), use the actual argument's descriptor.  */
2552
  else if (sym->ts.type == BT_CHARACTER && !new_sym->ts.u.cl->length)
2553
    value = build_fold_indirect_ref_loc (input_location,
2554
                                     se->expr);
2555
 
2556
  /* If the argument is an array descriptor, use it to determine
2557
     information about the actual argument's shape.  */
2558
  else if (POINTER_TYPE_P (TREE_TYPE (se->expr))
2559
           && GFC_DESCRIPTOR_TYPE_P (TREE_TYPE (TREE_TYPE (se->expr))))
2560
    {
2561
      /* Get the actual argument's descriptor.  */
2562
      desc = build_fold_indirect_ref_loc (input_location,
2563
                                      se->expr);
2564
 
2565
      /* Create the replacement variable.  */
2566
      tmp = gfc_conv_descriptor_data_get (desc);
2567
      value = gfc_get_interface_mapping_array (&se->pre, sym,
2568
                                               PACKED_NO, tmp);
2569
 
2570
      /* Use DESC to work out the upper bounds, strides and offset.  */
2571
      gfc_set_interface_mapping_bounds (&se->pre, TREE_TYPE (value), desc);
2572
    }
2573
  else
2574
    /* Otherwise we have a packed array.  */
2575
    value = gfc_get_interface_mapping_array (&se->pre, sym,
2576
                                             PACKED_FULL, se->expr);
2577
 
2578
  new_sym->backend_decl = value;
2579
}
2580
 
2581
 
2582
/* Called once all dummy argument mappings have been added to MAPPING,
2583
   but before the mapping is used to evaluate expressions.  Pre-evaluate
2584
   the length of each argument, adding any initialization code to PRE and
2585
   any finalization code to POST.  */
2586
 
2587
void
2588
gfc_finish_interface_mapping (gfc_interface_mapping * mapping,
2589
                              stmtblock_t * pre, stmtblock_t * post)
2590
{
2591
  gfc_interface_sym_mapping *sym;
2592
  gfc_expr *expr;
2593
  gfc_se se;
2594
 
2595
  for (sym = mapping->syms; sym; sym = sym->next)
2596
    if (sym->new_sym->n.sym->ts.type == BT_CHARACTER
2597
        && !sym->new_sym->n.sym->ts.u.cl->backend_decl)
2598
      {
2599
        expr = sym->new_sym->n.sym->ts.u.cl->length;
2600
        gfc_apply_interface_mapping_to_expr (mapping, expr);
2601
        gfc_init_se (&se, NULL);
2602
        gfc_conv_expr (&se, expr);
2603
        se.expr = fold_convert (gfc_charlen_type_node, se.expr);
2604
        se.expr = gfc_evaluate_now (se.expr, &se.pre);
2605
        gfc_add_block_to_block (pre, &se.pre);
2606
        gfc_add_block_to_block (post, &se.post);
2607
 
2608
        sym->new_sym->n.sym->ts.u.cl->backend_decl = se.expr;
2609
      }
2610
}
2611
 
2612
 
2613
/* Like gfc_apply_interface_mapping_to_expr, but applied to
2614
   constructor C.  */
2615
 
2616
static void
2617
gfc_apply_interface_mapping_to_cons (gfc_interface_mapping * mapping,
2618
                                     gfc_constructor_base base)
2619
{
2620
  gfc_constructor *c;
2621
  for (c = gfc_constructor_first (base); c; c = gfc_constructor_next (c))
2622
    {
2623
      gfc_apply_interface_mapping_to_expr (mapping, c->expr);
2624
      if (c->iterator)
2625
        {
2626
          gfc_apply_interface_mapping_to_expr (mapping, c->iterator->start);
2627
          gfc_apply_interface_mapping_to_expr (mapping, c->iterator->end);
2628
          gfc_apply_interface_mapping_to_expr (mapping, c->iterator->step);
2629
        }
2630
    }
2631
}
2632
 
2633
 
2634
/* Like gfc_apply_interface_mapping_to_expr, but applied to
2635
   reference REF.  */
2636
 
2637
static void
2638
gfc_apply_interface_mapping_to_ref (gfc_interface_mapping * mapping,
2639
                                    gfc_ref * ref)
2640
{
2641
  int n;
2642
 
2643
  for (; ref; ref = ref->next)
2644
    switch (ref->type)
2645
      {
2646
      case REF_ARRAY:
2647
        for (n = 0; n < ref->u.ar.dimen; n++)
2648
          {
2649
            gfc_apply_interface_mapping_to_expr (mapping, ref->u.ar.start[n]);
2650
            gfc_apply_interface_mapping_to_expr (mapping, ref->u.ar.end[n]);
2651
            gfc_apply_interface_mapping_to_expr (mapping, ref->u.ar.stride[n]);
2652
          }
2653
        gfc_apply_interface_mapping_to_expr (mapping, ref->u.ar.offset);
2654
        break;
2655
 
2656
      case REF_COMPONENT:
2657
        break;
2658
 
2659
      case REF_SUBSTRING:
2660
        gfc_apply_interface_mapping_to_expr (mapping, ref->u.ss.start);
2661
        gfc_apply_interface_mapping_to_expr (mapping, ref->u.ss.end);
2662
        break;
2663
      }
2664
}
2665
 
2666
 
2667
/* Convert intrinsic function calls into result expressions.  */
2668
 
2669
static bool
2670
gfc_map_intrinsic_function (gfc_expr *expr, gfc_interface_mapping *mapping)
2671
{
2672
  gfc_symbol *sym;
2673
  gfc_expr *new_expr;
2674
  gfc_expr *arg1;
2675
  gfc_expr *arg2;
2676
  int d, dup;
2677
 
2678
  arg1 = expr->value.function.actual->expr;
2679
  if (expr->value.function.actual->next)
2680
    arg2 = expr->value.function.actual->next->expr;
2681
  else
2682
    arg2 = NULL;
2683
 
2684
  sym = arg1->symtree->n.sym;
2685
 
2686
  if (sym->attr.dummy)
2687
    return false;
2688
 
2689
  new_expr = NULL;
2690
 
2691
  switch (expr->value.function.isym->id)
2692
    {
2693
    case GFC_ISYM_LEN:
2694
      /* TODO figure out why this condition is necessary.  */
2695
      if (sym->attr.function
2696
          && (arg1->ts.u.cl->length == NULL
2697
              || (arg1->ts.u.cl->length->expr_type != EXPR_CONSTANT
2698
                  && arg1->ts.u.cl->length->expr_type != EXPR_VARIABLE)))
2699
        return false;
2700
 
2701
      new_expr = gfc_copy_expr (arg1->ts.u.cl->length);
2702
      break;
2703
 
2704
    case GFC_ISYM_SIZE:
2705
      if (!sym->as || sym->as->rank == 0)
2706
        return false;
2707
 
2708
      if (arg2 && arg2->expr_type == EXPR_CONSTANT)
2709
        {
2710
          dup = mpz_get_si (arg2->value.integer);
2711
          d = dup - 1;
2712
        }
2713
      else
2714
        {
2715
          dup = sym->as->rank;
2716
          d = 0;
2717
        }
2718
 
2719
      for (; d < dup; d++)
2720
        {
2721
          gfc_expr *tmp;
2722
 
2723
          if (!sym->as->upper[d] || !sym->as->lower[d])
2724
            {
2725
              gfc_free_expr (new_expr);
2726
              return false;
2727
            }
2728
 
2729
          tmp = gfc_add (gfc_copy_expr (sym->as->upper[d]),
2730
                                        gfc_get_int_expr (gfc_default_integer_kind,
2731
                                                          NULL, 1));
2732
          tmp = gfc_subtract (tmp, gfc_copy_expr (sym->as->lower[d]));
2733
          if (new_expr)
2734
            new_expr = gfc_multiply (new_expr, tmp);
2735
          else
2736
            new_expr = tmp;
2737
        }
2738
      break;
2739
 
2740
    case GFC_ISYM_LBOUND:
2741
    case GFC_ISYM_UBOUND:
2742
        /* TODO These implementations of lbound and ubound do not limit if
2743
           the size < 0, according to F95's 13.14.53 and 13.14.113.  */
2744
 
2745
      if (!sym->as || sym->as->rank == 0)
2746
        return false;
2747
 
2748
      if (arg2 && arg2->expr_type == EXPR_CONSTANT)
2749
        d = mpz_get_si (arg2->value.integer) - 1;
2750
      else
2751
        /* TODO: If the need arises, this could produce an array of
2752
           ubound/lbounds.  */
2753
        gcc_unreachable ();
2754
 
2755
      if (expr->value.function.isym->id == GFC_ISYM_LBOUND)
2756
        {
2757
          if (sym->as->lower[d])
2758
            new_expr = gfc_copy_expr (sym->as->lower[d]);
2759
        }
2760
      else
2761
        {
2762
          if (sym->as->upper[d])
2763
            new_expr = gfc_copy_expr (sym->as->upper[d]);
2764
        }
2765
      break;
2766
 
2767
    default:
2768
      break;
2769
    }
2770
 
2771
  gfc_apply_interface_mapping_to_expr (mapping, new_expr);
2772
  if (!new_expr)
2773
    return false;
2774
 
2775
  gfc_replace_expr (expr, new_expr);
2776
  return true;
2777
}
2778
 
2779
 
2780
static void
2781
gfc_map_fcn_formal_to_actual (gfc_expr *expr, gfc_expr *map_expr,
2782
                              gfc_interface_mapping * mapping)
2783
{
2784
  gfc_formal_arglist *f;
2785
  gfc_actual_arglist *actual;
2786
 
2787
  actual = expr->value.function.actual;
2788
  f = map_expr->symtree->n.sym->formal;
2789
 
2790
  for (; f && actual; f = f->next, actual = actual->next)
2791
    {
2792
      if (!actual->expr)
2793
        continue;
2794
 
2795
      gfc_add_interface_mapping (mapping, f->sym, NULL, actual->expr);
2796
    }
2797
 
2798
  if (map_expr->symtree->n.sym->attr.dimension)
2799
    {
2800
      int d;
2801
      gfc_array_spec *as;
2802
 
2803
      as = gfc_copy_array_spec (map_expr->symtree->n.sym->as);
2804
 
2805
      for (d = 0; d < as->rank; d++)
2806
        {
2807
          gfc_apply_interface_mapping_to_expr (mapping, as->lower[d]);
2808
          gfc_apply_interface_mapping_to_expr (mapping, as->upper[d]);
2809
        }
2810
 
2811
      expr->value.function.esym->as = as;
2812
    }
2813
 
2814
  if (map_expr->symtree->n.sym->ts.type == BT_CHARACTER)
2815
    {
2816
      expr->value.function.esym->ts.u.cl->length
2817
        = gfc_copy_expr (map_expr->symtree->n.sym->ts.u.cl->length);
2818
 
2819
      gfc_apply_interface_mapping_to_expr (mapping,
2820
                        expr->value.function.esym->ts.u.cl->length);
2821
    }
2822
}
2823
 
2824
 
2825
/* EXPR is a copy of an expression that appeared in the interface
2826
   associated with MAPPING.  Walk it recursively looking for references to
2827
   dummy arguments that MAPPING maps to actual arguments.  Replace each such
2828
   reference with a reference to the associated actual argument.  */
2829
 
2830
static void
2831
gfc_apply_interface_mapping_to_expr (gfc_interface_mapping * mapping,
2832
                                     gfc_expr * expr)
2833
{
2834
  gfc_interface_sym_mapping *sym;
2835
  gfc_actual_arglist *actual;
2836
 
2837
  if (!expr)
2838
    return;
2839
 
2840
  /* Copying an expression does not copy its length, so do that here.  */
2841
  if (expr->ts.type == BT_CHARACTER && expr->ts.u.cl)
2842
    {
2843
      expr->ts.u.cl = gfc_get_interface_mapping_charlen (mapping, expr->ts.u.cl);
2844
      gfc_apply_interface_mapping_to_expr (mapping, expr->ts.u.cl->length);
2845
    }
2846
 
2847
  /* Apply the mapping to any references.  */
2848
  gfc_apply_interface_mapping_to_ref (mapping, expr->ref);
2849
 
2850
  /* ...and to the expression's symbol, if it has one.  */
2851
  /* TODO Find out why the condition on expr->symtree had to be moved into
2852
     the loop rather than being outside it, as originally.  */
2853
  for (sym = mapping->syms; sym; sym = sym->next)
2854
    if (expr->symtree && sym->old == expr->symtree->n.sym)
2855
      {
2856
        if (sym->new_sym->n.sym->backend_decl)
2857
          expr->symtree = sym->new_sym;
2858
        else if (sym->expr)
2859
          gfc_replace_expr (expr, gfc_copy_expr (sym->expr));
2860
        /* Replace base type for polymorphic arguments.  */
2861
        if (expr->ref && expr->ref->type == REF_COMPONENT
2862
            && sym->expr && sym->expr->ts.type == BT_CLASS)
2863
          expr->ref->u.c.sym = sym->expr->ts.u.derived;
2864
      }
2865
 
2866
      /* ...and to subexpressions in expr->value.  */
2867
  switch (expr->expr_type)
2868
    {
2869
    case EXPR_VARIABLE:
2870
    case EXPR_CONSTANT:
2871
    case EXPR_NULL:
2872
    case EXPR_SUBSTRING:
2873
      break;
2874
 
2875
    case EXPR_OP:
2876
      gfc_apply_interface_mapping_to_expr (mapping, expr->value.op.op1);
2877
      gfc_apply_interface_mapping_to_expr (mapping, expr->value.op.op2);
2878
      break;
2879
 
2880
    case EXPR_FUNCTION:
2881
      for (actual = expr->value.function.actual; actual; actual = actual->next)
2882
        gfc_apply_interface_mapping_to_expr (mapping, actual->expr);
2883
 
2884
      if (expr->value.function.esym == NULL
2885
            && expr->value.function.isym != NULL
2886
            && expr->value.function.actual->expr->symtree
2887
            && gfc_map_intrinsic_function (expr, mapping))
2888
        break;
2889
 
2890
      for (sym = mapping->syms; sym; sym = sym->next)
2891
        if (sym->old == expr->value.function.esym)
2892
          {
2893
            expr->value.function.esym = sym->new_sym->n.sym;
2894
            gfc_map_fcn_formal_to_actual (expr, sym->expr, mapping);
2895
            expr->value.function.esym->result = sym->new_sym->n.sym;
2896
          }
2897
      break;
2898
 
2899
    case EXPR_ARRAY:
2900
    case EXPR_STRUCTURE:
2901
      gfc_apply_interface_mapping_to_cons (mapping, expr->value.constructor);
2902
      break;
2903
 
2904
    case EXPR_COMPCALL:
2905
    case EXPR_PPC:
2906
      gcc_unreachable ();
2907
      break;
2908
    }
2909
 
2910
  return;
2911
}
2912
 
2913
 
2914
/* Evaluate interface expression EXPR using MAPPING.  Store the result
2915
   in SE.  */
2916
 
2917
void
2918
gfc_apply_interface_mapping (gfc_interface_mapping * mapping,
2919
                             gfc_se * se, gfc_expr * expr)
2920
{
2921
  expr = gfc_copy_expr (expr);
2922
  gfc_apply_interface_mapping_to_expr (mapping, expr);
2923
  gfc_conv_expr (se, expr);
2924
  se->expr = gfc_evaluate_now (se->expr, &se->pre);
2925
  gfc_free_expr (expr);
2926
}
2927
 
2928
 
2929
/* Returns a reference to a temporary array into which a component of
2930
   an actual argument derived type array is copied and then returned
2931
   after the function call.  */
2932
void
2933
gfc_conv_subref_array_arg (gfc_se * parmse, gfc_expr * expr, int g77,
2934
                           sym_intent intent, bool formal_ptr)
2935
{
2936
  gfc_se lse;
2937
  gfc_se rse;
2938
  gfc_ss *lss;
2939
  gfc_ss *rss;
2940
  gfc_loopinfo loop;
2941
  gfc_loopinfo loop2;
2942
  gfc_array_info *info;
2943
  tree offset;
2944
  tree tmp_index;
2945
  tree tmp;
2946
  tree base_type;
2947
  tree size;
2948
  stmtblock_t body;
2949
  int n;
2950
  int dimen;
2951
 
2952
  gcc_assert (expr->expr_type == EXPR_VARIABLE);
2953
 
2954
  gfc_init_se (&lse, NULL);
2955
  gfc_init_se (&rse, NULL);
2956
 
2957
  /* Walk the argument expression.  */
2958
  rss = gfc_walk_expr (expr);
2959
 
2960
  gcc_assert (rss != gfc_ss_terminator);
2961
 
2962
  /* Initialize the scalarizer.  */
2963
  gfc_init_loopinfo (&loop);
2964
  gfc_add_ss_to_loop (&loop, rss);
2965
 
2966
  /* Calculate the bounds of the scalarization.  */
2967
  gfc_conv_ss_startstride (&loop);
2968
 
2969
  /* Build an ss for the temporary.  */
2970
  if (expr->ts.type == BT_CHARACTER && !expr->ts.u.cl->backend_decl)
2971
    gfc_conv_string_length (expr->ts.u.cl, expr, &parmse->pre);
2972
 
2973
  base_type = gfc_typenode_for_spec (&expr->ts);
2974
  if (GFC_ARRAY_TYPE_P (base_type)
2975
                || GFC_DESCRIPTOR_TYPE_P (base_type))
2976
    base_type = gfc_get_element_type (base_type);
2977
 
2978
  if (expr->ts.type == BT_CLASS)
2979
    base_type = gfc_typenode_for_spec (&CLASS_DATA (expr)->ts);
2980
 
2981
  loop.temp_ss = gfc_get_temp_ss (base_type, ((expr->ts.type == BT_CHARACTER)
2982
                                              ? expr->ts.u.cl->backend_decl
2983
                                              : NULL),
2984
                                  loop.dimen);
2985
 
2986
  parmse->string_length = loop.temp_ss->info->string_length;
2987
 
2988
  /* Associate the SS with the loop.  */
2989
  gfc_add_ss_to_loop (&loop, loop.temp_ss);
2990
 
2991
  /* Setup the scalarizing loops.  */
2992
  gfc_conv_loop_setup (&loop, &expr->where);
2993
 
2994
  /* Pass the temporary descriptor back to the caller.  */
2995
  info = &loop.temp_ss->info->data.array;
2996
  parmse->expr = info->descriptor;
2997
 
2998
  /* Setup the gfc_se structures.  */
2999
  gfc_copy_loopinfo_to_se (&lse, &loop);
3000
  gfc_copy_loopinfo_to_se (&rse, &loop);
3001
 
3002
  rse.ss = rss;
3003
  lse.ss = loop.temp_ss;
3004
  gfc_mark_ss_chain_used (rss, 1);
3005
  gfc_mark_ss_chain_used (loop.temp_ss, 1);
3006
 
3007
  /* Start the scalarized loop body.  */
3008
  gfc_start_scalarized_body (&loop, &body);
3009
 
3010
  /* Translate the expression.  */
3011
  gfc_conv_expr (&rse, expr);
3012
 
3013
  gfc_conv_tmp_array_ref (&lse);
3014
 
3015
  if (intent != INTENT_OUT)
3016
    {
3017
      tmp = gfc_trans_scalar_assign (&lse, &rse, expr->ts, true, false, true);
3018
      gfc_add_expr_to_block (&body, tmp);
3019
      gcc_assert (rse.ss == gfc_ss_terminator);
3020
      gfc_trans_scalarizing_loops (&loop, &body);
3021
    }
3022
  else
3023
    {
3024
      /* Make sure that the temporary declaration survives by merging
3025
       all the loop declarations into the current context.  */
3026
      for (n = 0; n < loop.dimen; n++)
3027
        {
3028
          gfc_merge_block_scope (&body);
3029
          body = loop.code[loop.order[n]];
3030
        }
3031
      gfc_merge_block_scope (&body);
3032
    }
3033
 
3034
  /* Add the post block after the second loop, so that any
3035
     freeing of allocated memory is done at the right time.  */
3036
  gfc_add_block_to_block (&parmse->pre, &loop.pre);
3037
 
3038
  /**********Copy the temporary back again.*********/
3039
 
3040
  gfc_init_se (&lse, NULL);
3041
  gfc_init_se (&rse, NULL);
3042
 
3043
  /* Walk the argument expression.  */
3044
  lss = gfc_walk_expr (expr);
3045
  rse.ss = loop.temp_ss;
3046
  lse.ss = lss;
3047
 
3048
  /* Initialize the scalarizer.  */
3049
  gfc_init_loopinfo (&loop2);
3050
  gfc_add_ss_to_loop (&loop2, lss);
3051
 
3052
  /* Calculate the bounds of the scalarization.  */
3053
  gfc_conv_ss_startstride (&loop2);
3054
 
3055
  /* Setup the scalarizing loops.  */
3056
  gfc_conv_loop_setup (&loop2, &expr->where);
3057
 
3058
  gfc_copy_loopinfo_to_se (&lse, &loop2);
3059
  gfc_copy_loopinfo_to_se (&rse, &loop2);
3060
 
3061
  gfc_mark_ss_chain_used (lss, 1);
3062
  gfc_mark_ss_chain_used (loop.temp_ss, 1);
3063
 
3064
  /* Declare the variable to hold the temporary offset and start the
3065
     scalarized loop body.  */
3066
  offset = gfc_create_var (gfc_array_index_type, NULL);
3067
  gfc_start_scalarized_body (&loop2, &body);
3068
 
3069
  /* Build the offsets for the temporary from the loop variables.  The
3070
     temporary array has lbounds of zero and strides of one in all
3071
     dimensions, so this is very simple.  The offset is only computed
3072
     outside the innermost loop, so the overall transfer could be
3073
     optimized further.  */
3074
  info = &rse.ss->info->data.array;
3075
  dimen = rse.ss->dimen;
3076
 
3077
  tmp_index = gfc_index_zero_node;
3078
  for (n = dimen - 1; n > 0; n--)
3079
    {
3080
      tree tmp_str;
3081
      tmp = rse.loop->loopvar[n];
3082
      tmp = fold_build2_loc (input_location, MINUS_EXPR, gfc_array_index_type,
3083
                             tmp, rse.loop->from[n]);
3084
      tmp = fold_build2_loc (input_location, PLUS_EXPR, gfc_array_index_type,
3085
                             tmp, tmp_index);
3086
 
3087
      tmp_str = fold_build2_loc (input_location, MINUS_EXPR,
3088
                                 gfc_array_index_type,
3089
                                 rse.loop->to[n-1], rse.loop->from[n-1]);
3090
      tmp_str = fold_build2_loc (input_location, PLUS_EXPR,
3091
                                 gfc_array_index_type,
3092
                                 tmp_str, gfc_index_one_node);
3093
 
3094
      tmp_index = fold_build2_loc (input_location, MULT_EXPR,
3095
                                   gfc_array_index_type, tmp, tmp_str);
3096
    }
3097
 
3098
  tmp_index = fold_build2_loc (input_location, MINUS_EXPR,
3099
                               gfc_array_index_type,
3100
                               tmp_index, rse.loop->from[0]);
3101
  gfc_add_modify (&rse.loop->code[0], offset, tmp_index);
3102
 
3103
  tmp_index = fold_build2_loc (input_location, PLUS_EXPR,
3104
                               gfc_array_index_type,
3105
                               rse.loop->loopvar[0], offset);
3106
 
3107
  /* Now use the offset for the reference.  */
3108
  tmp = build_fold_indirect_ref_loc (input_location,
3109
                                 info->data);
3110
  rse.expr = gfc_build_array_ref (tmp, tmp_index, NULL);
3111
 
3112
  if (expr->ts.type == BT_CHARACTER)
3113
    rse.string_length = expr->ts.u.cl->backend_decl;
3114
 
3115
  gfc_conv_expr (&lse, expr);
3116
 
3117
  gcc_assert (lse.ss == gfc_ss_terminator);
3118
 
3119
  tmp = gfc_trans_scalar_assign (&lse, &rse, expr->ts, false, false, true);
3120
  gfc_add_expr_to_block (&body, tmp);
3121
 
3122
  /* Generate the copying loops.  */
3123
  gfc_trans_scalarizing_loops (&loop2, &body);
3124
 
3125
  /* Wrap the whole thing up by adding the second loop to the post-block
3126
     and following it by the post-block of the first loop.  In this way,
3127
     if the temporary needs freeing, it is done after use!  */
3128
  if (intent != INTENT_IN)
3129
    {
3130
      gfc_add_block_to_block (&parmse->post, &loop2.pre);
3131
      gfc_add_block_to_block (&parmse->post, &loop2.post);
3132
    }
3133
 
3134
  gfc_add_block_to_block (&parmse->post, &loop.post);
3135
 
3136
  gfc_cleanup_loop (&loop);
3137
  gfc_cleanup_loop (&loop2);
3138
 
3139
  /* Pass the string length to the argument expression.  */
3140
  if (expr->ts.type == BT_CHARACTER)
3141
    parmse->string_length = expr->ts.u.cl->backend_decl;
3142
 
3143
  /* Determine the offset for pointer formal arguments and set the
3144
     lbounds to one.  */
3145
  if (formal_ptr)
3146
    {
3147
      size = gfc_index_one_node;
3148
      offset = gfc_index_zero_node;
3149
      for (n = 0; n < dimen; n++)
3150
        {
3151
          tmp = gfc_conv_descriptor_ubound_get (parmse->expr,
3152
                                                gfc_rank_cst[n]);
3153
          tmp = fold_build2_loc (input_location, PLUS_EXPR,
3154
                                 gfc_array_index_type, tmp,
3155
                                 gfc_index_one_node);
3156
          gfc_conv_descriptor_ubound_set (&parmse->pre,
3157
                                          parmse->expr,
3158
                                          gfc_rank_cst[n],
3159
                                          tmp);
3160
          gfc_conv_descriptor_lbound_set (&parmse->pre,
3161
                                          parmse->expr,
3162
                                          gfc_rank_cst[n],
3163
                                          gfc_index_one_node);
3164
          size = gfc_evaluate_now (size, &parmse->pre);
3165
          offset = fold_build2_loc (input_location, MINUS_EXPR,
3166
                                    gfc_array_index_type,
3167
                                    offset, size);
3168
          offset = gfc_evaluate_now (offset, &parmse->pre);
3169
          tmp = fold_build2_loc (input_location, MINUS_EXPR,
3170
                                 gfc_array_index_type,
3171
                                 rse.loop->to[n], rse.loop->from[n]);
3172
          tmp = fold_build2_loc (input_location, PLUS_EXPR,
3173
                                 gfc_array_index_type,
3174
                                 tmp, gfc_index_one_node);
3175
          size = fold_build2_loc (input_location, MULT_EXPR,
3176
                                  gfc_array_index_type, size, tmp);
3177
        }
3178
 
3179
      gfc_conv_descriptor_offset_set (&parmse->pre, parmse->expr,
3180
                                      offset);
3181
    }
3182
 
3183
  /* We want either the address for the data or the address of the descriptor,
3184
     depending on the mode of passing array arguments.  */
3185
  if (g77)
3186
    parmse->expr = gfc_conv_descriptor_data_get (parmse->expr);
3187
  else
3188
    parmse->expr = gfc_build_addr_expr (NULL_TREE, parmse->expr);
3189
 
3190
  return;
3191
}
3192
 
3193
 
3194
/* Generate the code for argument list functions.  */
3195
 
3196
static void
3197
conv_arglist_function (gfc_se *se, gfc_expr *expr, const char *name)
3198
{
3199
  /* Pass by value for g77 %VAL(arg), pass the address
3200
     indirectly for %LOC, else by reference.  Thus %REF
3201
     is a "do-nothing" and %LOC is the same as an F95
3202
     pointer.  */
3203
  if (strncmp (name, "%VAL", 4) == 0)
3204
    gfc_conv_expr (se, expr);
3205
  else if (strncmp (name, "%LOC", 4) == 0)
3206
    {
3207
      gfc_conv_expr_reference (se, expr);
3208
      se->expr = gfc_build_addr_expr (NULL, se->expr);
3209
    }
3210
  else if (strncmp (name, "%REF", 4) == 0)
3211
    gfc_conv_expr_reference (se, expr);
3212
  else
3213
    gfc_error ("Unknown argument list function at %L", &expr->where);
3214
}
3215
 
3216
 
3217
/* The following routine generates code for the intrinsic
3218
   procedures from the ISO_C_BINDING module:
3219
    * C_LOC           (function)
3220
    * C_FUNLOC        (function)
3221
    * C_F_POINTER     (subroutine)
3222
    * C_F_PROCPOINTER (subroutine)
3223
    * C_ASSOCIATED    (function)
3224
   One exception which is not handled here is C_F_POINTER with non-scalar
3225
   arguments. Returns 1 if the call was replaced by inline code (else: 0).  */
3226
 
3227
static int
3228
conv_isocbinding_procedure (gfc_se * se, gfc_symbol * sym,
3229
                            gfc_actual_arglist * arg)
3230
{
3231
  gfc_symbol *fsym;
3232
  gfc_ss *argss;
3233
 
3234
  if (sym->intmod_sym_id == ISOCBINDING_LOC)
3235
    {
3236
      if (arg->expr->rank == 0)
3237
        gfc_conv_expr_reference (se, arg->expr);
3238
      else
3239
        {
3240
          int f;
3241
          /* This is really the actual arg because no formal arglist is
3242
             created for C_LOC.  */
3243
          fsym = arg->expr->symtree->n.sym;
3244
 
3245
          /* We should want it to do g77 calling convention.  */
3246
          f = (fsym != NULL)
3247
            && !(fsym->attr.pointer || fsym->attr.allocatable)
3248
            && fsym->as->type != AS_ASSUMED_SHAPE;
3249
          f = f || !sym->attr.always_explicit;
3250
 
3251
          argss = gfc_walk_expr (arg->expr);
3252
          gfc_conv_array_parameter (se, arg->expr, argss, f,
3253
                                    NULL, NULL, NULL);
3254
        }
3255
 
3256
      /* TODO -- the following two lines shouldn't be necessary, but if
3257
         they're removed, a bug is exposed later in the code path.
3258
         This workaround was thus introduced, but will have to be
3259
         removed; please see PR 35150 for details about the issue.  */
3260
      se->expr = convert (pvoid_type_node, se->expr);
3261
      se->expr = gfc_evaluate_now (se->expr, &se->pre);
3262
 
3263
      return 1;
3264
    }
3265
  else if (sym->intmod_sym_id == ISOCBINDING_FUNLOC)
3266
    {
3267
      arg->expr->ts.type = sym->ts.u.derived->ts.type;
3268
      arg->expr->ts.f90_type = sym->ts.u.derived->ts.f90_type;
3269
      arg->expr->ts.kind = sym->ts.u.derived->ts.kind;
3270
      gfc_conv_expr_reference (se, arg->expr);
3271
 
3272
      return 1;
3273
    }
3274
  else if ((sym->intmod_sym_id == ISOCBINDING_F_POINTER
3275
            && arg->next->expr->rank == 0)
3276
           || sym->intmod_sym_id == ISOCBINDING_F_PROCPOINTER)
3277
    {
3278
      /* Convert c_f_pointer if fptr is a scalar
3279
         and convert c_f_procpointer.  */
3280
      gfc_se cptrse;
3281
      gfc_se fptrse;
3282
 
3283
      gfc_init_se (&cptrse, NULL);
3284
      gfc_conv_expr (&cptrse, arg->expr);
3285
      gfc_add_block_to_block (&se->pre, &cptrse.pre);
3286
      gfc_add_block_to_block (&se->post, &cptrse.post);
3287
 
3288
      gfc_init_se (&fptrse, NULL);
3289
      if (sym->intmod_sym_id == ISOCBINDING_F_POINTER
3290
          || gfc_is_proc_ptr_comp (arg->next->expr, NULL))
3291
        fptrse.want_pointer = 1;
3292
 
3293
      gfc_conv_expr (&fptrse, arg->next->expr);
3294
      gfc_add_block_to_block (&se->pre, &fptrse.pre);
3295
      gfc_add_block_to_block (&se->post, &fptrse.post);
3296
 
3297
      if (arg->next->expr->symtree->n.sym->attr.proc_pointer
3298
          && arg->next->expr->symtree->n.sym->attr.dummy)
3299
        fptrse.expr = build_fold_indirect_ref_loc (input_location,
3300
                                                   fptrse.expr);
3301
 
3302
      se->expr = fold_build2_loc (input_location, MODIFY_EXPR,
3303
                                  TREE_TYPE (fptrse.expr),
3304
                                  fptrse.expr,
3305
                                  fold_convert (TREE_TYPE (fptrse.expr),
3306
                                                cptrse.expr));
3307
 
3308
      return 1;
3309
    }
3310
  else if (sym->intmod_sym_id == ISOCBINDING_ASSOCIATED)
3311
    {
3312
      gfc_se arg1se;
3313
      gfc_se arg2se;
3314
 
3315
      /* Build the addr_expr for the first argument.  The argument is
3316
         already an *address* so we don't need to set want_pointer in
3317
         the gfc_se.  */
3318
      gfc_init_se (&arg1se, NULL);
3319
      gfc_conv_expr (&arg1se, arg->expr);
3320
      gfc_add_block_to_block (&se->pre, &arg1se.pre);
3321
      gfc_add_block_to_block (&se->post, &arg1se.post);
3322
 
3323
      /* See if we were given two arguments.  */
3324
      if (arg->next == NULL)
3325
        /* Only given one arg so generate a null and do a
3326
           not-equal comparison against the first arg.  */
3327
        se->expr = fold_build2_loc (input_location, NE_EXPR, boolean_type_node,
3328
                                    arg1se.expr,
3329
                                    fold_convert (TREE_TYPE (arg1se.expr),
3330
                                                  null_pointer_node));
3331
      else
3332
        {
3333
          tree eq_expr;
3334
          tree not_null_expr;
3335
 
3336
          /* Given two arguments so build the arg2se from second arg.  */
3337
          gfc_init_se (&arg2se, NULL);
3338
          gfc_conv_expr (&arg2se, arg->next->expr);
3339
          gfc_add_block_to_block (&se->pre, &arg2se.pre);
3340
          gfc_add_block_to_block (&se->post, &arg2se.post);
3341
 
3342
          /* Generate test to compare that the two args are equal.  */
3343
          eq_expr = fold_build2_loc (input_location, EQ_EXPR, boolean_type_node,
3344
                                     arg1se.expr, arg2se.expr);
3345
          /* Generate test to ensure that the first arg is not null.  */
3346
          not_null_expr = fold_build2_loc (input_location, NE_EXPR,
3347
                                           boolean_type_node,
3348
                                           arg1se.expr, null_pointer_node);
3349
 
3350
          /* Finally, the generated test must check that both arg1 is not
3351
             NULL and that it is equal to the second arg.  */
3352
          se->expr = fold_build2_loc (input_location, TRUTH_AND_EXPR,
3353
                                      boolean_type_node,
3354
                                      not_null_expr, eq_expr);
3355
        }
3356
 
3357
      return 1;
3358
    }
3359
 
3360
  /* Nothing was done.  */
3361
  return 0;
3362
}
3363
 
3364
 
3365
/* Generate code for a procedure call.  Note can return se->post != NULL.
3366
   If se->direct_byref is set then se->expr contains the return parameter.
3367
   Return nonzero, if the call has alternate specifiers.
3368
   'expr' is only needed for procedure pointer components.  */
3369
 
3370
int
3371
gfc_conv_procedure_call (gfc_se * se, gfc_symbol * sym,
3372
                         gfc_actual_arglist * args, gfc_expr * expr,
3373
                         VEC(tree,gc) *append_args)
3374
{
3375
  gfc_interface_mapping mapping;
3376
  VEC(tree,gc) *arglist;
3377
  VEC(tree,gc) *retargs;
3378
  tree tmp;
3379
  tree fntype;
3380
  gfc_se parmse;
3381
  gfc_ss *argss;
3382
  gfc_array_info *info;
3383
  int byref;
3384
  int parm_kind;
3385
  tree type;
3386
  tree var;
3387
  tree len;
3388
  tree base_object;
3389
  VEC(tree,gc) *stringargs;
3390
  tree result = NULL;
3391
  gfc_formal_arglist *formal;
3392
  gfc_actual_arglist *arg;
3393
  int has_alternate_specifier = 0;
3394
  bool need_interface_mapping;
3395
  bool callee_alloc;
3396
  gfc_typespec ts;
3397
  gfc_charlen cl;
3398
  gfc_expr *e;
3399
  gfc_symbol *fsym;
3400
  stmtblock_t post;
3401
  enum {MISSING = 0, ELEMENTAL, SCALAR, SCALAR_POINTER, ARRAY};
3402
  gfc_component *comp = NULL;
3403
  int arglen;
3404
 
3405
  arglist = NULL;
3406
  retargs = NULL;
3407
  stringargs = NULL;
3408
  var = NULL_TREE;
3409
  len = NULL_TREE;
3410
  gfc_clear_ts (&ts);
3411
 
3412
  if (sym->from_intmod == INTMOD_ISO_C_BINDING
3413
      && conv_isocbinding_procedure (se, sym, args))
3414
    return 0;
3415
 
3416
  gfc_is_proc_ptr_comp (expr, &comp);
3417
 
3418
  if (se->ss != NULL)
3419
    {
3420
      if (!sym->attr.elemental && !(comp && comp->attr.elemental))
3421
        {
3422
          gcc_assert (se->ss->info->type == GFC_SS_FUNCTION);
3423
          if (se->ss->info->useflags)
3424
            {
3425
              gcc_assert ((!comp && gfc_return_by_reference (sym)
3426
                           && sym->result->attr.dimension)
3427
                          || (comp && comp->attr.dimension));
3428
              gcc_assert (se->loop != NULL);
3429
 
3430
              /* Access the previously obtained result.  */
3431
              gfc_conv_tmp_array_ref (se);
3432
              return 0;
3433
            }
3434
        }
3435
      info = &se->ss->info->data.array;
3436
    }
3437
  else
3438
    info = NULL;
3439
 
3440
  gfc_init_block (&post);
3441
  gfc_init_interface_mapping (&mapping);
3442
  if (!comp)
3443
    {
3444
      formal = sym->formal;
3445
      need_interface_mapping = sym->attr.dimension ||
3446
                               (sym->ts.type == BT_CHARACTER
3447
                                && sym->ts.u.cl->length
3448
                                && sym->ts.u.cl->length->expr_type
3449
                                   != EXPR_CONSTANT);
3450
    }
3451
  else
3452
    {
3453
      formal = comp->formal;
3454
      need_interface_mapping = comp->attr.dimension ||
3455
                               (comp->ts.type == BT_CHARACTER
3456
                                && comp->ts.u.cl->length
3457
                                && comp->ts.u.cl->length->expr_type
3458
                                   != EXPR_CONSTANT);
3459
    }
3460
 
3461
  base_object = NULL_TREE;
3462
 
3463
  /* Evaluate the arguments.  */
3464
  for (arg = args; arg != NULL;
3465
       arg = arg->next, formal = formal ? formal->next : NULL)
3466
    {
3467
      e = arg->expr;
3468
      fsym = formal ? formal->sym : NULL;
3469
      parm_kind = MISSING;
3470
 
3471
      /* Class array expressions are sometimes coming completely unadorned
3472
         with either arrayspec or _data component.  Correct that here.
3473
         OOP-TODO: Move this to the frontend.  */
3474
      if (e && e->expr_type == EXPR_VARIABLE
3475
            && !e->ref
3476
            && e->ts.type == BT_CLASS
3477
            && CLASS_DATA (e)->attr.dimension)
3478
        {
3479
          gfc_typespec temp_ts = e->ts;
3480
          gfc_add_class_array_ref (e);
3481
          e->ts = temp_ts;
3482
        }
3483
 
3484
      if (e == NULL)
3485
        {
3486
          if (se->ignore_optional)
3487
            {
3488
              /* Some intrinsics have already been resolved to the correct
3489
                 parameters.  */
3490
              continue;
3491
            }
3492
          else if (arg->label)
3493
            {
3494
              has_alternate_specifier = 1;
3495
              continue;
3496
            }
3497
          else
3498
            {
3499
              /* Pass a NULL pointer for an absent arg.  */
3500
              gfc_init_se (&parmse, NULL);
3501
              parmse.expr = null_pointer_node;
3502
              if (arg->missing_arg_type == BT_CHARACTER)
3503
                parmse.string_length = build_int_cst (gfc_charlen_type_node, 0);
3504
            }
3505
        }
3506
      else if (arg->expr->expr_type == EXPR_NULL && fsym && !fsym->attr.pointer)
3507
        {
3508
          /* Pass a NULL pointer to denote an absent arg.  */
3509
          gcc_assert (fsym->attr.optional && !fsym->attr.allocatable);
3510
          gfc_init_se (&parmse, NULL);
3511
          parmse.expr = null_pointer_node;
3512
          if (arg->missing_arg_type == BT_CHARACTER)
3513
            parmse.string_length = build_int_cst (gfc_charlen_type_node, 0);
3514
        }
3515
      else if (fsym && fsym->ts.type == BT_CLASS
3516
                 && e->ts.type == BT_DERIVED)
3517
        {
3518
          /* The derived type needs to be converted to a temporary
3519
             CLASS object.  */
3520
          gfc_init_se (&parmse, se);
3521
          gfc_conv_derived_to_class (&parmse, e, fsym->ts);
3522
        }
3523
      else if (se->ss && se->ss->info->useflags)
3524
        {
3525
          /* An elemental function inside a scalarized loop.  */
3526
          gfc_init_se (&parmse, se);
3527
          parm_kind = ELEMENTAL;
3528
 
3529
          if (se->ss->dimen > 0 && e->expr_type == EXPR_VARIABLE
3530
              && se->ss->info->data.array.ref == NULL)
3531
            {
3532
              gfc_conv_tmp_array_ref (&parmse);
3533
              if (e->ts.type == BT_CHARACTER)
3534
                gfc_conv_string_parameter (&parmse);
3535
              else
3536
                parmse.expr = gfc_build_addr_expr (NULL_TREE, parmse.expr);
3537
            }
3538
          else
3539
            gfc_conv_expr_reference (&parmse, e);
3540
 
3541
          /* The scalarizer does not repackage the reference to a class
3542
             array - instead it returns a pointer to the data element.  */
3543
          if (fsym && fsym->ts.type == BT_CLASS && e->ts.type == BT_CLASS)
3544
            gfc_conv_class_to_class (&parmse, e, fsym->ts, true);
3545
        }
3546
      else
3547
        {
3548
          /* A scalar or transformational function.  */
3549
          gfc_init_se (&parmse, NULL);
3550
          argss = gfc_walk_expr (e);
3551
 
3552
          if (argss == gfc_ss_terminator)
3553
            {
3554
              if (e->expr_type == EXPR_VARIABLE
3555
                    && e->symtree->n.sym->attr.cray_pointee
3556
                    && fsym && fsym->attr.flavor == FL_PROCEDURE)
3557
                {
3558
                    /* The Cray pointer needs to be converted to a pointer to
3559
                       a type given by the expression.  */
3560
                    gfc_conv_expr (&parmse, e);
3561
                    type = build_pointer_type (TREE_TYPE (parmse.expr));
3562
                    tmp = gfc_get_symbol_decl (e->symtree->n.sym->cp_pointer);
3563
                    parmse.expr = convert (type, tmp);
3564
                }
3565
              else if (fsym && fsym->attr.value)
3566
                {
3567
                  if (fsym->ts.type == BT_CHARACTER
3568
                      && fsym->ts.is_c_interop
3569
                      && fsym->ns->proc_name != NULL
3570
                      && fsym->ns->proc_name->attr.is_bind_c)
3571
                    {
3572
                      parmse.expr = NULL;
3573
                      gfc_conv_scalar_char_value (fsym, &parmse, &e);
3574
                      if (parmse.expr == NULL)
3575
                        gfc_conv_expr (&parmse, e);
3576
                    }
3577
                  else
3578
                    gfc_conv_expr (&parmse, e);
3579
                }
3580
              else if (arg->name && arg->name[0] == '%')
3581
                /* Argument list functions %VAL, %LOC and %REF are signalled
3582
                   through arg->name.  */
3583
                conv_arglist_function (&parmse, arg->expr, arg->name);
3584
              else if ((e->expr_type == EXPR_FUNCTION)
3585
                        && ((e->value.function.esym
3586
                             && e->value.function.esym->result->attr.pointer)
3587
                            || (!e->value.function.esym
3588
                                && e->symtree->n.sym->attr.pointer))
3589
                        && fsym && fsym->attr.target)
3590
                {
3591
                  gfc_conv_expr (&parmse, e);
3592
                  parmse.expr = gfc_build_addr_expr (NULL_TREE, parmse.expr);
3593
                }
3594
              else if (e->expr_type == EXPR_FUNCTION
3595
                       && e->symtree->n.sym->result
3596
                       && e->symtree->n.sym->result != e->symtree->n.sym
3597
                       && e->symtree->n.sym->result->attr.proc_pointer)
3598
                {
3599
                  /* Functions returning procedure pointers.  */
3600
                  gfc_conv_expr (&parmse, e);
3601
                  if (fsym && fsym->attr.proc_pointer)
3602
                    parmse.expr = gfc_build_addr_expr (NULL_TREE, parmse.expr);
3603
                }
3604
              else
3605
                {
3606
                  gfc_conv_expr_reference (&parmse, e);
3607
 
3608
                  /* Catch base objects that are not variables.  */
3609
                  if (e->ts.type == BT_CLASS
3610
                        && e->expr_type != EXPR_VARIABLE
3611
                        && expr && e == expr->base_expr)
3612
                    base_object = build_fold_indirect_ref_loc (input_location,
3613
                                                               parmse.expr);
3614
 
3615
                  /* A class array element needs converting back to be a
3616
                     class object, if the formal argument is a class object.  */
3617
                  if (fsym && fsym->ts.type == BT_CLASS
3618
                        && e->ts.type == BT_CLASS
3619
                        && CLASS_DATA (e)->attr.dimension)
3620
                    gfc_conv_class_to_class (&parmse, e, fsym->ts, false);
3621
 
3622
                  if (fsym && fsym->ts.type == BT_DERIVED
3623
                      && e->ts.type == BT_CLASS
3624
                      && !CLASS_DATA (e)->attr.dimension
3625
                      && !CLASS_DATA (e)->attr.codimension)
3626
                    parmse.expr = gfc_class_data_get (parmse.expr);
3627
 
3628
                  /* If an ALLOCATABLE dummy argument has INTENT(OUT) and is
3629
                     allocated on entry, it must be deallocated.  */
3630
                  if (fsym && fsym->attr.allocatable
3631
                      && fsym->attr.intent == INTENT_OUT)
3632
                    {
3633
                      stmtblock_t block;
3634
 
3635
                      gfc_init_block  (&block);
3636
                      tmp = gfc_deallocate_with_status (parmse.expr, NULL_TREE,
3637
                                                        NULL_TREE, NULL_TREE,
3638
                                                        NULL_TREE, true, NULL,
3639
                                                        false);
3640
                      gfc_add_expr_to_block (&block, tmp);
3641
                      tmp = fold_build2_loc (input_location, MODIFY_EXPR,
3642
                                             void_type_node, parmse.expr,
3643
                                             null_pointer_node);
3644
                      gfc_add_expr_to_block (&block, tmp);
3645
 
3646
                      if (fsym->attr.optional
3647
                          && e->expr_type == EXPR_VARIABLE
3648
                          && e->symtree->n.sym->attr.optional)
3649
                        {
3650
                          tmp = fold_build3_loc (input_location, COND_EXPR,
3651
                                     void_type_node,
3652
                                     gfc_conv_expr_present (e->symtree->n.sym),
3653
                                            gfc_finish_block (&block),
3654
                                            build_empty_stmt (input_location));
3655
                        }
3656
                      else
3657
                        tmp = gfc_finish_block (&block);
3658
 
3659
                      gfc_add_expr_to_block (&se->pre, tmp);
3660
                    }
3661
 
3662
                  if (fsym && e->expr_type != EXPR_NULL
3663
                      && ((fsym->attr.pointer
3664
                           && fsym->attr.flavor != FL_PROCEDURE)
3665
                          || (fsym->attr.proc_pointer
3666
                              && !(e->expr_type == EXPR_VARIABLE
3667
                                   && e->symtree->n.sym->attr.dummy))
3668
                          || (fsym->attr.proc_pointer
3669
                              && e->expr_type == EXPR_VARIABLE
3670
                              && gfc_is_proc_ptr_comp (e, NULL))
3671
                          || (fsym->attr.allocatable
3672
                              && fsym->attr.flavor != FL_PROCEDURE)))
3673
                    {
3674
                      /* Scalar pointer dummy args require an extra level of
3675
                         indirection. The null pointer already contains
3676
                         this level of indirection.  */
3677
                      parm_kind = SCALAR_POINTER;
3678
                      parmse.expr = gfc_build_addr_expr (NULL_TREE, parmse.expr);
3679
                    }
3680
                }
3681
            }
3682
          else if (e->ts.type == BT_CLASS
3683
                    && fsym && fsym->ts.type == BT_CLASS
3684
                    && CLASS_DATA (fsym)->attr.dimension)
3685
            {
3686
              /* Pass a class array.  */
3687
              gfc_init_se (&parmse, se);
3688
              gfc_conv_expr_descriptor (&parmse, e, argss);
3689
              /* The conversion does not repackage the reference to a class
3690
                 array - _data descriptor.  */
3691
              gfc_conv_class_to_class (&parmse, e, fsym->ts, false);
3692
            }
3693
          else
3694
            {
3695
              /* If the procedure requires an explicit interface, the actual
3696
                 argument is passed according to the corresponding formal
3697
                 argument.  If the corresponding formal argument is a POINTER,
3698
                 ALLOCATABLE or assumed shape, we do not use g77's calling
3699
                 convention, and pass the address of the array descriptor
3700
                 instead. Otherwise we use g77's calling convention.  */
3701
              bool f;
3702
              f = (fsym != NULL)
3703
                  && !(fsym->attr.pointer || fsym->attr.allocatable)
3704
                  && fsym->as && fsym->as->type != AS_ASSUMED_SHAPE;
3705
              if (comp)
3706
                f = f || !comp->attr.always_explicit;
3707
              else
3708
                f = f || !sym->attr.always_explicit;
3709
 
3710
              /* If the argument is a function call that may not create
3711
                 a temporary for the result, we have to check that we
3712
                 can do it, i.e. that there is no alias between this
3713
                 argument and another one.  */
3714
              if (gfc_get_noncopying_intrinsic_argument (e) != NULL)
3715
                {
3716
                  gfc_expr *iarg;
3717
                  sym_intent intent;
3718
 
3719
                  if (fsym != NULL)
3720
                    intent = fsym->attr.intent;
3721
                  else
3722
                    intent = INTENT_UNKNOWN;
3723
 
3724
                  if (gfc_check_fncall_dependency (e, intent, sym, args,
3725
                                                   NOT_ELEMENTAL))
3726
                    parmse.force_tmp = 1;
3727
 
3728
                  iarg = e->value.function.actual->expr;
3729
 
3730
                  /* Temporary needed if aliasing due to host association.  */
3731
                  if (sym->attr.contained
3732
                        && !sym->attr.pure
3733
                        && !sym->attr.implicit_pure
3734
                        && !sym->attr.use_assoc
3735
                        && iarg->expr_type == EXPR_VARIABLE
3736
                        && sym->ns == iarg->symtree->n.sym->ns)
3737
                    parmse.force_tmp = 1;
3738
 
3739
                  /* Ditto within module.  */
3740
                  if (sym->attr.use_assoc
3741
                        && !sym->attr.pure
3742
                        && !sym->attr.implicit_pure
3743
                        && iarg->expr_type == EXPR_VARIABLE
3744
                        && sym->module == iarg->symtree->n.sym->module)
3745
                    parmse.force_tmp = 1;
3746
                }
3747
 
3748
              if (e->expr_type == EXPR_VARIABLE
3749
                    && is_subref_array (e))
3750
                /* The actual argument is a component reference to an
3751
                   array of derived types.  In this case, the argument
3752
                   is converted to a temporary, which is passed and then
3753
                   written back after the procedure call.  */
3754
                gfc_conv_subref_array_arg (&parmse, e, f,
3755
                                fsym ? fsym->attr.intent : INTENT_INOUT,
3756
                                fsym && fsym->attr.pointer);
3757
              else if (gfc_is_class_array_ref (e, NULL)
3758
                         && fsym && fsym->ts.type == BT_DERIVED)
3759
                /* The actual argument is a component reference to an
3760
                   array of derived types.  In this case, the argument
3761
                   is converted to a temporary, which is passed and then
3762
                   written back after the procedure call.
3763
                   OOP-TODO: Insert code so that if the dynamic type is
3764
                   the same as the declared type, copy-in/copy-out does
3765
                   not occur.  */
3766
                gfc_conv_subref_array_arg (&parmse, e, f,
3767
                                fsym ? fsym->attr.intent : INTENT_INOUT,
3768
                                fsym && fsym->attr.pointer);
3769
              else
3770
                gfc_conv_array_parameter (&parmse, e, argss, f, fsym,
3771
                                          sym->name, NULL);
3772
 
3773
              /* If an ALLOCATABLE dummy argument has INTENT(OUT) and is
3774
                 allocated on entry, it must be deallocated.  */
3775
              if (fsym && fsym->attr.allocatable
3776
                  && fsym->attr.intent == INTENT_OUT)
3777
                {
3778
                  tmp = build_fold_indirect_ref_loc (input_location,
3779
                                                     parmse.expr);
3780
                  tmp = gfc_trans_dealloc_allocated (tmp, false);
3781
                  if (fsym->attr.optional
3782
                      && e->expr_type == EXPR_VARIABLE
3783
                      && e->symtree->n.sym->attr.optional)
3784
                    tmp = fold_build3_loc (input_location, COND_EXPR,
3785
                                     void_type_node,
3786
                                     gfc_conv_expr_present (e->symtree->n.sym),
3787
                                       tmp, build_empty_stmt (input_location));
3788
                  gfc_add_expr_to_block (&se->pre, tmp);
3789
                }
3790
            }
3791
        }
3792
 
3793
      /* The case with fsym->attr.optional is that of a user subroutine
3794
         with an interface indicating an optional argument.  When we call
3795
         an intrinsic subroutine, however, fsym is NULL, but we might still
3796
         have an optional argument, so we proceed to the substitution
3797
         just in case.  */
3798
      if (e && (fsym == NULL || fsym->attr.optional))
3799
        {
3800
          /* If an optional argument is itself an optional dummy argument,
3801
             check its presence and substitute a null if absent.  This is
3802
             only needed when passing an array to an elemental procedure
3803
             as then array elements are accessed - or no NULL pointer is
3804
             allowed and a "1" or "0" should be passed if not present.
3805
             When passing a non-array-descriptor full array to a
3806
             non-array-descriptor dummy, no check is needed. For
3807
             array-descriptor actual to array-descriptor dummy, see
3808
             PR 41911 for why a check has to be inserted.
3809
             fsym == NULL is checked as intrinsics required the descriptor
3810
             but do not always set fsym.  */
3811
          if (e->expr_type == EXPR_VARIABLE
3812
              && e->symtree->n.sym->attr.optional
3813
              && ((e->rank > 0 && sym->attr.elemental)
3814
                  || e->representation.length || e->ts.type == BT_CHARACTER
3815
                  || (e->rank > 0
3816
                      && (fsym == NULL
3817
                          || (fsym-> as
3818
                              && (fsym->as->type == AS_ASSUMED_SHAPE
3819
                                  || fsym->as->type == AS_DEFERRED))))))
3820
            gfc_conv_missing_dummy (&parmse, e, fsym ? fsym->ts : e->ts,
3821
                                    e->representation.length);
3822
        }
3823
 
3824
      if (fsym && e)
3825
        {
3826
          /* Obtain the character length of an assumed character length
3827
             length procedure from the typespec.  */
3828
          if (fsym->ts.type == BT_CHARACTER
3829
              && parmse.string_length == NULL_TREE
3830
              && e->ts.type == BT_PROCEDURE
3831
              && e->symtree->n.sym->ts.type == BT_CHARACTER
3832
              && e->symtree->n.sym->ts.u.cl->length != NULL
3833
              && e->symtree->n.sym->ts.u.cl->length->expr_type == EXPR_CONSTANT)
3834
            {
3835
              gfc_conv_const_charlen (e->symtree->n.sym->ts.u.cl);
3836
              parmse.string_length = e->symtree->n.sym->ts.u.cl->backend_decl;
3837
            }
3838
        }
3839
 
3840
      if (fsym && need_interface_mapping && e)
3841
        gfc_add_interface_mapping (&mapping, fsym, &parmse, e);
3842
 
3843
      gfc_add_block_to_block (&se->pre, &parmse.pre);
3844
      gfc_add_block_to_block (&post, &parmse.post);
3845
 
3846
      /* Allocated allocatable components of derived types must be
3847
         deallocated for non-variable scalars.  Non-variable arrays are
3848
         dealt with in trans-array.c(gfc_conv_array_parameter).  */
3849
      if (e && (e->ts.type == BT_DERIVED || e->ts.type == BT_CLASS)
3850
            && e->ts.u.derived->attr.alloc_comp
3851
            && !(e->symtree && e->symtree->n.sym->attr.pointer)
3852
            && (e->expr_type != EXPR_VARIABLE && !e->rank))
3853
        {
3854
          int parm_rank;
3855
          tmp = build_fold_indirect_ref_loc (input_location,
3856
                                         parmse.expr);
3857
          parm_rank = e->rank;
3858
          switch (parm_kind)
3859
            {
3860
            case (ELEMENTAL):
3861
            case (SCALAR):
3862
              parm_rank = 0;
3863
              break;
3864
 
3865
            case (SCALAR_POINTER):
3866
              tmp = build_fold_indirect_ref_loc (input_location,
3867
                                             tmp);
3868
              break;
3869
            }
3870
 
3871
          if (e->expr_type == EXPR_OP
3872
                && e->value.op.op == INTRINSIC_PARENTHESES
3873
                && e->value.op.op1->expr_type == EXPR_VARIABLE)
3874
            {
3875
              tree local_tmp;
3876
              local_tmp = gfc_evaluate_now (tmp, &se->pre);
3877
              local_tmp = gfc_copy_alloc_comp (e->ts.u.derived, local_tmp, tmp, parm_rank);
3878
              gfc_add_expr_to_block (&se->post, local_tmp);
3879
            }
3880
 
3881
          if (e->ts.type == BT_DERIVED && fsym && fsym->ts.type == BT_CLASS)
3882
            {
3883
              /* The derived type is passed to gfc_deallocate_alloc_comp.
3884
                 Therefore, class actuals can handled correctly but derived
3885
                 types passed to class formals need the _data component.  */
3886
              tmp = gfc_class_data_get (tmp);
3887
              if (!CLASS_DATA (fsym)->attr.dimension)
3888
                tmp = build_fold_indirect_ref_loc (input_location, tmp);
3889
            }
3890
 
3891
          tmp = gfc_deallocate_alloc_comp (e->ts.u.derived, tmp, parm_rank);
3892
 
3893
          gfc_add_expr_to_block (&se->post, tmp);
3894
        }
3895
 
3896
      /* Add argument checking of passing an unallocated/NULL actual to
3897
         a nonallocatable/nonpointer dummy.  */
3898
 
3899
      if (gfc_option.rtcheck & GFC_RTCHECK_POINTER && e != NULL)
3900
        {
3901
          symbol_attribute attr;
3902
          char *msg;
3903
          tree cond;
3904
 
3905
          if (e->expr_type == EXPR_VARIABLE || e->expr_type == EXPR_FUNCTION)
3906
            attr = gfc_expr_attr (e);
3907
          else
3908
            goto end_pointer_check;
3909
 
3910
          /*  In Fortran 2008 it's allowed to pass a NULL pointer/nonallocated
3911
              allocatable to an optional dummy, cf. 12.5.2.12.  */
3912
          if (fsym != NULL && fsym->attr.optional && !attr.proc_pointer
3913
              && (gfc_option.allow_std & GFC_STD_F2008) != 0)
3914
            goto end_pointer_check;
3915
 
3916
          if (attr.optional)
3917
            {
3918
              /* If the actual argument is an optional pointer/allocatable and
3919
                 the formal argument takes an nonpointer optional value,
3920
                 it is invalid to pass a non-present argument on, even
3921
                 though there is no technical reason for this in gfortran.
3922
                 See Fortran 2003, Section 12.4.1.6 item (7)+(8).  */
3923
              tree present, null_ptr, type;
3924
 
3925
              if (attr.allocatable
3926
                  && (fsym == NULL || !fsym->attr.allocatable))
3927
                asprintf (&msg, "Allocatable actual argument '%s' is not "
3928
                          "allocated or not present", e->symtree->n.sym->name);
3929
              else if (attr.pointer
3930
                       && (fsym == NULL || !fsym->attr.pointer))
3931
                asprintf (&msg, "Pointer actual argument '%s' is not "
3932
                          "associated or not present",
3933
                          e->symtree->n.sym->name);
3934
              else if (attr.proc_pointer
3935
                       && (fsym == NULL || !fsym->attr.proc_pointer))
3936
                asprintf (&msg, "Proc-pointer actual argument '%s' is not "
3937
                          "associated or not present",
3938
                          e->symtree->n.sym->name);
3939
              else
3940
                goto end_pointer_check;
3941
 
3942
              present = gfc_conv_expr_present (e->symtree->n.sym);
3943
              type = TREE_TYPE (present);
3944
              present = fold_build2_loc (input_location, EQ_EXPR,
3945
                                         boolean_type_node, present,
3946
                                         fold_convert (type,
3947
                                                       null_pointer_node));
3948
              type = TREE_TYPE (parmse.expr);
3949
              null_ptr = fold_build2_loc (input_location, EQ_EXPR,
3950
                                          boolean_type_node, parmse.expr,
3951
                                          fold_convert (type,
3952
                                                        null_pointer_node));
3953
              cond = fold_build2_loc (input_location, TRUTH_ORIF_EXPR,
3954
                                      boolean_type_node, present, null_ptr);
3955
            }
3956
          else
3957
            {
3958
              if (attr.allocatable
3959
                  && (fsym == NULL || !fsym->attr.allocatable))
3960
                asprintf (&msg, "Allocatable actual argument '%s' is not "
3961
                      "allocated", e->symtree->n.sym->name);
3962
              else if (attr.pointer
3963
                       && (fsym == NULL || !fsym->attr.pointer))
3964
                asprintf (&msg, "Pointer actual argument '%s' is not "
3965
                      "associated", e->symtree->n.sym->name);
3966
              else if (attr.proc_pointer
3967
                       && (fsym == NULL || !fsym->attr.proc_pointer))
3968
                asprintf (&msg, "Proc-pointer actual argument '%s' is not "
3969
                      "associated", e->symtree->n.sym->name);
3970
              else
3971
                goto end_pointer_check;
3972
 
3973
              tmp = parmse.expr;
3974
 
3975
              /* If the argument is passed by value, we need to strip the
3976
                 INDIRECT_REF.  */
3977
              if (!POINTER_TYPE_P (TREE_TYPE (parmse.expr)))
3978
                tmp = gfc_build_addr_expr (NULL_TREE, tmp);
3979
 
3980
              cond = fold_build2_loc (input_location, EQ_EXPR,
3981
                                      boolean_type_node, tmp,
3982
                                      fold_convert (TREE_TYPE (tmp),
3983
                                                    null_pointer_node));
3984
            }
3985
 
3986
          gfc_trans_runtime_check (true, false, cond, &se->pre, &e->where,
3987
                                   msg);
3988
          free (msg);
3989
        }
3990
      end_pointer_check:
3991
 
3992
      /* Deferred length dummies pass the character length by reference
3993
         so that the value can be returned.  */
3994
      if (parmse.string_length && fsym && fsym->ts.deferred)
3995
        {
3996
          tmp = parmse.string_length;
3997
          if (TREE_CODE (tmp) != VAR_DECL)
3998
            tmp = gfc_evaluate_now (parmse.string_length, &se->pre);
3999
          parmse.string_length = gfc_build_addr_expr (NULL_TREE, tmp);
4000
        }
4001
 
4002
      /* Character strings are passed as two parameters, a length and a
4003
         pointer - except for Bind(c) which only passes the pointer.  */
4004
      if (parmse.string_length != NULL_TREE && !sym->attr.is_bind_c)
4005
        VEC_safe_push (tree, gc, stringargs, parmse.string_length);
4006
 
4007
      /* For descriptorless coarrays and assumed-shape coarray dummies, we
4008
         pass the token and the offset as additional arguments.  */
4009
      if (fsym && fsym->attr.codimension
4010
          && gfc_option.coarray == GFC_FCOARRAY_LIB
4011
          && !fsym->attr.allocatable
4012
          && e == NULL)
4013
        {
4014
          /* Token and offset. */
4015
          VEC_safe_push (tree, gc, stringargs, null_pointer_node);
4016
          VEC_safe_push (tree, gc, stringargs,
4017
                         build_int_cst (gfc_array_index_type, 0));
4018
          gcc_assert (fsym->attr.optional);
4019
        }
4020
      else if (fsym && fsym->attr.codimension
4021
               && !fsym->attr.allocatable
4022
               && gfc_option.coarray == GFC_FCOARRAY_LIB)
4023
        {
4024
          tree caf_decl, caf_type;
4025
          tree offset, tmp2;
4026
 
4027
          caf_decl = get_tree_for_caf_expr (e);
4028
          caf_type = TREE_TYPE (caf_decl);
4029
 
4030
          if (GFC_DESCRIPTOR_TYPE_P (caf_type)
4031
              && GFC_TYPE_ARRAY_AKIND (caf_type) == GFC_ARRAY_ALLOCATABLE)
4032
            tmp = gfc_conv_descriptor_token (caf_decl);
4033
          else if (DECL_LANG_SPECIFIC (caf_decl)
4034
                   && GFC_DECL_TOKEN (caf_decl) != NULL_TREE)
4035
            tmp = GFC_DECL_TOKEN (caf_decl);
4036
          else
4037
            {
4038
              gcc_assert (GFC_ARRAY_TYPE_P (caf_type)
4039
                          && GFC_TYPE_ARRAY_CAF_TOKEN (caf_type) != NULL_TREE);
4040
              tmp = GFC_TYPE_ARRAY_CAF_TOKEN (caf_type);
4041
            }
4042
 
4043
          VEC_safe_push (tree, gc, stringargs, tmp);
4044
 
4045
          if (GFC_DESCRIPTOR_TYPE_P (caf_type)
4046
              && GFC_TYPE_ARRAY_AKIND (caf_type) == GFC_ARRAY_ALLOCATABLE)
4047
            offset = build_int_cst (gfc_array_index_type, 0);
4048
          else if (DECL_LANG_SPECIFIC (caf_decl)
4049
                   && GFC_DECL_CAF_OFFSET (caf_decl) != NULL_TREE)
4050
            offset = GFC_DECL_CAF_OFFSET (caf_decl);
4051
          else if (GFC_TYPE_ARRAY_CAF_OFFSET (caf_type) != NULL_TREE)
4052
            offset = GFC_TYPE_ARRAY_CAF_OFFSET (caf_type);
4053
          else
4054
            offset = build_int_cst (gfc_array_index_type, 0);
4055
 
4056
          if (GFC_DESCRIPTOR_TYPE_P (caf_type))
4057
            tmp = gfc_conv_descriptor_data_get (caf_decl);
4058
          else
4059
            {
4060
              gcc_assert (POINTER_TYPE_P (caf_type));
4061
              tmp = caf_decl;
4062
            }
4063
 
4064
          if (fsym->as->type == AS_ASSUMED_SHAPE)
4065
            {
4066
              gcc_assert (POINTER_TYPE_P (TREE_TYPE (parmse.expr)));
4067
              gcc_assert (GFC_DESCRIPTOR_TYPE_P (TREE_TYPE
4068
                                                   (TREE_TYPE (parmse.expr))));
4069
              tmp2 = build_fold_indirect_ref_loc (input_location, parmse.expr);
4070
              tmp2 = gfc_conv_descriptor_data_get (tmp2);
4071
            }
4072
          else if (GFC_DESCRIPTOR_TYPE_P (TREE_TYPE (parmse.expr)))
4073
            tmp2 = gfc_conv_descriptor_data_get (parmse.expr);
4074
          else
4075
            {
4076
              gcc_assert (POINTER_TYPE_P (TREE_TYPE (parmse.expr)));
4077
              tmp2 = parmse.expr;
4078
            }
4079
 
4080
          tmp = fold_build2_loc (input_location, MINUS_EXPR,
4081
                                 gfc_array_index_type,
4082
                                 fold_convert (gfc_array_index_type, tmp2),
4083
                                 fold_convert (gfc_array_index_type, tmp));
4084
          offset = fold_build2_loc (input_location, PLUS_EXPR,
4085
                                    gfc_array_index_type, offset, tmp);
4086
 
4087
          VEC_safe_push (tree, gc, stringargs, offset);
4088
        }
4089
 
4090
      VEC_safe_push (tree, gc, arglist, parmse.expr);
4091
    }
4092
  gfc_finish_interface_mapping (&mapping, &se->pre, &se->post);
4093
 
4094
  if (comp)
4095
    ts = comp->ts;
4096
  else
4097
   ts = sym->ts;
4098
 
4099
  if (ts.type == BT_CHARACTER && sym->attr.is_bind_c)
4100
    se->string_length = build_int_cst (gfc_charlen_type_node, 1);
4101
  else if (ts.type == BT_CHARACTER)
4102
    {
4103
      if (ts.u.cl->length == NULL)
4104
        {
4105
          /* Assumed character length results are not allowed by 5.1.1.5 of the
4106
             standard and are trapped in resolve.c; except in the case of SPREAD
4107
             (and other intrinsics?) and dummy functions.  In the case of SPREAD,
4108
             we take the character length of the first argument for the result.
4109
             For dummies, we have to look through the formal argument list for
4110
             this function and use the character length found there.*/
4111
          if (ts.deferred && (sym->attr.allocatable || sym->attr.pointer))
4112
            cl.backend_decl = gfc_create_var (gfc_charlen_type_node, "slen");
4113
          else if (!sym->attr.dummy)
4114
            cl.backend_decl = VEC_index (tree, stringargs, 0);
4115
          else
4116
            {
4117
              formal = sym->ns->proc_name->formal;
4118
              for (; formal; formal = formal->next)
4119
                if (strcmp (formal->sym->name, sym->name) == 0)
4120
                  cl.backend_decl = formal->sym->ts.u.cl->backend_decl;
4121
            }
4122
        }
4123
      else
4124
        {
4125
          tree tmp;
4126
 
4127
          /* Calculate the length of the returned string.  */
4128
          gfc_init_se (&parmse, NULL);
4129
          if (need_interface_mapping)
4130
            gfc_apply_interface_mapping (&mapping, &parmse, ts.u.cl->length);
4131
          else
4132
            gfc_conv_expr (&parmse, ts.u.cl->length);
4133
          gfc_add_block_to_block (&se->pre, &parmse.pre);
4134
          gfc_add_block_to_block (&se->post, &parmse.post);
4135
 
4136
          tmp = fold_convert (gfc_charlen_type_node, parmse.expr);
4137
          tmp = fold_build2_loc (input_location, MAX_EXPR,
4138
                                 gfc_charlen_type_node, tmp,
4139
                                 build_int_cst (gfc_charlen_type_node, 0));
4140
          cl.backend_decl = tmp;
4141
        }
4142
 
4143
      /* Set up a charlen structure for it.  */
4144
      cl.next = NULL;
4145
      cl.length = NULL;
4146
      ts.u.cl = &cl;
4147
 
4148
      len = cl.backend_decl;
4149
    }
4150
 
4151
  byref = (comp && (comp->attr.dimension || comp->ts.type == BT_CHARACTER))
4152
          || (!comp && gfc_return_by_reference (sym));
4153
  if (byref)
4154
    {
4155
      if (se->direct_byref)
4156
        {
4157
          /* Sometimes, too much indirection can be applied; e.g. for
4158
             function_result = array_valued_recursive_function.  */
4159
          if (TREE_TYPE (TREE_TYPE (se->expr))
4160
                && TREE_TYPE (TREE_TYPE (TREE_TYPE (se->expr)))
4161
                && GFC_DESCRIPTOR_TYPE_P
4162
                        (TREE_TYPE (TREE_TYPE (TREE_TYPE (se->expr)))))
4163
            se->expr = build_fold_indirect_ref_loc (input_location,
4164
                                                se->expr);
4165
 
4166
          /* If the lhs of an assignment x = f(..) is allocatable and
4167
             f2003 is allowed, we must do the automatic reallocation.
4168
             TODO - deal with intrinsics, without using a temporary.  */
4169
          if (gfc_option.flag_realloc_lhs
4170
                && se->ss && se->ss->loop_chain
4171
                && se->ss->loop_chain->is_alloc_lhs
4172
                && !expr->value.function.isym
4173
                && sym->result->as != NULL)
4174
            {
4175
              /* Evaluate the bounds of the result, if known.  */
4176
              gfc_set_loop_bounds_from_array_spec (&mapping, se,
4177
                                                   sym->result->as);
4178
 
4179
              /* Perform the automatic reallocation.  */
4180
              tmp = gfc_alloc_allocatable_for_assignment (se->loop,
4181
                                                          expr, NULL);
4182
              gfc_add_expr_to_block (&se->pre, tmp);
4183
 
4184
              /* Pass the temporary as the first argument.  */
4185
              result = info->descriptor;
4186
            }
4187
          else
4188
            result = build_fold_indirect_ref_loc (input_location,
4189
                                                  se->expr);
4190
          VEC_safe_push (tree, gc, retargs, se->expr);
4191
        }
4192
      else if (comp && comp->attr.dimension)
4193
        {
4194
          gcc_assert (se->loop && info);
4195
 
4196
          /* Set the type of the array.  */
4197
          tmp = gfc_typenode_for_spec (&comp->ts);
4198
          gcc_assert (se->ss->dimen == se->loop->dimen);
4199
 
4200
          /* Evaluate the bounds of the result, if known.  */
4201
          gfc_set_loop_bounds_from_array_spec (&mapping, se, comp->as);
4202
 
4203
          /* If the lhs of an assignment x = f(..) is allocatable and
4204
             f2003 is allowed, we must not generate the function call
4205
             here but should just send back the results of the mapping.
4206
             This is signalled by the function ss being flagged.  */
4207
          if (gfc_option.flag_realloc_lhs
4208
                && se->ss && se->ss->is_alloc_lhs)
4209
            {
4210
              gfc_free_interface_mapping (&mapping);
4211
              return has_alternate_specifier;
4212
            }
4213
 
4214
          /* Create a temporary to store the result.  In case the function
4215
             returns a pointer, the temporary will be a shallow copy and
4216
             mustn't be deallocated.  */
4217
          callee_alloc = comp->attr.allocatable || comp->attr.pointer;
4218
          gfc_trans_create_temp_array (&se->pre, &se->post, se->ss,
4219
                                       tmp, NULL_TREE, false,
4220
                                       !comp->attr.pointer, callee_alloc,
4221
                                       &se->ss->info->expr->where);
4222
 
4223
          /* Pass the temporary as the first argument.  */
4224
          result = info->descriptor;
4225
          tmp = gfc_build_addr_expr (NULL_TREE, result);
4226
          VEC_safe_push (tree, gc, retargs, tmp);
4227
        }
4228
      else if (!comp && sym->result->attr.dimension)
4229
        {
4230
          gcc_assert (se->loop && info);
4231
 
4232
          /* Set the type of the array.  */
4233
          tmp = gfc_typenode_for_spec (&ts);
4234
          gcc_assert (se->ss->dimen == se->loop->dimen);
4235
 
4236
          /* Evaluate the bounds of the result, if known.  */
4237
          gfc_set_loop_bounds_from_array_spec (&mapping, se, sym->result->as);
4238
 
4239
          /* If the lhs of an assignment x = f(..) is allocatable and
4240
             f2003 is allowed, we must not generate the function call
4241
             here but should just send back the results of the mapping.
4242
             This is signalled by the function ss being flagged.  */
4243
          if (gfc_option.flag_realloc_lhs
4244
                && se->ss && se->ss->is_alloc_lhs)
4245
            {
4246
              gfc_free_interface_mapping (&mapping);
4247
              return has_alternate_specifier;
4248
            }
4249
 
4250
          /* Create a temporary to store the result.  In case the function
4251
             returns a pointer, the temporary will be a shallow copy and
4252
             mustn't be deallocated.  */
4253
          callee_alloc = sym->attr.allocatable || sym->attr.pointer;
4254
          gfc_trans_create_temp_array (&se->pre, &se->post, se->ss,
4255
                                       tmp, NULL_TREE, false,
4256
                                       !sym->attr.pointer, callee_alloc,
4257
                                       &se->ss->info->expr->where);
4258
 
4259
          /* Pass the temporary as the first argument.  */
4260
          result = info->descriptor;
4261
          tmp = gfc_build_addr_expr (NULL_TREE, result);
4262
          VEC_safe_push (tree, gc, retargs, tmp);
4263
        }
4264
      else if (ts.type == BT_CHARACTER)
4265
        {
4266
          /* Pass the string length.  */
4267
          type = gfc_get_character_type (ts.kind, ts.u.cl);
4268
          type = build_pointer_type (type);
4269
 
4270
          /* Return an address to a char[0:len-1]* temporary for
4271
             character pointers.  */
4272
          if ((!comp && (sym->attr.pointer || sym->attr.allocatable))
4273
               || (comp && (comp->attr.pointer || comp->attr.allocatable)))
4274
            {
4275
              var = gfc_create_var (type, "pstr");
4276
 
4277
              if ((!comp && sym->attr.allocatable)
4278
                  || (comp && comp->attr.allocatable))
4279
                gfc_add_modify (&se->pre, var,
4280
                                fold_convert (TREE_TYPE (var),
4281
                                              null_pointer_node));
4282
 
4283
              /* Provide an address expression for the function arguments.  */
4284
              var = gfc_build_addr_expr (NULL_TREE, var);
4285
            }
4286
          else
4287
            var = gfc_conv_string_tmp (se, type, len);
4288
 
4289
          VEC_safe_push (tree, gc, retargs, var);
4290
        }
4291
      else
4292
        {
4293
          gcc_assert (gfc_option.flag_f2c && ts.type == BT_COMPLEX);
4294
 
4295
          type = gfc_get_complex_type (ts.kind);
4296
          var = gfc_build_addr_expr (NULL_TREE, gfc_create_var (type, "cmplx"));
4297
          VEC_safe_push (tree, gc, retargs, var);
4298
        }
4299
 
4300
      if (ts.type == BT_CHARACTER && ts.deferred
4301
            && (sym->attr.allocatable || sym->attr.pointer))
4302
        {
4303
          tmp = len;
4304
          if (TREE_CODE (tmp) != VAR_DECL)
4305
            tmp = gfc_evaluate_now (len, &se->pre);
4306
          len = gfc_build_addr_expr (NULL_TREE, tmp);
4307
        }
4308
 
4309
      /* Add the string length to the argument list.  */
4310
      if (ts.type == BT_CHARACTER)
4311
        VEC_safe_push (tree, gc, retargs, len);
4312
    }
4313
  gfc_free_interface_mapping (&mapping);
4314
 
4315
  /* We need to glom RETARGS + ARGLIST + STRINGARGS + APPEND_ARGS.  */
4316
  arglen = (VEC_length (tree, arglist)
4317
            + VEC_length (tree, stringargs) + VEC_length (tree, append_args));
4318
  VEC_reserve_exact (tree, gc, retargs, arglen);
4319
 
4320
  /* Add the return arguments.  */
4321
  VEC_splice (tree, retargs, arglist);
4322
 
4323
  /* Add the hidden string length parameters to the arguments.  */
4324
  VEC_splice (tree, retargs, stringargs);
4325
 
4326
  /* We may want to append extra arguments here.  This is used e.g. for
4327
     calls to libgfortran_matmul_??, which need extra information.  */
4328
  if (!VEC_empty (tree, append_args))
4329
    VEC_splice (tree, retargs, append_args);
4330
  arglist = retargs;
4331
 
4332
  /* Generate the actual call.  */
4333
  if (base_object == NULL_TREE)
4334
    conv_function_val (se, sym, expr);
4335
  else
4336
    conv_base_obj_fcn_val (se, base_object, expr);
4337
 
4338
  /* If there are alternate return labels, function type should be
4339
     integer.  Can't modify the type in place though, since it can be shared
4340
     with other functions.  For dummy arguments, the typing is done to
4341
     this result, even if it has to be repeated for each call.  */
4342
  if (has_alternate_specifier
4343
      && TREE_TYPE (TREE_TYPE (TREE_TYPE (se->expr))) != integer_type_node)
4344
    {
4345
      if (!sym->attr.dummy)
4346
        {
4347
          TREE_TYPE (sym->backend_decl)
4348
                = build_function_type (integer_type_node,
4349
                      TYPE_ARG_TYPES (TREE_TYPE (sym->backend_decl)));
4350
          se->expr = gfc_build_addr_expr (NULL_TREE, sym->backend_decl);
4351
        }
4352
      else
4353
        TREE_TYPE (TREE_TYPE (TREE_TYPE (se->expr))) = integer_type_node;
4354
    }
4355
 
4356
  fntype = TREE_TYPE (TREE_TYPE (se->expr));
4357
  se->expr = build_call_vec (TREE_TYPE (fntype), se->expr, arglist);
4358
 
4359
  /* If we have a pointer function, but we don't want a pointer, e.g.
4360
     something like
4361
        x = f()
4362
     where f is pointer valued, we have to dereference the result.  */
4363
  if (!se->want_pointer && !byref
4364
      && ((!comp && (sym->attr.pointer || sym->attr.allocatable))
4365
          || (comp && (comp->attr.pointer || comp->attr.allocatable))))
4366
    se->expr = build_fold_indirect_ref_loc (input_location, se->expr);
4367
 
4368
  /* f2c calling conventions require a scalar default real function to
4369
     return a double precision result.  Convert this back to default
4370
     real.  We only care about the cases that can happen in Fortran 77.
4371
  */
4372
  if (gfc_option.flag_f2c && sym->ts.type == BT_REAL
4373
      && sym->ts.kind == gfc_default_real_kind
4374
      && !sym->attr.always_explicit)
4375
    se->expr = fold_convert (gfc_get_real_type (sym->ts.kind), se->expr);
4376
 
4377
  /* A pure function may still have side-effects - it may modify its
4378
     parameters.  */
4379
  TREE_SIDE_EFFECTS (se->expr) = 1;
4380
#if 0
4381
  if (!sym->attr.pure)
4382
    TREE_SIDE_EFFECTS (se->expr) = 1;
4383
#endif
4384
 
4385
  if (byref)
4386
    {
4387
      /* Add the function call to the pre chain.  There is no expression.  */
4388
      gfc_add_expr_to_block (&se->pre, se->expr);
4389
      se->expr = NULL_TREE;
4390
 
4391
      if (!se->direct_byref)
4392
        {
4393
          if ((sym->attr.dimension && !comp) || (comp && comp->attr.dimension))
4394
            {
4395
              if (gfc_option.rtcheck & GFC_RTCHECK_BOUNDS)
4396
                {
4397
                  /* Check the data pointer hasn't been modified.  This would
4398
                     happen in a function returning a pointer.  */
4399
                  tmp = gfc_conv_descriptor_data_get (info->descriptor);
4400
                  tmp = fold_build2_loc (input_location, NE_EXPR,
4401
                                         boolean_type_node,
4402
                                         tmp, info->data);
4403
                  gfc_trans_runtime_check (true, false, tmp, &se->pre, NULL,
4404
                                           gfc_msg_fault);
4405
                }
4406
              se->expr = info->descriptor;
4407
              /* Bundle in the string length.  */
4408
              se->string_length = len;
4409
            }
4410
          else if (ts.type == BT_CHARACTER)
4411
            {
4412
              /* Dereference for character pointer results.  */
4413
              if ((!comp && (sym->attr.pointer || sym->attr.allocatable))
4414
                  || (comp && (comp->attr.pointer || comp->attr.allocatable)))
4415
                se->expr = build_fold_indirect_ref_loc (input_location, var);
4416
              else
4417
                se->expr = var;
4418
 
4419
              if (!ts.deferred)
4420
                se->string_length = len;
4421
              else if (sym->attr.allocatable || sym->attr.pointer)
4422
                se->string_length = cl.backend_decl;
4423
            }
4424
          else
4425
            {
4426
              gcc_assert (ts.type == BT_COMPLEX && gfc_option.flag_f2c);
4427
              se->expr = build_fold_indirect_ref_loc (input_location, var);
4428
            }
4429
        }
4430
    }
4431
 
4432
  /* Follow the function call with the argument post block.  */
4433
  if (byref)
4434
    {
4435
      gfc_add_block_to_block (&se->pre, &post);
4436
 
4437
      /* Transformational functions of derived types with allocatable
4438
         components must have the result allocatable components copied.  */
4439
      arg = expr->value.function.actual;
4440
      if (result && arg && expr->rank
4441
            && expr->value.function.isym
4442
            && expr->value.function.isym->transformational
4443
            && arg->expr->ts.type == BT_DERIVED
4444
            && arg->expr->ts.u.derived->attr.alloc_comp)
4445
        {
4446
          tree tmp2;
4447
          /* Copy the allocatable components.  We have to use a
4448
             temporary here to prevent source allocatable components
4449
             from being corrupted.  */
4450
          tmp2 = gfc_evaluate_now (result, &se->pre);
4451
          tmp = gfc_copy_alloc_comp (arg->expr->ts.u.derived,
4452
                                     result, tmp2, expr->rank);
4453
          gfc_add_expr_to_block (&se->pre, tmp);
4454
          tmp = gfc_copy_allocatable_data (result, tmp2, TREE_TYPE(tmp2),
4455
                                           expr->rank);
4456
          gfc_add_expr_to_block (&se->pre, tmp);
4457
 
4458
          /* Finally free the temporary's data field.  */
4459
          tmp = gfc_conv_descriptor_data_get (tmp2);
4460
          tmp = gfc_deallocate_with_status (tmp, NULL_TREE, NULL_TREE,
4461
                                            NULL_TREE, NULL_TREE, true,
4462
                                            NULL, false);
4463
          gfc_add_expr_to_block (&se->pre, tmp);
4464
        }
4465
    }
4466
  else
4467
    gfc_add_block_to_block (&se->post, &post);
4468
 
4469
  return has_alternate_specifier;
4470
}
4471
 
4472
 
4473
/* Fill a character string with spaces.  */
4474
 
4475
static tree
4476
fill_with_spaces (tree start, tree type, tree size)
4477
{
4478
  stmtblock_t block, loop;
4479
  tree i, el, exit_label, cond, tmp;
4480
 
4481
  /* For a simple char type, we can call memset().  */
4482
  if (compare_tree_int (TYPE_SIZE_UNIT (type), 1) == 0)
4483
    return build_call_expr_loc (input_location,
4484
                            builtin_decl_explicit (BUILT_IN_MEMSET),
4485
                            3, start,
4486
                            build_int_cst (gfc_get_int_type (gfc_c_int_kind),
4487
                                           lang_hooks.to_target_charset (' ')),
4488
                            size);
4489
 
4490
  /* Otherwise, we use a loop:
4491
        for (el = start, i = size; i > 0; el--, i+= TYPE_SIZE_UNIT (type))
4492
          *el = (type) ' ';
4493
   */
4494
 
4495
  /* Initialize variables.  */
4496
  gfc_init_block (&block);
4497
  i = gfc_create_var (sizetype, "i");
4498
  gfc_add_modify (&block, i, fold_convert (sizetype, size));
4499
  el = gfc_create_var (build_pointer_type (type), "el");
4500
  gfc_add_modify (&block, el, fold_convert (TREE_TYPE (el), start));
4501
  exit_label = gfc_build_label_decl (NULL_TREE);
4502
  TREE_USED (exit_label) = 1;
4503
 
4504
 
4505
  /* Loop body.  */
4506
  gfc_init_block (&loop);
4507
 
4508
  /* Exit condition.  */
4509
  cond = fold_build2_loc (input_location, LE_EXPR, boolean_type_node, i,
4510
                          build_zero_cst (sizetype));
4511
  tmp = build1_v (GOTO_EXPR, exit_label);
4512
  tmp = fold_build3_loc (input_location, COND_EXPR, void_type_node, cond, tmp,
4513
                         build_empty_stmt (input_location));
4514
  gfc_add_expr_to_block (&loop, tmp);
4515
 
4516
  /* Assignment.  */
4517
  gfc_add_modify (&loop,
4518
                  fold_build1_loc (input_location, INDIRECT_REF, type, el),
4519
                  build_int_cst (type, lang_hooks.to_target_charset (' ')));
4520
 
4521
  /* Increment loop variables.  */
4522
  gfc_add_modify (&loop, i,
4523
                  fold_build2_loc (input_location, MINUS_EXPR, sizetype, i,
4524
                                   TYPE_SIZE_UNIT (type)));
4525
  gfc_add_modify (&loop, el,
4526
                  fold_build_pointer_plus_loc (input_location,
4527
                                               el, TYPE_SIZE_UNIT (type)));
4528
 
4529
  /* Making the loop... actually loop!  */
4530
  tmp = gfc_finish_block (&loop);
4531
  tmp = build1_v (LOOP_EXPR, tmp);
4532
  gfc_add_expr_to_block (&block, tmp);
4533
 
4534
  /* The exit label.  */
4535
  tmp = build1_v (LABEL_EXPR, exit_label);
4536
  gfc_add_expr_to_block (&block, tmp);
4537
 
4538
 
4539
  return gfc_finish_block (&block);
4540
}
4541
 
4542
 
4543
/* Generate code to copy a string.  */
4544
 
4545
void
4546
gfc_trans_string_copy (stmtblock_t * block, tree dlength, tree dest,
4547
                       int dkind, tree slength, tree src, int skind)
4548
{
4549
  tree tmp, dlen, slen;
4550
  tree dsc;
4551
  tree ssc;
4552
  tree cond;
4553
  tree cond2;
4554
  tree tmp2;
4555
  tree tmp3;
4556
  tree tmp4;
4557
  tree chartype;
4558
  stmtblock_t tempblock;
4559
 
4560
  gcc_assert (dkind == skind);
4561
 
4562
  if (slength != NULL_TREE)
4563
    {
4564
      slen = fold_convert (size_type_node, gfc_evaluate_now (slength, block));
4565
      ssc = gfc_string_to_single_character (slen, src, skind);
4566
    }
4567
  else
4568
    {
4569
      slen = build_int_cst (size_type_node, 1);
4570
      ssc =  src;
4571
    }
4572
 
4573
  if (dlength != NULL_TREE)
4574
    {
4575
      dlen = fold_convert (size_type_node, gfc_evaluate_now (dlength, block));
4576
      dsc = gfc_string_to_single_character (dlen, dest, dkind);
4577
    }
4578
  else
4579
    {
4580
      dlen = build_int_cst (size_type_node, 1);
4581
      dsc =  dest;
4582
    }
4583
 
4584
  /* Assign directly if the types are compatible.  */
4585
  if (dsc != NULL_TREE && ssc != NULL_TREE
4586
      && TREE_TYPE (dsc) == TREE_TYPE (ssc))
4587
    {
4588
      gfc_add_modify (block, dsc, ssc);
4589
      return;
4590
    }
4591
 
4592
  /* Do nothing if the destination length is zero.  */
4593
  cond = fold_build2_loc (input_location, GT_EXPR, boolean_type_node, dlen,
4594
                          build_int_cst (size_type_node, 0));
4595
 
4596
  /* The following code was previously in _gfortran_copy_string:
4597
 
4598
       // The two strings may overlap so we use memmove.
4599
       void
4600
       copy_string (GFC_INTEGER_4 destlen, char * dest,
4601
                    GFC_INTEGER_4 srclen, const char * src)
4602
       {
4603
         if (srclen >= destlen)
4604
           {
4605
             // This will truncate if too long.
4606
             memmove (dest, src, destlen);
4607
           }
4608
         else
4609
           {
4610
             memmove (dest, src, srclen);
4611
             // Pad with spaces.
4612
             memset (&dest[srclen], ' ', destlen - srclen);
4613
           }
4614
       }
4615
 
4616
     We're now doing it here for better optimization, but the logic
4617
     is the same.  */
4618
 
4619
  /* For non-default character kinds, we have to multiply the string
4620
     length by the base type size.  */
4621
  chartype = gfc_get_char_type (dkind);
4622
  slen = fold_build2_loc (input_location, MULT_EXPR, size_type_node,
4623
                          fold_convert (size_type_node, slen),
4624
                          fold_convert (size_type_node,
4625
                                        TYPE_SIZE_UNIT (chartype)));
4626
  dlen = fold_build2_loc (input_location, MULT_EXPR, size_type_node,
4627
                          fold_convert (size_type_node, dlen),
4628
                          fold_convert (size_type_node,
4629
                                        TYPE_SIZE_UNIT (chartype)));
4630
 
4631
  if (dlength && POINTER_TYPE_P (TREE_TYPE (dest)))
4632
    dest = fold_convert (pvoid_type_node, dest);
4633
  else
4634
    dest = gfc_build_addr_expr (pvoid_type_node, dest);
4635
 
4636
  if (slength && POINTER_TYPE_P (TREE_TYPE (src)))
4637
    src = fold_convert (pvoid_type_node, src);
4638
  else
4639
    src = gfc_build_addr_expr (pvoid_type_node, src);
4640
 
4641
  /* Truncate string if source is too long.  */
4642
  cond2 = fold_build2_loc (input_location, GE_EXPR, boolean_type_node, slen,
4643
                           dlen);
4644
  tmp2 = build_call_expr_loc (input_location,
4645
                              builtin_decl_explicit (BUILT_IN_MEMMOVE),
4646
                              3, dest, src, dlen);
4647
 
4648
  /* Else copy and pad with spaces.  */
4649
  tmp3 = build_call_expr_loc (input_location,
4650
                              builtin_decl_explicit (BUILT_IN_MEMMOVE),
4651
                              3, dest, src, slen);
4652
 
4653
  tmp4 = fold_build_pointer_plus_loc (input_location, dest, slen);
4654
  tmp4 = fill_with_spaces (tmp4, chartype,
4655
                           fold_build2_loc (input_location, MINUS_EXPR,
4656
                                            TREE_TYPE(dlen), dlen, slen));
4657
 
4658
  gfc_init_block (&tempblock);
4659
  gfc_add_expr_to_block (&tempblock, tmp3);
4660
  gfc_add_expr_to_block (&tempblock, tmp4);
4661
  tmp3 = gfc_finish_block (&tempblock);
4662
 
4663
  /* The whole copy_string function is there.  */
4664
  tmp = fold_build3_loc (input_location, COND_EXPR, void_type_node, cond2,
4665
                         tmp2, tmp3);
4666
  tmp = fold_build3_loc (input_location, COND_EXPR, void_type_node, cond, tmp,
4667
                         build_empty_stmt (input_location));
4668
  gfc_add_expr_to_block (block, tmp);
4669
}
4670
 
4671
 
4672
/* Translate a statement function.
4673
   The value of a statement function reference is obtained by evaluating the
4674
   expression using the values of the actual arguments for the values of the
4675
   corresponding dummy arguments.  */
4676
 
4677
static void
4678
gfc_conv_statement_function (gfc_se * se, gfc_expr * expr)
4679
{
4680
  gfc_symbol *sym;
4681
  gfc_symbol *fsym;
4682
  gfc_formal_arglist *fargs;
4683
  gfc_actual_arglist *args;
4684
  gfc_se lse;
4685
  gfc_se rse;
4686
  gfc_saved_var *saved_vars;
4687
  tree *temp_vars;
4688
  tree type;
4689
  tree tmp;
4690
  int n;
4691
 
4692
  sym = expr->symtree->n.sym;
4693
  args = expr->value.function.actual;
4694
  gfc_init_se (&lse, NULL);
4695
  gfc_init_se (&rse, NULL);
4696
 
4697
  n = 0;
4698
  for (fargs = sym->formal; fargs; fargs = fargs->next)
4699
    n++;
4700
  saved_vars = XCNEWVEC (gfc_saved_var, n);
4701
  temp_vars = XCNEWVEC (tree, n);
4702
 
4703
  for (fargs = sym->formal, n = 0; fargs; fargs = fargs->next, n++)
4704
    {
4705
      /* Each dummy shall be specified, explicitly or implicitly, to be
4706
         scalar.  */
4707
      gcc_assert (fargs->sym->attr.dimension == 0);
4708
      fsym = fargs->sym;
4709
 
4710
      if (fsym->ts.type == BT_CHARACTER)
4711
        {
4712
          /* Copy string arguments.  */
4713
          tree arglen;
4714
 
4715
          gcc_assert (fsym->ts.u.cl && fsym->ts.u.cl->length
4716
                      && fsym->ts.u.cl->length->expr_type == EXPR_CONSTANT);
4717
 
4718
          /* Create a temporary to hold the value.  */
4719
          if (fsym->ts.u.cl->backend_decl == NULL_TREE)
4720
             fsym->ts.u.cl->backend_decl
4721
                = gfc_conv_constant_to_tree (fsym->ts.u.cl->length);
4722
 
4723
          type = gfc_get_character_type (fsym->ts.kind, fsym->ts.u.cl);
4724
          temp_vars[n] = gfc_create_var (type, fsym->name);
4725
 
4726
          arglen = TYPE_MAX_VALUE (TYPE_DOMAIN (type));
4727
 
4728
          gfc_conv_expr (&rse, args->expr);
4729
          gfc_conv_string_parameter (&rse);
4730
          gfc_add_block_to_block (&se->pre, &lse.pre);
4731
          gfc_add_block_to_block (&se->pre, &rse.pre);
4732
 
4733
          gfc_trans_string_copy (&se->pre, arglen, temp_vars[n], fsym->ts.kind,
4734
                                 rse.string_length, rse.expr, fsym->ts.kind);
4735
          gfc_add_block_to_block (&se->pre, &lse.post);
4736
          gfc_add_block_to_block (&se->pre, &rse.post);
4737
        }
4738
      else
4739
        {
4740
          /* For everything else, just evaluate the expression.  */
4741
 
4742
          /* Create a temporary to hold the value.  */
4743
          type = gfc_typenode_for_spec (&fsym->ts);
4744
          temp_vars[n] = gfc_create_var (type, fsym->name);
4745
 
4746
          gfc_conv_expr (&lse, args->expr);
4747
 
4748
          gfc_add_block_to_block (&se->pre, &lse.pre);
4749
          gfc_add_modify (&se->pre, temp_vars[n], lse.expr);
4750
          gfc_add_block_to_block (&se->pre, &lse.post);
4751
        }
4752
 
4753
      args = args->next;
4754
    }
4755
 
4756
  /* Use the temporary variables in place of the real ones.  */
4757
  for (fargs = sym->formal, n = 0; fargs; fargs = fargs->next, n++)
4758
    gfc_shadow_sym (fargs->sym, temp_vars[n], &saved_vars[n]);
4759
 
4760
  gfc_conv_expr (se, sym->value);
4761
 
4762
  if (sym->ts.type == BT_CHARACTER)
4763
    {
4764
      gfc_conv_const_charlen (sym->ts.u.cl);
4765
 
4766
      /* Force the expression to the correct length.  */
4767
      if (!INTEGER_CST_P (se->string_length)
4768
          || tree_int_cst_lt (se->string_length,
4769
                              sym->ts.u.cl->backend_decl))
4770
        {
4771
          type = gfc_get_character_type (sym->ts.kind, sym->ts.u.cl);
4772
          tmp = gfc_create_var (type, sym->name);
4773
          tmp = gfc_build_addr_expr (build_pointer_type (type), tmp);
4774
          gfc_trans_string_copy (&se->pre, sym->ts.u.cl->backend_decl, tmp,
4775
                                 sym->ts.kind, se->string_length, se->expr,
4776
                                 sym->ts.kind);
4777
          se->expr = tmp;
4778
        }
4779
      se->string_length = sym->ts.u.cl->backend_decl;
4780
    }
4781
 
4782
  /* Restore the original variables.  */
4783
  for (fargs = sym->formal, n = 0; fargs; fargs = fargs->next, n++)
4784
    gfc_restore_sym (fargs->sym, &saved_vars[n]);
4785
  free (saved_vars);
4786
}
4787
 
4788
 
4789
/* Translate a function expression.  */
4790
 
4791
static void
4792
gfc_conv_function_expr (gfc_se * se, gfc_expr * expr)
4793
{
4794
  gfc_symbol *sym;
4795
 
4796
  if (expr->value.function.isym)
4797
    {
4798
      gfc_conv_intrinsic_function (se, expr);
4799
      return;
4800
    }
4801
 
4802
  /* We distinguish statement functions from general functions to improve
4803
     runtime performance.  */
4804
  if (expr->symtree->n.sym->attr.proc == PROC_ST_FUNCTION)
4805
    {
4806
      gfc_conv_statement_function (se, expr);
4807
      return;
4808
    }
4809
 
4810
  /* expr.value.function.esym is the resolved (specific) function symbol for
4811
     most functions.  However this isn't set for dummy procedures.  */
4812
  sym = expr->value.function.esym;
4813
  if (!sym)
4814
    sym = expr->symtree->n.sym;
4815
 
4816
  gfc_conv_procedure_call (se, sym, expr->value.function.actual, expr, NULL);
4817
}
4818
 
4819
 
4820
/* Determine whether the given EXPR_CONSTANT is a zero initializer.  */
4821
 
4822
static bool
4823
is_zero_initializer_p (gfc_expr * expr)
4824
{
4825
  if (expr->expr_type != EXPR_CONSTANT)
4826
    return false;
4827
 
4828
  /* We ignore constants with prescribed memory representations for now.  */
4829
  if (expr->representation.string)
4830
    return false;
4831
 
4832
  switch (expr->ts.type)
4833
    {
4834
    case BT_INTEGER:
4835
      return mpz_cmp_si (expr->value.integer, 0) == 0;
4836
 
4837
    case BT_REAL:
4838
      return mpfr_zero_p (expr->value.real)
4839
             && MPFR_SIGN (expr->value.real) >= 0;
4840
 
4841
    case BT_LOGICAL:
4842
      return expr->value.logical == 0;
4843
 
4844
    case BT_COMPLEX:
4845
      return mpfr_zero_p (mpc_realref (expr->value.complex))
4846
             && MPFR_SIGN (mpc_realref (expr->value.complex)) >= 0
4847
             && mpfr_zero_p (mpc_imagref (expr->value.complex))
4848
             && MPFR_SIGN (mpc_imagref (expr->value.complex)) >= 0;
4849
 
4850
    default:
4851
      break;
4852
    }
4853
  return false;
4854
}
4855
 
4856
 
4857
static void
4858
gfc_conv_array_constructor_expr (gfc_se * se, gfc_expr * expr)
4859
{
4860
  gfc_ss *ss;
4861
 
4862
  ss = se->ss;
4863
  gcc_assert (ss != NULL && ss != gfc_ss_terminator);
4864
  gcc_assert (ss->info->expr == expr && ss->info->type == GFC_SS_CONSTRUCTOR);
4865
 
4866
  gfc_conv_tmp_array_ref (se);
4867
}
4868
 
4869
 
4870
/* Build a static initializer.  EXPR is the expression for the initial value.
4871
   The other parameters describe the variable of the component being
4872
   initialized. EXPR may be null.  */
4873
 
4874
tree
4875
gfc_conv_initializer (gfc_expr * expr, gfc_typespec * ts, tree type,
4876
                      bool array, bool pointer, bool procptr)
4877
{
4878
  gfc_se se;
4879
 
4880
  if (!(expr || pointer || procptr))
4881
    return NULL_TREE;
4882
 
4883
  /* Check if we have ISOCBINDING_NULL_PTR or ISOCBINDING_NULL_FUNPTR
4884
     (these are the only two iso_c_binding derived types that can be
4885
     used as initialization expressions).  If so, we need to modify
4886
     the 'expr' to be that for a (void *).  */
4887
  if (expr != NULL && expr->ts.type == BT_DERIVED
4888
      && expr->ts.is_iso_c && expr->ts.u.derived)
4889
    {
4890
      gfc_symbol *derived = expr->ts.u.derived;
4891
 
4892
      /* The derived symbol has already been converted to a (void *).  Use
4893
         its kind.  */
4894
      expr = gfc_get_int_expr (derived->ts.kind, NULL, 0);
4895
      expr->ts.f90_type = derived->ts.f90_type;
4896
 
4897
      gfc_init_se (&se, NULL);
4898
      gfc_conv_constant (&se, expr);
4899
      gcc_assert (TREE_CODE (se.expr) != CONSTRUCTOR);
4900
      return se.expr;
4901
    }
4902
 
4903
  if (array && !procptr)
4904
    {
4905
      tree ctor;
4906
      /* Arrays need special handling.  */
4907
      if (pointer)
4908
        ctor = gfc_build_null_descriptor (type);
4909
      /* Special case assigning an array to zero.  */
4910
      else if (is_zero_initializer_p (expr))
4911
        ctor = build_constructor (type, NULL);
4912
      else
4913
        ctor = gfc_conv_array_initializer (type, expr);
4914
      TREE_STATIC (ctor) = 1;
4915
      return ctor;
4916
    }
4917
  else if (pointer || procptr)
4918
    {
4919
      if (!expr || expr->expr_type == EXPR_NULL)
4920
        return fold_convert (type, null_pointer_node);
4921
      else
4922
        {
4923
          gfc_init_se (&se, NULL);
4924
          se.want_pointer = 1;
4925
          gfc_conv_expr (&se, expr);
4926
          gcc_assert (TREE_CODE (se.expr) != CONSTRUCTOR);
4927
          return se.expr;
4928
        }
4929
    }
4930
  else
4931
    {
4932
      switch (ts->type)
4933
        {
4934
        case BT_DERIVED:
4935
        case BT_CLASS:
4936
          gfc_init_se (&se, NULL);
4937
          if (ts->type == BT_CLASS && expr->expr_type == EXPR_NULL)
4938
            gfc_conv_structure (&se, gfc_class_null_initializer(ts), 1);
4939
          else
4940
            gfc_conv_structure (&se, expr, 1);
4941
          gcc_assert (TREE_CODE (se.expr) == CONSTRUCTOR);
4942
          TREE_STATIC (se.expr) = 1;
4943
          return se.expr;
4944
 
4945
        case BT_CHARACTER:
4946
          {
4947
            tree ctor = gfc_conv_string_init (ts->u.cl->backend_decl,expr);
4948
            TREE_STATIC (ctor) = 1;
4949
            return ctor;
4950
          }
4951
 
4952
        default:
4953
          gfc_init_se (&se, NULL);
4954
          gfc_conv_constant (&se, expr);
4955
          gcc_assert (TREE_CODE (se.expr) != CONSTRUCTOR);
4956
          return se.expr;
4957
        }
4958
    }
4959
}
4960
 
4961
static tree
4962
gfc_trans_subarray_assign (tree dest, gfc_component * cm, gfc_expr * expr)
4963
{
4964
  gfc_se rse;
4965
  gfc_se lse;
4966
  gfc_ss *rss;
4967
  gfc_ss *lss;
4968
  gfc_array_info *lss_array;
4969
  stmtblock_t body;
4970
  stmtblock_t block;
4971
  gfc_loopinfo loop;
4972
  int n;
4973
  tree tmp;
4974
 
4975
  gfc_start_block (&block);
4976
 
4977
  /* Initialize the scalarizer.  */
4978
  gfc_init_loopinfo (&loop);
4979
 
4980
  gfc_init_se (&lse, NULL);
4981
  gfc_init_se (&rse, NULL);
4982
 
4983
  /* Walk the rhs.  */
4984
  rss = gfc_walk_expr (expr);
4985
  if (rss == gfc_ss_terminator)
4986
    /* The rhs is scalar.  Add a ss for the expression.  */
4987
    rss = gfc_get_scalar_ss (gfc_ss_terminator, expr);
4988
 
4989
  /* Create a SS for the destination.  */
4990
  lss = gfc_get_array_ss (gfc_ss_terminator, NULL, cm->as->rank,
4991
                          GFC_SS_COMPONENT);
4992
  lss_array = &lss->info->data.array;
4993
  lss_array->shape = gfc_get_shape (cm->as->rank);
4994
  lss_array->descriptor = dest;
4995
  lss_array->data = gfc_conv_array_data (dest);
4996
  lss_array->offset = gfc_conv_array_offset (dest);
4997
  for (n = 0; n < cm->as->rank; n++)
4998
    {
4999
      lss_array->start[n] = gfc_conv_array_lbound (dest, n);
5000
      lss_array->stride[n] = gfc_index_one_node;
5001
 
5002
      mpz_init (lss_array->shape[n]);
5003
      mpz_sub (lss_array->shape[n], cm->as->upper[n]->value.integer,
5004
               cm->as->lower[n]->value.integer);
5005
      mpz_add_ui (lss_array->shape[n], lss_array->shape[n], 1);
5006
    }
5007
 
5008
  /* Associate the SS with the loop.  */
5009
  gfc_add_ss_to_loop (&loop, lss);
5010
  gfc_add_ss_to_loop (&loop, rss);
5011
 
5012
  /* Calculate the bounds of the scalarization.  */
5013
  gfc_conv_ss_startstride (&loop);
5014
 
5015
  /* Setup the scalarizing loops.  */
5016
  gfc_conv_loop_setup (&loop, &expr->where);
5017
 
5018
  /* Setup the gfc_se structures.  */
5019
  gfc_copy_loopinfo_to_se (&lse, &loop);
5020
  gfc_copy_loopinfo_to_se (&rse, &loop);
5021
 
5022
  rse.ss = rss;
5023
  gfc_mark_ss_chain_used (rss, 1);
5024
  lse.ss = lss;
5025
  gfc_mark_ss_chain_used (lss, 1);
5026
 
5027
  /* Start the scalarized loop body.  */
5028
  gfc_start_scalarized_body (&loop, &body);
5029
 
5030
  gfc_conv_tmp_array_ref (&lse);
5031
  if (cm->ts.type == BT_CHARACTER)
5032
    lse.string_length = cm->ts.u.cl->backend_decl;
5033
 
5034
  gfc_conv_expr (&rse, expr);
5035
 
5036
  tmp = gfc_trans_scalar_assign (&lse, &rse, cm->ts, true, false, true);
5037
  gfc_add_expr_to_block (&body, tmp);
5038
 
5039
  gcc_assert (rse.ss == gfc_ss_terminator);
5040
 
5041
  /* Generate the copying loops.  */
5042
  gfc_trans_scalarizing_loops (&loop, &body);
5043
 
5044
  /* Wrap the whole thing up.  */
5045
  gfc_add_block_to_block (&block, &loop.pre);
5046
  gfc_add_block_to_block (&block, &loop.post);
5047
 
5048
  gcc_assert (lss_array->shape != NULL);
5049
  gfc_free_shape (&lss_array->shape, cm->as->rank);
5050
  gfc_cleanup_loop (&loop);
5051
 
5052
  return gfc_finish_block (&block);
5053
}
5054
 
5055
 
5056
static tree
5057
gfc_trans_alloc_subarray_assign (tree dest, gfc_component * cm,
5058
                                 gfc_expr * expr)
5059
{
5060
  gfc_se se;
5061
  gfc_ss *rss;
5062
  stmtblock_t block;
5063
  tree offset;
5064
  int n;
5065
  tree tmp;
5066
  tree tmp2;
5067
  gfc_array_spec *as;
5068
  gfc_expr *arg = NULL;
5069
 
5070
  gfc_start_block (&block);
5071
  gfc_init_se (&se, NULL);
5072
 
5073
  /* Get the descriptor for the expressions.  */
5074
  rss = gfc_walk_expr (expr);
5075
  se.want_pointer = 0;
5076
  gfc_conv_expr_descriptor (&se, expr, rss);
5077
  gfc_add_block_to_block (&block, &se.pre);
5078
  gfc_add_modify (&block, dest, se.expr);
5079
 
5080
  /* Deal with arrays of derived types with allocatable components.  */
5081
  if (cm->ts.type == BT_DERIVED
5082
        && cm->ts.u.derived->attr.alloc_comp)
5083
    tmp = gfc_copy_alloc_comp (cm->ts.u.derived,
5084
                               se.expr, dest,
5085
                               cm->as->rank);
5086
  else
5087
    tmp = gfc_duplicate_allocatable (dest, se.expr,
5088
                                     TREE_TYPE(cm->backend_decl),
5089
                                     cm->as->rank);
5090
 
5091
  gfc_add_expr_to_block (&block, tmp);
5092
  gfc_add_block_to_block (&block, &se.post);
5093
 
5094
  if (expr->expr_type != EXPR_VARIABLE)
5095
    gfc_conv_descriptor_data_set (&block, se.expr,
5096
                                  null_pointer_node);
5097
 
5098
  /* We need to know if the argument of a conversion function is a
5099
     variable, so that the correct lower bound can be used.  */
5100
  if (expr->expr_type == EXPR_FUNCTION
5101
        && expr->value.function.isym
5102
        && expr->value.function.isym->conversion
5103
        && expr->value.function.actual->expr
5104
        && expr->value.function.actual->expr->expr_type == EXPR_VARIABLE)
5105
    arg = expr->value.function.actual->expr;
5106
 
5107
  /* Obtain the array spec of full array references.  */
5108
  if (arg)
5109
    as = gfc_get_full_arrayspec_from_expr (arg);
5110
  else
5111
    as = gfc_get_full_arrayspec_from_expr (expr);
5112
 
5113
  /* Shift the lbound and ubound of temporaries to being unity,
5114
     rather than zero, based. Always calculate the offset.  */
5115
  offset = gfc_conv_descriptor_offset_get (dest);
5116
  gfc_add_modify (&block, offset, gfc_index_zero_node);
5117
  tmp2 =gfc_create_var (gfc_array_index_type, NULL);
5118
 
5119
  for (n = 0; n < expr->rank; n++)
5120
    {
5121
      tree span;
5122
      tree lbound;
5123
 
5124
      /* Obtain the correct lbound - ISO/IEC TR 15581:2001 page 9.
5125
         TODO It looks as if gfc_conv_expr_descriptor should return
5126
         the correct bounds and that the following should not be
5127
         necessary.  This would simplify gfc_conv_intrinsic_bound
5128
         as well.  */
5129
      if (as && as->lower[n])
5130
        {
5131
          gfc_se lbse;
5132
          gfc_init_se (&lbse, NULL);
5133
          gfc_conv_expr (&lbse, as->lower[n]);
5134
          gfc_add_block_to_block (&block, &lbse.pre);
5135
          lbound = gfc_evaluate_now (lbse.expr, &block);
5136
        }
5137
      else if (as && arg)
5138
        {
5139
          tmp = gfc_get_symbol_decl (arg->symtree->n.sym);
5140
          lbound = gfc_conv_descriptor_lbound_get (tmp,
5141
                                        gfc_rank_cst[n]);
5142
        }
5143
      else if (as)
5144
        lbound = gfc_conv_descriptor_lbound_get (dest,
5145
                                                gfc_rank_cst[n]);
5146
      else
5147
        lbound = gfc_index_one_node;
5148
 
5149
      lbound = fold_convert (gfc_array_index_type, lbound);
5150
 
5151
      /* Shift the bounds and set the offset accordingly.  */
5152
      tmp = gfc_conv_descriptor_ubound_get (dest, gfc_rank_cst[n]);
5153
      span = fold_build2_loc (input_location, MINUS_EXPR, gfc_array_index_type,
5154
                tmp, gfc_conv_descriptor_lbound_get (dest, gfc_rank_cst[n]));
5155
      tmp = fold_build2_loc (input_location, PLUS_EXPR, gfc_array_index_type,
5156
                             span, lbound);
5157
      gfc_conv_descriptor_ubound_set (&block, dest,
5158
                                      gfc_rank_cst[n], tmp);
5159
      gfc_conv_descriptor_lbound_set (&block, dest,
5160
                                      gfc_rank_cst[n], lbound);
5161
 
5162
      tmp = fold_build2_loc (input_location, MULT_EXPR, gfc_array_index_type,
5163
                         gfc_conv_descriptor_lbound_get (dest,
5164
                                                         gfc_rank_cst[n]),
5165
                         gfc_conv_descriptor_stride_get (dest,
5166
                                                         gfc_rank_cst[n]));
5167
      gfc_add_modify (&block, tmp2, tmp);
5168
      tmp = fold_build2_loc (input_location, MINUS_EXPR, gfc_array_index_type,
5169
                             offset, tmp2);
5170
      gfc_conv_descriptor_offset_set (&block, dest, tmp);
5171
    }
5172
 
5173
  if (arg)
5174
    {
5175
      /* If a conversion expression has a null data pointer
5176
         argument, nullify the allocatable component.  */
5177
      tree non_null_expr;
5178
      tree null_expr;
5179
 
5180
      if (arg->symtree->n.sym->attr.allocatable
5181
            || arg->symtree->n.sym->attr.pointer)
5182
        {
5183
          non_null_expr = gfc_finish_block (&block);
5184
          gfc_start_block (&block);
5185
          gfc_conv_descriptor_data_set (&block, dest,
5186
                                        null_pointer_node);
5187
          null_expr = gfc_finish_block (&block);
5188
          tmp = gfc_conv_descriptor_data_get (arg->symtree->n.sym->backend_decl);
5189
          tmp = build2_loc (input_location, EQ_EXPR, boolean_type_node, tmp,
5190
                            fold_convert (TREE_TYPE (tmp), null_pointer_node));
5191
          return build3_v (COND_EXPR, tmp,
5192
                           null_expr, non_null_expr);
5193
        }
5194
    }
5195
 
5196
  return gfc_finish_block (&block);
5197
}
5198
 
5199
 
5200
/* Assign a single component of a derived type constructor.  */
5201
 
5202
static tree
5203
gfc_trans_subcomponent_assign (tree dest, gfc_component * cm, gfc_expr * expr)
5204
{
5205
  gfc_se se;
5206
  gfc_se lse;
5207
  gfc_ss *rss;
5208
  stmtblock_t block;
5209
  tree tmp;
5210
 
5211
  gfc_start_block (&block);
5212
 
5213
  if (cm->attr.pointer)
5214
    {
5215
      gfc_init_se (&se, NULL);
5216
      /* Pointer component.  */
5217
      if (cm->attr.dimension)
5218
        {
5219
          /* Array pointer.  */
5220
          if (expr->expr_type == EXPR_NULL)
5221
            gfc_conv_descriptor_data_set (&block, dest, null_pointer_node);
5222
          else
5223
            {
5224
              rss = gfc_walk_expr (expr);
5225
              se.direct_byref = 1;
5226
              se.expr = dest;
5227
              gfc_conv_expr_descriptor (&se, expr, rss);
5228
              gfc_add_block_to_block (&block, &se.pre);
5229
              gfc_add_block_to_block (&block, &se.post);
5230
            }
5231
        }
5232
      else
5233
        {
5234
          /* Scalar pointers.  */
5235
          se.want_pointer = 1;
5236
          gfc_conv_expr (&se, expr);
5237
          gfc_add_block_to_block (&block, &se.pre);
5238
          gfc_add_modify (&block, dest,
5239
                               fold_convert (TREE_TYPE (dest), se.expr));
5240
          gfc_add_block_to_block (&block, &se.post);
5241
        }
5242
    }
5243
  else if (cm->ts.type == BT_CLASS && expr->expr_type == EXPR_NULL)
5244
    {
5245
      /* NULL initialization for CLASS components.  */
5246
      tmp = gfc_trans_structure_assign (dest,
5247
                                        gfc_class_null_initializer (&cm->ts));
5248
      gfc_add_expr_to_block (&block, tmp);
5249
    }
5250
  else if (cm->attr.dimension && !cm->attr.proc_pointer)
5251
    {
5252
      if (cm->attr.allocatable && expr->expr_type == EXPR_NULL)
5253
        gfc_conv_descriptor_data_set (&block, dest, null_pointer_node);
5254
      else if (cm->attr.allocatable)
5255
        {
5256
          tmp = gfc_trans_alloc_subarray_assign (dest, cm, expr);
5257
          gfc_add_expr_to_block (&block, tmp);
5258
        }
5259
      else
5260
        {
5261
          tmp = gfc_trans_subarray_assign (dest, cm, expr);
5262
          gfc_add_expr_to_block (&block, tmp);
5263
        }
5264
    }
5265
  else if (expr->ts.type == BT_DERIVED)
5266
    {
5267
      if (expr->expr_type != EXPR_STRUCTURE)
5268
        {
5269
          gfc_init_se (&se, NULL);
5270
          gfc_conv_expr (&se, expr);
5271
          gfc_add_block_to_block (&block, &se.pre);
5272
          gfc_add_modify (&block, dest,
5273
                               fold_convert (TREE_TYPE (dest), se.expr));
5274
          gfc_add_block_to_block (&block, &se.post);
5275
        }
5276
      else
5277
        {
5278
          /* Nested constructors.  */
5279
          tmp = gfc_trans_structure_assign (dest, expr);
5280
          gfc_add_expr_to_block (&block, tmp);
5281
        }
5282
    }
5283
  else
5284
    {
5285
      /* Scalar component.  */
5286
      gfc_init_se (&se, NULL);
5287
      gfc_init_se (&lse, NULL);
5288
 
5289
      gfc_conv_expr (&se, expr);
5290
      if (cm->ts.type == BT_CHARACTER)
5291
        lse.string_length = cm->ts.u.cl->backend_decl;
5292
      lse.expr = dest;
5293
      tmp = gfc_trans_scalar_assign (&lse, &se, cm->ts, true, false, true);
5294
      gfc_add_expr_to_block (&block, tmp);
5295
    }
5296
  return gfc_finish_block (&block);
5297
}
5298
 
5299
/* Assign a derived type constructor to a variable.  */
5300
 
5301
static tree
5302
gfc_trans_structure_assign (tree dest, gfc_expr * expr)
5303
{
5304
  gfc_constructor *c;
5305
  gfc_component *cm;
5306
  stmtblock_t block;
5307
  tree field;
5308
  tree tmp;
5309
 
5310
  gfc_start_block (&block);
5311
  cm = expr->ts.u.derived->components;
5312
 
5313
  if (expr->ts.u.derived->from_intmod == INTMOD_ISO_C_BINDING
5314
      && (expr->ts.u.derived->intmod_sym_id == ISOCBINDING_PTR
5315
          || expr->ts.u.derived->intmod_sym_id == ISOCBINDING_FUNPTR))
5316
    {
5317
      gfc_se se, lse;
5318
 
5319
      gcc_assert (cm->backend_decl == NULL);
5320
      gfc_init_se (&se, NULL);
5321
      gfc_init_se (&lse, NULL);
5322
      gfc_conv_expr (&se, gfc_constructor_first (expr->value.constructor)->expr);
5323
      lse.expr = dest;
5324
      gfc_add_modify (&block, lse.expr,
5325
                      fold_convert (TREE_TYPE (lse.expr), se.expr));
5326
 
5327
      return gfc_finish_block (&block);
5328
    }
5329
 
5330
  for (c = gfc_constructor_first (expr->value.constructor);
5331
       c; c = gfc_constructor_next (c), cm = cm->next)
5332
    {
5333
      /* Skip absent members in default initializers.  */
5334
      if (!c->expr)
5335
        continue;
5336
 
5337
      field = cm->backend_decl;
5338
      tmp = fold_build3_loc (input_location, COMPONENT_REF, TREE_TYPE (field),
5339
                             dest, field, NULL_TREE);
5340
      tmp = gfc_trans_subcomponent_assign (tmp, cm, c->expr);
5341
      gfc_add_expr_to_block (&block, tmp);
5342
    }
5343
  return gfc_finish_block (&block);
5344
}
5345
 
5346
/* Build an expression for a constructor. If init is nonzero then
5347
   this is part of a static variable initializer.  */
5348
 
5349
void
5350
gfc_conv_structure (gfc_se * se, gfc_expr * expr, int init)
5351
{
5352
  gfc_constructor *c;
5353
  gfc_component *cm;
5354
  tree val;
5355
  tree type;
5356
  tree tmp;
5357
  VEC(constructor_elt,gc) *v = NULL;
5358
 
5359
  gcc_assert (se->ss == NULL);
5360
  gcc_assert (expr->expr_type == EXPR_STRUCTURE);
5361
  type = gfc_typenode_for_spec (&expr->ts);
5362
 
5363
  if (!init)
5364
    {
5365
      /* Create a temporary variable and fill it in.  */
5366
      se->expr = gfc_create_var (type, expr->ts.u.derived->name);
5367
      tmp = gfc_trans_structure_assign (se->expr, expr);
5368
      gfc_add_expr_to_block (&se->pre, tmp);
5369
      return;
5370
    }
5371
 
5372
  cm = expr->ts.u.derived->components;
5373
 
5374
  for (c = gfc_constructor_first (expr->value.constructor);
5375
       c; c = gfc_constructor_next (c), cm = cm->next)
5376
    {
5377
      /* Skip absent members in default initializers and allocatable
5378
         components.  Although the latter have a default initializer
5379
         of EXPR_NULL,... by default, the static nullify is not needed
5380
         since this is done every time we come into scope.  */
5381
      if (!c->expr || (cm->attr.allocatable && cm->attr.flavor != FL_PROCEDURE))
5382
        continue;
5383
 
5384
      if (strcmp (cm->name, "_size") == 0)
5385
        {
5386
          val = TYPE_SIZE_UNIT (gfc_get_derived_type (cm->ts.u.derived));
5387
          CONSTRUCTOR_APPEND_ELT (v, cm->backend_decl, val);
5388
        }
5389
      else if (cm->initializer && cm->initializer->expr_type != EXPR_NULL
5390
               && strcmp (cm->name, "_extends") == 0)
5391
        {
5392
          tree vtab;
5393
          gfc_symbol *vtabs;
5394
          vtabs = cm->initializer->symtree->n.sym;
5395
          vtab = gfc_build_addr_expr (NULL_TREE, gfc_get_symbol_decl (vtabs));
5396
          CONSTRUCTOR_APPEND_ELT (v, cm->backend_decl, vtab);
5397
        }
5398
      else
5399
        {
5400
          val = gfc_conv_initializer (c->expr, &cm->ts,
5401
                                      TREE_TYPE (cm->backend_decl),
5402
                                      cm->attr.dimension, cm->attr.pointer,
5403
                                      cm->attr.proc_pointer);
5404
 
5405
          /* Append it to the constructor list.  */
5406
          CONSTRUCTOR_APPEND_ELT (v, cm->backend_decl, val);
5407
        }
5408
    }
5409
  se->expr = build_constructor (type, v);
5410
  if (init)
5411
    TREE_CONSTANT (se->expr) = 1;
5412
}
5413
 
5414
 
5415
/* Translate a substring expression.  */
5416
 
5417
static void
5418
gfc_conv_substring_expr (gfc_se * se, gfc_expr * expr)
5419
{
5420
  gfc_ref *ref;
5421
 
5422
  ref = expr->ref;
5423
 
5424
  gcc_assert (ref == NULL || ref->type == REF_SUBSTRING);
5425
 
5426
  se->expr = gfc_build_wide_string_const (expr->ts.kind,
5427
                                          expr->value.character.length,
5428
                                          expr->value.character.string);
5429
 
5430
  se->string_length = TYPE_MAX_VALUE (TYPE_DOMAIN (TREE_TYPE (se->expr)));
5431
  TYPE_STRING_FLAG (TREE_TYPE (se->expr)) = 1;
5432
 
5433
  if (ref)
5434
    gfc_conv_substring (se, ref, expr->ts.kind, NULL, &expr->where);
5435
}
5436
 
5437
 
5438
/* Entry point for expression translation.  Evaluates a scalar quantity.
5439
   EXPR is the expression to be translated, and SE is the state structure if
5440
   called from within the scalarized.  */
5441
 
5442
void
5443
gfc_conv_expr (gfc_se * se, gfc_expr * expr)
5444
{
5445
  gfc_ss *ss;
5446
 
5447
  ss = se->ss;
5448
  if (ss && ss->info->expr == expr
5449
      && (ss->info->type == GFC_SS_SCALAR
5450
          || ss->info->type == GFC_SS_REFERENCE))
5451
    {
5452
      gfc_ss_info *ss_info;
5453
 
5454
      ss_info = ss->info;
5455
      /* Substitute a scalar expression evaluated outside the scalarization
5456
         loop.  */
5457
      se->expr = ss_info->data.scalar.value;
5458
      /* If the reference can be NULL, the value field contains the reference,
5459
         not the value the reference points to (see gfc_add_loop_ss_code).  */
5460
      if (ss_info->data.scalar.can_be_null_ref)
5461
        se->expr = build_fold_indirect_ref_loc (input_location, se->expr);
5462
 
5463
      se->string_length = ss_info->string_length;
5464
      gfc_advance_se_ss_chain (se);
5465
      return;
5466
    }
5467
 
5468
  /* We need to convert the expressions for the iso_c_binding derived types.
5469
     C_NULL_PTR and C_NULL_FUNPTR will be made EXPR_NULL, which evaluates to
5470
     null_pointer_node.  C_PTR and C_FUNPTR are converted to match the
5471
     typespec for the C_PTR and C_FUNPTR symbols, which has already been
5472
     updated to be an integer with a kind equal to the size of a (void *).  */
5473
  if (expr->ts.type == BT_DERIVED && expr->ts.u.derived
5474
      && expr->ts.u.derived->attr.is_iso_c)
5475
    {
5476
      if (expr->expr_type == EXPR_VARIABLE
5477
          && (expr->symtree->n.sym->intmod_sym_id == ISOCBINDING_NULL_PTR
5478
              || expr->symtree->n.sym->intmod_sym_id
5479
                 == ISOCBINDING_NULL_FUNPTR))
5480
        {
5481
          /* Set expr_type to EXPR_NULL, which will result in
5482
             null_pointer_node being used below.  */
5483
          expr->expr_type = EXPR_NULL;
5484
        }
5485
      else
5486
        {
5487
          /* Update the type/kind of the expression to be what the new
5488
             type/kind are for the updated symbols of C_PTR/C_FUNPTR.  */
5489
          expr->ts.type = expr->ts.u.derived->ts.type;
5490
          expr->ts.f90_type = expr->ts.u.derived->ts.f90_type;
5491
          expr->ts.kind = expr->ts.u.derived->ts.kind;
5492
        }
5493
    }
5494
 
5495
  gfc_fix_class_refs (expr);
5496
 
5497
  switch (expr->expr_type)
5498
    {
5499
    case EXPR_OP:
5500
      gfc_conv_expr_op (se, expr);
5501
      break;
5502
 
5503
    case EXPR_FUNCTION:
5504
      gfc_conv_function_expr (se, expr);
5505
      break;
5506
 
5507
    case EXPR_CONSTANT:
5508
      gfc_conv_constant (se, expr);
5509
      break;
5510
 
5511
    case EXPR_VARIABLE:
5512
      gfc_conv_variable (se, expr);
5513
      break;
5514
 
5515
    case EXPR_NULL:
5516
      se->expr = null_pointer_node;
5517
      break;
5518
 
5519
    case EXPR_SUBSTRING:
5520
      gfc_conv_substring_expr (se, expr);
5521
      break;
5522
 
5523
    case EXPR_STRUCTURE:
5524
      gfc_conv_structure (se, expr, 0);
5525
      break;
5526
 
5527
    case EXPR_ARRAY:
5528
      gfc_conv_array_constructor_expr (se, expr);
5529
      break;
5530
 
5531
    default:
5532
      gcc_unreachable ();
5533
      break;
5534
    }
5535
}
5536
 
5537
/* Like gfc_conv_expr_val, but the value is also suitable for use in the lhs
5538
   of an assignment.  */
5539
void
5540
gfc_conv_expr_lhs (gfc_se * se, gfc_expr * expr)
5541
{
5542
  gfc_conv_expr (se, expr);
5543
  /* All numeric lvalues should have empty post chains.  If not we need to
5544
     figure out a way of rewriting an lvalue so that it has no post chain.  */
5545
  gcc_assert (expr->ts.type == BT_CHARACTER || !se->post.head);
5546
}
5547
 
5548
/* Like gfc_conv_expr, but the POST block is guaranteed to be empty for
5549
   numeric expressions.  Used for scalar values where inserting cleanup code
5550
   is inconvenient.  */
5551
void
5552
gfc_conv_expr_val (gfc_se * se, gfc_expr * expr)
5553
{
5554
  tree val;
5555
 
5556
  gcc_assert (expr->ts.type != BT_CHARACTER);
5557
  gfc_conv_expr (se, expr);
5558
  if (se->post.head)
5559
    {
5560
      val = gfc_create_var (TREE_TYPE (se->expr), NULL);
5561
      gfc_add_modify (&se->pre, val, se->expr);
5562
      se->expr = val;
5563
      gfc_add_block_to_block (&se->pre, &se->post);
5564
    }
5565
}
5566
 
5567
/* Helper to translate an expression and convert it to a particular type.  */
5568
void
5569
gfc_conv_expr_type (gfc_se * se, gfc_expr * expr, tree type)
5570
{
5571
  gfc_conv_expr_val (se, expr);
5572
  se->expr = convert (type, se->expr);
5573
}
5574
 
5575
 
5576
/* Converts an expression so that it can be passed by reference.  Scalar
5577
   values only.  */
5578
 
5579
void
5580
gfc_conv_expr_reference (gfc_se * se, gfc_expr * expr)
5581
{
5582
  gfc_ss *ss;
5583
  tree var;
5584
 
5585
  ss = se->ss;
5586
  if (ss && ss->info->expr == expr
5587
      && ss->info->type == GFC_SS_REFERENCE)
5588
    {
5589
      /* Returns a reference to the scalar evaluated outside the loop
5590
         for this case.  */
5591
      gfc_conv_expr (se, expr);
5592
      se->expr = gfc_build_addr_expr (NULL_TREE, se->expr);
5593
      return;
5594
    }
5595
 
5596
  if (expr->ts.type == BT_CHARACTER)
5597
    {
5598
      gfc_conv_expr (se, expr);
5599
      gfc_conv_string_parameter (se);
5600
      return;
5601
    }
5602
 
5603
  if (expr->expr_type == EXPR_VARIABLE)
5604
    {
5605
      se->want_pointer = 1;
5606
      gfc_conv_expr (se, expr);
5607
      if (se->post.head)
5608
        {
5609
          var = gfc_create_var (TREE_TYPE (se->expr), NULL);
5610
          gfc_add_modify (&se->pre, var, se->expr);
5611
          gfc_add_block_to_block (&se->pre, &se->post);
5612
          se->expr = var;
5613
        }
5614
      return;
5615
    }
5616
 
5617
  if (expr->expr_type == EXPR_FUNCTION
5618
      && ((expr->value.function.esym
5619
           && expr->value.function.esym->result->attr.pointer
5620
           && !expr->value.function.esym->result->attr.dimension)
5621
          || (!expr->value.function.esym
5622
              && expr->symtree->n.sym->attr.pointer
5623
              && !expr->symtree->n.sym->attr.dimension)))
5624
    {
5625
      se->want_pointer = 1;
5626
      gfc_conv_expr (se, expr);
5627
      var = gfc_create_var (TREE_TYPE (se->expr), NULL);
5628
      gfc_add_modify (&se->pre, var, se->expr);
5629
      se->expr = var;
5630
      return;
5631
    }
5632
 
5633
  gfc_conv_expr (se, expr);
5634
 
5635
  /* Create a temporary var to hold the value.  */
5636
  if (TREE_CONSTANT (se->expr))
5637
    {
5638
      tree tmp = se->expr;
5639
      STRIP_TYPE_NOPS (tmp);
5640
      var = build_decl (input_location,
5641
                        CONST_DECL, NULL, TREE_TYPE (tmp));
5642
      DECL_INITIAL (var) = tmp;
5643
      TREE_STATIC (var) = 1;
5644
      pushdecl (var);
5645
    }
5646
  else
5647
    {
5648
      var = gfc_create_var (TREE_TYPE (se->expr), NULL);
5649
      gfc_add_modify (&se->pre, var, se->expr);
5650
    }
5651
  gfc_add_block_to_block (&se->pre, &se->post);
5652
 
5653
  /* Take the address of that value.  */
5654
  se->expr = gfc_build_addr_expr (NULL_TREE, var);
5655
}
5656
 
5657
 
5658
tree
5659
gfc_trans_pointer_assign (gfc_code * code)
5660
{
5661
  return gfc_trans_pointer_assignment (code->expr1, code->expr2);
5662
}
5663
 
5664
 
5665
/* Generate code for a pointer assignment.  */
5666
 
5667
tree
5668
gfc_trans_pointer_assignment (gfc_expr * expr1, gfc_expr * expr2)
5669
{
5670
  gfc_se lse;
5671
  gfc_se rse;
5672
  gfc_ss *lss;
5673
  gfc_ss *rss;
5674
  stmtblock_t block;
5675
  tree desc;
5676
  tree tmp;
5677
  tree decl;
5678
 
5679
  gfc_start_block (&block);
5680
 
5681
  gfc_init_se (&lse, NULL);
5682
 
5683
  lss = gfc_walk_expr (expr1);
5684
  rss = gfc_walk_expr (expr2);
5685
  if (lss == gfc_ss_terminator)
5686
    {
5687
      /* Scalar pointers.  */
5688
      lse.want_pointer = 1;
5689
      gfc_conv_expr (&lse, expr1);
5690
      gcc_assert (rss == gfc_ss_terminator);
5691
      gfc_init_se (&rse, NULL);
5692
      rse.want_pointer = 1;
5693
      gfc_conv_expr (&rse, expr2);
5694
 
5695
      if (expr1->symtree->n.sym->attr.proc_pointer
5696
          && expr1->symtree->n.sym->attr.dummy)
5697
        lse.expr = build_fold_indirect_ref_loc (input_location,
5698
                                            lse.expr);
5699
 
5700
      if (expr2->symtree && expr2->symtree->n.sym->attr.proc_pointer
5701
          && expr2->symtree->n.sym->attr.dummy)
5702
        rse.expr = build_fold_indirect_ref_loc (input_location,
5703
                                            rse.expr);
5704
 
5705
      gfc_add_block_to_block (&block, &lse.pre);
5706
      gfc_add_block_to_block (&block, &rse.pre);
5707
 
5708
      /* Check character lengths if character expression.  The test is only
5709
         really added if -fbounds-check is enabled.  Exclude deferred
5710
         character length lefthand sides.  */
5711
      if (expr1->ts.type == BT_CHARACTER && expr2->expr_type != EXPR_NULL
5712
          && !(expr1->ts.deferred
5713
                        && (TREE_CODE (lse.string_length) == VAR_DECL))
5714
          && !expr1->symtree->n.sym->attr.proc_pointer
5715
          && !gfc_is_proc_ptr_comp (expr1, NULL))
5716
        {
5717
          gcc_assert (expr2->ts.type == BT_CHARACTER);
5718
          gcc_assert (lse.string_length && rse.string_length);
5719
          gfc_trans_same_strlen_check ("pointer assignment", &expr1->where,
5720
                                       lse.string_length, rse.string_length,
5721
                                       &block);
5722
        }
5723
 
5724
      /* The assignment to an deferred character length sets the string
5725
         length to that of the rhs.  */
5726
      if (expr1->ts.deferred && (TREE_CODE (lse.string_length) == VAR_DECL))
5727
        {
5728
          if (expr2->expr_type != EXPR_NULL)
5729
            gfc_add_modify (&block, lse.string_length, rse.string_length);
5730
          else
5731
            gfc_add_modify (&block, lse.string_length,
5732
                            build_int_cst (gfc_charlen_type_node, 0));
5733
        }
5734
 
5735
      gfc_add_modify (&block, lse.expr,
5736
                           fold_convert (TREE_TYPE (lse.expr), rse.expr));
5737
 
5738
      gfc_add_block_to_block (&block, &rse.post);
5739
      gfc_add_block_to_block (&block, &lse.post);
5740
    }
5741
  else
5742
    {
5743
      gfc_ref* remap;
5744
      bool rank_remap;
5745
      tree strlen_lhs;
5746
      tree strlen_rhs = NULL_TREE;
5747
 
5748
      /* Array pointer.  Find the last reference on the LHS and if it is an
5749
         array section ref, we're dealing with bounds remapping.  In this case,
5750
         set it to AR_FULL so that gfc_conv_expr_descriptor does
5751
         not see it and process the bounds remapping afterwards explicitely.  */
5752
      for (remap = expr1->ref; remap; remap = remap->next)
5753
        if (!remap->next && remap->type == REF_ARRAY
5754
            && remap->u.ar.type == AR_SECTION)
5755
          {
5756
            remap->u.ar.type = AR_FULL;
5757
            break;
5758
          }
5759
      rank_remap = (remap && remap->u.ar.end[0]);
5760
 
5761
      gfc_conv_expr_descriptor (&lse, expr1, lss);
5762
      strlen_lhs = lse.string_length;
5763
      desc = lse.expr;
5764
 
5765
      if (expr2->expr_type == EXPR_NULL)
5766
        {
5767
          /* Just set the data pointer to null.  */
5768
          gfc_conv_descriptor_data_set (&lse.pre, lse.expr, null_pointer_node);
5769
        }
5770
      else if (rank_remap)
5771
        {
5772
          /* If we are rank-remapping, just get the RHS's descriptor and
5773
             process this later on.  */
5774
          gfc_init_se (&rse, NULL);
5775
          rse.direct_byref = 1;
5776
          rse.byref_noassign = 1;
5777
          gfc_conv_expr_descriptor (&rse, expr2, rss);
5778
          strlen_rhs = rse.string_length;
5779
        }
5780
      else if (expr2->expr_type == EXPR_VARIABLE)
5781
        {
5782
          /* Assign directly to the LHS's descriptor.  */
5783
          lse.direct_byref = 1;
5784
          gfc_conv_expr_descriptor (&lse, expr2, rss);
5785
          strlen_rhs = lse.string_length;
5786
 
5787
          /* If this is a subreference array pointer assignment, use the rhs
5788
             descriptor element size for the lhs span.  */
5789
          if (expr1->symtree->n.sym->attr.subref_array_pointer)
5790
            {
5791
              decl = expr1->symtree->n.sym->backend_decl;
5792
              gfc_init_se (&rse, NULL);
5793
              rse.descriptor_only = 1;
5794
              gfc_conv_expr (&rse, expr2);
5795
              tmp = gfc_get_element_type (TREE_TYPE (rse.expr));
5796
              tmp = fold_convert (gfc_array_index_type, size_in_bytes (tmp));
5797
              if (!INTEGER_CST_P (tmp))
5798
                gfc_add_block_to_block (&lse.post, &rse.pre);
5799
              gfc_add_modify (&lse.post, GFC_DECL_SPAN(decl), tmp);
5800
            }
5801
        }
5802
      else
5803
        {
5804
          /* Assign to a temporary descriptor and then copy that
5805
             temporary to the pointer.  */
5806
          tmp = gfc_create_var (TREE_TYPE (desc), "ptrtemp");
5807
 
5808
          lse.expr = tmp;
5809
          lse.direct_byref = 1;
5810
          gfc_conv_expr_descriptor (&lse, expr2, rss);
5811
          strlen_rhs = lse.string_length;
5812
          gfc_add_modify (&lse.pre, desc, tmp);
5813
        }
5814
 
5815
      gfc_add_block_to_block (&block, &lse.pre);
5816
      if (rank_remap)
5817
        gfc_add_block_to_block (&block, &rse.pre);
5818
 
5819
      /* If we do bounds remapping, update LHS descriptor accordingly.  */
5820
      if (remap)
5821
        {
5822
          int dim;
5823
          gcc_assert (remap->u.ar.dimen == expr1->rank);
5824
 
5825
          if (rank_remap)
5826
            {
5827
              /* Do rank remapping.  We already have the RHS's descriptor
5828
                 converted in rse and now have to build the correct LHS
5829
                 descriptor for it.  */
5830
 
5831
              tree dtype, data;
5832
              tree offs, stride;
5833
              tree lbound, ubound;
5834
 
5835
              /* Set dtype.  */
5836
              dtype = gfc_conv_descriptor_dtype (desc);
5837
              tmp = gfc_get_dtype (TREE_TYPE (desc));
5838
              gfc_add_modify (&block, dtype, tmp);
5839
 
5840
              /* Copy data pointer.  */
5841
              data = gfc_conv_descriptor_data_get (rse.expr);
5842
              gfc_conv_descriptor_data_set (&block, desc, data);
5843
 
5844
              /* Copy offset but adjust it such that it would correspond
5845
                 to a lbound of zero.  */
5846
              offs = gfc_conv_descriptor_offset_get (rse.expr);
5847
              for (dim = 0; dim < expr2->rank; ++dim)
5848
                {
5849
                  stride = gfc_conv_descriptor_stride_get (rse.expr,
5850
                                                           gfc_rank_cst[dim]);
5851
                  lbound = gfc_conv_descriptor_lbound_get (rse.expr,
5852
                                                           gfc_rank_cst[dim]);
5853
                  tmp = fold_build2_loc (input_location, MULT_EXPR,
5854
                                         gfc_array_index_type, stride, lbound);
5855
                  offs = fold_build2_loc (input_location, PLUS_EXPR,
5856
                                          gfc_array_index_type, offs, tmp);
5857
                }
5858
              gfc_conv_descriptor_offset_set (&block, desc, offs);
5859
 
5860
              /* Set the bounds as declared for the LHS and calculate strides as
5861
                 well as another offset update accordingly.  */
5862
              stride = gfc_conv_descriptor_stride_get (rse.expr,
5863
                                                       gfc_rank_cst[0]);
5864
              for (dim = 0; dim < expr1->rank; ++dim)
5865
                {
5866
                  gfc_se lower_se;
5867
                  gfc_se upper_se;
5868
 
5869
                  gcc_assert (remap->u.ar.start[dim] && remap->u.ar.end[dim]);
5870
 
5871
                  /* Convert declared bounds.  */
5872
                  gfc_init_se (&lower_se, NULL);
5873
                  gfc_init_se (&upper_se, NULL);
5874
                  gfc_conv_expr (&lower_se, remap->u.ar.start[dim]);
5875
                  gfc_conv_expr (&upper_se, remap->u.ar.end[dim]);
5876
 
5877
                  gfc_add_block_to_block (&block, &lower_se.pre);
5878
                  gfc_add_block_to_block (&block, &upper_se.pre);
5879
 
5880
                  lbound = fold_convert (gfc_array_index_type, lower_se.expr);
5881
                  ubound = fold_convert (gfc_array_index_type, upper_se.expr);
5882
 
5883
                  lbound = gfc_evaluate_now (lbound, &block);
5884
                  ubound = gfc_evaluate_now (ubound, &block);
5885
 
5886
                  gfc_add_block_to_block (&block, &lower_se.post);
5887
                  gfc_add_block_to_block (&block, &upper_se.post);
5888
 
5889
                  /* Set bounds in descriptor.  */
5890
                  gfc_conv_descriptor_lbound_set (&block, desc,
5891
                                                  gfc_rank_cst[dim], lbound);
5892
                  gfc_conv_descriptor_ubound_set (&block, desc,
5893
                                                  gfc_rank_cst[dim], ubound);
5894
 
5895
                  /* Set stride.  */
5896
                  stride = gfc_evaluate_now (stride, &block);
5897
                  gfc_conv_descriptor_stride_set (&block, desc,
5898
                                                  gfc_rank_cst[dim], stride);
5899
 
5900
                  /* Update offset.  */
5901
                  offs = gfc_conv_descriptor_offset_get (desc);
5902
                  tmp = fold_build2_loc (input_location, MULT_EXPR,
5903
                                         gfc_array_index_type, lbound, stride);
5904
                  offs = fold_build2_loc (input_location, MINUS_EXPR,
5905
                                          gfc_array_index_type, offs, tmp);
5906
                  offs = gfc_evaluate_now (offs, &block);
5907
                  gfc_conv_descriptor_offset_set (&block, desc, offs);
5908
 
5909
                  /* Update stride.  */
5910
                  tmp = gfc_conv_array_extent_dim (lbound, ubound, NULL);
5911
                  stride = fold_build2_loc (input_location, MULT_EXPR,
5912
                                            gfc_array_index_type, stride, tmp);
5913
                }
5914
            }
5915
          else
5916
            {
5917
              /* Bounds remapping.  Just shift the lower bounds.  */
5918
 
5919
              gcc_assert (expr1->rank == expr2->rank);
5920
 
5921
              for (dim = 0; dim < remap->u.ar.dimen; ++dim)
5922
                {
5923
                  gfc_se lbound_se;
5924
 
5925
                  gcc_assert (remap->u.ar.start[dim]);
5926
                  gcc_assert (!remap->u.ar.end[dim]);
5927
                  gfc_init_se (&lbound_se, NULL);
5928
                  gfc_conv_expr (&lbound_se, remap->u.ar.start[dim]);
5929
 
5930
                  gfc_add_block_to_block (&block, &lbound_se.pre);
5931
                  gfc_conv_shift_descriptor_lbound (&block, desc,
5932
                                                    dim, lbound_se.expr);
5933
                  gfc_add_block_to_block (&block, &lbound_se.post);
5934
                }
5935
            }
5936
        }
5937
 
5938
      /* Check string lengths if applicable.  The check is only really added
5939
         to the output code if -fbounds-check is enabled.  */
5940
      if (expr1->ts.type == BT_CHARACTER && expr2->expr_type != EXPR_NULL)
5941
        {
5942
          gcc_assert (expr2->ts.type == BT_CHARACTER);
5943
          gcc_assert (strlen_lhs && strlen_rhs);
5944
          gfc_trans_same_strlen_check ("pointer assignment", &expr1->where,
5945
                                       strlen_lhs, strlen_rhs, &block);
5946
        }
5947
 
5948
      /* If rank remapping was done, check with -fcheck=bounds that
5949
         the target is at least as large as the pointer.  */
5950
      if (rank_remap && (gfc_option.rtcheck & GFC_RTCHECK_BOUNDS))
5951
        {
5952
          tree lsize, rsize;
5953
          tree fault;
5954
          const char* msg;
5955
 
5956
          lsize = gfc_conv_descriptor_size (lse.expr, expr1->rank);
5957
          rsize = gfc_conv_descriptor_size (rse.expr, expr2->rank);
5958
 
5959
          lsize = gfc_evaluate_now (lsize, &block);
5960
          rsize = gfc_evaluate_now (rsize, &block);
5961
          fault = fold_build2_loc (input_location, LT_EXPR, boolean_type_node,
5962
                                   rsize, lsize);
5963
 
5964
          msg = _("Target of rank remapping is too small (%ld < %ld)");
5965
          gfc_trans_runtime_check (true, false, fault, &block, &expr2->where,
5966
                                   msg, rsize, lsize);
5967
        }
5968
 
5969
      gfc_add_block_to_block (&block, &lse.post);
5970
      if (rank_remap)
5971
        gfc_add_block_to_block (&block, &rse.post);
5972
    }
5973
 
5974
  return gfc_finish_block (&block);
5975
}
5976
 
5977
 
5978
/* Makes sure se is suitable for passing as a function string parameter.  */
5979
/* TODO: Need to check all callers of this function.  It may be abused.  */
5980
 
5981
void
5982
gfc_conv_string_parameter (gfc_se * se)
5983
{
5984
  tree type;
5985
 
5986
  if (TREE_CODE (se->expr) == STRING_CST)
5987
    {
5988
      type = TREE_TYPE (TREE_TYPE (se->expr));
5989
      se->expr = gfc_build_addr_expr (build_pointer_type (type), se->expr);
5990
      return;
5991
    }
5992
 
5993
  if (TYPE_STRING_FLAG (TREE_TYPE (se->expr)))
5994
    {
5995
      if (TREE_CODE (se->expr) != INDIRECT_REF)
5996
        {
5997
          type = TREE_TYPE (se->expr);
5998
          se->expr = gfc_build_addr_expr (build_pointer_type (type), se->expr);
5999
        }
6000
      else
6001
        {
6002
          type = gfc_get_character_type_len (gfc_default_character_kind,
6003
                                             se->string_length);
6004
          type = build_pointer_type (type);
6005
          se->expr = gfc_build_addr_expr (type, se->expr);
6006
        }
6007
    }
6008
 
6009
  gcc_assert (POINTER_TYPE_P (TREE_TYPE (se->expr)));
6010
}
6011
 
6012
 
6013
/* Generate code for assignment of scalar variables.  Includes character
6014
   strings and derived types with allocatable components.
6015
   If you know that the LHS has no allocations, set dealloc to false.  */
6016
 
6017
tree
6018
gfc_trans_scalar_assign (gfc_se * lse, gfc_se * rse, gfc_typespec ts,
6019
                         bool l_is_temp, bool r_is_var, bool dealloc)
6020
{
6021
  stmtblock_t block;
6022
  tree tmp;
6023
  tree cond;
6024
 
6025
  gfc_init_block (&block);
6026
 
6027
  if (ts.type == BT_CHARACTER)
6028
    {
6029
      tree rlen = NULL;
6030
      tree llen = NULL;
6031
 
6032
      if (lse->string_length != NULL_TREE)
6033
        {
6034
          gfc_conv_string_parameter (lse);
6035
          gfc_add_block_to_block (&block, &lse->pre);
6036
          llen = lse->string_length;
6037
        }
6038
 
6039
      if (rse->string_length != NULL_TREE)
6040
        {
6041
          gcc_assert (rse->string_length != NULL_TREE);
6042
          gfc_conv_string_parameter (rse);
6043
          gfc_add_block_to_block (&block, &rse->pre);
6044
          rlen = rse->string_length;
6045
        }
6046
 
6047
      gfc_trans_string_copy (&block, llen, lse->expr, ts.kind, rlen,
6048
                             rse->expr, ts.kind);
6049
    }
6050
  else if (ts.type == BT_DERIVED && ts.u.derived->attr.alloc_comp)
6051
    {
6052
      cond = NULL_TREE;
6053
 
6054
      /* Are the rhs and the lhs the same?  */
6055
      if (r_is_var)
6056
        {
6057
          cond = fold_build2_loc (input_location, EQ_EXPR, boolean_type_node,
6058
                                  gfc_build_addr_expr (NULL_TREE, lse->expr),
6059
                                  gfc_build_addr_expr (NULL_TREE, rse->expr));
6060
          cond = gfc_evaluate_now (cond, &lse->pre);
6061
        }
6062
 
6063
      /* Deallocate the lhs allocated components as long as it is not
6064
         the same as the rhs.  This must be done following the assignment
6065
         to prevent deallocating data that could be used in the rhs
6066
         expression.  */
6067
      if (!l_is_temp && dealloc)
6068
        {
6069
          tmp = gfc_evaluate_now (lse->expr, &lse->pre);
6070
          tmp = gfc_deallocate_alloc_comp (ts.u.derived, tmp, 0);
6071
          if (r_is_var)
6072
            tmp = build3_v (COND_EXPR, cond, build_empty_stmt (input_location),
6073
                            tmp);
6074
          gfc_add_expr_to_block (&lse->post, tmp);
6075
        }
6076
 
6077
      gfc_add_block_to_block (&block, &rse->pre);
6078
      gfc_add_block_to_block (&block, &lse->pre);
6079
 
6080
      gfc_add_modify (&block, lse->expr,
6081
                           fold_convert (TREE_TYPE (lse->expr), rse->expr));
6082
 
6083
      /* Do a deep copy if the rhs is a variable, if it is not the
6084
         same as the lhs.  */
6085
      if (r_is_var)
6086
        {
6087
          tmp = gfc_copy_alloc_comp (ts.u.derived, rse->expr, lse->expr, 0);
6088
          tmp = build3_v (COND_EXPR, cond, build_empty_stmt (input_location),
6089
                          tmp);
6090
          gfc_add_expr_to_block (&block, tmp);
6091
        }
6092
    }
6093
  else if (ts.type == BT_DERIVED || ts.type == BT_CLASS)
6094
    {
6095
      gfc_add_block_to_block (&block, &lse->pre);
6096
      gfc_add_block_to_block (&block, &rse->pre);
6097
      tmp = fold_build1_loc (input_location, VIEW_CONVERT_EXPR,
6098
                             TREE_TYPE (lse->expr), rse->expr);
6099
      gfc_add_modify (&block, lse->expr, tmp);
6100
    }
6101
  else
6102
    {
6103
      gfc_add_block_to_block (&block, &lse->pre);
6104
      gfc_add_block_to_block (&block, &rse->pre);
6105
 
6106
      gfc_add_modify (&block, lse->expr,
6107
                      fold_convert (TREE_TYPE (lse->expr), rse->expr));
6108
    }
6109
 
6110
  gfc_add_block_to_block (&block, &lse->post);
6111
  gfc_add_block_to_block (&block, &rse->post);
6112
 
6113
  return gfc_finish_block (&block);
6114
}
6115
 
6116
 
6117
/* There are quite a lot of restrictions on the optimisation in using an
6118
   array function assign without a temporary.  */
6119
 
6120
static bool
6121
arrayfunc_assign_needs_temporary (gfc_expr * expr1, gfc_expr * expr2)
6122
{
6123
  gfc_ref * ref;
6124
  bool seen_array_ref;
6125
  bool c = false;
6126
  gfc_symbol *sym = expr1->symtree->n.sym;
6127
 
6128
  /* The caller has already checked rank>0 and expr_type == EXPR_FUNCTION.  */
6129
  if (expr2->value.function.isym && !gfc_is_intrinsic_libcall (expr2))
6130
    return true;
6131
 
6132
  /* Elemental functions are scalarized so that they don't need a
6133
     temporary in gfc_trans_assignment_1, so return a true.  Otherwise,
6134
     they would need special treatment in gfc_trans_arrayfunc_assign.  */
6135
  if (expr2->value.function.esym != NULL
6136
      && expr2->value.function.esym->attr.elemental)
6137
    return true;
6138
 
6139
  /* Need a temporary if rhs is not FULL or a contiguous section.  */
6140
  if (expr1->ref && !(gfc_full_array_ref_p (expr1->ref, &c) || c))
6141
    return true;
6142
 
6143
  /* Need a temporary if EXPR1 can't be expressed as a descriptor.  */
6144
  if (gfc_ref_needs_temporary_p (expr1->ref))
6145
    return true;
6146
 
6147
  /* Functions returning pointers or allocatables need temporaries.  */
6148
  c = expr2->value.function.esym
6149
      ? (expr2->value.function.esym->attr.pointer
6150
         || expr2->value.function.esym->attr.allocatable)
6151
      : (expr2->symtree->n.sym->attr.pointer
6152
         || expr2->symtree->n.sym->attr.allocatable);
6153
  if (c)
6154
    return true;
6155
 
6156
  /* Character array functions need temporaries unless the
6157
     character lengths are the same.  */
6158
  if (expr2->ts.type == BT_CHARACTER && expr2->rank > 0)
6159
    {
6160
      if (expr1->ts.u.cl->length == NULL
6161
            || expr1->ts.u.cl->length->expr_type != EXPR_CONSTANT)
6162
        return true;
6163
 
6164
      if (expr2->ts.u.cl->length == NULL
6165
            || expr2->ts.u.cl->length->expr_type != EXPR_CONSTANT)
6166
        return true;
6167
 
6168
      if (mpz_cmp (expr1->ts.u.cl->length->value.integer,
6169
                     expr2->ts.u.cl->length->value.integer) != 0)
6170
        return true;
6171
    }
6172
 
6173
  /* Check that no LHS component references appear during an array
6174
     reference. This is needed because we do not have the means to
6175
     span any arbitrary stride with an array descriptor. This check
6176
     is not needed for the rhs because the function result has to be
6177
     a complete type.  */
6178
  seen_array_ref = false;
6179
  for (ref = expr1->ref; ref; ref = ref->next)
6180
    {
6181
      if (ref->type == REF_ARRAY)
6182
        seen_array_ref= true;
6183
      else if (ref->type == REF_COMPONENT && seen_array_ref)
6184
        return true;
6185
    }
6186
 
6187
  /* Check for a dependency.  */
6188
  if (gfc_check_fncall_dependency (expr1, INTENT_OUT,
6189
                                   expr2->value.function.esym,
6190
                                   expr2->value.function.actual,
6191
                                   NOT_ELEMENTAL))
6192
    return true;
6193
 
6194
  /* If we have reached here with an intrinsic function, we do not
6195
     need a temporary except in the particular case that reallocation
6196
     on assignment is active and the lhs is allocatable and a target.  */
6197
  if (expr2->value.function.isym)
6198
    return (gfc_option.flag_realloc_lhs
6199
              && sym->attr.allocatable
6200
              && sym->attr.target);
6201
 
6202
  /* If the LHS is a dummy, we need a temporary if it is not
6203
     INTENT(OUT).  */
6204
  if (sym->attr.dummy && sym->attr.intent != INTENT_OUT)
6205
    return true;
6206
 
6207
  /* If the lhs has been host_associated, is in common, a pointer or is
6208
     a target and the function is not using a RESULT variable, aliasing
6209
     can occur and a temporary is needed.  */
6210
  if ((sym->attr.host_assoc
6211
           || sym->attr.in_common
6212
           || sym->attr.pointer
6213
           || sym->attr.cray_pointee
6214
           || sym->attr.target)
6215
        && expr2->symtree != NULL
6216
        && expr2->symtree->n.sym == expr2->symtree->n.sym->result)
6217
    return true;
6218
 
6219
  /* A PURE function can unconditionally be called without a temporary.  */
6220
  if (expr2->value.function.esym != NULL
6221
      && expr2->value.function.esym->attr.pure)
6222
    return false;
6223
 
6224
  /* Implicit_pure functions are those which could legally be declared
6225
     to be PURE.  */
6226
  if (expr2->value.function.esym != NULL
6227
      && expr2->value.function.esym->attr.implicit_pure)
6228
    return false;
6229
 
6230
  if (!sym->attr.use_assoc
6231
        && !sym->attr.in_common
6232
        && !sym->attr.pointer
6233
        && !sym->attr.target
6234
        && !sym->attr.cray_pointee
6235
        && expr2->value.function.esym)
6236
    {
6237
      /* A temporary is not needed if the function is not contained and
6238
         the variable is local or host associated and not a pointer or
6239
         a target. */
6240
      if (!expr2->value.function.esym->attr.contained)
6241
        return false;
6242
 
6243
      /* A temporary is not needed if the lhs has never been host
6244
         associated and the procedure is contained.  */
6245
      else if (!sym->attr.host_assoc)
6246
        return false;
6247
 
6248
      /* A temporary is not needed if the variable is local and not
6249
         a pointer, a target or a result.  */
6250
      if (sym->ns->parent
6251
            && expr2->value.function.esym->ns == sym->ns->parent)
6252
        return false;
6253
    }
6254
 
6255
  /* Default to temporary use.  */
6256
  return true;
6257
}
6258
 
6259
 
6260
/* Provide the loop info so that the lhs descriptor can be built for
6261
   reallocatable assignments from extrinsic function calls.  */
6262
 
6263
static void
6264
realloc_lhs_loop_for_fcn_call (gfc_se *se, locus *where, gfc_ss **ss,
6265
                               gfc_loopinfo *loop)
6266
{
6267
  /* Signal that the function call should not be made by
6268
     gfc_conv_loop_setup. */
6269
  se->ss->is_alloc_lhs = 1;
6270
  gfc_init_loopinfo (loop);
6271
  gfc_add_ss_to_loop (loop, *ss);
6272
  gfc_add_ss_to_loop (loop, se->ss);
6273
  gfc_conv_ss_startstride (loop);
6274
  gfc_conv_loop_setup (loop, where);
6275
  gfc_copy_loopinfo_to_se (se, loop);
6276
  gfc_add_block_to_block (&se->pre, &loop->pre);
6277
  gfc_add_block_to_block (&se->pre, &loop->post);
6278
  se->ss->is_alloc_lhs = 0;
6279
}
6280
 
6281
 
6282
/* For assignment to a reallocatable lhs from intrinsic functions,
6283
   replace the se.expr (ie. the result) with a temporary descriptor.
6284
   Null the data field so that the library allocates space for the
6285
   result. Free the data of the original descriptor after the function,
6286
   in case it appears in an argument expression and transfer the
6287
   result to the original descriptor.  */
6288
 
6289
static void
6290
fcncall_realloc_result (gfc_se *se, int rank)
6291
{
6292
  tree desc;
6293
  tree res_desc;
6294
  tree tmp;
6295
  tree offset;
6296
  tree zero_cond;
6297
  int n;
6298
 
6299
  /* Use the allocation done by the library.  Substitute the lhs
6300
     descriptor with a copy, whose data field is nulled.*/
6301
  desc = build_fold_indirect_ref_loc (input_location, se->expr);
6302
  if (POINTER_TYPE_P (TREE_TYPE (desc)))
6303
    desc = build_fold_indirect_ref_loc (input_location, desc);
6304
 
6305
  /* Unallocated, the descriptor does not have a dtype.  */
6306
  tmp = gfc_conv_descriptor_dtype (desc);
6307
  gfc_add_modify (&se->pre, tmp, gfc_get_dtype (TREE_TYPE (desc)));
6308
 
6309
  res_desc = gfc_evaluate_now (desc, &se->pre);
6310
  gfc_conv_descriptor_data_set (&se->pre, res_desc, null_pointer_node);
6311
  se->expr = gfc_build_addr_expr (TREE_TYPE (se->expr), res_desc);
6312
 
6313
  /* Free the lhs after the function call and copy the result data to
6314
     the lhs descriptor.  */
6315
  tmp = gfc_conv_descriptor_data_get (desc);
6316
  zero_cond = fold_build2_loc (input_location, EQ_EXPR,
6317
                               boolean_type_node, tmp,
6318
                               build_int_cst (TREE_TYPE (tmp), 0));
6319
  zero_cond = gfc_evaluate_now (zero_cond, &se->post);
6320
  tmp = gfc_call_free (fold_convert (pvoid_type_node, tmp));
6321
  gfc_add_expr_to_block (&se->post, tmp);
6322
 
6323
  tmp = gfc_conv_descriptor_data_get (res_desc);
6324
  gfc_conv_descriptor_data_set (&se->post, desc, tmp);
6325
 
6326
  /* Check that the shapes are the same between lhs and expression.  */
6327
  for (n = 0 ; n < rank; n++)
6328
    {
6329
      tree tmp1;
6330
      tmp = gfc_conv_descriptor_lbound_get (desc, gfc_rank_cst[n]);
6331
      tmp1 = gfc_conv_descriptor_lbound_get (res_desc, gfc_rank_cst[n]);
6332
      tmp = fold_build2_loc (input_location, MINUS_EXPR,
6333
                             gfc_array_index_type, tmp, tmp1);
6334
      tmp1 = gfc_conv_descriptor_ubound_get (desc, gfc_rank_cst[n]);
6335
      tmp = fold_build2_loc (input_location, MINUS_EXPR,
6336
                             gfc_array_index_type, tmp, tmp1);
6337
      tmp1 = gfc_conv_descriptor_ubound_get (res_desc, gfc_rank_cst[n]);
6338
      tmp = fold_build2_loc (input_location, PLUS_EXPR,
6339
                             gfc_array_index_type, tmp, tmp1);
6340
      tmp = fold_build2_loc (input_location, NE_EXPR,
6341
                             boolean_type_node, tmp,
6342
                             gfc_index_zero_node);
6343
      tmp = gfc_evaluate_now (tmp, &se->post);
6344
      zero_cond = fold_build2_loc (input_location, TRUTH_OR_EXPR,
6345
                                   boolean_type_node, tmp,
6346
                                   zero_cond);
6347
    }
6348
 
6349
  /* 'zero_cond' being true is equal to lhs not being allocated or the
6350
     shapes being different.  */
6351
  zero_cond = gfc_evaluate_now (zero_cond, &se->post);
6352
 
6353
  /* Now reset the bounds returned from the function call to bounds based
6354
     on the lhs lbounds, except where the lhs is not allocated or the shapes
6355
     of 'variable and 'expr' are different. Set the offset accordingly.  */
6356
  offset = gfc_index_zero_node;
6357
  for (n = 0 ; n < rank; n++)
6358
    {
6359
      tree lbound;
6360
 
6361
      lbound = gfc_conv_descriptor_lbound_get (desc, gfc_rank_cst[n]);
6362
      lbound = fold_build3_loc (input_location, COND_EXPR,
6363
                                gfc_array_index_type, zero_cond,
6364
                                gfc_index_one_node, lbound);
6365
      lbound = gfc_evaluate_now (lbound, &se->post);
6366
 
6367
      tmp = gfc_conv_descriptor_ubound_get (res_desc, gfc_rank_cst[n]);
6368
      tmp = fold_build2_loc (input_location, PLUS_EXPR,
6369
                             gfc_array_index_type, tmp, lbound);
6370
      gfc_conv_descriptor_lbound_set (&se->post, desc,
6371
                                      gfc_rank_cst[n], lbound);
6372
      gfc_conv_descriptor_ubound_set (&se->post, desc,
6373
                                      gfc_rank_cst[n], tmp);
6374
 
6375
      /* Set stride and accumulate the offset.  */
6376
      tmp = gfc_conv_descriptor_stride_get (res_desc, gfc_rank_cst[n]);
6377
      gfc_conv_descriptor_stride_set (&se->post, desc,
6378
                                      gfc_rank_cst[n], tmp);
6379
      tmp = fold_build2_loc (input_location, MULT_EXPR,
6380
                             gfc_array_index_type, lbound, tmp);
6381
      offset = fold_build2_loc (input_location, MINUS_EXPR,
6382
                                gfc_array_index_type, offset, tmp);
6383
      offset = gfc_evaluate_now (offset, &se->post);
6384
    }
6385
 
6386
  gfc_conv_descriptor_offset_set (&se->post, desc, offset);
6387
}
6388
 
6389
 
6390
 
6391
/* Try to translate array(:) = func (...), where func is a transformational
6392
   array function, without using a temporary.  Returns NULL if this isn't the
6393
   case.  */
6394
 
6395
static tree
6396
gfc_trans_arrayfunc_assign (gfc_expr * expr1, gfc_expr * expr2)
6397
{
6398
  gfc_se se;
6399
  gfc_ss *ss;
6400
  gfc_component *comp = NULL;
6401
  gfc_loopinfo loop;
6402
 
6403
  if (arrayfunc_assign_needs_temporary (expr1, expr2))
6404
    return NULL;
6405
 
6406
  /* The frontend doesn't seem to bother filling in expr->symtree for intrinsic
6407
     functions.  */
6408
  gcc_assert (expr2->value.function.isym
6409
              || (gfc_is_proc_ptr_comp (expr2, &comp)
6410
                  && comp && comp->attr.dimension)
6411
              || (!comp && gfc_return_by_reference (expr2->value.function.esym)
6412
                  && expr2->value.function.esym->result->attr.dimension));
6413
 
6414
  ss = gfc_walk_expr (expr1);
6415
  gcc_assert (ss != gfc_ss_terminator);
6416
  gfc_init_se (&se, NULL);
6417
  gfc_start_block (&se.pre);
6418
  se.want_pointer = 1;
6419
 
6420
  gfc_conv_array_parameter (&se, expr1, ss, false, NULL, NULL, NULL);
6421
 
6422
  if (expr1->ts.type == BT_DERIVED
6423
        && expr1->ts.u.derived->attr.alloc_comp)
6424
    {
6425
      tree tmp;
6426
      tmp = gfc_deallocate_alloc_comp (expr1->ts.u.derived, se.expr,
6427
                                       expr1->rank);
6428
      gfc_add_expr_to_block (&se.pre, tmp);
6429
    }
6430
 
6431
  se.direct_byref = 1;
6432
  se.ss = gfc_walk_expr (expr2);
6433
  gcc_assert (se.ss != gfc_ss_terminator);
6434
 
6435
  /* Reallocate on assignment needs the loopinfo for extrinsic functions.
6436
     This is signalled to gfc_conv_procedure_call by setting is_alloc_lhs.
6437
     Clearly, this cannot be done for an allocatable function result, since
6438
     the shape of the result is unknown and, in any case, the function must
6439
     correctly take care of the reallocation internally. For intrinsic
6440
     calls, the array data is freed and the library takes care of allocation.
6441
     TODO: Add logic of trans-array.c: gfc_alloc_allocatable_for_assignment
6442
     to the library.  */
6443
  if (gfc_option.flag_realloc_lhs
6444
        && gfc_is_reallocatable_lhs (expr1)
6445
        && !gfc_expr_attr (expr1).codimension
6446
        && !gfc_is_coindexed (expr1)
6447
        && !(expr2->value.function.esym
6448
            && expr2->value.function.esym->result->attr.allocatable))
6449
    {
6450
      if (!expr2->value.function.isym)
6451
        {
6452
          realloc_lhs_loop_for_fcn_call (&se, &expr1->where, &ss, &loop);
6453
          ss->is_alloc_lhs = 1;
6454
        }
6455
      else
6456
        fcncall_realloc_result (&se, expr1->rank);
6457
    }
6458
 
6459
  gfc_conv_function_expr (&se, expr2);
6460
  gfc_add_block_to_block (&se.pre, &se.post);
6461
 
6462
  return gfc_finish_block (&se.pre);
6463
}
6464
 
6465
 
6466
/* Try to efficiently translate array(:) = 0.  Return NULL if this
6467
   can't be done.  */
6468
 
6469
static tree
6470
gfc_trans_zero_assign (gfc_expr * expr)
6471
{
6472
  tree dest, len, type;
6473
  tree tmp;
6474
  gfc_symbol *sym;
6475
 
6476
  sym = expr->symtree->n.sym;
6477
  dest = gfc_get_symbol_decl (sym);
6478
 
6479
  type = TREE_TYPE (dest);
6480
  if (POINTER_TYPE_P (type))
6481
    type = TREE_TYPE (type);
6482
  if (!GFC_ARRAY_TYPE_P (type))
6483
    return NULL_TREE;
6484
 
6485
  /* Determine the length of the array.  */
6486
  len = GFC_TYPE_ARRAY_SIZE (type);
6487
  if (!len || TREE_CODE (len) != INTEGER_CST)
6488
    return NULL_TREE;
6489
 
6490
  tmp = TYPE_SIZE_UNIT (gfc_get_element_type (type));
6491
  len = fold_build2_loc (input_location, MULT_EXPR, gfc_array_index_type, len,
6492
                         fold_convert (gfc_array_index_type, tmp));
6493
 
6494
  /* If we are zeroing a local array avoid taking its address by emitting
6495
     a = {} instead.  */
6496
  if (!POINTER_TYPE_P (TREE_TYPE (dest)))
6497
    return build2_loc (input_location, MODIFY_EXPR, void_type_node,
6498
                       dest, build_constructor (TREE_TYPE (dest), NULL));
6499
 
6500
  /* Convert arguments to the correct types.  */
6501
  dest = fold_convert (pvoid_type_node, dest);
6502
  len = fold_convert (size_type_node, len);
6503
 
6504
  /* Construct call to __builtin_memset.  */
6505
  tmp = build_call_expr_loc (input_location,
6506
                             builtin_decl_explicit (BUILT_IN_MEMSET),
6507
                             3, dest, integer_zero_node, len);
6508
  return fold_convert (void_type_node, tmp);
6509
}
6510
 
6511
 
6512
/* Helper for gfc_trans_array_copy and gfc_trans_array_constructor_copy
6513
   that constructs the call to __builtin_memcpy.  */
6514
 
6515
tree
6516
gfc_build_memcpy_call (tree dst, tree src, tree len)
6517
{
6518
  tree tmp;
6519
 
6520
  /* Convert arguments to the correct types.  */
6521
  if (!POINTER_TYPE_P (TREE_TYPE (dst)))
6522
    dst = gfc_build_addr_expr (pvoid_type_node, dst);
6523
  else
6524
    dst = fold_convert (pvoid_type_node, dst);
6525
 
6526
  if (!POINTER_TYPE_P (TREE_TYPE (src)))
6527
    src = gfc_build_addr_expr (pvoid_type_node, src);
6528
  else
6529
    src = fold_convert (pvoid_type_node, src);
6530
 
6531
  len = fold_convert (size_type_node, len);
6532
 
6533
  /* Construct call to __builtin_memcpy.  */
6534
  tmp = build_call_expr_loc (input_location,
6535
                             builtin_decl_explicit (BUILT_IN_MEMCPY),
6536
                             3, dst, src, len);
6537
  return fold_convert (void_type_node, tmp);
6538
}
6539
 
6540
 
6541
/* Try to efficiently translate dst(:) = src(:).  Return NULL if this
6542
   can't be done.  EXPR1 is the destination/lhs and EXPR2 is the
6543
   source/rhs, both are gfc_full_array_ref_p which have been checked for
6544
   dependencies.  */
6545
 
6546
static tree
6547
gfc_trans_array_copy (gfc_expr * expr1, gfc_expr * expr2)
6548
{
6549
  tree dst, dlen, dtype;
6550
  tree src, slen, stype;
6551
  tree tmp;
6552
 
6553
  dst = gfc_get_symbol_decl (expr1->symtree->n.sym);
6554
  src = gfc_get_symbol_decl (expr2->symtree->n.sym);
6555
 
6556
  dtype = TREE_TYPE (dst);
6557
  if (POINTER_TYPE_P (dtype))
6558
    dtype = TREE_TYPE (dtype);
6559
  stype = TREE_TYPE (src);
6560
  if (POINTER_TYPE_P (stype))
6561
    stype = TREE_TYPE (stype);
6562
 
6563
  if (!GFC_ARRAY_TYPE_P (dtype) || !GFC_ARRAY_TYPE_P (stype))
6564
    return NULL_TREE;
6565
 
6566
  /* Determine the lengths of the arrays.  */
6567
  dlen = GFC_TYPE_ARRAY_SIZE (dtype);
6568
  if (!dlen || TREE_CODE (dlen) != INTEGER_CST)
6569
    return NULL_TREE;
6570
  tmp = TYPE_SIZE_UNIT (gfc_get_element_type (dtype));
6571
  dlen = fold_build2_loc (input_location, MULT_EXPR, gfc_array_index_type,
6572
                          dlen, fold_convert (gfc_array_index_type, tmp));
6573
 
6574
  slen = GFC_TYPE_ARRAY_SIZE (stype);
6575
  if (!slen || TREE_CODE (slen) != INTEGER_CST)
6576
    return NULL_TREE;
6577
  tmp = TYPE_SIZE_UNIT (gfc_get_element_type (stype));
6578
  slen = fold_build2_loc (input_location, MULT_EXPR, gfc_array_index_type,
6579
                          slen, fold_convert (gfc_array_index_type, tmp));
6580
 
6581
  /* Sanity check that they are the same.  This should always be
6582
     the case, as we should already have checked for conformance.  */
6583
  if (!tree_int_cst_equal (slen, dlen))
6584
    return NULL_TREE;
6585
 
6586
  return gfc_build_memcpy_call (dst, src, dlen);
6587
}
6588
 
6589
 
6590
/* Try to efficiently translate array(:) = (/ ... /).  Return NULL if
6591
   this can't be done.  EXPR1 is the destination/lhs for which
6592
   gfc_full_array_ref_p is true, and EXPR2 is the source/rhs.  */
6593
 
6594
static tree
6595
gfc_trans_array_constructor_copy (gfc_expr * expr1, gfc_expr * expr2)
6596
{
6597
  unsigned HOST_WIDE_INT nelem;
6598
  tree dst, dtype;
6599
  tree src, stype;
6600
  tree len;
6601
  tree tmp;
6602
 
6603
  nelem = gfc_constant_array_constructor_p (expr2->value.constructor);
6604
  if (nelem == 0)
6605
    return NULL_TREE;
6606
 
6607
  dst = gfc_get_symbol_decl (expr1->symtree->n.sym);
6608
  dtype = TREE_TYPE (dst);
6609
  if (POINTER_TYPE_P (dtype))
6610
    dtype = TREE_TYPE (dtype);
6611
  if (!GFC_ARRAY_TYPE_P (dtype))
6612
    return NULL_TREE;
6613
 
6614
  /* Determine the lengths of the array.  */
6615
  len = GFC_TYPE_ARRAY_SIZE (dtype);
6616
  if (!len || TREE_CODE (len) != INTEGER_CST)
6617
    return NULL_TREE;
6618
 
6619
  /* Confirm that the constructor is the same size.  */
6620
  if (compare_tree_int (len, nelem) != 0)
6621
    return NULL_TREE;
6622
 
6623
  tmp = TYPE_SIZE_UNIT (gfc_get_element_type (dtype));
6624
  len = fold_build2_loc (input_location, MULT_EXPR, gfc_array_index_type, len,
6625
                         fold_convert (gfc_array_index_type, tmp));
6626
 
6627
  stype = gfc_typenode_for_spec (&expr2->ts);
6628
  src = gfc_build_constant_array_constructor (expr2, stype);
6629
 
6630
  stype = TREE_TYPE (src);
6631
  if (POINTER_TYPE_P (stype))
6632
    stype = TREE_TYPE (stype);
6633
 
6634
  return gfc_build_memcpy_call (dst, src, len);
6635
}
6636
 
6637
 
6638
/* Tells whether the expression is to be treated as a variable reference.  */
6639
 
6640
static bool
6641
expr_is_variable (gfc_expr *expr)
6642
{
6643
  gfc_expr *arg;
6644
 
6645
  if (expr->expr_type == EXPR_VARIABLE)
6646
    return true;
6647
 
6648
  arg = gfc_get_noncopying_intrinsic_argument (expr);
6649
  if (arg)
6650
    {
6651
      gcc_assert (expr->value.function.isym->id == GFC_ISYM_TRANSPOSE);
6652
      return expr_is_variable (arg);
6653
    }
6654
 
6655
  return false;
6656
}
6657
 
6658
 
6659
/* Is the lhs OK for automatic reallocation?  */
6660
 
6661
static bool
6662
is_scalar_reallocatable_lhs (gfc_expr *expr)
6663
{
6664
  gfc_ref * ref;
6665
 
6666
  /* An allocatable variable with no reference.  */
6667
  if (expr->symtree->n.sym->attr.allocatable
6668
        && !expr->ref)
6669
    return true;
6670
 
6671
  /* All that can be left are allocatable components.  */
6672
  if ((expr->symtree->n.sym->ts.type != BT_DERIVED
6673
        && expr->symtree->n.sym->ts.type != BT_CLASS)
6674
        || !expr->symtree->n.sym->ts.u.derived->attr.alloc_comp)
6675
    return false;
6676
 
6677
  /* Find an allocatable component ref last.  */
6678
  for (ref = expr->ref; ref; ref = ref->next)
6679
    if (ref->type == REF_COMPONENT
6680
          && !ref->next
6681
          && ref->u.c.component->attr.allocatable)
6682
      return true;
6683
 
6684
  return false;
6685
}
6686
 
6687
 
6688
/* Allocate or reallocate scalar lhs, as necessary.  */
6689
 
6690
static void
6691
alloc_scalar_allocatable_for_assignment (stmtblock_t *block,
6692
                                         tree string_length,
6693
                                         gfc_expr *expr1,
6694
                                         gfc_expr *expr2)
6695
 
6696
{
6697
  tree cond;
6698
  tree tmp;
6699
  tree size;
6700
  tree size_in_bytes;
6701
  tree jump_label1;
6702
  tree jump_label2;
6703
  gfc_se lse;
6704
 
6705
  if (!expr1 || expr1->rank)
6706
    return;
6707
 
6708
  if (!expr2 || expr2->rank)
6709
    return;
6710
 
6711
  /* Since this is a scalar lhs, we can afford to do this.  That is,
6712
     there is no risk of side effects being repeated.  */
6713
  gfc_init_se (&lse, NULL);
6714
  lse.want_pointer = 1;
6715
  gfc_conv_expr (&lse, expr1);
6716
 
6717
  jump_label1 = gfc_build_label_decl (NULL_TREE);
6718
  jump_label2 = gfc_build_label_decl (NULL_TREE);
6719
 
6720
  /* Do the allocation if the lhs is NULL. Otherwise go to label 1.  */
6721
  tmp = build_int_cst (TREE_TYPE (lse.expr), 0);
6722
  cond = fold_build2_loc (input_location, NE_EXPR, boolean_type_node,
6723
                          lse.expr, tmp);
6724
  tmp = build3_v (COND_EXPR, cond,
6725
                  build1_v (GOTO_EXPR, jump_label1),
6726
                  build_empty_stmt (input_location));
6727
  gfc_add_expr_to_block (block, tmp);
6728
 
6729
  if (expr1->ts.type == BT_CHARACTER && expr1->ts.deferred)
6730
    {
6731
      /* Use the rhs string length and the lhs element size.  */
6732
      size = string_length;
6733
      tmp = TREE_TYPE (gfc_typenode_for_spec (&expr1->ts));
6734
      tmp = TYPE_SIZE_UNIT (tmp);
6735
      size_in_bytes = fold_build2_loc (input_location, MULT_EXPR,
6736
                                       TREE_TYPE (tmp), tmp,
6737
                                       fold_convert (TREE_TYPE (tmp), size));
6738
    }
6739
  else
6740
    {
6741
      /* Otherwise use the length in bytes of the rhs.  */
6742
      size = TYPE_SIZE_UNIT (gfc_typenode_for_spec (&expr1->ts));
6743
      size_in_bytes = size;
6744
    }
6745
 
6746
  if (expr1->ts.type == BT_DERIVED && expr1->ts.u.derived->attr.alloc_comp)
6747
    {
6748
      tmp = build_call_expr_loc (input_location,
6749
                                 builtin_decl_explicit (BUILT_IN_CALLOC),
6750
                                 2, build_one_cst (size_type_node),
6751
                                 size_in_bytes);
6752
      tmp = fold_convert (TREE_TYPE (lse.expr), tmp);
6753
      gfc_add_modify (block, lse.expr, tmp);
6754
    }
6755
  else
6756
    {
6757
      tmp = build_call_expr_loc (input_location,
6758
                                 builtin_decl_explicit (BUILT_IN_MALLOC),
6759
                                 1, size_in_bytes);
6760
      tmp = fold_convert (TREE_TYPE (lse.expr), tmp);
6761
      gfc_add_modify (block, lse.expr, tmp);
6762
    }
6763
 
6764
  if (expr1->ts.type == BT_CHARACTER && expr1->ts.deferred)
6765
    {
6766
      /* Deferred characters need checking for lhs and rhs string
6767
         length.  Other deferred parameter variables will have to
6768
         come here too.  */
6769
      tmp = build1_v (GOTO_EXPR, jump_label2);
6770
      gfc_add_expr_to_block (block, tmp);
6771
    }
6772
  tmp = build1_v (LABEL_EXPR, jump_label1);
6773
  gfc_add_expr_to_block (block, tmp);
6774
 
6775
  /* For a deferred length character, reallocate if lengths of lhs and
6776
     rhs are different.  */
6777
  if (expr1->ts.type == BT_CHARACTER && expr1->ts.deferred)
6778
    {
6779
      cond = fold_build2_loc (input_location, EQ_EXPR, boolean_type_node,
6780
                              expr1->ts.u.cl->backend_decl, size);
6781
      /* Jump past the realloc if the lengths are the same.  */
6782
      tmp = build3_v (COND_EXPR, cond,
6783
                      build1_v (GOTO_EXPR, jump_label2),
6784
                      build_empty_stmt (input_location));
6785
      gfc_add_expr_to_block (block, tmp);
6786
      tmp = build_call_expr_loc (input_location,
6787
                                 builtin_decl_explicit (BUILT_IN_REALLOC),
6788
                                 2, fold_convert (pvoid_type_node, lse.expr),
6789
                                 size_in_bytes);
6790
      tmp = fold_convert (TREE_TYPE (lse.expr), tmp);
6791
      gfc_add_modify (block, lse.expr, tmp);
6792
      tmp = build1_v (LABEL_EXPR, jump_label2);
6793
      gfc_add_expr_to_block (block, tmp);
6794
 
6795
      /* Update the lhs character length.  */
6796
      size = string_length;
6797
      gfc_add_modify (block, expr1->ts.u.cl->backend_decl, size);
6798
    }
6799
}
6800
 
6801
 
6802
/* Subroutine of gfc_trans_assignment that actually scalarizes the
6803
   assignment.  EXPR1 is the destination/LHS and EXPR2 is the source/RHS.
6804
   init_flag indicates initialization expressions and dealloc that no
6805
   deallocate prior assignment is needed (if in doubt, set true).  */
6806
 
6807
static tree
6808
gfc_trans_assignment_1 (gfc_expr * expr1, gfc_expr * expr2, bool init_flag,
6809
                        bool dealloc)
6810
{
6811
  gfc_se lse;
6812
  gfc_se rse;
6813
  gfc_ss *lss;
6814
  gfc_ss *lss_section;
6815
  gfc_ss *rss;
6816
  gfc_loopinfo loop;
6817
  tree tmp;
6818
  stmtblock_t block;
6819
  stmtblock_t body;
6820
  bool l_is_temp;
6821
  bool scalar_to_array;
6822
  bool def_clen_func;
6823
  tree string_length;
6824
  int n;
6825
 
6826
  /* Assignment of the form lhs = rhs.  */
6827
  gfc_start_block (&block);
6828
 
6829
  gfc_init_se (&lse, NULL);
6830
  gfc_init_se (&rse, NULL);
6831
 
6832
  /* Walk the lhs.  */
6833
  lss = gfc_walk_expr (expr1);
6834
  if (gfc_is_reallocatable_lhs (expr1)
6835
        && !(expr2->expr_type == EXPR_FUNCTION
6836
             && expr2->value.function.isym != NULL))
6837
    lss->is_alloc_lhs = 1;
6838
  rss = NULL;
6839
  if (lss != gfc_ss_terminator)
6840
    {
6841
      /* The assignment needs scalarization.  */
6842
      lss_section = lss;
6843
 
6844
      /* Find a non-scalar SS from the lhs.  */
6845
      while (lss_section != gfc_ss_terminator
6846
             && lss_section->info->type != GFC_SS_SECTION)
6847
        lss_section = lss_section->next;
6848
 
6849
      gcc_assert (lss_section != gfc_ss_terminator);
6850
 
6851
      /* Initialize the scalarizer.  */
6852
      gfc_init_loopinfo (&loop);
6853
 
6854
      /* Walk the rhs.  */
6855
      rss = gfc_walk_expr (expr2);
6856
      if (rss == gfc_ss_terminator)
6857
        /* The rhs is scalar.  Add a ss for the expression.  */
6858
        rss = gfc_get_scalar_ss (gfc_ss_terminator, expr2);
6859
 
6860
      /* Associate the SS with the loop.  */
6861
      gfc_add_ss_to_loop (&loop, lss);
6862
      gfc_add_ss_to_loop (&loop, rss);
6863
 
6864
      /* Calculate the bounds of the scalarization.  */
6865
      gfc_conv_ss_startstride (&loop);
6866
      /* Enable loop reversal.  */
6867
      for (n = 0; n < GFC_MAX_DIMENSIONS; n++)
6868
        loop.reverse[n] = GFC_ENABLE_REVERSE;
6869
      /* Resolve any data dependencies in the statement.  */
6870
      gfc_conv_resolve_dependencies (&loop, lss, rss);
6871
      /* Setup the scalarizing loops.  */
6872
      gfc_conv_loop_setup (&loop, &expr2->where);
6873
 
6874
      /* Setup the gfc_se structures.  */
6875
      gfc_copy_loopinfo_to_se (&lse, &loop);
6876
      gfc_copy_loopinfo_to_se (&rse, &loop);
6877
 
6878
      rse.ss = rss;
6879
      gfc_mark_ss_chain_used (rss, 1);
6880
      if (loop.temp_ss == NULL)
6881
        {
6882
          lse.ss = lss;
6883
          gfc_mark_ss_chain_used (lss, 1);
6884
        }
6885
      else
6886
        {
6887
          lse.ss = loop.temp_ss;
6888
          gfc_mark_ss_chain_used (lss, 3);
6889
          gfc_mark_ss_chain_used (loop.temp_ss, 3);
6890
        }
6891
 
6892
      /* Allow the scalarizer to workshare array assignments.  */
6893
      if ((ompws_flags & OMPWS_WORKSHARE_FLAG) && loop.temp_ss == NULL)
6894
        ompws_flags |= OMPWS_SCALARIZER_WS;
6895
 
6896
      /* Start the scalarized loop body.  */
6897
      gfc_start_scalarized_body (&loop, &body);
6898
    }
6899
  else
6900
    gfc_init_block (&body);
6901
 
6902
  l_is_temp = (lss != gfc_ss_terminator && loop.temp_ss != NULL);
6903
 
6904
  /* Translate the expression.  */
6905
  gfc_conv_expr (&rse, expr2);
6906
 
6907
  /* Stabilize a string length for temporaries.  */
6908
  if (expr2->ts.type == BT_CHARACTER)
6909
    string_length = gfc_evaluate_now (rse.string_length, &rse.pre);
6910
  else
6911
    string_length = NULL_TREE;
6912
 
6913
  if (l_is_temp)
6914
    {
6915
      gfc_conv_tmp_array_ref (&lse);
6916
      if (expr2->ts.type == BT_CHARACTER)
6917
        lse.string_length = string_length;
6918
    }
6919
  else
6920
    gfc_conv_expr (&lse, expr1);
6921
 
6922
  /* Assignments of scalar derived types with allocatable components
6923
     to arrays must be done with a deep copy and the rhs temporary
6924
     must have its components deallocated afterwards.  */
6925
  scalar_to_array = (expr2->ts.type == BT_DERIVED
6926
                       && expr2->ts.u.derived->attr.alloc_comp
6927
                       && !expr_is_variable (expr2)
6928
                       && !gfc_is_constant_expr (expr2)
6929
                       && expr1->rank && !expr2->rank);
6930
  if (scalar_to_array && dealloc)
6931
    {
6932
      tmp = gfc_deallocate_alloc_comp (expr2->ts.u.derived, rse.expr, 0);
6933
      gfc_add_expr_to_block (&loop.post, tmp);
6934
    }
6935
 
6936
  /* For a deferred character length function, the function call must
6937
     happen before the (re)allocation of the lhs, otherwise the character
6938
     length of the result is not known.  */
6939
  def_clen_func = (((expr2->expr_type == EXPR_FUNCTION)
6940
                           || (expr2->expr_type == EXPR_COMPCALL)
6941
                           || (expr2->expr_type == EXPR_PPC))
6942
                       && expr2->ts.deferred);
6943
  if (gfc_option.flag_realloc_lhs
6944
        && expr2->ts.type == BT_CHARACTER
6945
        && (def_clen_func || expr2->expr_type == EXPR_OP)
6946
        && expr1->ts.deferred)
6947
    gfc_add_block_to_block (&block, &rse.pre);
6948
 
6949
  tmp = gfc_trans_scalar_assign (&lse, &rse, expr1->ts,
6950
                                 l_is_temp || init_flag,
6951
                                 expr_is_variable (expr2) || scalar_to_array
6952
                                 || expr2->expr_type == EXPR_ARRAY, dealloc);
6953
  gfc_add_expr_to_block (&body, tmp);
6954
 
6955
  if (lss == gfc_ss_terminator)
6956
    {
6957
      /* F2003: Add the code for reallocation on assignment.  */
6958
      if (gfc_option.flag_realloc_lhs
6959
            && is_scalar_reallocatable_lhs (expr1))
6960
        alloc_scalar_allocatable_for_assignment (&block, rse.string_length,
6961
                                                 expr1, expr2);
6962
 
6963
      /* Use the scalar assignment as is.  */
6964
      gfc_add_block_to_block (&block, &body);
6965
    }
6966
  else
6967
    {
6968
      gcc_assert (lse.ss == gfc_ss_terminator
6969
                  && rse.ss == gfc_ss_terminator);
6970
 
6971
      if (l_is_temp)
6972
        {
6973
          gfc_trans_scalarized_loop_boundary (&loop, &body);
6974
 
6975
          /* We need to copy the temporary to the actual lhs.  */
6976
          gfc_init_se (&lse, NULL);
6977
          gfc_init_se (&rse, NULL);
6978
          gfc_copy_loopinfo_to_se (&lse, &loop);
6979
          gfc_copy_loopinfo_to_se (&rse, &loop);
6980
 
6981
          rse.ss = loop.temp_ss;
6982
          lse.ss = lss;
6983
 
6984
          gfc_conv_tmp_array_ref (&rse);
6985
          gfc_conv_expr (&lse, expr1);
6986
 
6987
          gcc_assert (lse.ss == gfc_ss_terminator
6988
                      && rse.ss == gfc_ss_terminator);
6989
 
6990
          if (expr2->ts.type == BT_CHARACTER)
6991
            rse.string_length = string_length;
6992
 
6993
          tmp = gfc_trans_scalar_assign (&lse, &rse, expr1->ts,
6994
                                         false, false, dealloc);
6995
          gfc_add_expr_to_block (&body, tmp);
6996
        }
6997
 
6998
      /* F2003: Allocate or reallocate lhs of allocatable array.  */
6999
      if (gfc_option.flag_realloc_lhs
7000
            && gfc_is_reallocatable_lhs (expr1)
7001
            && !gfc_expr_attr (expr1).codimension
7002
            && !gfc_is_coindexed (expr1))
7003
        {
7004
          ompws_flags &= ~OMPWS_SCALARIZER_WS;
7005
          tmp = gfc_alloc_allocatable_for_assignment (&loop, expr1, expr2);
7006
          if (tmp != NULL_TREE)
7007
            gfc_add_expr_to_block (&loop.code[expr1->rank - 1], tmp);
7008
        }
7009
 
7010
      /* Generate the copying loops.  */
7011
      gfc_trans_scalarizing_loops (&loop, &body);
7012
 
7013
      /* Wrap the whole thing up.  */
7014
      gfc_add_block_to_block (&block, &loop.pre);
7015
      gfc_add_block_to_block (&block, &loop.post);
7016
 
7017
      gfc_cleanup_loop (&loop);
7018
    }
7019
 
7020
  return gfc_finish_block (&block);
7021
}
7022
 
7023
 
7024
/* Check whether EXPR is a copyable array.  */
7025
 
7026
static bool
7027
copyable_array_p (gfc_expr * expr)
7028
{
7029
  if (expr->expr_type != EXPR_VARIABLE)
7030
    return false;
7031
 
7032
  /* First check it's an array.  */
7033
  if (expr->rank < 1 || !expr->ref || expr->ref->next)
7034
    return false;
7035
 
7036
  if (!gfc_full_array_ref_p (expr->ref, NULL))
7037
    return false;
7038
 
7039
  /* Next check that it's of a simple enough type.  */
7040
  switch (expr->ts.type)
7041
    {
7042
    case BT_INTEGER:
7043
    case BT_REAL:
7044
    case BT_COMPLEX:
7045
    case BT_LOGICAL:
7046
      return true;
7047
 
7048
    case BT_CHARACTER:
7049
      return false;
7050
 
7051
    case BT_DERIVED:
7052
      return !expr->ts.u.derived->attr.alloc_comp;
7053
 
7054
    default:
7055
      break;
7056
    }
7057
 
7058
  return false;
7059
}
7060
 
7061
/* Translate an assignment.  */
7062
 
7063
tree
7064
gfc_trans_assignment (gfc_expr * expr1, gfc_expr * expr2, bool init_flag,
7065
                      bool dealloc)
7066
{
7067
  tree tmp;
7068
 
7069
  /* Special case a single function returning an array.  */
7070
  if (expr2->expr_type == EXPR_FUNCTION && expr2->rank > 0)
7071
    {
7072
      tmp = gfc_trans_arrayfunc_assign (expr1, expr2);
7073
      if (tmp)
7074
        return tmp;
7075
    }
7076
 
7077
  /* Special case assigning an array to zero.  */
7078
  if (copyable_array_p (expr1)
7079
      && is_zero_initializer_p (expr2))
7080
    {
7081
      tmp = gfc_trans_zero_assign (expr1);
7082
      if (tmp)
7083
        return tmp;
7084
    }
7085
 
7086
  /* Special case copying one array to another.  */
7087
  if (copyable_array_p (expr1)
7088
      && copyable_array_p (expr2)
7089
      && gfc_compare_types (&expr1->ts, &expr2->ts)
7090
      && !gfc_check_dependency (expr1, expr2, 0))
7091
    {
7092
      tmp = gfc_trans_array_copy (expr1, expr2);
7093
      if (tmp)
7094
        return tmp;
7095
    }
7096
 
7097
  /* Special case initializing an array from a constant array constructor.  */
7098
  if (copyable_array_p (expr1)
7099
      && expr2->expr_type == EXPR_ARRAY
7100
      && gfc_compare_types (&expr1->ts, &expr2->ts))
7101
    {
7102
      tmp = gfc_trans_array_constructor_copy (expr1, expr2);
7103
      if (tmp)
7104
        return tmp;
7105
    }
7106
 
7107
  /* Fallback to the scalarizer to generate explicit loops.  */
7108
  return gfc_trans_assignment_1 (expr1, expr2, init_flag, dealloc);
7109
}
7110
 
7111
tree
7112
gfc_trans_init_assign (gfc_code * code)
7113
{
7114
  return gfc_trans_assignment (code->expr1, code->expr2, true, false);
7115
}
7116
 
7117
tree
7118
gfc_trans_assign (gfc_code * code)
7119
{
7120
  return gfc_trans_assignment (code->expr1, code->expr2, false, true);
7121
}

powered by: WebSVN 2.1.0

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