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6de9cd9a | 1 | /* Deal with interfaces. |
cbe34bb5 | 2 | Copyright (C) 2000-2017 Free Software Foundation, Inc. |
6de9cd9a DN |
3 | Contributed by Andy Vaught |
4 | ||
9fc4d79b | 5 | This file is part of GCC. |
6de9cd9a | 6 | |
9fc4d79b TS |
7 | GCC is free software; you can redistribute it and/or modify it under |
8 | the terms of the GNU General Public License as published by the Free | |
d234d788 | 9 | Software Foundation; either version 3, or (at your option) any later |
9fc4d79b | 10 | version. |
6de9cd9a | 11 | |
9fc4d79b TS |
12 | GCC is distributed in the hope that it will be useful, but WITHOUT ANY |
13 | WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
14 | FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
15 | for more details. | |
6de9cd9a DN |
16 | |
17 | You should have received a copy of the GNU General Public License | |
d234d788 NC |
18 | along with GCC; see the file COPYING3. If not see |
19 | <http://www.gnu.org/licenses/>. */ | |
6de9cd9a DN |
20 | |
21 | ||
22 | /* Deal with interfaces. An explicit interface is represented as a | |
23 | singly linked list of formal argument structures attached to the | |
24 | relevant symbols. For an implicit interface, the arguments don't | |
25 | point to symbols. Explicit interfaces point to namespaces that | |
26 | contain the symbols within that interface. | |
27 | ||
28 | Implicit interfaces are linked together in a singly linked list | |
29 | along the next_if member of symbol nodes. Since a particular | |
30 | symbol can only have a single explicit interface, the symbol cannot | |
31 | be part of multiple lists and a single next-member suffices. | |
32 | ||
33 | This is not the case for general classes, though. An operator | |
34 | definition is independent of just about all other uses and has it's | |
35 | own head pointer. | |
36 | ||
37 | Nameless interfaces: | |
38 | Nameless interfaces create symbols with explicit interfaces within | |
39 | the current namespace. They are otherwise unlinked. | |
40 | ||
41 | Generic interfaces: | |
42 | The generic name points to a linked list of symbols. Each symbol | |
6892757c | 43 | has an explicit interface. Each explicit interface has its own |
6de9cd9a DN |
44 | namespace containing the arguments. Module procedures are symbols in |
45 | which the interface is added later when the module procedure is parsed. | |
46 | ||
47 | User operators: | |
48 | User-defined operators are stored in a their own set of symtrees | |
49 | separate from regular symbols. The symtrees point to gfc_user_op | |
50 | structures which in turn head up a list of relevant interfaces. | |
51 | ||
52 | Extended intrinsics and assignment: | |
53 | The head of these interface lists are stored in the containing namespace. | |
54 | ||
55 | Implicit interfaces: | |
56 | An implicit interface is represented as a singly linked list of | |
57 | formal argument list structures that don't point to any symbol | |
58 | nodes -- they just contain types. | |
59 | ||
60 | ||
61 | When a subprogram is defined, the program unit's name points to an | |
62 | interface as usual, but the link to the namespace is NULL and the | |
63 | formal argument list points to symbols within the same namespace as | |
64 | the program unit name. */ | |
65 | ||
66 | #include "config.h" | |
d22e4895 | 67 | #include "system.h" |
953bee7c | 68 | #include "coretypes.h" |
1916bcb5 | 69 | #include "options.h" |
6de9cd9a DN |
70 | #include "gfortran.h" |
71 | #include "match.h" | |
97f26732 | 72 | #include "arith.h" |
6de9cd9a | 73 | |
6de9cd9a DN |
74 | /* The current_interface structure holds information about the |
75 | interface currently being parsed. This structure is saved and | |
76 | restored during recursive interfaces. */ | |
77 | ||
78 | gfc_interface_info current_interface; | |
79 | ||
80 | ||
81 | /* Free a singly linked list of gfc_interface structures. */ | |
82 | ||
83 | void | |
b251af97 | 84 | gfc_free_interface (gfc_interface *intr) |
6de9cd9a DN |
85 | { |
86 | gfc_interface *next; | |
87 | ||
88 | for (; intr; intr = next) | |
89 | { | |
90 | next = intr->next; | |
cede9502 | 91 | free (intr); |
6de9cd9a DN |
92 | } |
93 | } | |
94 | ||
95 | ||
96 | /* Change the operators unary plus and minus into binary plus and | |
97 | minus respectively, leaving the rest unchanged. */ | |
98 | ||
99 | static gfc_intrinsic_op | |
e8d4f3fc | 100 | fold_unary_intrinsic (gfc_intrinsic_op op) |
6de9cd9a | 101 | { |
a1ee985f | 102 | switch (op) |
6de9cd9a DN |
103 | { |
104 | case INTRINSIC_UPLUS: | |
a1ee985f | 105 | op = INTRINSIC_PLUS; |
6de9cd9a DN |
106 | break; |
107 | case INTRINSIC_UMINUS: | |
a1ee985f | 108 | op = INTRINSIC_MINUS; |
6de9cd9a DN |
109 | break; |
110 | default: | |
111 | break; | |
112 | } | |
113 | ||
a1ee985f | 114 | return op; |
6de9cd9a DN |
115 | } |
116 | ||
117 | ||
195d1431 PT |
118 | /* Return the operator depending on the DTIO moded string. Note that |
119 | these are not operators in the normal sense and so have been placed | |
120 | beyond GFC_INTRINSIC_END in gfortran.h:enum gfc_intrinsic_op. */ | |
e73d3ca6 PT |
121 | |
122 | static gfc_intrinsic_op | |
123 | dtio_op (char* mode) | |
124 | { | |
125 | if (strncmp (mode, "formatted", 9) == 0) | |
126 | return INTRINSIC_FORMATTED; | |
127 | if (strncmp (mode, "unformatted", 9) == 0) | |
128 | return INTRINSIC_UNFORMATTED; | |
129 | return INTRINSIC_NONE; | |
130 | } | |
131 | ||
132 | ||
6de9cd9a | 133 | /* Match a generic specification. Depending on which type of |
a1ee985f | 134 | interface is found, the 'name' or 'op' pointers may be set. |
6de9cd9a DN |
135 | This subroutine doesn't return MATCH_NO. */ |
136 | ||
137 | match | |
b251af97 | 138 | gfc_match_generic_spec (interface_type *type, |
6de9cd9a | 139 | char *name, |
a1ee985f | 140 | gfc_intrinsic_op *op) |
6de9cd9a DN |
141 | { |
142 | char buffer[GFC_MAX_SYMBOL_LEN + 1]; | |
143 | match m; | |
144 | gfc_intrinsic_op i; | |
145 | ||
146 | if (gfc_match (" assignment ( = )") == MATCH_YES) | |
147 | { | |
148 | *type = INTERFACE_INTRINSIC_OP; | |
a1ee985f | 149 | *op = INTRINSIC_ASSIGN; |
6de9cd9a DN |
150 | return MATCH_YES; |
151 | } | |
152 | ||
153 | if (gfc_match (" operator ( %o )", &i) == MATCH_YES) | |
154 | { /* Operator i/f */ | |
155 | *type = INTERFACE_INTRINSIC_OP; | |
e8d4f3fc | 156 | *op = fold_unary_intrinsic (i); |
6de9cd9a DN |
157 | return MATCH_YES; |
158 | } | |
159 | ||
e8d4f3fc | 160 | *op = INTRINSIC_NONE; |
6de9cd9a DN |
161 | if (gfc_match (" operator ( ") == MATCH_YES) |
162 | { | |
163 | m = gfc_match_defined_op_name (buffer, 1); | |
164 | if (m == MATCH_NO) | |
165 | goto syntax; | |
166 | if (m != MATCH_YES) | |
167 | return MATCH_ERROR; | |
168 | ||
169 | m = gfc_match_char (')'); | |
170 | if (m == MATCH_NO) | |
171 | goto syntax; | |
172 | if (m != MATCH_YES) | |
173 | return MATCH_ERROR; | |
174 | ||
175 | strcpy (name, buffer); | |
176 | *type = INTERFACE_USER_OP; | |
177 | return MATCH_YES; | |
178 | } | |
179 | ||
e73d3ca6 PT |
180 | if (gfc_match (" read ( %n )", buffer) == MATCH_YES) |
181 | { | |
182 | *op = dtio_op (buffer); | |
183 | if (*op == INTRINSIC_FORMATTED) | |
184 | { | |
185 | strcpy (name, gfc_code2string (dtio_procs, DTIO_RF)); | |
186 | *type = INTERFACE_DTIO; | |
187 | } | |
188 | if (*op == INTRINSIC_UNFORMATTED) | |
189 | { | |
190 | strcpy (name, gfc_code2string (dtio_procs, DTIO_RUF)); | |
191 | *type = INTERFACE_DTIO; | |
192 | } | |
193 | if (*op != INTRINSIC_NONE) | |
194 | return MATCH_YES; | |
195 | } | |
196 | ||
197 | if (gfc_match (" write ( %n )", buffer) == MATCH_YES) | |
198 | { | |
199 | *op = dtio_op (buffer); | |
200 | if (*op == INTRINSIC_FORMATTED) | |
201 | { | |
202 | strcpy (name, gfc_code2string (dtio_procs, DTIO_WF)); | |
203 | *type = INTERFACE_DTIO; | |
204 | } | |
205 | if (*op == INTRINSIC_UNFORMATTED) | |
206 | { | |
207 | strcpy (name, gfc_code2string (dtio_procs, DTIO_WUF)); | |
208 | *type = INTERFACE_DTIO; | |
209 | } | |
210 | if (*op != INTRINSIC_NONE) | |
211 | return MATCH_YES; | |
212 | } | |
213 | ||
6de9cd9a DN |
214 | if (gfc_match_name (buffer) == MATCH_YES) |
215 | { | |
216 | strcpy (name, buffer); | |
217 | *type = INTERFACE_GENERIC; | |
218 | return MATCH_YES; | |
219 | } | |
220 | ||
221 | *type = INTERFACE_NAMELESS; | |
222 | return MATCH_YES; | |
223 | ||
224 | syntax: | |
225 | gfc_error ("Syntax error in generic specification at %C"); | |
226 | return MATCH_ERROR; | |
227 | } | |
228 | ||
229 | ||
9e1d712c TB |
230 | /* Match one of the five F95 forms of an interface statement. The |
231 | matcher for the abstract interface follows. */ | |
6de9cd9a DN |
232 | |
233 | match | |
234 | gfc_match_interface (void) | |
235 | { | |
236 | char name[GFC_MAX_SYMBOL_LEN + 1]; | |
237 | interface_type type; | |
238 | gfc_symbol *sym; | |
a1ee985f | 239 | gfc_intrinsic_op op; |
6de9cd9a DN |
240 | match m; |
241 | ||
242 | m = gfc_match_space (); | |
243 | ||
a1ee985f | 244 | if (gfc_match_generic_spec (&type, name, &op) == MATCH_ERROR) |
6de9cd9a DN |
245 | return MATCH_ERROR; |
246 | ||
6de9cd9a DN |
247 | /* If we're not looking at the end of the statement now, or if this |
248 | is not a nameless interface but we did not see a space, punt. */ | |
249 | if (gfc_match_eos () != MATCH_YES | |
b251af97 | 250 | || (type != INTERFACE_NAMELESS && m != MATCH_YES)) |
6de9cd9a | 251 | { |
b251af97 SK |
252 | gfc_error ("Syntax error: Trailing garbage in INTERFACE statement " |
253 | "at %C"); | |
6de9cd9a DN |
254 | return MATCH_ERROR; |
255 | } | |
256 | ||
257 | current_interface.type = type; | |
258 | ||
259 | switch (type) | |
260 | { | |
e73d3ca6 | 261 | case INTERFACE_DTIO: |
6de9cd9a DN |
262 | case INTERFACE_GENERIC: |
263 | if (gfc_get_symbol (name, NULL, &sym)) | |
264 | return MATCH_ERROR; | |
265 | ||
8b704316 | 266 | if (!sym->attr.generic |
524af0d6 | 267 | && !gfc_add_generic (&sym->attr, sym->name, NULL)) |
6de9cd9a DN |
268 | return MATCH_ERROR; |
269 | ||
e5d7f6f7 FXC |
270 | if (sym->attr.dummy) |
271 | { | |
c4100eae | 272 | gfc_error ("Dummy procedure %qs at %C cannot have a " |
e5d7f6f7 FXC |
273 | "generic interface", sym->name); |
274 | return MATCH_ERROR; | |
275 | } | |
276 | ||
6de9cd9a DN |
277 | current_interface.sym = gfc_new_block = sym; |
278 | break; | |
279 | ||
280 | case INTERFACE_USER_OP: | |
281 | current_interface.uop = gfc_get_uop (name); | |
282 | break; | |
283 | ||
284 | case INTERFACE_INTRINSIC_OP: | |
a1ee985f | 285 | current_interface.op = op; |
6de9cd9a DN |
286 | break; |
287 | ||
288 | case INTERFACE_NAMELESS: | |
9e1d712c | 289 | case INTERFACE_ABSTRACT: |
6de9cd9a DN |
290 | break; |
291 | } | |
292 | ||
293 | return MATCH_YES; | |
294 | } | |
295 | ||
296 | ||
9e1d712c TB |
297 | |
298 | /* Match a F2003 abstract interface. */ | |
299 | ||
300 | match | |
301 | gfc_match_abstract_interface (void) | |
302 | { | |
303 | match m; | |
304 | ||
524af0d6 | 305 | if (!gfc_notify_std (GFC_STD_F2003, "ABSTRACT INTERFACE at %C")) |
9e1d712c TB |
306 | return MATCH_ERROR; |
307 | ||
308 | m = gfc_match_eos (); | |
309 | ||
310 | if (m != MATCH_YES) | |
311 | { | |
312 | gfc_error ("Syntax error in ABSTRACT INTERFACE statement at %C"); | |
313 | return MATCH_ERROR; | |
314 | } | |
315 | ||
316 | current_interface.type = INTERFACE_ABSTRACT; | |
317 | ||
318 | return m; | |
319 | } | |
320 | ||
321 | ||
6de9cd9a DN |
322 | /* Match the different sort of generic-specs that can be present after |
323 | the END INTERFACE itself. */ | |
324 | ||
325 | match | |
326 | gfc_match_end_interface (void) | |
327 | { | |
328 | char name[GFC_MAX_SYMBOL_LEN + 1]; | |
329 | interface_type type; | |
a1ee985f | 330 | gfc_intrinsic_op op; |
6de9cd9a DN |
331 | match m; |
332 | ||
333 | m = gfc_match_space (); | |
334 | ||
a1ee985f | 335 | if (gfc_match_generic_spec (&type, name, &op) == MATCH_ERROR) |
6de9cd9a DN |
336 | return MATCH_ERROR; |
337 | ||
338 | /* If we're not looking at the end of the statement now, or if this | |
339 | is not a nameless interface but we did not see a space, punt. */ | |
340 | if (gfc_match_eos () != MATCH_YES | |
b251af97 | 341 | || (type != INTERFACE_NAMELESS && m != MATCH_YES)) |
6de9cd9a | 342 | { |
b251af97 SK |
343 | gfc_error ("Syntax error: Trailing garbage in END INTERFACE " |
344 | "statement at %C"); | |
6de9cd9a DN |
345 | return MATCH_ERROR; |
346 | } | |
347 | ||
348 | m = MATCH_YES; | |
349 | ||
350 | switch (current_interface.type) | |
351 | { | |
352 | case INTERFACE_NAMELESS: | |
9e1d712c TB |
353 | case INTERFACE_ABSTRACT: |
354 | if (type != INTERFACE_NAMELESS) | |
6de9cd9a DN |
355 | { |
356 | gfc_error ("Expected a nameless interface at %C"); | |
357 | m = MATCH_ERROR; | |
358 | } | |
359 | ||
360 | break; | |
361 | ||
362 | case INTERFACE_INTRINSIC_OP: | |
a1ee985f | 363 | if (type != current_interface.type || op != current_interface.op) |
6de9cd9a DN |
364 | { |
365 | ||
366 | if (current_interface.op == INTRINSIC_ASSIGN) | |
c6d6e62f SK |
367 | { |
368 | m = MATCH_ERROR; | |
a4d9b221 | 369 | gfc_error ("Expected %<END INTERFACE ASSIGNMENT (=)%> at %C"); |
c6d6e62f | 370 | } |
6de9cd9a | 371 | else |
c6d6e62f | 372 | { |
915acec4 | 373 | const char *s1, *s2; |
c6d6e62f SK |
374 | s1 = gfc_op2string (current_interface.op); |
375 | s2 = gfc_op2string (op); | |
376 | ||
377 | /* The following if-statements are used to enforce C1202 | |
378 | from F2003. */ | |
524af0d6 JB |
379 | if ((strcmp(s1, "==") == 0 && strcmp (s2, ".eq.") == 0) |
380 | || (strcmp(s1, ".eq.") == 0 && strcmp (s2, "==") == 0)) | |
c6d6e62f | 381 | break; |
524af0d6 JB |
382 | if ((strcmp(s1, "/=") == 0 && strcmp (s2, ".ne.") == 0) |
383 | || (strcmp(s1, ".ne.") == 0 && strcmp (s2, "/=") == 0)) | |
c6d6e62f | 384 | break; |
524af0d6 JB |
385 | if ((strcmp(s1, "<=") == 0 && strcmp (s2, ".le.") == 0) |
386 | || (strcmp(s1, ".le.") == 0 && strcmp (s2, "<=") == 0)) | |
c6d6e62f | 387 | break; |
524af0d6 JB |
388 | if ((strcmp(s1, "<") == 0 && strcmp (s2, ".lt.") == 0) |
389 | || (strcmp(s1, ".lt.") == 0 && strcmp (s2, "<") == 0)) | |
c6d6e62f | 390 | break; |
524af0d6 JB |
391 | if ((strcmp(s1, ">=") == 0 && strcmp (s2, ".ge.") == 0) |
392 | || (strcmp(s1, ".ge.") == 0 && strcmp (s2, ">=") == 0)) | |
c6d6e62f | 393 | break; |
524af0d6 JB |
394 | if ((strcmp(s1, ">") == 0 && strcmp (s2, ".gt.") == 0) |
395 | || (strcmp(s1, ".gt.") == 0 && strcmp (s2, ">") == 0)) | |
c6d6e62f SK |
396 | break; |
397 | ||
398 | m = MATCH_ERROR; | |
898344a9 SK |
399 | if (strcmp(s2, "none") == 0) |
400 | gfc_error ("Expecting %<END INTERFACE OPERATOR (%s)%> " | |
77be9417 | 401 | "at %C", s1); |
e73d3ca6 | 402 | else |
898344a9 | 403 | gfc_error ("Expecting %<END INTERFACE OPERATOR (%s)%> at %C, " |
77be9417 | 404 | "but got %qs", s1, s2); |
c6d6e62f | 405 | } |
8b704316 | 406 | |
6de9cd9a DN |
407 | } |
408 | ||
409 | break; | |
410 | ||
411 | case INTERFACE_USER_OP: | |
412 | /* Comparing the symbol node names is OK because only use-associated | |
b251af97 | 413 | symbols can be renamed. */ |
6de9cd9a | 414 | if (type != current_interface.type |
9b46f94f | 415 | || strcmp (current_interface.uop->name, name) != 0) |
6de9cd9a | 416 | { |
a4d9b221 | 417 | gfc_error ("Expecting %<END INTERFACE OPERATOR (.%s.)%> at %C", |
55898b2c | 418 | current_interface.uop->name); |
6de9cd9a DN |
419 | m = MATCH_ERROR; |
420 | } | |
421 | ||
422 | break; | |
423 | ||
e73d3ca6 | 424 | case INTERFACE_DTIO: |
6de9cd9a DN |
425 | case INTERFACE_GENERIC: |
426 | if (type != current_interface.type | |
427 | || strcmp (current_interface.sym->name, name) != 0) | |
428 | { | |
a4d9b221 | 429 | gfc_error ("Expecting %<END INTERFACE %s%> at %C", |
6de9cd9a DN |
430 | current_interface.sym->name); |
431 | m = MATCH_ERROR; | |
432 | } | |
433 | ||
434 | break; | |
435 | } | |
436 | ||
437 | return m; | |
438 | } | |
439 | ||
440 | ||
5f88e9b2 FR |
441 | /* Return whether the component was defined anonymously. */ |
442 | ||
443 | static bool | |
444 | is_anonymous_component (gfc_component *cmp) | |
445 | { | |
446 | /* Only UNION and MAP components are anonymous. In the case of a MAP, | |
447 | the derived type symbol is FL_STRUCT and the component name looks like mM*. | |
448 | This is the only case in which the second character of a component name is | |
449 | uppercase. */ | |
450 | return cmp->ts.type == BT_UNION | |
451 | || (cmp->ts.type == BT_DERIVED | |
452 | && cmp->ts.u.derived->attr.flavor == FL_STRUCT | |
453 | && cmp->name[0] && cmp->name[1] && ISUPPER (cmp->name[1])); | |
454 | } | |
455 | ||
456 | ||
457 | /* Return whether the derived type was defined anonymously. */ | |
458 | ||
459 | static bool | |
460 | is_anonymous_dt (gfc_symbol *derived) | |
461 | { | |
462 | /* UNION and MAP types are always anonymous. Otherwise, only nested STRUCTURE | |
463 | types can be anonymous. For anonymous MAP/STRUCTURE, we have FL_STRUCT | |
464 | and the type name looks like XX*. This is the only case in which the | |
465 | second character of a type name is uppercase. */ | |
466 | return derived->attr.flavor == FL_UNION | |
467 | || (derived->attr.flavor == FL_STRUCT | |
468 | && derived->name[0] && derived->name[1] && ISUPPER (derived->name[1])); | |
469 | } | |
470 | ||
471 | ||
f6288c24 FR |
472 | /* Compare components according to 4.4.2 of the Fortran standard. */ |
473 | ||
f3e1097b | 474 | static bool |
f6288c24 FR |
475 | compare_components (gfc_component *cmp1, gfc_component *cmp2, |
476 | gfc_symbol *derived1, gfc_symbol *derived2) | |
477 | { | |
5f88e9b2 FR |
478 | /* Compare names, but not for anonymous components such as UNION or MAP. */ |
479 | if (!is_anonymous_component (cmp1) && !is_anonymous_component (cmp2) | |
480 | && strcmp (cmp1->name, cmp2->name) != 0) | |
f3e1097b | 481 | return false; |
f6288c24 FR |
482 | |
483 | if (cmp1->attr.access != cmp2->attr.access) | |
f3e1097b | 484 | return false; |
f6288c24 FR |
485 | |
486 | if (cmp1->attr.pointer != cmp2->attr.pointer) | |
f3e1097b | 487 | return false; |
f6288c24 FR |
488 | |
489 | if (cmp1->attr.dimension != cmp2->attr.dimension) | |
f3e1097b | 490 | return false; |
f6288c24 FR |
491 | |
492 | if (cmp1->attr.allocatable != cmp2->attr.allocatable) | |
f3e1097b | 493 | return false; |
f6288c24 FR |
494 | |
495 | if (cmp1->attr.dimension && gfc_compare_array_spec (cmp1->as, cmp2->as) == 0) | |
f3e1097b | 496 | return false; |
f6288c24 | 497 | |
56d3a930 FR |
498 | if (cmp1->ts.type == BT_CHARACTER && cmp2->ts.type == BT_CHARACTER) |
499 | { | |
500 | gfc_charlen *l1 = cmp1->ts.u.cl; | |
501 | gfc_charlen *l2 = cmp2->ts.u.cl; | |
502 | if (l1 && l2 && l1->length && l2->length | |
503 | && l1->length->expr_type == EXPR_CONSTANT | |
504 | && l2->length->expr_type == EXPR_CONSTANT | |
505 | && gfc_dep_compare_expr (l1->length, l2->length) != 0) | |
f3e1097b | 506 | return false; |
56d3a930 FR |
507 | } |
508 | ||
f6288c24 FR |
509 | /* Make sure that link lists do not put this function into an |
510 | endless recursive loop! */ | |
511 | if (!(cmp1->ts.type == BT_DERIVED && derived1 == cmp1->ts.u.derived) | |
512 | && !(cmp2->ts.type == BT_DERIVED && derived2 == cmp2->ts.u.derived) | |
f3e1097b JW |
513 | && !gfc_compare_types (&cmp1->ts, &cmp2->ts)) |
514 | return false; | |
f6288c24 FR |
515 | |
516 | else if ( (cmp1->ts.type == BT_DERIVED && derived1 == cmp1->ts.u.derived) | |
517 | && !(cmp2->ts.type == BT_DERIVED && derived2 == cmp2->ts.u.derived)) | |
f3e1097b | 518 | return false; |
f6288c24 FR |
519 | |
520 | else if (!(cmp1->ts.type == BT_DERIVED && derived1 == cmp1->ts.u.derived) | |
521 | && (cmp2->ts.type == BT_DERIVED && derived2 == cmp2->ts.u.derived)) | |
f3e1097b | 522 | return false; |
f6288c24 | 523 | |
f3e1097b | 524 | return true; |
f6288c24 FR |
525 | } |
526 | ||
527 | ||
528 | /* Compare two union types by comparing the components of their maps. | |
529 | Because unions and maps are anonymous their types get special internal | |
530 | names; therefore the usual derived type comparison will fail on them. | |
531 | ||
532 | Returns nonzero if equal, as with gfc_compare_derived_types. Also as with | |
533 | gfc_compare_derived_types, 'equal' is closer to meaning 'duplicate | |
534 | definitions' than 'equivalent structure'. */ | |
535 | ||
f3e1097b JW |
536 | static bool |
537 | compare_union_types (gfc_symbol *un1, gfc_symbol *un2) | |
f6288c24 FR |
538 | { |
539 | gfc_component *map1, *map2, *cmp1, *cmp2; | |
c39747d2 | 540 | gfc_symbol *map1_t, *map2_t; |
f6288c24 FR |
541 | |
542 | if (un1->attr.flavor != FL_UNION || un2->attr.flavor != FL_UNION) | |
f3e1097b | 543 | return false; |
f6288c24 | 544 | |
908b8296 | 545 | if (un1->attr.zero_comp != un2->attr.zero_comp) |
f3e1097b | 546 | return false; |
908b8296 FR |
547 | |
548 | if (un1->attr.zero_comp) | |
f3e1097b | 549 | return true; |
908b8296 | 550 | |
f6288c24 FR |
551 | map1 = un1->components; |
552 | map2 = un2->components; | |
553 | ||
554 | /* In terms of 'equality' here we are worried about types which are | |
555 | declared the same in two places, not types that represent equivalent | |
556 | structures. (This is common because of FORTRAN's weird scoping rules.) | |
557 | Though two unions with their maps in different orders could be equivalent, | |
558 | we will say they are not equal for the purposes of this test; therefore | |
559 | we compare the maps sequentially. */ | |
560 | for (;;) | |
05b8fcb4 FR |
561 | { |
562 | map1_t = map1->ts.u.derived; | |
563 | map2_t = map2->ts.u.derived; | |
c39747d2 | 564 | |
05b8fcb4 FR |
565 | cmp1 = map1_t->components; |
566 | cmp2 = map2_t->components; | |
c39747d2 | 567 | |
05b8fcb4 FR |
568 | /* Protect against null components. */ |
569 | if (map1_t->attr.zero_comp != map2_t->attr.zero_comp) | |
f3e1097b | 570 | return false; |
c39747d2 | 571 | |
05b8fcb4 | 572 | if (map1_t->attr.zero_comp) |
f3e1097b | 573 | return true; |
c39747d2 | 574 | |
05b8fcb4 FR |
575 | for (;;) |
576 | { | |
577 | /* No two fields will ever point to the same map type unless they are | |
578 | the same component, because one map field is created with its type | |
579 | declaration. Therefore don't worry about recursion here. */ | |
580 | /* TODO: worry about recursion into parent types of the unions? */ | |
f3e1097b JW |
581 | if (!compare_components (cmp1, cmp2, map1_t, map2_t)) |
582 | return false; | |
05b8fcb4 FR |
583 | |
584 | cmp1 = cmp1->next; | |
585 | cmp2 = cmp2->next; | |
586 | ||
587 | if (cmp1 == NULL && cmp2 == NULL) | |
588 | break; | |
589 | if (cmp1 == NULL || cmp2 == NULL) | |
f3e1097b | 590 | return false; |
05b8fcb4 | 591 | } |
f6288c24 | 592 | |
05b8fcb4 FR |
593 | map1 = map1->next; |
594 | map2 = map2->next; | |
f6288c24 | 595 | |
05b8fcb4 FR |
596 | if (map1 == NULL && map2 == NULL) |
597 | break; | |
598 | if (map1 == NULL || map2 == NULL) | |
f3e1097b | 599 | return false; |
f6288c24 FR |
600 | } |
601 | ||
f3e1097b | 602 | return true; |
f6288c24 FR |
603 | } |
604 | ||
605 | ||
606 | ||
e0e85e06 PT |
607 | /* Compare two derived types using the criteria in 4.4.2 of the standard, |
608 | recursing through gfc_compare_types for the components. */ | |
6de9cd9a | 609 | |
f3e1097b | 610 | bool |
b251af97 | 611 | gfc_compare_derived_types (gfc_symbol *derived1, gfc_symbol *derived2) |
6de9cd9a | 612 | { |
f6288c24 | 613 | gfc_component *cmp1, *cmp2; |
6de9cd9a | 614 | |
cf2b3c22 | 615 | if (derived1 == derived2) |
f3e1097b | 616 | return true; |
cf2b3c22 | 617 | |
c7082171 SK |
618 | if (!derived1 || !derived2) |
619 | gfc_internal_error ("gfc_compare_derived_types: invalid derived type"); | |
c6423ef3 | 620 | |
00074dd8 FR |
621 | /* Compare UNION types specially. */ |
622 | if (derived1->attr.flavor == FL_UNION || derived2->attr.flavor == FL_UNION) | |
f3e1097b | 623 | return compare_union_types (derived1, derived2); |
00074dd8 | 624 | |
6de9cd9a DN |
625 | /* Special case for comparing derived types across namespaces. If the |
626 | true names and module names are the same and the module name is | |
627 | nonnull, then they are equal. */ | |
c6423ef3 | 628 | if (strcmp (derived1->name, derived2->name) == 0 |
b251af97 SK |
629 | && derived1->module != NULL && derived2->module != NULL |
630 | && strcmp (derived1->module, derived2->module) == 0) | |
f3e1097b | 631 | return true; |
6de9cd9a DN |
632 | |
633 | /* Compare type via the rules of the standard. Both types must have | |
f6288c24 FR |
634 | the SEQUENCE or BIND(C) attribute to be equal. STRUCTUREs are special |
635 | because they can be anonymous; therefore two structures with different | |
636 | names may be equal. */ | |
6de9cd9a | 637 | |
5f88e9b2 FR |
638 | /* Compare names, but not for anonymous types such as UNION or MAP. */ |
639 | if (!is_anonymous_dt (derived1) && !is_anonymous_dt (derived2) | |
640 | && strcmp (derived1->name, derived2->name) != 0) | |
f3e1097b | 641 | return false; |
6de9cd9a | 642 | |
e0e85e06 | 643 | if (derived1->component_access == ACCESS_PRIVATE |
b251af97 | 644 | || derived2->component_access == ACCESS_PRIVATE) |
f3e1097b | 645 | return false; |
6de9cd9a | 646 | |
a9e88ec6 | 647 | if (!(derived1->attr.sequence && derived2->attr.sequence) |
5bab4c96 PT |
648 | && !(derived1->attr.is_bind_c && derived2->attr.is_bind_c) |
649 | && !(derived1->attr.pdt_type && derived2->attr.pdt_type)) | |
f3e1097b | 650 | return false; |
6de9cd9a | 651 | |
f6288c24 FR |
652 | /* Protect against null components. */ |
653 | if (derived1->attr.zero_comp != derived2->attr.zero_comp) | |
f3e1097b | 654 | return false; |
f6288c24 FR |
655 | |
656 | if (derived1->attr.zero_comp) | |
f3e1097b | 657 | return true; |
f6288c24 FR |
658 | |
659 | cmp1 = derived1->components; | |
660 | cmp2 = derived2->components; | |
e0e85e06 | 661 | |
6de9cd9a DN |
662 | /* Since subtypes of SEQUENCE types must be SEQUENCE types as well, a |
663 | simple test can speed things up. Otherwise, lots of things have to | |
664 | match. */ | |
665 | for (;;) | |
666 | { | |
f6288c24 | 667 | if (!compare_components (cmp1, cmp2, derived1, derived2)) |
f3e1097b | 668 | return false; |
6de9cd9a | 669 | |
f6288c24 FR |
670 | cmp1 = cmp1->next; |
671 | cmp2 = cmp2->next; | |
2eae3dc7 | 672 | |
f6288c24 | 673 | if (cmp1 == NULL && cmp2 == NULL) |
6de9cd9a | 674 | break; |
f6288c24 | 675 | if (cmp1 == NULL || cmp2 == NULL) |
f3e1097b | 676 | return false; |
6de9cd9a DN |
677 | } |
678 | ||
f3e1097b | 679 | return true; |
6de9cd9a DN |
680 | } |
681 | ||
b251af97 | 682 | |
e0e85e06 PT |
683 | /* Compare two typespecs, recursively if necessary. */ |
684 | ||
f3e1097b | 685 | bool |
b251af97 | 686 | gfc_compare_types (gfc_typespec *ts1, gfc_typespec *ts2) |
e0e85e06 | 687 | { |
a8b3b0b6 CR |
688 | /* See if one of the typespecs is a BT_VOID, which is what is being used |
689 | to allow the funcs like c_f_pointer to accept any pointer type. | |
690 | TODO: Possibly should narrow this to just the one typespec coming in | |
691 | that is for the formal arg, but oh well. */ | |
692 | if (ts1->type == BT_VOID || ts2->type == BT_VOID) | |
f3e1097b | 693 | return true; |
8b704316 | 694 | |
77b7d71e AV |
695 | /* The _data component is not always present, therefore check for its |
696 | presence before assuming, that its derived->attr is available. | |
697 | When the _data component is not present, then nevertheless the | |
698 | unlimited_polymorphic flag may be set in the derived type's attr. */ | |
699 | if (ts1->type == BT_CLASS && ts1->u.derived->components | |
700 | && ((ts1->u.derived->attr.is_class | |
701 | && ts1->u.derived->components->ts.u.derived->attr | |
702 | .unlimited_polymorphic) | |
703 | || ts1->u.derived->attr.unlimited_polymorphic)) | |
f3e1097b | 704 | return true; |
8b704316 PT |
705 | |
706 | /* F2003: C717 */ | |
707 | if (ts2->type == BT_CLASS && ts1->type == BT_DERIVED | |
77b7d71e AV |
708 | && ts2->u.derived->components |
709 | && ((ts2->u.derived->attr.is_class | |
710 | && ts2->u.derived->components->ts.u.derived->attr | |
711 | .unlimited_polymorphic) | |
712 | || ts2->u.derived->attr.unlimited_polymorphic) | |
8b704316 | 713 | && (ts1->u.derived->attr.sequence || ts1->u.derived->attr.is_bind_c)) |
f3e1097b | 714 | return true; |
8b704316 | 715 | |
cf2b3c22 | 716 | if (ts1->type != ts2->type |
908b8296 FR |
717 | && ((ts1->type != BT_DERIVED && ts1->type != BT_CLASS) |
718 | || (ts2->type != BT_DERIVED && ts2->type != BT_CLASS))) | |
f3e1097b | 719 | return false; |
908b8296 FR |
720 | |
721 | if (ts1->type == BT_UNION) | |
f3e1097b | 722 | return compare_union_types (ts1->u.derived, ts2->u.derived); |
908b8296 | 723 | |
cf2b3c22 | 724 | if (ts1->type != BT_DERIVED && ts1->type != BT_CLASS) |
e0e85e06 PT |
725 | return (ts1->kind == ts2->kind); |
726 | ||
727 | /* Compare derived types. */ | |
f6288c24 | 728 | return gfc_type_compatible (ts1, ts2); |
e0e85e06 PT |
729 | } |
730 | ||
6de9cd9a | 731 | |
f3e1097b | 732 | static bool |
e7333b69 JW |
733 | compare_type (gfc_symbol *s1, gfc_symbol *s2) |
734 | { | |
735 | if (s2->attr.ext_attr & (1 << EXT_ATTR_NO_ARG_CHECK)) | |
f3e1097b | 736 | return true; |
e7333b69 | 737 | |
60de1c7d TB |
738 | /* TYPE and CLASS of the same declared type are type compatible, |
739 | but have different characteristics. */ | |
740 | if ((s1->ts.type == BT_CLASS && s2->ts.type == BT_DERIVED) | |
741 | || (s1->ts.type == BT_DERIVED && s2->ts.type == BT_CLASS)) | |
f3e1097b | 742 | return false; |
60de1c7d | 743 | |
e7333b69 JW |
744 | return gfc_compare_types (&s1->ts, &s2->ts) || s2->ts.type == BT_ASSUMED; |
745 | } | |
746 | ||
6de9cd9a | 747 | |
f3e1097b | 748 | static bool |
e7333b69 | 749 | compare_rank (gfc_symbol *s1, gfc_symbol *s2) |
6de9cd9a | 750 | { |
aa6590cf | 751 | gfc_array_spec *as1, *as2; |
6de9cd9a DN |
752 | int r1, r2; |
753 | ||
e7333b69 | 754 | if (s2->attr.ext_attr & (1 << EXT_ATTR_NO_ARG_CHECK)) |
f3e1097b | 755 | return true; |
e7ac6a7c | 756 | |
aa6590cf JW |
757 | as1 = (s1->ts.type == BT_CLASS) ? CLASS_DATA (s1)->as : s1->as; |
758 | as2 = (s2->ts.type == BT_CLASS) ? CLASS_DATA (s2)->as : s2->as; | |
759 | ||
760 | r1 = as1 ? as1->rank : 0; | |
761 | r2 = as2 ? as2->rank : 0; | |
6de9cd9a | 762 | |
e7333b69 | 763 | if (r1 != r2 && (!as2 || as2->type != AS_ASSUMED_RANK)) |
f3e1097b | 764 | return false; /* Ranks differ. */ |
6de9cd9a | 765 | |
f3e1097b | 766 | return true; |
e7333b69 JW |
767 | } |
768 | ||
769 | ||
770 | /* Given two symbols that are formal arguments, compare their ranks | |
f3e1097b JW |
771 | and types. Returns true if they have the same rank and type, |
772 | false otherwise. */ | |
e7333b69 | 773 | |
f3e1097b | 774 | static bool |
e7333b69 JW |
775 | compare_type_rank (gfc_symbol *s1, gfc_symbol *s2) |
776 | { | |
777 | return compare_type (s1, s2) && compare_rank (s1, s2); | |
6de9cd9a DN |
778 | } |
779 | ||
780 | ||
6de9cd9a DN |
781 | /* Given two symbols that are formal arguments, compare their types |
782 | and rank and their formal interfaces if they are both dummy | |
f3e1097b | 783 | procedures. Returns true if the same, false if different. */ |
6de9cd9a | 784 | |
f3e1097b | 785 | static bool |
b251af97 | 786 | compare_type_rank_if (gfc_symbol *s1, gfc_symbol *s2) |
6de9cd9a | 787 | { |
26f2ca2b | 788 | if (s1 == NULL || s2 == NULL) |
f3e1097b | 789 | return (s1 == s2); |
6de9cd9a | 790 | |
489ec4e3 | 791 | if (s1 == s2) |
f3e1097b | 792 | return true; |
489ec4e3 | 793 | |
6de9cd9a DN |
794 | if (s1->attr.flavor != FL_PROCEDURE && s2->attr.flavor != FL_PROCEDURE) |
795 | return compare_type_rank (s1, s2); | |
796 | ||
797 | if (s1->attr.flavor != FL_PROCEDURE || s2->attr.flavor != FL_PROCEDURE) | |
f3e1097b | 798 | return false; |
6de9cd9a | 799 | |
489ec4e3 PT |
800 | /* At this point, both symbols are procedures. It can happen that |
801 | external procedures are compared, where one is identified by usage | |
802 | to be a function or subroutine but the other is not. Check TKR | |
803 | nonetheless for these cases. */ | |
804 | if (s1->attr.function == 0 && s1->attr.subroutine == 0) | |
f3e1097b | 805 | return s1->attr.external ? compare_type_rank (s1, s2) : false; |
489ec4e3 PT |
806 | |
807 | if (s2->attr.function == 0 && s2->attr.subroutine == 0) | |
f3e1097b | 808 | return s2->attr.external ? compare_type_rank (s1, s2) : false; |
6de9cd9a | 809 | |
489ec4e3 | 810 | /* Now the type of procedure has been identified. */ |
6de9cd9a DN |
811 | if (s1->attr.function != s2->attr.function |
812 | || s1->attr.subroutine != s2->attr.subroutine) | |
f3e1097b | 813 | return false; |
6de9cd9a | 814 | |
f3e1097b JW |
815 | if (s1->attr.function && !compare_type_rank (s1, s2)) |
816 | return false; | |
6de9cd9a | 817 | |
993ef28f PT |
818 | /* Originally, gfortran recursed here to check the interfaces of passed |
819 | procedures. This is explicitly not required by the standard. */ | |
f3e1097b | 820 | return true; |
6de9cd9a DN |
821 | } |
822 | ||
823 | ||
824 | /* Given a formal argument list and a keyword name, search the list | |
825 | for that keyword. Returns the correct symbol node if found, NULL | |
826 | if not found. */ | |
827 | ||
828 | static gfc_symbol * | |
b251af97 | 829 | find_keyword_arg (const char *name, gfc_formal_arglist *f) |
6de9cd9a | 830 | { |
6de9cd9a DN |
831 | for (; f; f = f->next) |
832 | if (strcmp (f->sym->name, name) == 0) | |
833 | return f->sym; | |
834 | ||
835 | return NULL; | |
836 | } | |
837 | ||
838 | ||
839 | /******** Interface checking subroutines **********/ | |
840 | ||
841 | ||
842 | /* Given an operator interface and the operator, make sure that all | |
843 | interfaces for that operator are legal. */ | |
844 | ||
94747289 DK |
845 | bool |
846 | gfc_check_operator_interface (gfc_symbol *sym, gfc_intrinsic_op op, | |
847 | locus opwhere) | |
6de9cd9a DN |
848 | { |
849 | gfc_formal_arglist *formal; | |
850 | sym_intent i1, i2; | |
6de9cd9a | 851 | bt t1, t2; |
27189292 | 852 | int args, r1, r2, k1, k2; |
6de9cd9a | 853 | |
94747289 | 854 | gcc_assert (sym); |
6de9cd9a DN |
855 | |
856 | args = 0; | |
857 | t1 = t2 = BT_UNKNOWN; | |
858 | i1 = i2 = INTENT_UNKNOWN; | |
27189292 FXC |
859 | r1 = r2 = -1; |
860 | k1 = k2 = -1; | |
6de9cd9a | 861 | |
4cbc9039 | 862 | for (formal = gfc_sym_get_dummy_args (sym); formal; formal = formal->next) |
6de9cd9a | 863 | { |
94747289 DK |
864 | gfc_symbol *fsym = formal->sym; |
865 | if (fsym == NULL) | |
8c086c9c PT |
866 | { |
867 | gfc_error ("Alternate return cannot appear in operator " | |
94747289 DK |
868 | "interface at %L", &sym->declared_at); |
869 | return false; | |
8c086c9c | 870 | } |
6de9cd9a DN |
871 | if (args == 0) |
872 | { | |
94747289 DK |
873 | t1 = fsym->ts.type; |
874 | i1 = fsym->attr.intent; | |
875 | r1 = (fsym->as != NULL) ? fsym->as->rank : 0; | |
876 | k1 = fsym->ts.kind; | |
6de9cd9a DN |
877 | } |
878 | if (args == 1) | |
879 | { | |
94747289 DK |
880 | t2 = fsym->ts.type; |
881 | i2 = fsym->attr.intent; | |
882 | r2 = (fsym->as != NULL) ? fsym->as->rank : 0; | |
883 | k2 = fsym->ts.kind; | |
6de9cd9a DN |
884 | } |
885 | args++; | |
886 | } | |
887 | ||
27189292 FXC |
888 | /* Only +, - and .not. can be unary operators. |
889 | .not. cannot be a binary operator. */ | |
a1ee985f KG |
890 | if (args == 0 || args > 2 || (args == 1 && op != INTRINSIC_PLUS |
891 | && op != INTRINSIC_MINUS | |
892 | && op != INTRINSIC_NOT) | |
893 | || (args == 2 && op == INTRINSIC_NOT)) | |
27189292 | 894 | { |
efb63364 TB |
895 | if (op == INTRINSIC_ASSIGN) |
896 | gfc_error ("Assignment operator interface at %L must have " | |
897 | "two arguments", &sym->declared_at); | |
898 | else | |
899 | gfc_error ("Operator interface at %L has the wrong number of arguments", | |
900 | &sym->declared_at); | |
94747289 | 901 | return false; |
27189292 FXC |
902 | } |
903 | ||
904 | /* Check that intrinsics are mapped to functions, except | |
905 | INTRINSIC_ASSIGN which should map to a subroutine. */ | |
a1ee985f | 906 | if (op == INTRINSIC_ASSIGN) |
6de9cd9a | 907 | { |
4cbc9039 JW |
908 | gfc_formal_arglist *dummy_args; |
909 | ||
6de9cd9a DN |
910 | if (!sym->attr.subroutine) |
911 | { | |
b251af97 | 912 | gfc_error ("Assignment operator interface at %L must be " |
94747289 DK |
913 | "a SUBROUTINE", &sym->declared_at); |
914 | return false; | |
6de9cd9a | 915 | } |
e19bb186 TB |
916 | |
917 | /* Allowed are (per F2003, 12.3.2.1.2 Defined assignments): | |
94747289 | 918 | - First argument an array with different rank than second, |
315d905f TB |
919 | - First argument is a scalar and second an array, |
920 | - Types and kinds do not conform, or | |
94747289 | 921 | - First argument is of derived type. */ |
4cbc9039 JW |
922 | dummy_args = gfc_sym_get_dummy_args (sym); |
923 | if (dummy_args->sym->ts.type != BT_DERIVED | |
924 | && dummy_args->sym->ts.type != BT_CLASS | |
315d905f | 925 | && (r2 == 0 || r1 == r2) |
4cbc9039 JW |
926 | && (dummy_args->sym->ts.type == dummy_args->next->sym->ts.type |
927 | || (gfc_numeric_ts (&dummy_args->sym->ts) | |
928 | && gfc_numeric_ts (&dummy_args->next->sym->ts)))) | |
8c086c9c | 929 | { |
b251af97 | 930 | gfc_error ("Assignment operator interface at %L must not redefine " |
94747289 DK |
931 | "an INTRINSIC type assignment", &sym->declared_at); |
932 | return false; | |
8c086c9c | 933 | } |
6de9cd9a DN |
934 | } |
935 | else | |
936 | { | |
937 | if (!sym->attr.function) | |
938 | { | |
939 | gfc_error ("Intrinsic operator interface at %L must be a FUNCTION", | |
94747289 DK |
940 | &sym->declared_at); |
941 | return false; | |
6de9cd9a DN |
942 | } |
943 | } | |
944 | ||
27189292 | 945 | /* Check intents on operator interfaces. */ |
a1ee985f | 946 | if (op == INTRINSIC_ASSIGN) |
6de9cd9a | 947 | { |
27189292 | 948 | if (i1 != INTENT_OUT && i1 != INTENT_INOUT) |
94747289 DK |
949 | { |
950 | gfc_error ("First argument of defined assignment at %L must be " | |
951 | "INTENT(OUT) or INTENT(INOUT)", &sym->declared_at); | |
952 | return false; | |
953 | } | |
27189292 FXC |
954 | |
955 | if (i2 != INTENT_IN) | |
94747289 DK |
956 | { |
957 | gfc_error ("Second argument of defined assignment at %L must be " | |
958 | "INTENT(IN)", &sym->declared_at); | |
959 | return false; | |
960 | } | |
27189292 FXC |
961 | } |
962 | else | |
963 | { | |
964 | if (i1 != INTENT_IN) | |
94747289 DK |
965 | { |
966 | gfc_error ("First argument of operator interface at %L must be " | |
967 | "INTENT(IN)", &sym->declared_at); | |
968 | return false; | |
969 | } | |
27189292 FXC |
970 | |
971 | if (args == 2 && i2 != INTENT_IN) | |
94747289 DK |
972 | { |
973 | gfc_error ("Second argument of operator interface at %L must be " | |
974 | "INTENT(IN)", &sym->declared_at); | |
975 | return false; | |
976 | } | |
27189292 FXC |
977 | } |
978 | ||
979 | /* From now on, all we have to do is check that the operator definition | |
980 | doesn't conflict with an intrinsic operator. The rules for this | |
981 | game are defined in 7.1.2 and 7.1.3 of both F95 and F2003 standards, | |
982 | as well as 12.3.2.1.1 of Fortran 2003: | |
983 | ||
984 | "If the operator is an intrinsic-operator (R310), the number of | |
985 | function arguments shall be consistent with the intrinsic uses of | |
986 | that operator, and the types, kind type parameters, or ranks of the | |
987 | dummy arguments shall differ from those required for the intrinsic | |
988 | operation (7.1.2)." */ | |
989 | ||
990 | #define IS_NUMERIC_TYPE(t) \ | |
991 | ((t) == BT_INTEGER || (t) == BT_REAL || (t) == BT_COMPLEX) | |
992 | ||
993 | /* Unary ops are easy, do them first. */ | |
a1ee985f | 994 | if (op == INTRINSIC_NOT) |
27189292 FXC |
995 | { |
996 | if (t1 == BT_LOGICAL) | |
6de9cd9a | 997 | goto bad_repl; |
27189292 | 998 | else |
94747289 | 999 | return true; |
27189292 | 1000 | } |
6de9cd9a | 1001 | |
a1ee985f | 1002 | if (args == 1 && (op == INTRINSIC_PLUS || op == INTRINSIC_MINUS)) |
27189292 FXC |
1003 | { |
1004 | if (IS_NUMERIC_TYPE (t1)) | |
6de9cd9a | 1005 | goto bad_repl; |
27189292 | 1006 | else |
94747289 | 1007 | return true; |
27189292 | 1008 | } |
6de9cd9a | 1009 | |
27189292 FXC |
1010 | /* Character intrinsic operators have same character kind, thus |
1011 | operator definitions with operands of different character kinds | |
1012 | are always safe. */ | |
1013 | if (t1 == BT_CHARACTER && t2 == BT_CHARACTER && k1 != k2) | |
94747289 | 1014 | return true; |
6de9cd9a | 1015 | |
27189292 FXC |
1016 | /* Intrinsic operators always perform on arguments of same rank, |
1017 | so different ranks is also always safe. (rank == 0) is an exception | |
1018 | to that, because all intrinsic operators are elemental. */ | |
1019 | if (r1 != r2 && r1 != 0 && r2 != 0) | |
94747289 | 1020 | return true; |
6de9cd9a | 1021 | |
a1ee985f | 1022 | switch (op) |
27189292 | 1023 | { |
6de9cd9a | 1024 | case INTRINSIC_EQ: |
3bed9dd0 | 1025 | case INTRINSIC_EQ_OS: |
6de9cd9a | 1026 | case INTRINSIC_NE: |
3bed9dd0 | 1027 | case INTRINSIC_NE_OS: |
27189292 | 1028 | if (t1 == BT_CHARACTER && t2 == BT_CHARACTER) |
6de9cd9a | 1029 | goto bad_repl; |
27189292 | 1030 | /* Fall through. */ |
6de9cd9a | 1031 | |
27189292 FXC |
1032 | case INTRINSIC_PLUS: |
1033 | case INTRINSIC_MINUS: | |
1034 | case INTRINSIC_TIMES: | |
1035 | case INTRINSIC_DIVIDE: | |
1036 | case INTRINSIC_POWER: | |
1037 | if (IS_NUMERIC_TYPE (t1) && IS_NUMERIC_TYPE (t2)) | |
1038 | goto bad_repl; | |
6de9cd9a DN |
1039 | break; |
1040 | ||
6de9cd9a | 1041 | case INTRINSIC_GT: |
3bed9dd0 | 1042 | case INTRINSIC_GT_OS: |
27189292 | 1043 | case INTRINSIC_GE: |
3bed9dd0 | 1044 | case INTRINSIC_GE_OS: |
27189292 | 1045 | case INTRINSIC_LT: |
3bed9dd0 | 1046 | case INTRINSIC_LT_OS: |
27189292 | 1047 | case INTRINSIC_LE: |
3bed9dd0 | 1048 | case INTRINSIC_LE_OS: |
27189292 FXC |
1049 | if (t1 == BT_CHARACTER && t2 == BT_CHARACTER) |
1050 | goto bad_repl; | |
6de9cd9a DN |
1051 | if ((t1 == BT_INTEGER || t1 == BT_REAL) |
1052 | && (t2 == BT_INTEGER || t2 == BT_REAL)) | |
1053 | goto bad_repl; | |
27189292 | 1054 | break; |
6de9cd9a | 1055 | |
27189292 FXC |
1056 | case INTRINSIC_CONCAT: |
1057 | if (t1 == BT_CHARACTER && t2 == BT_CHARACTER) | |
1058 | goto bad_repl; | |
6de9cd9a DN |
1059 | break; |
1060 | ||
6de9cd9a | 1061 | case INTRINSIC_AND: |
27189292 | 1062 | case INTRINSIC_OR: |
6de9cd9a DN |
1063 | case INTRINSIC_EQV: |
1064 | case INTRINSIC_NEQV: | |
6de9cd9a DN |
1065 | if (t1 == BT_LOGICAL && t2 == BT_LOGICAL) |
1066 | goto bad_repl; | |
1067 | break; | |
1068 | ||
6de9cd9a | 1069 | default: |
27189292 FXC |
1070 | break; |
1071 | } | |
6de9cd9a | 1072 | |
94747289 | 1073 | return true; |
6de9cd9a | 1074 | |
27189292 FXC |
1075 | #undef IS_NUMERIC_TYPE |
1076 | ||
6de9cd9a DN |
1077 | bad_repl: |
1078 | gfc_error ("Operator interface at %L conflicts with intrinsic interface", | |
94747289 DK |
1079 | &opwhere); |
1080 | return false; | |
6de9cd9a DN |
1081 | } |
1082 | ||
1083 | ||
1084 | /* Given a pair of formal argument lists, we see if the two lists can | |
1085 | be distinguished by counting the number of nonoptional arguments of | |
1086 | a given type/rank in f1 and seeing if there are less then that | |
1087 | number of those arguments in f2 (including optional arguments). | |
1088 | Since this test is asymmetric, it has to be called twice to make it | |
6f3ab30d JW |
1089 | symmetric. Returns nonzero if the argument lists are incompatible |
1090 | by this test. This subroutine implements rule 1 of section F03:16.2.3. | |
1091 | 'p1' and 'p2' are the PASS arguments of both procedures (if applicable). */ | |
6de9cd9a | 1092 | |
f3e1097b | 1093 | static bool |
6f3ab30d JW |
1094 | count_types_test (gfc_formal_arglist *f1, gfc_formal_arglist *f2, |
1095 | const char *p1, const char *p2) | |
6de9cd9a | 1096 | { |
f3e1097b | 1097 | int ac1, ac2, i, j, k, n1; |
6de9cd9a DN |
1098 | gfc_formal_arglist *f; |
1099 | ||
1100 | typedef struct | |
1101 | { | |
1102 | int flag; | |
1103 | gfc_symbol *sym; | |
1104 | } | |
1105 | arginfo; | |
1106 | ||
1107 | arginfo *arg; | |
1108 | ||
1109 | n1 = 0; | |
1110 | ||
1111 | for (f = f1; f; f = f->next) | |
1112 | n1++; | |
1113 | ||
1114 | /* Build an array of integers that gives the same integer to | |
1115 | arguments of the same type/rank. */ | |
ece3f663 | 1116 | arg = XCNEWVEC (arginfo, n1); |
6de9cd9a DN |
1117 | |
1118 | f = f1; | |
1119 | for (i = 0; i < n1; i++, f = f->next) | |
1120 | { | |
1121 | arg[i].flag = -1; | |
1122 | arg[i].sym = f->sym; | |
1123 | } | |
1124 | ||
1125 | k = 0; | |
1126 | ||
1127 | for (i = 0; i < n1; i++) | |
1128 | { | |
1129 | if (arg[i].flag != -1) | |
1130 | continue; | |
1131 | ||
6f3ab30d JW |
1132 | if (arg[i].sym && (arg[i].sym->attr.optional |
1133 | || (p1 && strcmp (arg[i].sym->name, p1) == 0))) | |
1134 | continue; /* Skip OPTIONAL and PASS arguments. */ | |
6de9cd9a DN |
1135 | |
1136 | arg[i].flag = k; | |
1137 | ||
6f3ab30d | 1138 | /* Find other non-optional, non-pass arguments of the same type/rank. */ |
6de9cd9a | 1139 | for (j = i + 1; j < n1; j++) |
6f3ab30d JW |
1140 | if ((arg[j].sym == NULL |
1141 | || !(arg[j].sym->attr.optional | |
1142 | || (p1 && strcmp (arg[j].sym->name, p1) == 0))) | |
2b603773 JW |
1143 | && (compare_type_rank_if (arg[i].sym, arg[j].sym) |
1144 | || compare_type_rank_if (arg[j].sym, arg[i].sym))) | |
6de9cd9a DN |
1145 | arg[j].flag = k; |
1146 | ||
1147 | k++; | |
1148 | } | |
1149 | ||
1150 | /* Now loop over each distinct type found in f1. */ | |
1151 | k = 0; | |
f3e1097b | 1152 | bool rc = false; |
6de9cd9a DN |
1153 | |
1154 | for (i = 0; i < n1; i++) | |
1155 | { | |
1156 | if (arg[i].flag != k) | |
1157 | continue; | |
1158 | ||
1159 | ac1 = 1; | |
1160 | for (j = i + 1; j < n1; j++) | |
1161 | if (arg[j].flag == k) | |
1162 | ac1++; | |
1163 | ||
6f3ab30d JW |
1164 | /* Count the number of non-pass arguments in f2 with that type, |
1165 | including those that are optional. */ | |
6de9cd9a DN |
1166 | ac2 = 0; |
1167 | ||
1168 | for (f = f2; f; f = f->next) | |
6f3ab30d JW |
1169 | if ((!p2 || strcmp (f->sym->name, p2) != 0) |
1170 | && (compare_type_rank_if (arg[i].sym, f->sym) | |
1171 | || compare_type_rank_if (f->sym, arg[i].sym))) | |
6de9cd9a DN |
1172 | ac2++; |
1173 | ||
1174 | if (ac1 > ac2) | |
1175 | { | |
f3e1097b | 1176 | rc = true; |
6de9cd9a DN |
1177 | break; |
1178 | } | |
1179 | ||
1180 | k++; | |
1181 | } | |
1182 | ||
cede9502 | 1183 | free (arg); |
6de9cd9a DN |
1184 | |
1185 | return rc; | |
1186 | } | |
1187 | ||
1188 | ||
e9355cc3 JW |
1189 | /* Perform the correspondence test in rule (3) of F08:C1215. |
1190 | Returns zero if no argument is found that satisfies this rule, | |
1191 | nonzero otherwise. 'p1' and 'p2' are the PASS arguments of both procedures | |
6f3ab30d | 1192 | (if applicable). |
6de9cd9a DN |
1193 | |
1194 | This test is also not symmetric in f1 and f2 and must be called | |
1195 | twice. This test finds problems caused by sorting the actual | |
1196 | argument list with keywords. For example: | |
1197 | ||
1198 | INTERFACE FOO | |
e9355cc3 JW |
1199 | SUBROUTINE F1(A, B) |
1200 | INTEGER :: A ; REAL :: B | |
1201 | END SUBROUTINE F1 | |
6de9cd9a | 1202 | |
e9355cc3 JW |
1203 | SUBROUTINE F2(B, A) |
1204 | INTEGER :: A ; REAL :: B | |
1205 | END SUBROUTINE F1 | |
6de9cd9a DN |
1206 | END INTERFACE FOO |
1207 | ||
1208 | At this point, 'CALL FOO(A=1, B=1.0)' is ambiguous. */ | |
1209 | ||
f3e1097b | 1210 | static bool |
6f3ab30d JW |
1211 | generic_correspondence (gfc_formal_arglist *f1, gfc_formal_arglist *f2, |
1212 | const char *p1, const char *p2) | |
6de9cd9a | 1213 | { |
6de9cd9a DN |
1214 | gfc_formal_arglist *f2_save, *g; |
1215 | gfc_symbol *sym; | |
1216 | ||
1217 | f2_save = f2; | |
1218 | ||
1219 | while (f1) | |
1220 | { | |
1221 | if (f1->sym->attr.optional) | |
1222 | goto next; | |
1223 | ||
6f3ab30d JW |
1224 | if (p1 && strcmp (f1->sym->name, p1) == 0) |
1225 | f1 = f1->next; | |
1226 | if (f2 && p2 && strcmp (f2->sym->name, p2) == 0) | |
1227 | f2 = f2->next; | |
1228 | ||
2b603773 | 1229 | if (f2 != NULL && (compare_type_rank (f1->sym, f2->sym) |
e9355cc3 JW |
1230 | || compare_type_rank (f2->sym, f1->sym)) |
1231 | && !((gfc_option.allow_std & GFC_STD_F2008) | |
1232 | && ((f1->sym->attr.allocatable && f2->sym->attr.pointer) | |
1233 | || (f2->sym->attr.allocatable && f1->sym->attr.pointer)))) | |
6de9cd9a DN |
1234 | goto next; |
1235 | ||
1236 | /* Now search for a disambiguating keyword argument starting at | |
b251af97 | 1237 | the current non-match. */ |
6de9cd9a DN |
1238 | for (g = f1; g; g = g->next) |
1239 | { | |
6f3ab30d | 1240 | if (g->sym->attr.optional || (p1 && strcmp (g->sym->name, p1) == 0)) |
6de9cd9a DN |
1241 | continue; |
1242 | ||
1243 | sym = find_keyword_arg (g->sym->name, f2_save); | |
e9355cc3 JW |
1244 | if (sym == NULL || !compare_type_rank (g->sym, sym) |
1245 | || ((gfc_option.allow_std & GFC_STD_F2008) | |
1246 | && ((sym->attr.allocatable && g->sym->attr.pointer) | |
1247 | || (sym->attr.pointer && g->sym->attr.allocatable)))) | |
f3e1097b | 1248 | return true; |
6de9cd9a DN |
1249 | } |
1250 | ||
1251 | next: | |
6f3ab30d JW |
1252 | if (f1 != NULL) |
1253 | f1 = f1->next; | |
6de9cd9a DN |
1254 | if (f2 != NULL) |
1255 | f2 = f2->next; | |
1256 | } | |
1257 | ||
f3e1097b | 1258 | return false; |
6de9cd9a DN |
1259 | } |
1260 | ||
1261 | ||
e7333b69 JW |
1262 | static int |
1263 | symbol_rank (gfc_symbol *sym) | |
1264 | { | |
1265 | gfc_array_spec *as; | |
1266 | as = (sym->ts.type == BT_CLASS) ? CLASS_DATA (sym)->as : sym->as; | |
1267 | return as ? as->rank : 0; | |
1268 | } | |
1269 | ||
1270 | ||
9795c594 JW |
1271 | /* Check if the characteristics of two dummy arguments match, |
1272 | cf. F08:12.3.2. */ | |
1273 | ||
4668d6f9 PT |
1274 | bool |
1275 | gfc_check_dummy_characteristics (gfc_symbol *s1, gfc_symbol *s2, | |
1276 | bool type_must_agree, char *errmsg, | |
1277 | int err_len) | |
9795c594 | 1278 | { |
9362a03b | 1279 | if (s1 == NULL || s2 == NULL) |
524af0d6 | 1280 | return s1 == s2 ? true : false; |
9362a03b | 1281 | |
9795c594 | 1282 | /* Check type and rank. */ |
e7333b69 | 1283 | if (type_must_agree) |
9795c594 | 1284 | { |
e7333b69 JW |
1285 | if (!compare_type (s1, s2) || !compare_type (s2, s1)) |
1286 | { | |
1287 | snprintf (errmsg, err_len, "Type mismatch in argument '%s' (%s/%s)", | |
1288 | s1->name, gfc_typename (&s1->ts), gfc_typename (&s2->ts)); | |
1289 | return false; | |
1290 | } | |
1291 | if (!compare_rank (s1, s2)) | |
1292 | { | |
1293 | snprintf (errmsg, err_len, "Rank mismatch in argument '%s' (%i/%i)", | |
1294 | s1->name, symbol_rank (s1), symbol_rank (s2)); | |
1295 | return false; | |
1296 | } | |
9795c594 JW |
1297 | } |
1298 | ||
1299 | /* Check INTENT. */ | |
1300 | if (s1->attr.intent != s2->attr.intent) | |
1301 | { | |
1302 | snprintf (errmsg, err_len, "INTENT mismatch in argument '%s'", | |
1303 | s1->name); | |
524af0d6 | 1304 | return false; |
9795c594 JW |
1305 | } |
1306 | ||
1307 | /* Check OPTIONAL attribute. */ | |
1308 | if (s1->attr.optional != s2->attr.optional) | |
1309 | { | |
1310 | snprintf (errmsg, err_len, "OPTIONAL mismatch in argument '%s'", | |
1311 | s1->name); | |
524af0d6 | 1312 | return false; |
9795c594 JW |
1313 | } |
1314 | ||
1315 | /* Check ALLOCATABLE attribute. */ | |
1316 | if (s1->attr.allocatable != s2->attr.allocatable) | |
1317 | { | |
1318 | snprintf (errmsg, err_len, "ALLOCATABLE mismatch in argument '%s'", | |
1319 | s1->name); | |
524af0d6 | 1320 | return false; |
9795c594 JW |
1321 | } |
1322 | ||
1323 | /* Check POINTER attribute. */ | |
1324 | if (s1->attr.pointer != s2->attr.pointer) | |
1325 | { | |
1326 | snprintf (errmsg, err_len, "POINTER mismatch in argument '%s'", | |
1327 | s1->name); | |
524af0d6 | 1328 | return false; |
9795c594 JW |
1329 | } |
1330 | ||
1331 | /* Check TARGET attribute. */ | |
1332 | if (s1->attr.target != s2->attr.target) | |
1333 | { | |
1334 | snprintf (errmsg, err_len, "TARGET mismatch in argument '%s'", | |
1335 | s1->name); | |
524af0d6 | 1336 | return false; |
9795c594 JW |
1337 | } |
1338 | ||
688974a3 JW |
1339 | /* Check ASYNCHRONOUS attribute. */ |
1340 | if (s1->attr.asynchronous != s2->attr.asynchronous) | |
1341 | { | |
1342 | snprintf (errmsg, err_len, "ASYNCHRONOUS mismatch in argument '%s'", | |
1343 | s1->name); | |
1344 | return false; | |
1345 | } | |
1346 | ||
1347 | /* Check CONTIGUOUS attribute. */ | |
1348 | if (s1->attr.contiguous != s2->attr.contiguous) | |
1349 | { | |
1350 | snprintf (errmsg, err_len, "CONTIGUOUS mismatch in argument '%s'", | |
1351 | s1->name); | |
1352 | return false; | |
1353 | } | |
1354 | ||
1355 | /* Check VALUE attribute. */ | |
1356 | if (s1->attr.value != s2->attr.value) | |
1357 | { | |
1358 | snprintf (errmsg, err_len, "VALUE mismatch in argument '%s'", | |
1359 | s1->name); | |
1360 | return false; | |
1361 | } | |
1362 | ||
1363 | /* Check VOLATILE attribute. */ | |
1364 | if (s1->attr.volatile_ != s2->attr.volatile_) | |
1365 | { | |
1366 | snprintf (errmsg, err_len, "VOLATILE mismatch in argument '%s'", | |
1367 | s1->name); | |
1368 | return false; | |
1369 | } | |
9795c594 | 1370 | |
f2f8171f JW |
1371 | /* Check interface of dummy procedures. */ |
1372 | if (s1->attr.flavor == FL_PROCEDURE) | |
1373 | { | |
1374 | char err[200]; | |
1375 | if (!gfc_compare_interfaces (s1, s2, s2->name, 0, 1, err, sizeof(err), | |
1376 | NULL, NULL)) | |
1377 | { | |
1378 | snprintf (errmsg, err_len, "Interface mismatch in dummy procedure " | |
1379 | "'%s': %s", s1->name, err); | |
524af0d6 | 1380 | return false; |
f2f8171f JW |
1381 | } |
1382 | } | |
1383 | ||
9795c594 JW |
1384 | /* Check string length. */ |
1385 | if (s1->ts.type == BT_CHARACTER | |
1386 | && s1->ts.u.cl && s1->ts.u.cl->length | |
1387 | && s2->ts.u.cl && s2->ts.u.cl->length) | |
1388 | { | |
1389 | int compval = gfc_dep_compare_expr (s1->ts.u.cl->length, | |
1390 | s2->ts.u.cl->length); | |
1391 | switch (compval) | |
1392 | { | |
1393 | case -1: | |
1394 | case 1: | |
1395 | case -3: | |
1396 | snprintf (errmsg, err_len, "Character length mismatch " | |
1397 | "in argument '%s'", s1->name); | |
524af0d6 | 1398 | return false; |
9795c594 JW |
1399 | |
1400 | case -2: | |
1401 | /* FIXME: Implement a warning for this case. | |
db30e21c | 1402 | gfc_warning (0, "Possible character length mismatch in argument %qs", |
9795c594 JW |
1403 | s1->name);*/ |
1404 | break; | |
1405 | ||
1406 | case 0: | |
1407 | break; | |
1408 | ||
1409 | default: | |
1410 | gfc_internal_error ("check_dummy_characteristics: Unexpected result " | |
1411 | "%i of gfc_dep_compare_expr", compval); | |
1412 | break; | |
1413 | } | |
1414 | } | |
1415 | ||
1416 | /* Check array shape. */ | |
1417 | if (s1->as && s2->as) | |
1418 | { | |
97f26732 JW |
1419 | int i, compval; |
1420 | gfc_expr *shape1, *shape2; | |
1421 | ||
9795c594 JW |
1422 | if (s1->as->type != s2->as->type) |
1423 | { | |
1424 | snprintf (errmsg, err_len, "Shape mismatch in argument '%s'", | |
1425 | s1->name); | |
524af0d6 | 1426 | return false; |
9795c594 | 1427 | } |
97f26732 | 1428 | |
b25affbd TB |
1429 | if (s1->as->corank != s2->as->corank) |
1430 | { | |
1431 | snprintf (errmsg, err_len, "Corank mismatch in argument '%s' (%i/%i)", | |
1432 | s1->name, s1->as->corank, s2->as->corank); | |
1433 | return false; | |
1434 | } | |
1435 | ||
97f26732 | 1436 | if (s1->as->type == AS_EXPLICIT) |
47da0bf6 | 1437 | for (i = 0; i < s1->as->rank + MAX (0, s1->as->corank-1); i++) |
97f26732 JW |
1438 | { |
1439 | shape1 = gfc_subtract (gfc_copy_expr (s1->as->upper[i]), | |
1440 | gfc_copy_expr (s1->as->lower[i])); | |
1441 | shape2 = gfc_subtract (gfc_copy_expr (s2->as->upper[i]), | |
1442 | gfc_copy_expr (s2->as->lower[i])); | |
1443 | compval = gfc_dep_compare_expr (shape1, shape2); | |
1444 | gfc_free_expr (shape1); | |
1445 | gfc_free_expr (shape2); | |
1446 | switch (compval) | |
1447 | { | |
1448 | case -1: | |
1449 | case 1: | |
1450 | case -3: | |
b25affbd TB |
1451 | if (i < s1->as->rank) |
1452 | snprintf (errmsg, err_len, "Shape mismatch in dimension %i of" | |
1453 | " argument '%s'", i + 1, s1->name); | |
1454 | else | |
1455 | snprintf (errmsg, err_len, "Shape mismatch in codimension %i " | |
1456 | "of argument '%s'", i - s1->as->rank + 1, s1->name); | |
524af0d6 | 1457 | return false; |
97f26732 JW |
1458 | |
1459 | case -2: | |
1460 | /* FIXME: Implement a warning for this case. | |
db30e21c | 1461 | gfc_warning (0, "Possible shape mismatch in argument %qs", |
97f26732 JW |
1462 | s1->name);*/ |
1463 | break; | |
1464 | ||
1465 | case 0: | |
1466 | break; | |
1467 | ||
1468 | default: | |
1469 | gfc_internal_error ("check_dummy_characteristics: Unexpected " | |
1470 | "result %i of gfc_dep_compare_expr", | |
1471 | compval); | |
1472 | break; | |
1473 | } | |
1474 | } | |
9795c594 | 1475 | } |
8b704316 | 1476 | |
524af0d6 | 1477 | return true; |
9795c594 JW |
1478 | } |
1479 | ||
1480 | ||
edc802c7 JW |
1481 | /* Check if the characteristics of two function results match, |
1482 | cf. F08:12.3.3. */ | |
1483 | ||
4668d6f9 PT |
1484 | bool |
1485 | gfc_check_result_characteristics (gfc_symbol *s1, gfc_symbol *s2, | |
edc802c7 JW |
1486 | char *errmsg, int err_len) |
1487 | { | |
1488 | gfc_symbol *r1, *r2; | |
1489 | ||
82b541a1 JW |
1490 | if (s1->ts.interface && s1->ts.interface->result) |
1491 | r1 = s1->ts.interface->result; | |
1492 | else | |
1493 | r1 = s1->result ? s1->result : s1; | |
1494 | ||
1495 | if (s2->ts.interface && s2->ts.interface->result) | |
1496 | r2 = s2->ts.interface->result; | |
1497 | else | |
1498 | r2 = s2->result ? s2->result : s2; | |
edc802c7 JW |
1499 | |
1500 | if (r1->ts.type == BT_UNKNOWN) | |
524af0d6 | 1501 | return true; |
edc802c7 JW |
1502 | |
1503 | /* Check type and rank. */ | |
e7333b69 | 1504 | if (!compare_type (r1, r2)) |
edc802c7 | 1505 | { |
e7333b69 JW |
1506 | snprintf (errmsg, err_len, "Type mismatch in function result (%s/%s)", |
1507 | gfc_typename (&r1->ts), gfc_typename (&r2->ts)); | |
1508 | return false; | |
1509 | } | |
1510 | if (!compare_rank (r1, r2)) | |
1511 | { | |
1512 | snprintf (errmsg, err_len, "Rank mismatch in function result (%i/%i)", | |
1513 | symbol_rank (r1), symbol_rank (r2)); | |
524af0d6 | 1514 | return false; |
edc802c7 JW |
1515 | } |
1516 | ||
1517 | /* Check ALLOCATABLE attribute. */ | |
1518 | if (r1->attr.allocatable != r2->attr.allocatable) | |
1519 | { | |
1520 | snprintf (errmsg, err_len, "ALLOCATABLE attribute mismatch in " | |
1521 | "function result"); | |
524af0d6 | 1522 | return false; |
edc802c7 JW |
1523 | } |
1524 | ||
1525 | /* Check POINTER attribute. */ | |
1526 | if (r1->attr.pointer != r2->attr.pointer) | |
1527 | { | |
1528 | snprintf (errmsg, err_len, "POINTER attribute mismatch in " | |
1529 | "function result"); | |
524af0d6 | 1530 | return false; |
edc802c7 JW |
1531 | } |
1532 | ||
1533 | /* Check CONTIGUOUS attribute. */ | |
1534 | if (r1->attr.contiguous != r2->attr.contiguous) | |
1535 | { | |
1536 | snprintf (errmsg, err_len, "CONTIGUOUS attribute mismatch in " | |
1537 | "function result"); | |
524af0d6 | 1538 | return false; |
edc802c7 JW |
1539 | } |
1540 | ||
1541 | /* Check PROCEDURE POINTER attribute. */ | |
1542 | if (r1 != s1 && r1->attr.proc_pointer != r2->attr.proc_pointer) | |
1543 | { | |
1544 | snprintf (errmsg, err_len, "PROCEDURE POINTER mismatch in " | |
1545 | "function result"); | |
524af0d6 | 1546 | return false; |
edc802c7 JW |
1547 | } |
1548 | ||
1549 | /* Check string length. */ | |
1550 | if (r1->ts.type == BT_CHARACTER && r1->ts.u.cl && r2->ts.u.cl) | |
1551 | { | |
1552 | if (r1->ts.deferred != r2->ts.deferred) | |
1553 | { | |
1554 | snprintf (errmsg, err_len, "Character length mismatch " | |
1555 | "in function result"); | |
524af0d6 | 1556 | return false; |
edc802c7 JW |
1557 | } |
1558 | ||
96486998 | 1559 | if (r1->ts.u.cl->length && r2->ts.u.cl->length) |
edc802c7 JW |
1560 | { |
1561 | int compval = gfc_dep_compare_expr (r1->ts.u.cl->length, | |
1562 | r2->ts.u.cl->length); | |
1563 | switch (compval) | |
1564 | { | |
1565 | case -1: | |
1566 | case 1: | |
1567 | case -3: | |
1568 | snprintf (errmsg, err_len, "Character length mismatch " | |
1569 | "in function result"); | |
524af0d6 | 1570 | return false; |
edc802c7 JW |
1571 | |
1572 | case -2: | |
1573 | /* FIXME: Implement a warning for this case. | |
1574 | snprintf (errmsg, err_len, "Possible character length mismatch " | |
1575 | "in function result");*/ | |
1576 | break; | |
1577 | ||
1578 | case 0: | |
1579 | break; | |
1580 | ||
1581 | default: | |
1582 | gfc_internal_error ("check_result_characteristics (1): Unexpected " | |
1583 | "result %i of gfc_dep_compare_expr", compval); | |
1584 | break; | |
1585 | } | |
1586 | } | |
1587 | } | |
1588 | ||
1589 | /* Check array shape. */ | |
1590 | if (!r1->attr.allocatable && !r1->attr.pointer && r1->as && r2->as) | |
1591 | { | |
1592 | int i, compval; | |
1593 | gfc_expr *shape1, *shape2; | |
1594 | ||
1595 | if (r1->as->type != r2->as->type) | |
1596 | { | |
1597 | snprintf (errmsg, err_len, "Shape mismatch in function result"); | |
524af0d6 | 1598 | return false; |
edc802c7 JW |
1599 | } |
1600 | ||
1601 | if (r1->as->type == AS_EXPLICIT) | |
1602 | for (i = 0; i < r1->as->rank + r1->as->corank; i++) | |
1603 | { | |
1604 | shape1 = gfc_subtract (gfc_copy_expr (r1->as->upper[i]), | |
1605 | gfc_copy_expr (r1->as->lower[i])); | |
1606 | shape2 = gfc_subtract (gfc_copy_expr (r2->as->upper[i]), | |
1607 | gfc_copy_expr (r2->as->lower[i])); | |
1608 | compval = gfc_dep_compare_expr (shape1, shape2); | |
1609 | gfc_free_expr (shape1); | |
1610 | gfc_free_expr (shape2); | |
1611 | switch (compval) | |
1612 | { | |
1613 | case -1: | |
1614 | case 1: | |
1615 | case -3: | |
1616 | snprintf (errmsg, err_len, "Shape mismatch in dimension %i of " | |
1617 | "function result", i + 1); | |
524af0d6 | 1618 | return false; |
edc802c7 JW |
1619 | |
1620 | case -2: | |
1621 | /* FIXME: Implement a warning for this case. | |
db30e21c | 1622 | gfc_warning (0, "Possible shape mismatch in return value");*/ |
edc802c7 JW |
1623 | break; |
1624 | ||
1625 | case 0: | |
1626 | break; | |
1627 | ||
1628 | default: | |
1629 | gfc_internal_error ("check_result_characteristics (2): " | |
1630 | "Unexpected result %i of " | |
1631 | "gfc_dep_compare_expr", compval); | |
1632 | break; | |
1633 | } | |
1634 | } | |
1635 | } | |
1636 | ||
524af0d6 | 1637 | return true; |
edc802c7 JW |
1638 | } |
1639 | ||
1640 | ||
6de9cd9a | 1641 | /* 'Compare' two formal interfaces associated with a pair of symbols. |
f3e1097b | 1642 | We return true if there exists an actual argument list that |
8ad15a0a | 1643 | would be ambiguous between the two interfaces, zero otherwise. |
58c1ae36 | 1644 | 'strict_flag' specifies whether all the characteristics are |
6f3ab30d JW |
1645 | required to match, which is not the case for ambiguity checks. |
1646 | 'p1' and 'p2' are the PASS arguments of both procedures (if applicable). */ | |
6de9cd9a | 1647 | |
f3e1097b | 1648 | bool |
889dc035 | 1649 | gfc_compare_interfaces (gfc_symbol *s1, gfc_symbol *s2, const char *name2, |
58c1ae36 | 1650 | int generic_flag, int strict_flag, |
6f3ab30d JW |
1651 | char *errmsg, int err_len, |
1652 | const char *p1, const char *p2) | |
6de9cd9a DN |
1653 | { |
1654 | gfc_formal_arglist *f1, *f2; | |
1655 | ||
0175478d JD |
1656 | gcc_assert (name2 != NULL); |
1657 | ||
9b63f282 JW |
1658 | if (s1->attr.function && (s2->attr.subroutine |
1659 | || (!s2->attr.function && s2->ts.type == BT_UNKNOWN | |
889dc035 | 1660 | && gfc_get_default_type (name2, s2->ns)->type == BT_UNKNOWN))) |
8ad15a0a JW |
1661 | { |
1662 | if (errmsg != NULL) | |
889dc035 | 1663 | snprintf (errmsg, err_len, "'%s' is not a function", name2); |
f3e1097b | 1664 | return false; |
8ad15a0a JW |
1665 | } |
1666 | ||
1667 | if (s1->attr.subroutine && s2->attr.function) | |
1668 | { | |
1669 | if (errmsg != NULL) | |
889dc035 | 1670 | snprintf (errmsg, err_len, "'%s' is not a subroutine", name2); |
f3e1097b | 1671 | return false; |
8ad15a0a | 1672 | } |
3afadac3 | 1673 | |
58c1ae36 JW |
1674 | /* Do strict checks on all characteristics |
1675 | (for dummy procedures and procedure pointer assignments). */ | |
1676 | if (!generic_flag && strict_flag) | |
6cc309c9 | 1677 | { |
58c1ae36 | 1678 | if (s1->attr.function && s2->attr.function) |
8ad15a0a | 1679 | { |
edc802c7 | 1680 | /* If both are functions, check result characteristics. */ |
4668d6f9 PT |
1681 | if (!gfc_check_result_characteristics (s1, s2, errmsg, err_len) |
1682 | || !gfc_check_result_characteristics (s2, s1, errmsg, err_len)) | |
f3e1097b | 1683 | return false; |
58c1ae36 JW |
1684 | } |
1685 | ||
1686 | if (s1->attr.pure && !s2->attr.pure) | |
1687 | { | |
1688 | snprintf (errmsg, err_len, "Mismatch in PURE attribute"); | |
f3e1097b | 1689 | return false; |
58c1ae36 JW |
1690 | } |
1691 | if (s1->attr.elemental && !s2->attr.elemental) | |
1692 | { | |
1693 | snprintf (errmsg, err_len, "Mismatch in ELEMENTAL attribute"); | |
f3e1097b | 1694 | return false; |
8ad15a0a | 1695 | } |
6cc309c9 | 1696 | } |
26033479 | 1697 | |
8ad15a0a JW |
1698 | if (s1->attr.if_source == IFSRC_UNKNOWN |
1699 | || s2->attr.if_source == IFSRC_UNKNOWN) | |
f3e1097b | 1700 | return true; |
26033479 | 1701 | |
4cbc9039 JW |
1702 | f1 = gfc_sym_get_dummy_args (s1); |
1703 | f2 = gfc_sym_get_dummy_args (s2); | |
26033479 | 1704 | |
bd845c14 | 1705 | /* Special case: No arguments. */ |
c73b6478 | 1706 | if (f1 == NULL && f2 == NULL) |
f3e1097b | 1707 | return true; |
6cc309c9 | 1708 | |
c73b6478 | 1709 | if (generic_flag) |
6cc309c9 | 1710 | { |
6f3ab30d JW |
1711 | if (count_types_test (f1, f2, p1, p2) |
1712 | || count_types_test (f2, f1, p2, p1)) | |
f3e1097b | 1713 | return false; |
bd845c14 SK |
1714 | |
1715 | /* Special case: alternate returns. If both f1->sym and f2->sym are | |
e4e659b9 JW |
1716 | NULL, then the leading formal arguments are alternate returns. |
1717 | The previous conditional should catch argument lists with | |
bd845c14 SK |
1718 | different number of argument. */ |
1719 | if (f1 && f1->sym == NULL && f2 && f2->sym == NULL) | |
f3e1097b | 1720 | return true; |
bd845c14 | 1721 | |
6f3ab30d JW |
1722 | if (generic_correspondence (f1, f2, p1, p2) |
1723 | || generic_correspondence (f2, f1, p2, p1)) | |
f3e1097b | 1724 | return false; |
6cc309c9 | 1725 | } |
c73b6478 | 1726 | else |
8ad15a0a JW |
1727 | /* Perform the abbreviated correspondence test for operators (the |
1728 | arguments cannot be optional and are always ordered correctly). | |
1729 | This is also done when comparing interfaces for dummy procedures and in | |
1730 | procedure pointer assignments. */ | |
1731 | ||
f76c4d97 | 1732 | for (; f1 || f2; f1 = f1->next, f2 = f2->next) |
8ad15a0a JW |
1733 | { |
1734 | /* Check existence. */ | |
8ad15a0a JW |
1735 | if (f1 == NULL || f2 == NULL) |
1736 | { | |
1737 | if (errmsg != NULL) | |
1738 | snprintf (errmsg, err_len, "'%s' has the wrong number of " | |
889dc035 | 1739 | "arguments", name2); |
f3e1097b | 1740 | return false; |
8ad15a0a JW |
1741 | } |
1742 | ||
58c1ae36 | 1743 | if (strict_flag) |
8ad15a0a | 1744 | { |
9795c594 | 1745 | /* Check all characteristics. */ |
4668d6f9 | 1746 | if (!gfc_check_dummy_characteristics (f1->sym, f2->sym, true, |
524af0d6 | 1747 | errmsg, err_len)) |
f3e1097b | 1748 | return false; |
9795c594 | 1749 | } |
e7333b69 | 1750 | else |
9795c594 JW |
1751 | { |
1752 | /* Only check type and rank. */ | |
e7333b69 JW |
1753 | if (!compare_type (f2->sym, f1->sym)) |
1754 | { | |
1755 | if (errmsg != NULL) | |
1756 | snprintf (errmsg, err_len, "Type mismatch in argument '%s' " | |
1757 | "(%s/%s)", f1->sym->name, | |
1758 | gfc_typename (&f1->sym->ts), | |
1759 | gfc_typename (&f2->sym->ts)); | |
f3e1097b | 1760 | return false; |
e7333b69 JW |
1761 | } |
1762 | if (!compare_rank (f2->sym, f1->sym)) | |
1763 | { | |
1764 | if (errmsg != NULL) | |
1765 | snprintf (errmsg, err_len, "Rank mismatch in argument '%s' " | |
1766 | "(%i/%i)", f1->sym->name, symbol_rank (f1->sym), | |
1767 | symbol_rank (f2->sym)); | |
f3e1097b | 1768 | return false; |
e7333b69 | 1769 | } |
8ad15a0a | 1770 | } |
8ad15a0a JW |
1771 | } |
1772 | ||
f3e1097b | 1773 | return true; |
6cc309c9 JD |
1774 | } |
1775 | ||
1776 | ||
6de9cd9a | 1777 | /* Given a pointer to an interface pointer, remove duplicate |
284d58f1 | 1778 | interfaces and make sure that all symbols are either functions |
f3e1097b | 1779 | or subroutines, and all of the same kind. Returns true if |
284d58f1 | 1780 | something goes wrong. */ |
6de9cd9a | 1781 | |
f3e1097b | 1782 | static bool |
b251af97 | 1783 | check_interface0 (gfc_interface *p, const char *interface_name) |
6de9cd9a DN |
1784 | { |
1785 | gfc_interface *psave, *q, *qlast; | |
1786 | ||
1787 | psave = p; | |
6de9cd9a | 1788 | for (; p; p = p->next) |
284d58f1 DF |
1789 | { |
1790 | /* Make sure all symbols in the interface have been defined as | |
1791 | functions or subroutines. */ | |
c3f34952 TB |
1792 | if (((!p->sym->attr.function && !p->sym->attr.subroutine) |
1793 | || !p->sym->attr.if_source) | |
f6288c24 | 1794 | && !gfc_fl_struct (p->sym->attr.flavor)) |
284d58f1 DF |
1795 | { |
1796 | if (p->sym->attr.external) | |
c4100eae | 1797 | gfc_error ("Procedure %qs in %s at %L has no explicit interface", |
284d58f1 DF |
1798 | p->sym->name, interface_name, &p->sym->declared_at); |
1799 | else | |
c4100eae | 1800 | gfc_error ("Procedure %qs in %s at %L is neither function nor " |
284d58f1 DF |
1801 | "subroutine", p->sym->name, interface_name, |
1802 | &p->sym->declared_at); | |
f3e1097b | 1803 | return true; |
284d58f1 DF |
1804 | } |
1805 | ||
1806 | /* Verify that procedures are either all SUBROUTINEs or all FUNCTIONs. */ | |
c3f34952 | 1807 | if ((psave->sym->attr.function && !p->sym->attr.function |
f6288c24 | 1808 | && !gfc_fl_struct (p->sym->attr.flavor)) |
284d58f1 DF |
1809 | || (psave->sym->attr.subroutine && !p->sym->attr.subroutine)) |
1810 | { | |
f6288c24 | 1811 | if (!gfc_fl_struct (p->sym->attr.flavor)) |
c3f34952 TB |
1812 | gfc_error ("In %s at %L procedures must be either all SUBROUTINEs" |
1813 | " or all FUNCTIONs", interface_name, | |
1814 | &p->sym->declared_at); | |
f6288c24 | 1815 | else if (p->sym->attr.flavor == FL_DERIVED) |
c3f34952 TB |
1816 | gfc_error ("In %s at %L procedures must be all FUNCTIONs as the " |
1817 | "generic name is also the name of a derived type", | |
1818 | interface_name, &p->sym->declared_at); | |
f3e1097b | 1819 | return true; |
284d58f1 | 1820 | } |
a300121e | 1821 | |
d2c5dbf2 | 1822 | /* F2003, C1207. F2008, C1207. */ |
a300121e | 1823 | if (p->sym->attr.proc == PROC_INTERNAL |
524af0d6 | 1824 | && !gfc_notify_std (GFC_STD_F2008, "Internal procedure " |
a4d9b221 | 1825 | "%qs in %s at %L", p->sym->name, |
524af0d6 | 1826 | interface_name, &p->sym->declared_at)) |
f3e1097b | 1827 | return true; |
284d58f1 | 1828 | } |
6de9cd9a DN |
1829 | p = psave; |
1830 | ||
1831 | /* Remove duplicate interfaces in this interface list. */ | |
1832 | for (; p; p = p->next) | |
1833 | { | |
1834 | qlast = p; | |
1835 | ||
1836 | for (q = p->next; q;) | |
1837 | { | |
1838 | if (p->sym != q->sym) | |
1839 | { | |
1840 | qlast = q; | |
1841 | q = q->next; | |
6de9cd9a DN |
1842 | } |
1843 | else | |
1844 | { | |
66e4ab31 | 1845 | /* Duplicate interface. */ |
6de9cd9a | 1846 | qlast->next = q->next; |
cede9502 | 1847 | free (q); |
6de9cd9a DN |
1848 | q = qlast->next; |
1849 | } | |
1850 | } | |
1851 | } | |
1852 | ||
f3e1097b | 1853 | return false; |
6de9cd9a DN |
1854 | } |
1855 | ||
1856 | ||
1857 | /* Check lists of interfaces to make sure that no two interfaces are | |
66e4ab31 | 1858 | ambiguous. Duplicate interfaces (from the same symbol) are OK here. */ |
6de9cd9a | 1859 | |
f3e1097b | 1860 | static bool |
b251af97 | 1861 | check_interface1 (gfc_interface *p, gfc_interface *q0, |
993ef28f | 1862 | int generic_flag, const char *interface_name, |
26f2ca2b | 1863 | bool referenced) |
6de9cd9a | 1864 | { |
b251af97 | 1865 | gfc_interface *q; |
6de9cd9a | 1866 | for (; p; p = p->next) |
991f3b12 | 1867 | for (q = q0; q; q = q->next) |
6de9cd9a DN |
1868 | { |
1869 | if (p->sym == q->sym) | |
66e4ab31 | 1870 | continue; /* Duplicates OK here. */ |
6de9cd9a | 1871 | |
312ae8f4 | 1872 | if (p->sym->name == q->sym->name && p->sym->module == q->sym->module) |
6de9cd9a DN |
1873 | continue; |
1874 | ||
f6288c24 FR |
1875 | if (!gfc_fl_struct (p->sym->attr.flavor) |
1876 | && !gfc_fl_struct (q->sym->attr.flavor) | |
c3f34952 | 1877 | && gfc_compare_interfaces (p->sym, q->sym, q->sym->name, |
6f3ab30d | 1878 | generic_flag, 0, NULL, 0, NULL, NULL)) |
6de9cd9a | 1879 | { |
993ef28f | 1880 | if (referenced) |
bd845c14 SK |
1881 | gfc_error ("Ambiguous interfaces in %s for %qs at %L " |
1882 | "and %qs at %L", interface_name, | |
1883 | q->sym->name, &q->sym->declared_at, | |
1884 | p->sym->name, &p->sym->declared_at); | |
ae7c61de | 1885 | else if (!p->sym->attr.use_assoc && q->sym->attr.use_assoc) |
bd845c14 SK |
1886 | gfc_warning (0, "Ambiguous interfaces in %s for %qs at %L " |
1887 | "and %qs at %L", interface_name, | |
1888 | q->sym->name, &q->sym->declared_at, | |
1889 | p->sym->name, &p->sym->declared_at); | |
ae7c61de | 1890 | else |
db30e21c | 1891 | gfc_warning (0, "Although not referenced, %qs has ambiguous " |
ae7c61de | 1892 | "interfaces at %L", interface_name, &p->where); |
f3e1097b | 1893 | return true; |
6de9cd9a DN |
1894 | } |
1895 | } | |
f3e1097b | 1896 | return false; |
6de9cd9a DN |
1897 | } |
1898 | ||
1899 | ||
1900 | /* Check the generic and operator interfaces of symbols to make sure | |
1901 | that none of the interfaces conflict. The check has to be done | |
1902 | after all of the symbols are actually loaded. */ | |
1903 | ||
1904 | static void | |
b251af97 | 1905 | check_sym_interfaces (gfc_symbol *sym) |
6de9cd9a DN |
1906 | { |
1907 | char interface_name[100]; | |
71f77fd7 | 1908 | gfc_interface *p; |
6de9cd9a DN |
1909 | |
1910 | if (sym->ns != gfc_current_ns) | |
1911 | return; | |
1912 | ||
1913 | if (sym->generic != NULL) | |
1914 | { | |
1915 | sprintf (interface_name, "generic interface '%s'", sym->name); | |
1916 | if (check_interface0 (sym->generic, interface_name)) | |
1917 | return; | |
1918 | ||
71f77fd7 PT |
1919 | for (p = sym->generic; p; p = p->next) |
1920 | { | |
abf86978 | 1921 | if (p->sym->attr.mod_proc |
4668d6f9 | 1922 | && !p->sym->attr.module_procedure |
abf86978 TB |
1923 | && (p->sym->attr.if_source != IFSRC_DECL |
1924 | || p->sym->attr.procedure)) | |
71f77fd7 | 1925 | { |
c4100eae | 1926 | gfc_error ("%qs at %L is not a module procedure", |
e9f63ace | 1927 | p->sym->name, &p->where); |
71f77fd7 PT |
1928 | return; |
1929 | } | |
1930 | } | |
1931 | ||
4c256e34 | 1932 | /* Originally, this test was applied to host interfaces too; |
993ef28f PT |
1933 | this is incorrect since host associated symbols, from any |
1934 | source, cannot be ambiguous with local symbols. */ | |
ae7c61de JW |
1935 | check_interface1 (sym->generic, sym->generic, 1, interface_name, |
1936 | sym->attr.referenced || !sym->attr.use_assoc); | |
6de9cd9a DN |
1937 | } |
1938 | } | |
1939 | ||
1940 | ||
1941 | static void | |
b251af97 | 1942 | check_uop_interfaces (gfc_user_op *uop) |
6de9cd9a DN |
1943 | { |
1944 | char interface_name[100]; | |
1945 | gfc_user_op *uop2; | |
1946 | gfc_namespace *ns; | |
1947 | ||
1948 | sprintf (interface_name, "operator interface '%s'", uop->name); | |
a1ee985f | 1949 | if (check_interface0 (uop->op, interface_name)) |
6de9cd9a DN |
1950 | return; |
1951 | ||
1952 | for (ns = gfc_current_ns; ns; ns = ns->parent) | |
1953 | { | |
1954 | uop2 = gfc_find_uop (uop->name, ns); | |
1955 | if (uop2 == NULL) | |
1956 | continue; | |
1957 | ||
a1ee985f | 1958 | check_interface1 (uop->op, uop2->op, 0, |
26f2ca2b | 1959 | interface_name, true); |
6de9cd9a DN |
1960 | } |
1961 | } | |
1962 | ||
fb03a37e TK |
1963 | /* Given an intrinsic op, return an equivalent op if one exists, |
1964 | or INTRINSIC_NONE otherwise. */ | |
1965 | ||
1966 | gfc_intrinsic_op | |
1967 | gfc_equivalent_op (gfc_intrinsic_op op) | |
1968 | { | |
1969 | switch(op) | |
1970 | { | |
1971 | case INTRINSIC_EQ: | |
1972 | return INTRINSIC_EQ_OS; | |
1973 | ||
1974 | case INTRINSIC_EQ_OS: | |
1975 | return INTRINSIC_EQ; | |
1976 | ||
1977 | case INTRINSIC_NE: | |
1978 | return INTRINSIC_NE_OS; | |
1979 | ||
1980 | case INTRINSIC_NE_OS: | |
1981 | return INTRINSIC_NE; | |
1982 | ||
1983 | case INTRINSIC_GT: | |
1984 | return INTRINSIC_GT_OS; | |
1985 | ||
1986 | case INTRINSIC_GT_OS: | |
1987 | return INTRINSIC_GT; | |
1988 | ||
1989 | case INTRINSIC_GE: | |
1990 | return INTRINSIC_GE_OS; | |
1991 | ||
1992 | case INTRINSIC_GE_OS: | |
1993 | return INTRINSIC_GE; | |
1994 | ||
1995 | case INTRINSIC_LT: | |
1996 | return INTRINSIC_LT_OS; | |
1997 | ||
1998 | case INTRINSIC_LT_OS: | |
1999 | return INTRINSIC_LT; | |
2000 | ||
2001 | case INTRINSIC_LE: | |
2002 | return INTRINSIC_LE_OS; | |
2003 | ||
2004 | case INTRINSIC_LE_OS: | |
2005 | return INTRINSIC_LE; | |
2006 | ||
2007 | default: | |
2008 | return INTRINSIC_NONE; | |
2009 | } | |
2010 | } | |
6de9cd9a DN |
2011 | |
2012 | /* For the namespace, check generic, user operator and intrinsic | |
2013 | operator interfaces for consistency and to remove duplicate | |
2014 | interfaces. We traverse the whole namespace, counting on the fact | |
2015 | that most symbols will not have generic or operator interfaces. */ | |
2016 | ||
2017 | void | |
b251af97 | 2018 | gfc_check_interfaces (gfc_namespace *ns) |
6de9cd9a DN |
2019 | { |
2020 | gfc_namespace *old_ns, *ns2; | |
2021 | char interface_name[100]; | |
09639a83 | 2022 | int i; |
6de9cd9a DN |
2023 | |
2024 | old_ns = gfc_current_ns; | |
2025 | gfc_current_ns = ns; | |
2026 | ||
2027 | gfc_traverse_ns (ns, check_sym_interfaces); | |
2028 | ||
2029 | gfc_traverse_user_op (ns, check_uop_interfaces); | |
2030 | ||
2031 | for (i = GFC_INTRINSIC_BEGIN; i != GFC_INTRINSIC_END; i++) | |
2032 | { | |
2033 | if (i == INTRINSIC_USER) | |
2034 | continue; | |
2035 | ||
2036 | if (i == INTRINSIC_ASSIGN) | |
2037 | strcpy (interface_name, "intrinsic assignment operator"); | |
2038 | else | |
2039 | sprintf (interface_name, "intrinsic '%s' operator", | |
09639a83 | 2040 | gfc_op2string ((gfc_intrinsic_op) i)); |
6de9cd9a | 2041 | |
a1ee985f | 2042 | if (check_interface0 (ns->op[i], interface_name)) |
6de9cd9a DN |
2043 | continue; |
2044 | ||
94747289 DK |
2045 | if (ns->op[i]) |
2046 | gfc_check_operator_interface (ns->op[i]->sym, (gfc_intrinsic_op) i, | |
2047 | ns->op[i]->where); | |
6de9cd9a | 2048 | |
3bed9dd0 DF |
2049 | for (ns2 = ns; ns2; ns2 = ns2->parent) |
2050 | { | |
fb03a37e | 2051 | gfc_intrinsic_op other_op; |
8b704316 | 2052 | |
a1ee985f | 2053 | if (check_interface1 (ns->op[i], ns2->op[i], 0, |
3bed9dd0 DF |
2054 | interface_name, true)) |
2055 | goto done; | |
2056 | ||
fb03a37e TK |
2057 | /* i should be gfc_intrinsic_op, but has to be int with this cast |
2058 | here for stupid C++ compatibility rules. */ | |
2059 | other_op = gfc_equivalent_op ((gfc_intrinsic_op) i); | |
2060 | if (other_op != INTRINSIC_NONE | |
2061 | && check_interface1 (ns->op[i], ns2->op[other_op], | |
2062 | 0, interface_name, true)) | |
2063 | goto done; | |
3bed9dd0 | 2064 | } |
6de9cd9a DN |
2065 | } |
2066 | ||
3bed9dd0 | 2067 | done: |
6de9cd9a DN |
2068 | gfc_current_ns = old_ns; |
2069 | } | |
2070 | ||
2071 | ||
aa08038d EE |
2072 | /* Given a symbol of a formal argument list and an expression, if the |
2073 | formal argument is allocatable, check that the actual argument is | |
f3e1097b | 2074 | allocatable. Returns true if compatible, zero if not compatible. */ |
aa08038d | 2075 | |
f3e1097b | 2076 | static bool |
b251af97 | 2077 | compare_allocatable (gfc_symbol *formal, gfc_expr *actual) |
aa08038d | 2078 | { |
5ac13b8e JW |
2079 | if (formal->attr.allocatable |
2080 | || (formal->ts.type == BT_CLASS && CLASS_DATA (formal)->attr.allocatable)) | |
aa08038d | 2081 | { |
fec5ce24 JW |
2082 | symbol_attribute attr = gfc_expr_attr (actual); |
2083 | if (actual->ts.type == BT_CLASS && !attr.class_ok) | |
f3e1097b | 2084 | return true; |
fec5ce24 | 2085 | else if (!attr.allocatable) |
f3e1097b | 2086 | return false; |
aa08038d EE |
2087 | } |
2088 | ||
f3e1097b | 2089 | return true; |
aa08038d EE |
2090 | } |
2091 | ||
2092 | ||
6de9cd9a DN |
2093 | /* Given a symbol of a formal argument list and an expression, if the |
2094 | formal argument is a pointer, see if the actual argument is a | |
2095 | pointer. Returns nonzero if compatible, zero if not compatible. */ | |
2096 | ||
2097 | static int | |
b251af97 | 2098 | compare_pointer (gfc_symbol *formal, gfc_expr *actual) |
6de9cd9a DN |
2099 | { |
2100 | symbol_attribute attr; | |
2101 | ||
f18075ff TB |
2102 | if (formal->attr.pointer |
2103 | || (formal->ts.type == BT_CLASS && CLASS_DATA (formal) | |
2104 | && CLASS_DATA (formal)->attr.class_pointer)) | |
6de9cd9a DN |
2105 | { |
2106 | attr = gfc_expr_attr (actual); | |
7d54ef80 TB |
2107 | |
2108 | /* Fortran 2008 allows non-pointer actual arguments. */ | |
2109 | if (!attr.pointer && attr.target && formal->attr.intent == INTENT_IN) | |
2110 | return 2; | |
2111 | ||
6de9cd9a DN |
2112 | if (!attr.pointer) |
2113 | return 0; | |
2114 | } | |
2115 | ||
2116 | return 1; | |
2117 | } | |
2118 | ||
2119 | ||
a516520c PT |
2120 | /* Emit clear error messages for rank mismatch. */ |
2121 | ||
2122 | static void | |
2123 | argument_rank_mismatch (const char *name, locus *where, | |
2124 | int rank1, int rank2) | |
2125 | { | |
c62c6622 TB |
2126 | |
2127 | /* TS 29113, C407b. */ | |
2128 | if (rank2 == -1) | |
2700d0e3 JJ |
2129 | gfc_error ("The assumed-rank array at %L requires that the dummy argument" |
2130 | " %qs has assumed-rank", where, name); | |
c62c6622 | 2131 | else if (rank1 == 0) |
2700d0e3 JJ |
2132 | gfc_error_opt (OPT_Wargument_mismatch, "Rank mismatch in argument %qs " |
2133 | "at %L (scalar and rank-%d)", name, where, rank2); | |
a516520c | 2134 | else if (rank2 == 0) |
2700d0e3 JJ |
2135 | gfc_error_opt (OPT_Wargument_mismatch, "Rank mismatch in argument %qs " |
2136 | "at %L (rank-%d and scalar)", name, where, rank1); | |
a516520c | 2137 | else |
2700d0e3 JJ |
2138 | gfc_error_opt (OPT_Wargument_mismatch, "Rank mismatch in argument %qs " |
2139 | "at %L (rank-%d and rank-%d)", name, where, rank1, rank2); | |
a516520c PT |
2140 | } |
2141 | ||
2142 | ||
6de9cd9a | 2143 | /* Given a symbol of a formal argument list and an expression, see if |
f3e1097b JW |
2144 | the two are compatible as arguments. Returns true if |
2145 | compatible, false if not compatible. */ | |
6de9cd9a | 2146 | |
f3e1097b | 2147 | static bool |
b251af97 | 2148 | compare_parameter (gfc_symbol *formal, gfc_expr *actual, |
5ad6345e | 2149 | int ranks_must_agree, int is_elemental, locus *where) |
6de9cd9a DN |
2150 | { |
2151 | gfc_ref *ref; | |
975b975b | 2152 | bool rank_check, is_pointer; |
5c0ba546 JW |
2153 | char err[200]; |
2154 | gfc_component *ppc; | |
6de9cd9a | 2155 | |
a8b3b0b6 CR |
2156 | /* If the formal arg has type BT_VOID, it's to one of the iso_c_binding |
2157 | procs c_f_pointer or c_f_procpointer, and we need to accept most | |
2158 | pointers the user could give us. This should allow that. */ | |
2159 | if (formal->ts.type == BT_VOID) | |
f3e1097b | 2160 | return true; |
a8b3b0b6 CR |
2161 | |
2162 | if (formal->ts.type == BT_DERIVED | |
bc21d315 | 2163 | && formal->ts.u.derived && formal->ts.u.derived->ts.is_iso_c |
a8b3b0b6 | 2164 | && actual->ts.type == BT_DERIVED |
bc21d315 | 2165 | && actual->ts.u.derived && actual->ts.u.derived->ts.is_iso_c) |
f3e1097b | 2166 | return true; |
a8b3b0b6 | 2167 | |
7d58b9e7 | 2168 | if (formal->ts.type == BT_CLASS && actual->ts.type == BT_DERIVED) |
e10f52d0 JW |
2169 | /* Make sure the vtab symbol is present when |
2170 | the module variables are generated. */ | |
7d58b9e7 | 2171 | gfc_find_derived_vtab (actual->ts.u.derived); |
e10f52d0 | 2172 | |
6de9cd9a DN |
2173 | if (actual->ts.type == BT_PROCEDURE) |
2174 | { | |
9b63f282 | 2175 | gfc_symbol *act_sym = actual->symtree->n.sym; |
6de9cd9a | 2176 | |
8ad15a0a JW |
2177 | if (formal->attr.flavor != FL_PROCEDURE) |
2178 | { | |
2179 | if (where) | |
2180 | gfc_error ("Invalid procedure argument at %L", &actual->where); | |
f3e1097b | 2181 | return false; |
8ad15a0a | 2182 | } |
6de9cd9a | 2183 | |
889dc035 | 2184 | if (!gfc_compare_interfaces (formal, act_sym, act_sym->name, 0, 1, err, |
6f3ab30d | 2185 | sizeof(err), NULL, NULL)) |
8ad15a0a JW |
2186 | { |
2187 | if (where) | |
2700d0e3 JJ |
2188 | gfc_error_opt (OPT_Wargument_mismatch, |
2189 | "Interface mismatch in dummy procedure %qs at %L:" | |
2190 | " %s", formal->name, &actual->where, err); | |
f3e1097b | 2191 | return false; |
8ad15a0a | 2192 | } |
5ad6345e | 2193 | |
9b63f282 | 2194 | if (formal->attr.function && !act_sym->attr.function) |
03bd096b JW |
2195 | { |
2196 | gfc_add_function (&act_sym->attr, act_sym->name, | |
2197 | &act_sym->declared_at); | |
2198 | if (act_sym->ts.type == BT_UNKNOWN | |
524af0d6 | 2199 | && !gfc_set_default_type (act_sym, 1, act_sym->ns)) |
f3e1097b | 2200 | return false; |
03bd096b JW |
2201 | } |
2202 | else if (formal->attr.subroutine && !act_sym->attr.subroutine) | |
9b63f282 JW |
2203 | gfc_add_subroutine (&act_sym->attr, act_sym->name, |
2204 | &act_sym->declared_at); | |
2205 | ||
f3e1097b | 2206 | return true; |
6de9cd9a DN |
2207 | } |
2208 | ||
5c0ba546 | 2209 | ppc = gfc_get_proc_ptr_comp (actual); |
228eb42a | 2210 | if (ppc && ppc->ts.interface) |
5c0ba546 JW |
2211 | { |
2212 | if (!gfc_compare_interfaces (formal, ppc->ts.interface, ppc->name, 0, 1, | |
2213 | err, sizeof(err), NULL, NULL)) | |
2214 | { | |
2215 | if (where) | |
2700d0e3 JJ |
2216 | gfc_error_opt (OPT_Wargument_mismatch, |
2217 | "Interface mismatch in dummy procedure %qs at %L:" | |
2218 | " %s", formal->name, &actual->where, err); | |
f3e1097b | 2219 | return false; |
5c0ba546 JW |
2220 | } |
2221 | } | |
2222 | ||
fe4e525c TB |
2223 | /* F2008, C1241. */ |
2224 | if (formal->attr.pointer && formal->attr.contiguous | |
460263d0 | 2225 | && !gfc_is_simply_contiguous (actual, true, false)) |
fe4e525c TB |
2226 | { |
2227 | if (where) | |
c4100eae | 2228 | gfc_error ("Actual argument to contiguous pointer dummy %qs at %L " |
62732c30 | 2229 | "must be simply contiguous", formal->name, &actual->where); |
f3e1097b | 2230 | return false; |
fe4e525c TB |
2231 | } |
2232 | ||
fec5ce24 JW |
2233 | symbol_attribute actual_attr = gfc_expr_attr (actual); |
2234 | if (actual->ts.type == BT_CLASS && !actual_attr.class_ok) | |
f3e1097b | 2235 | return true; |
fec5ce24 | 2236 | |
90aeadcb | 2237 | if ((actual->expr_type != EXPR_NULL || actual->ts.type != BT_UNKNOWN) |
df161b69 | 2238 | && actual->ts.type != BT_HOLLERITH |
45a69325 | 2239 | && formal->ts.type != BT_ASSUMED |
e7ac6a7c | 2240 | && !(formal->attr.ext_attr & (1 << EXT_ATTR_NO_ARG_CHECK)) |
c49ea23d PT |
2241 | && !gfc_compare_types (&formal->ts, &actual->ts) |
2242 | && !(formal->ts.type == BT_DERIVED && actual->ts.type == BT_CLASS | |
8b704316 | 2243 | && gfc_compare_derived_types (formal->ts.u.derived, |
c49ea23d | 2244 | CLASS_DATA (actual)->ts.u.derived))) |
5ad6345e | 2245 | { |
d68e117b | 2246 | if (where) |
2700d0e3 JJ |
2247 | gfc_error_opt (OPT_Wargument_mismatch, |
2248 | "Type mismatch in argument %qs at %L; passed %s to %s", | |
2249 | formal->name, where, gfc_typename (&actual->ts), | |
2250 | gfc_typename (&formal->ts)); | |
f3e1097b | 2251 | return false; |
5ad6345e | 2252 | } |
f18075ff | 2253 | |
3d54e576 TB |
2254 | if (actual->ts.type == BT_ASSUMED && formal->ts.type != BT_ASSUMED) |
2255 | { | |
2256 | if (where) | |
2257 | gfc_error ("Assumed-type actual argument at %L requires that dummy " | |
c4100eae | 2258 | "argument %qs is of assumed type", &actual->where, |
3d54e576 | 2259 | formal->name); |
f3e1097b | 2260 | return false; |
3d54e576 TB |
2261 | } |
2262 | ||
f18075ff | 2263 | /* F2008, 12.5.2.5; IR F08/0073. */ |
67b1d004 JW |
2264 | if (formal->ts.type == BT_CLASS && formal->attr.class_ok |
2265 | && actual->expr_type != EXPR_NULL | |
f18075ff | 2266 | && ((CLASS_DATA (formal)->attr.class_pointer |
86eb9e2f | 2267 | && formal->attr.intent != INTENT_IN) |
5ac13b8e JW |
2268 | || CLASS_DATA (formal)->attr.allocatable)) |
2269 | { | |
2270 | if (actual->ts.type != BT_CLASS) | |
2271 | { | |
2272 | if (where) | |
c4100eae | 2273 | gfc_error ("Actual argument to %qs at %L must be polymorphic", |
5ac13b8e | 2274 | formal->name, &actual->where); |
f3e1097b | 2275 | return false; |
5ac13b8e | 2276 | } |
67b1d004 | 2277 | |
a8267f8d TB |
2278 | if ((!UNLIMITED_POLY (formal) || !UNLIMITED_POLY(actual)) |
2279 | && !gfc_compare_derived_types (CLASS_DATA (actual)->ts.u.derived, | |
2280 | CLASS_DATA (formal)->ts.u.derived)) | |
5ac13b8e JW |
2281 | { |
2282 | if (where) | |
c4100eae | 2283 | gfc_error ("Actual argument to %qs at %L must have the same " |
5ac13b8e | 2284 | "declared type", formal->name, &actual->where); |
f3e1097b | 2285 | return false; |
5ac13b8e JW |
2286 | } |
2287 | } | |
6de9cd9a | 2288 | |
8b704316 PT |
2289 | /* F08: 12.5.2.5 Allocatable and pointer dummy variables. However, this |
2290 | is necessary also for F03, so retain error for both. | |
2291 | NOTE: Other type/kind errors pre-empt this error. Since they are F03 | |
2292 | compatible, no attempt has been made to channel to this one. */ | |
2293 | if (UNLIMITED_POLY (formal) && !UNLIMITED_POLY (actual) | |
2294 | && (CLASS_DATA (formal)->attr.allocatable | |
2295 | ||CLASS_DATA (formal)->attr.class_pointer)) | |
2296 | { | |
2297 | if (where) | |
c4100eae | 2298 | gfc_error ("Actual argument to %qs at %L must be unlimited " |
8b704316 PT |
2299 | "polymorphic since the formal argument is a " |
2300 | "pointer or allocatable unlimited polymorphic " | |
2301 | "entity [F2008: 12.5.2.5]", formal->name, | |
2302 | &actual->where); | |
f3e1097b | 2303 | return false; |
8b704316 PT |
2304 | } |
2305 | ||
394d3a2e | 2306 | if (formal->attr.codimension && !gfc_is_coarray (actual)) |
d3a9eea2 | 2307 | { |
394d3a2e | 2308 | if (where) |
c4100eae | 2309 | gfc_error ("Actual argument to %qs at %L must be a coarray", |
d3a9eea2 | 2310 | formal->name, &actual->where); |
f3e1097b | 2311 | return false; |
394d3a2e | 2312 | } |
d3a9eea2 | 2313 | |
394d3a2e TB |
2314 | if (formal->attr.codimension && formal->attr.allocatable) |
2315 | { | |
2316 | gfc_ref *last = NULL; | |
a3935ffc | 2317 | |
d3a9eea2 | 2318 | for (ref = actual->ref; ref; ref = ref->next) |
394d3a2e TB |
2319 | if (ref->type == REF_COMPONENT) |
2320 | last = ref; | |
d3a9eea2 | 2321 | |
d3a9eea2 | 2322 | /* F2008, 12.5.2.6. */ |
394d3a2e TB |
2323 | if ((last && last->u.c.component->as->corank != formal->as->corank) |
2324 | || (!last | |
2325 | && actual->symtree->n.sym->as->corank != formal->as->corank)) | |
d3a9eea2 TB |
2326 | { |
2327 | if (where) | |
c4100eae | 2328 | gfc_error ("Corank mismatch in argument %qs at %L (%d and %d)", |
d3a9eea2 TB |
2329 | formal->name, &actual->where, formal->as->corank, |
2330 | last ? last->u.c.component->as->corank | |
2331 | : actual->symtree->n.sym->as->corank); | |
f3e1097b | 2332 | return false; |
d3a9eea2 | 2333 | } |
394d3a2e | 2334 | } |
fe4e525c | 2335 | |
394d3a2e TB |
2336 | if (formal->attr.codimension) |
2337 | { | |
460263d0 TB |
2338 | /* F2008, 12.5.2.8 + Corrig 2 (IR F08/0048). */ |
2339 | /* F2015, 12.5.2.8. */ | |
fe4e525c TB |
2340 | if (formal->attr.dimension |
2341 | && (formal->attr.contiguous || formal->as->type != AS_ASSUMED_SHAPE) | |
fec5ce24 | 2342 | && actual_attr.dimension |
460263d0 | 2343 | && !gfc_is_simply_contiguous (actual, true, true)) |
fe4e525c TB |
2344 | { |
2345 | if (where) | |
c4100eae | 2346 | gfc_error ("Actual argument to %qs at %L must be simply " |
460263d0 TB |
2347 | "contiguous or an element of such an array", |
2348 | formal->name, &actual->where); | |
f3e1097b | 2349 | return false; |
fe4e525c | 2350 | } |
fea54935 TB |
2351 | |
2352 | /* F2008, C1303 and C1304. */ | |
2353 | if (formal->attr.intent != INTENT_INOUT | |
2354 | && (((formal->ts.type == BT_DERIVED || formal->ts.type == BT_CLASS) | |
2355 | && formal->ts.u.derived->from_intmod == INTMOD_ISO_FORTRAN_ENV | |
2356 | && formal->ts.u.derived->intmod_sym_id == ISOFORTRAN_LOCK_TYPE) | |
2357 | || formal->attr.lock_comp)) | |
2358 | ||
2359 | { | |
2360 | if (where) | |
c4100eae | 2361 | gfc_error ("Actual argument to non-INTENT(INOUT) dummy %qs at %L, " |
fea54935 TB |
2362 | "which is LOCK_TYPE or has a LOCK_TYPE component", |
2363 | formal->name, &actual->where); | |
f3e1097b | 2364 | return false; |
fea54935 | 2365 | } |
5df445a2 TB |
2366 | |
2367 | /* TS18508, C702/C703. */ | |
2368 | if (formal->attr.intent != INTENT_INOUT | |
2369 | && (((formal->ts.type == BT_DERIVED || formal->ts.type == BT_CLASS) | |
2370 | && formal->ts.u.derived->from_intmod == INTMOD_ISO_FORTRAN_ENV | |
2371 | && formal->ts.u.derived->intmod_sym_id == ISOFORTRAN_EVENT_TYPE) | |
2372 | || formal->attr.event_comp)) | |
2373 | ||
2374 | { | |
2375 | if (where) | |
2376 | gfc_error ("Actual argument to non-INTENT(INOUT) dummy %qs at %L, " | |
2377 | "which is EVENT_TYPE or has a EVENT_TYPE component", | |
2378 | formal->name, &actual->where); | |
f3e1097b | 2379 | return false; |
5df445a2 | 2380 | } |
394d3a2e | 2381 | } |
fe4e525c TB |
2382 | |
2383 | /* F2008, C1239/C1240. */ | |
2384 | if (actual->expr_type == EXPR_VARIABLE | |
2385 | && (actual->symtree->n.sym->attr.asynchronous | |
2386 | || actual->symtree->n.sym->attr.volatile_) | |
2387 | && (formal->attr.asynchronous || formal->attr.volatile_) | |
460263d0 TB |
2388 | && actual->rank && formal->as |
2389 | && !gfc_is_simply_contiguous (actual, true, false) | |
f188272d TB |
2390 | && ((formal->as->type != AS_ASSUMED_SHAPE |
2391 | && formal->as->type != AS_ASSUMED_RANK && !formal->attr.pointer) | |
fe4e525c TB |
2392 | || formal->attr.contiguous)) |
2393 | { | |
2394 | if (where) | |
c4100eae | 2395 | gfc_error ("Dummy argument %qs has to be a pointer, assumed-shape or " |
f188272d TB |
2396 | "assumed-rank array without CONTIGUOUS attribute - as actual" |
2397 | " argument at %L is not simply contiguous and both are " | |
2398 | "ASYNCHRONOUS or VOLATILE", formal->name, &actual->where); | |
f3e1097b | 2399 | return false; |
d3a9eea2 TB |
2400 | } |
2401 | ||
427180d2 | 2402 | if (formal->attr.allocatable && !formal->attr.codimension |
fec5ce24 | 2403 | && actual_attr.codimension) |
427180d2 TB |
2404 | { |
2405 | if (formal->attr.intent == INTENT_OUT) | |
2406 | { | |
2407 | if (where) | |
2408 | gfc_error ("Passing coarray at %L to allocatable, noncoarray, " | |
c4100eae | 2409 | "INTENT(OUT) dummy argument %qs", &actual->where, |
427180d2 | 2410 | formal->name); |
f3e1097b | 2411 | return false; |
427180d2 | 2412 | } |
73e42eef | 2413 | else if (warn_surprising && where && formal->attr.intent != INTENT_IN) |
48749dbc MLI |
2414 | gfc_warning (OPT_Wsurprising, |
2415 | "Passing coarray at %L to allocatable, noncoarray dummy " | |
2416 | "argument %qs, which is invalid if the allocation status" | |
427180d2 TB |
2417 | " is modified", &actual->where, formal->name); |
2418 | } | |
2419 | ||
c62c6622 TB |
2420 | /* If the rank is the same or the formal argument has assumed-rank. */ |
2421 | if (symbol_rank (formal) == actual->rank || symbol_rank (formal) == -1) | |
f3e1097b | 2422 | return true; |
6de9cd9a | 2423 | |
5ad6345e TB |
2424 | rank_check = where != NULL && !is_elemental && formal->as |
2425 | && (formal->as->type == AS_ASSUMED_SHAPE | |
d8a8dab3 TB |
2426 | || formal->as->type == AS_DEFERRED) |
2427 | && actual->expr_type != EXPR_NULL; | |
6de9cd9a | 2428 | |
e7ac6a7c TB |
2429 | /* Skip rank checks for NO_ARG_CHECK. */ |
2430 | if (formal->attr.ext_attr & (1 << EXT_ATTR_NO_ARG_CHECK)) | |
f3e1097b | 2431 | return true; |
e7ac6a7c | 2432 | |
d3a9eea2 | 2433 | /* Scalar & coindexed, see: F2008, Section 12.5.2.4. */ |
d8a8dab3 TB |
2434 | if (rank_check || ranks_must_agree |
2435 | || (formal->attr.pointer && actual->expr_type != EXPR_NULL) | |
5ad6345e | 2436 | || (actual->rank != 0 && !(is_elemental || formal->attr.dimension)) |
c49ea23d PT |
2437 | || (actual->rank == 0 |
2438 | && ((formal->ts.type == BT_CLASS | |
2439 | && CLASS_DATA (formal)->as->type == AS_ASSUMED_SHAPE) | |
2440 | || (formal->ts.type != BT_CLASS | |
2441 | && formal->as->type == AS_ASSUMED_SHAPE)) | |
08857b61 | 2442 | && actual->expr_type != EXPR_NULL) |
d3a9eea2 TB |
2443 | || (actual->rank == 0 && formal->attr.dimension |
2444 | && gfc_is_coindexed (actual))) | |
5ad6345e TB |
2445 | { |
2446 | if (where) | |
a516520c PT |
2447 | argument_rank_mismatch (formal->name, &actual->where, |
2448 | symbol_rank (formal), actual->rank); | |
f3e1097b | 2449 | return false; |
5ad6345e TB |
2450 | } |
2451 | else if (actual->rank != 0 && (is_elemental || formal->attr.dimension)) | |
f3e1097b | 2452 | return true; |
5ad6345e TB |
2453 | |
2454 | /* At this point, we are considering a scalar passed to an array. This | |
975b975b | 2455 | is valid (cf. F95 12.4.1.1, F2003 12.4.1.2, and F2008 12.5.2.4), |
5ad6345e | 2456 | - if the actual argument is (a substring of) an element of a |
975b975b TB |
2457 | non-assumed-shape/non-pointer/non-polymorphic array; or |
2458 | - (F2003) if the actual argument is of type character of default/c_char | |
2459 | kind. */ | |
2460 | ||
2461 | is_pointer = actual->expr_type == EXPR_VARIABLE | |
2462 | ? actual->symtree->n.sym->attr.pointer : false; | |
6de9cd9a DN |
2463 | |
2464 | for (ref = actual->ref; ref; ref = ref->next) | |
975b975b TB |
2465 | { |
2466 | if (ref->type == REF_COMPONENT) | |
2467 | is_pointer = ref->u.c.component->attr.pointer; | |
2468 | else if (ref->type == REF_ARRAY && ref->u.ar.type == AR_ELEMENT | |
2469 | && ref->u.ar.dimen > 0 | |
8b704316 | 2470 | && (!ref->next |
975b975b TB |
2471 | || (ref->next->type == REF_SUBSTRING && !ref->next->next))) |
2472 | break; | |
2473 | } | |
2474 | ||
2475 | if (actual->ts.type == BT_CLASS && actual->expr_type != EXPR_NULL) | |
2476 | { | |
2477 | if (where) | |
c4100eae | 2478 | gfc_error ("Polymorphic scalar passed to array dummy argument %qs " |
975b975b | 2479 | "at %L", formal->name, &actual->where); |
f3e1097b | 2480 | return false; |
975b975b TB |
2481 | } |
2482 | ||
2483 | if (actual->expr_type != EXPR_NULL && ref && actual->ts.type != BT_CHARACTER | |
2484 | && (is_pointer || ref->u.ar.as->type == AS_ASSUMED_SHAPE)) | |
2485 | { | |
2486 | if (where) | |
2487 | gfc_error ("Element of assumed-shaped or pointer " | |
c4100eae | 2488 | "array passed to array dummy argument %qs at %L", |
975b975b | 2489 | formal->name, &actual->where); |
f3e1097b | 2490 | return false; |
975b975b | 2491 | } |
6de9cd9a | 2492 | |
975b975b TB |
2493 | if (actual->ts.type == BT_CHARACTER && actual->expr_type != EXPR_NULL |
2494 | && (!ref || is_pointer || ref->u.ar.as->type == AS_ASSUMED_SHAPE)) | |
5ad6345e | 2495 | { |
975b975b TB |
2496 | if (formal->ts.kind != 1 && (gfc_option.allow_std & GFC_STD_GNU) == 0) |
2497 | { | |
2498 | if (where) | |
2499 | gfc_error ("Extension: Scalar non-default-kind, non-C_CHAR-kind " | |
2500 | "CHARACTER actual argument with array dummy argument " | |
c4100eae | 2501 | "%qs at %L", formal->name, &actual->where); |
f3e1097b | 2502 | return false; |
975b975b TB |
2503 | } |
2504 | ||
5ad6345e TB |
2505 | if (where && (gfc_option.allow_std & GFC_STD_F2003) == 0) |
2506 | { | |
2507 | gfc_error ("Fortran 2003: Scalar CHARACTER actual argument with " | |
c4100eae | 2508 | "array dummy argument %qs at %L", |
5ad6345e | 2509 | formal->name, &actual->where); |
f3e1097b | 2510 | return false; |
5ad6345e | 2511 | } |
5ad6345e | 2512 | else |
f3e1097b | 2513 | return ((gfc_option.allow_std & GFC_STD_F2003) != 0); |
5ad6345e | 2514 | } |
975b975b TB |
2515 | |
2516 | if (ref == NULL && actual->expr_type != EXPR_NULL) | |
5ad6345e TB |
2517 | { |
2518 | if (where) | |
a516520c PT |
2519 | argument_rank_mismatch (formal->name, &actual->where, |
2520 | symbol_rank (formal), actual->rank); | |
f3e1097b | 2521 | return false; |
5ad6345e TB |
2522 | } |
2523 | ||
f3e1097b | 2524 | return true; |
6de9cd9a DN |
2525 | } |
2526 | ||
2527 | ||
2d5b90b2 TB |
2528 | /* Returns the storage size of a symbol (formal argument) or |
2529 | zero if it cannot be determined. */ | |
2530 | ||
2531 | static unsigned long | |
2532 | get_sym_storage_size (gfc_symbol *sym) | |
2533 | { | |
2534 | int i; | |
2535 | unsigned long strlen, elements; | |
2536 | ||
2537 | if (sym->ts.type == BT_CHARACTER) | |
2538 | { | |
bc21d315 JW |
2539 | if (sym->ts.u.cl && sym->ts.u.cl->length |
2540 | && sym->ts.u.cl->length->expr_type == EXPR_CONSTANT) | |
2541 | strlen = mpz_get_ui (sym->ts.u.cl->length->value.integer); | |
2d5b90b2 TB |
2542 | else |
2543 | return 0; | |
2544 | } | |
2545 | else | |
8b704316 | 2546 | strlen = 1; |
2d5b90b2 TB |
2547 | |
2548 | if (symbol_rank (sym) == 0) | |
2549 | return strlen; | |
2550 | ||
2551 | elements = 1; | |
2552 | if (sym->as->type != AS_EXPLICIT) | |
2553 | return 0; | |
2554 | for (i = 0; i < sym->as->rank; i++) | |
2555 | { | |
efb63364 | 2556 | if (sym->as->upper[i]->expr_type != EXPR_CONSTANT |
2d5b90b2 TB |
2557 | || sym->as->lower[i]->expr_type != EXPR_CONSTANT) |
2558 | return 0; | |
2559 | ||
c13af44b SK |
2560 | elements *= mpz_get_si (sym->as->upper[i]->value.integer) |
2561 | - mpz_get_si (sym->as->lower[i]->value.integer) + 1L; | |
2d5b90b2 TB |
2562 | } |
2563 | ||
2564 | return strlen*elements; | |
2565 | } | |
2566 | ||
2567 | ||
2568 | /* Returns the storage size of an expression (actual argument) or | |
2569 | zero if it cannot be determined. For an array element, it returns | |
1207ac67 | 2570 | the remaining size as the element sequence consists of all storage |
2d5b90b2 TB |
2571 | units of the actual argument up to the end of the array. */ |
2572 | ||
2573 | static unsigned long | |
2574 | get_expr_storage_size (gfc_expr *e) | |
2575 | { | |
2576 | int i; | |
2577 | long int strlen, elements; | |
6da0839a | 2578 | long int substrlen = 0; |
a0710c29 | 2579 | bool is_str_storage = false; |
2d5b90b2 TB |
2580 | gfc_ref *ref; |
2581 | ||
2582 | if (e == NULL) | |
2583 | return 0; | |
8b704316 | 2584 | |
2d5b90b2 TB |
2585 | if (e->ts.type == BT_CHARACTER) |
2586 | { | |
bc21d315 JW |
2587 | if (e->ts.u.cl && e->ts.u.cl->length |
2588 | && e->ts.u.cl->length->expr_type == EXPR_CONSTANT) | |
2589 | strlen = mpz_get_si (e->ts.u.cl->length->value.integer); | |
2d5b90b2 | 2590 | else if (e->expr_type == EXPR_CONSTANT |
bc21d315 | 2591 | && (e->ts.u.cl == NULL || e->ts.u.cl->length == NULL)) |
2d5b90b2 TB |
2592 | strlen = e->value.character.length; |
2593 | else | |
2594 | return 0; | |
2595 | } | |
2596 | else | |
2597 | strlen = 1; /* Length per element. */ | |
2598 | ||
2599 | if (e->rank == 0 && !e->ref) | |
2600 | return strlen; | |
2601 | ||
2602 | elements = 1; | |
2603 | if (!e->ref) | |
2604 | { | |
2605 | if (!e->shape) | |
2606 | return 0; | |
2607 | for (i = 0; i < e->rank; i++) | |
2608 | elements *= mpz_get_si (e->shape[i]); | |
2609 | return elements*strlen; | |
2610 | } | |
2611 | ||
2612 | for (ref = e->ref; ref; ref = ref->next) | |
2613 | { | |
6da0839a TB |
2614 | if (ref->type == REF_SUBSTRING && ref->u.ss.start |
2615 | && ref->u.ss.start->expr_type == EXPR_CONSTANT) | |
2616 | { | |
a0710c29 TB |
2617 | if (is_str_storage) |
2618 | { | |
2619 | /* The string length is the substring length. | |
2620 | Set now to full string length. */ | |
e323640f | 2621 | if (!ref->u.ss.length || !ref->u.ss.length->length |
a0710c29 TB |
2622 | || ref->u.ss.length->length->expr_type != EXPR_CONSTANT) |
2623 | return 0; | |
2624 | ||
2625 | strlen = mpz_get_ui (ref->u.ss.length->length->value.integer); | |
2626 | } | |
2627 | substrlen = strlen - mpz_get_ui (ref->u.ss.start->value.integer) + 1; | |
6da0839a TB |
2628 | continue; |
2629 | } | |
2630 | ||
efb63364 | 2631 | if (ref->type == REF_ARRAY && ref->u.ar.type == AR_SECTION) |
2d5b90b2 TB |
2632 | for (i = 0; i < ref->u.ar.dimen; i++) |
2633 | { | |
2634 | long int start, end, stride; | |
2635 | stride = 1; | |
37639728 | 2636 | |
2d5b90b2 TB |
2637 | if (ref->u.ar.stride[i]) |
2638 | { | |
2639 | if (ref->u.ar.stride[i]->expr_type == EXPR_CONSTANT) | |
2640 | stride = mpz_get_si (ref->u.ar.stride[i]->value.integer); | |
2641 | else | |
2642 | return 0; | |
2643 | } | |
2644 | ||
2645 | if (ref->u.ar.start[i]) | |
2646 | { | |
2647 | if (ref->u.ar.start[i]->expr_type == EXPR_CONSTANT) | |
2648 | start = mpz_get_si (ref->u.ar.start[i]->value.integer); | |
2649 | else | |
2650 | return 0; | |
2651 | } | |
37639728 TB |
2652 | else if (ref->u.ar.as->lower[i] |
2653 | && ref->u.ar.as->lower[i]->expr_type == EXPR_CONSTANT) | |
2654 | start = mpz_get_si (ref->u.ar.as->lower[i]->value.integer); | |
2655 | else | |
2656 | return 0; | |
2d5b90b2 TB |
2657 | |
2658 | if (ref->u.ar.end[i]) | |
2659 | { | |
2660 | if (ref->u.ar.end[i]->expr_type == EXPR_CONSTANT) | |
2661 | end = mpz_get_si (ref->u.ar.end[i]->value.integer); | |
2662 | else | |
2663 | return 0; | |
2664 | } | |
2665 | else if (ref->u.ar.as->upper[i] | |
2666 | && ref->u.ar.as->upper[i]->expr_type == EXPR_CONSTANT) | |
2667 | end = mpz_get_si (ref->u.ar.as->upper[i]->value.integer); | |
2668 | else | |
2669 | return 0; | |
2670 | ||
2671 | elements *= (end - start)/stride + 1L; | |
2672 | } | |
c6423ef3 | 2673 | else if (ref->type == REF_ARRAY && ref->u.ar.type == AR_FULL) |
2d5b90b2 TB |
2674 | for (i = 0; i < ref->u.ar.as->rank; i++) |
2675 | { | |
2676 | if (ref->u.ar.as->lower[i] && ref->u.ar.as->upper[i] | |
2677 | && ref->u.ar.as->lower[i]->expr_type == EXPR_CONSTANT | |
edcc76d5 SK |
2678 | && ref->u.ar.as->lower[i]->ts.type == BT_INTEGER |
2679 | && ref->u.ar.as->upper[i]->expr_type == EXPR_CONSTANT | |
2680 | && ref->u.ar.as->upper[i]->ts.type == BT_INTEGER) | |
da9ad923 TB |
2681 | elements *= mpz_get_si (ref->u.ar.as->upper[i]->value.integer) |
2682 | - mpz_get_si (ref->u.ar.as->lower[i]->value.integer) | |
2d5b90b2 TB |
2683 | + 1L; |
2684 | else | |
2685 | return 0; | |
2686 | } | |
6da0839a | 2687 | else if (ref->type == REF_ARRAY && ref->u.ar.type == AR_ELEMENT |
a0710c29 TB |
2688 | && e->expr_type == EXPR_VARIABLE) |
2689 | { | |
93302a24 | 2690 | if (ref->u.ar.as->type == AS_ASSUMED_SHAPE |
a0710c29 TB |
2691 | || e->symtree->n.sym->attr.pointer) |
2692 | { | |
2693 | elements = 1; | |
2694 | continue; | |
2695 | } | |
2696 | ||
2697 | /* Determine the number of remaining elements in the element | |
2698 | sequence for array element designators. */ | |
2699 | is_str_storage = true; | |
2700 | for (i = ref->u.ar.dimen - 1; i >= 0; i--) | |
2701 | { | |
2702 | if (ref->u.ar.start[i] == NULL | |
2703 | || ref->u.ar.start[i]->expr_type != EXPR_CONSTANT | |
2704 | || ref->u.ar.as->upper[i] == NULL | |
2705 | || ref->u.ar.as->lower[i] == NULL | |
2706 | || ref->u.ar.as->upper[i]->expr_type != EXPR_CONSTANT | |
2707 | || ref->u.ar.as->lower[i]->expr_type != EXPR_CONSTANT) | |
2708 | return 0; | |
2709 | ||
2710 | elements | |
2711 | = elements | |
2712 | * (mpz_get_si (ref->u.ar.as->upper[i]->value.integer) | |
2713 | - mpz_get_si (ref->u.ar.as->lower[i]->value.integer) | |
2714 | + 1L) | |
2715 | - (mpz_get_si (ref->u.ar.start[i]->value.integer) | |
2716 | - mpz_get_si (ref->u.ar.as->lower[i]->value.integer)); | |
2717 | } | |
2718 | } | |
3436db75 JW |
2719 | else if (ref->type == REF_COMPONENT && ref->u.c.component->attr.function |
2720 | && ref->u.c.component->attr.proc_pointer | |
2721 | && ref->u.c.component->attr.dimension) | |
2722 | { | |
2723 | /* Array-valued procedure-pointer components. */ | |
2724 | gfc_array_spec *as = ref->u.c.component->as; | |
2725 | for (i = 0; i < as->rank; i++) | |
2726 | { | |
2727 | if (!as->upper[i] || !as->lower[i] | |
2728 | || as->upper[i]->expr_type != EXPR_CONSTANT | |
2729 | || as->lower[i]->expr_type != EXPR_CONSTANT) | |
2730 | return 0; | |
2731 | ||
2732 | elements = elements | |
2733 | * (mpz_get_si (as->upper[i]->value.integer) | |
2734 | - mpz_get_si (as->lower[i]->value.integer) + 1L); | |
2735 | } | |
2736 | } | |
2d5b90b2 TB |
2737 | } |
2738 | ||
6da0839a | 2739 | if (substrlen) |
a0710c29 TB |
2740 | return (is_str_storage) ? substrlen + (elements-1)*strlen |
2741 | : elements*strlen; | |
2742 | else | |
2743 | return elements*strlen; | |
2d5b90b2 TB |
2744 | } |
2745 | ||
2746 | ||
59be8071 | 2747 | /* Given an expression, check whether it is an array section |
f3e1097b | 2748 | which has a vector subscript. */ |
59be8071 | 2749 | |
f3e1097b | 2750 | bool |
03af1e4c | 2751 | gfc_has_vector_subscript (gfc_expr *e) |
59be8071 TB |
2752 | { |
2753 | int i; | |
2754 | gfc_ref *ref; | |
2755 | ||
2756 | if (e == NULL || e->rank == 0 || e->expr_type != EXPR_VARIABLE) | |
f3e1097b | 2757 | return false; |
59be8071 TB |
2758 | |
2759 | for (ref = e->ref; ref; ref = ref->next) | |
2760 | if (ref->type == REF_ARRAY && ref->u.ar.type == AR_SECTION) | |
2761 | for (i = 0; i < ref->u.ar.dimen; i++) | |
2762 | if (ref->u.ar.dimen_type[i] == DIMEN_VECTOR) | |
f3e1097b | 2763 | return true; |
59be8071 | 2764 | |
f3e1097b | 2765 | return false; |
59be8071 TB |
2766 | } |
2767 | ||
2768 | ||
4294c093 JW |
2769 | static bool |
2770 | is_procptr_result (gfc_expr *expr) | |
2771 | { | |
2772 | gfc_component *c = gfc_get_proc_ptr_comp (expr); | |
2773 | if (c) | |
2774 | return (c->ts.interface && (c->ts.interface->attr.proc_pointer == 1)); | |
2775 | else | |
2776 | return ((expr->symtree->n.sym->result != expr->symtree->n.sym) | |
2777 | && (expr->symtree->n.sym->result->attr.proc_pointer == 1)); | |
2778 | } | |
2779 | ||
2780 | ||
6de9cd9a DN |
2781 | /* Given formal and actual argument lists, see if they are compatible. |
2782 | If they are compatible, the actual argument list is sorted to | |
2783 | correspond with the formal list, and elements for missing optional | |
2784 | arguments are inserted. If WHERE pointer is nonnull, then we issue | |
2785 | errors when things don't match instead of just returning the status | |
2786 | code. */ | |
2787 | ||
f3e1097b | 2788 | static bool |
f0ac18b7 DK |
2789 | compare_actual_formal (gfc_actual_arglist **ap, gfc_formal_arglist *formal, |
2790 | int ranks_must_agree, int is_elemental, locus *where) | |
6de9cd9a | 2791 | { |
fab27f52 | 2792 | gfc_actual_arglist **new_arg, *a, *actual; |
6de9cd9a DN |
2793 | gfc_formal_arglist *f; |
2794 | int i, n, na; | |
2d5b90b2 | 2795 | unsigned long actual_size, formal_size; |
c49ea23d | 2796 | bool full_array = false; |
eb401400 | 2797 | gfc_array_ref *actual_arr_ref; |
6de9cd9a DN |
2798 | |
2799 | actual = *ap; | |
2800 | ||
2801 | if (actual == NULL && formal == NULL) | |
f3e1097b | 2802 | return true; |
6de9cd9a DN |
2803 | |
2804 | n = 0; | |
2805 | for (f = formal; f; f = f->next) | |
2806 | n++; | |
2807 | ||
1145e690 | 2808 | new_arg = XALLOCAVEC (gfc_actual_arglist *, n); |
6de9cd9a DN |
2809 | |
2810 | for (i = 0; i < n; i++) | |
7b901ac4 | 2811 | new_arg[i] = NULL; |
6de9cd9a DN |
2812 | |
2813 | na = 0; | |
2814 | f = formal; | |
2815 | i = 0; | |
2816 | ||
2817 | for (a = actual; a; a = a->next, f = f->next) | |
2818 | { | |
7fcafa71 PT |
2819 | /* Look for keywords but ignore g77 extensions like %VAL. */ |
2820 | if (a->name != NULL && a->name[0] != '%') | |
6de9cd9a DN |
2821 | { |
2822 | i = 0; | |
2823 | for (f = formal; f; f = f->next, i++) | |
2824 | { | |
2825 | if (f->sym == NULL) | |
2826 | continue; | |
2827 | if (strcmp (f->sym->name, a->name) == 0) | |
2828 | break; | |
2829 | } | |
2830 | ||
2831 | if (f == NULL) | |
2832 | { | |
2833 | if (where) | |
c4100eae | 2834 | gfc_error ("Keyword argument %qs at %L is not in " |
b251af97 | 2835 | "the procedure", a->name, &a->expr->where); |
f3e1097b | 2836 | return false; |
6de9cd9a DN |
2837 | } |
2838 | ||
7b901ac4 | 2839 | if (new_arg[i] != NULL) |
6de9cd9a DN |
2840 | { |
2841 | if (where) | |
c4100eae | 2842 | gfc_error ("Keyword argument %qs at %L is already associated " |
b251af97 SK |
2843 | "with another actual argument", a->name, |
2844 | &a->expr->where); | |
f3e1097b | 2845 | return false; |
6de9cd9a DN |
2846 | } |
2847 | } | |
2848 | ||
2849 | if (f == NULL) | |
2850 | { | |
2851 | if (where) | |
b251af97 SK |
2852 | gfc_error ("More actual than formal arguments in procedure " |
2853 | "call at %L", where); | |
6de9cd9a | 2854 | |
f3e1097b | 2855 | return false; |
6de9cd9a DN |
2856 | } |
2857 | ||
2858 | if (f->sym == NULL && a->expr == NULL) | |
2859 | goto match; | |
2860 | ||
2861 | if (f->sym == NULL) | |
2862 | { | |
2863 | if (where) | |
b251af97 SK |
2864 | gfc_error ("Missing alternate return spec in subroutine call " |
2865 | "at %L", where); | |
f3e1097b | 2866 | return false; |
6de9cd9a DN |
2867 | } |
2868 | ||
2869 | if (a->expr == NULL) | |
2870 | { | |
2871 | if (where) | |
b251af97 SK |
2872 | gfc_error ("Unexpected alternate return spec in subroutine " |
2873 | "call at %L", where); | |
f3e1097b | 2874 | return false; |
6de9cd9a | 2875 | } |
08857b61 | 2876 | |
8b704316 PT |
2877 | /* Make sure that intrinsic vtables exist for calls to unlimited |
2878 | polymorphic formal arguments. */ | |
524af0d6 | 2879 | if (UNLIMITED_POLY (f->sym) |
8b704316 PT |
2880 | && a->expr->ts.type != BT_DERIVED |
2881 | && a->expr->ts.type != BT_CLASS) | |
7289d1c9 | 2882 | gfc_find_vtab (&a->expr->ts); |
8b704316 | 2883 | |
99091b70 TB |
2884 | if (a->expr->expr_type == EXPR_NULL |
2885 | && ((f->sym->ts.type != BT_CLASS && !f->sym->attr.pointer | |
2886 | && (f->sym->attr.allocatable || !f->sym->attr.optional | |
2887 | || (gfc_option.allow_std & GFC_STD_F2008) == 0)) | |
2888 | || (f->sym->ts.type == BT_CLASS | |
2889 | && !CLASS_DATA (f->sym)->attr.class_pointer | |
2890 | && (CLASS_DATA (f->sym)->attr.allocatable | |
2891 | || !f->sym->attr.optional | |
2892 | || (gfc_option.allow_std & GFC_STD_F2008) == 0)))) | |
08857b61 | 2893 | { |
99091b70 TB |
2894 | if (where |
2895 | && (!f->sym->attr.optional | |
2896 | || (f->sym->ts.type != BT_CLASS && f->sym->attr.allocatable) | |
2897 | || (f->sym->ts.type == BT_CLASS | |
2898 | && CLASS_DATA (f->sym)->attr.allocatable))) | |
c4100eae | 2899 | gfc_error ("Unexpected NULL() intrinsic at %L to dummy %qs", |
08857b61 TB |
2900 | where, f->sym->name); |
2901 | else if (where) | |
2902 | gfc_error ("Fortran 2008: Null pointer at %L to non-pointer " | |
c4100eae | 2903 | "dummy %qs", where, f->sym->name); |
08857b61 | 2904 | |
f3e1097b | 2905 | return false; |
08857b61 | 2906 | } |
8b704316 | 2907 | |
5ad6345e TB |
2908 | if (!compare_parameter (f->sym, a->expr, ranks_must_agree, |
2909 | is_elemental, where)) | |
f3e1097b | 2910 | return false; |
6de9cd9a | 2911 | |
45a69325 TB |
2912 | /* TS 29113, 6.3p2. */ |
2913 | if (f->sym->ts.type == BT_ASSUMED | |
2914 | && (a->expr->ts.type == BT_DERIVED | |
2915 | || (a->expr->ts.type == BT_CLASS && CLASS_DATA (a->expr)))) | |
2916 | { | |
2917 | gfc_namespace *f2k_derived; | |
2918 | ||
2919 | f2k_derived = a->expr->ts.type == BT_DERIVED | |
2920 | ? a->expr->ts.u.derived->f2k_derived | |
2921 | : CLASS_DATA (a->expr)->ts.u.derived->f2k_derived; | |
2922 | ||
2923 | if (f2k_derived | |
2924 | && (f2k_derived->finalizers || f2k_derived->tb_sym_root)) | |
2925 | { | |
2926 | gfc_error ("Actual argument at %L to assumed-type dummy is of " | |
2927 | "derived type with type-bound or FINAL procedures", | |
2928 | &a->expr->where); | |
524af0d6 | 2929 | return false; |
45a69325 TB |
2930 | } |
2931 | } | |
2932 | ||
a0710c29 TB |
2933 | /* Special case for character arguments. For allocatable, pointer |
2934 | and assumed-shape dummies, the string length needs to match | |
2935 | exactly. */ | |
2d5b90b2 | 2936 | if (a->expr->ts.type == BT_CHARACTER |
eb401400 AV |
2937 | && a->expr->ts.u.cl && a->expr->ts.u.cl->length |
2938 | && a->expr->ts.u.cl->length->expr_type == EXPR_CONSTANT | |
2939 | && f->sym->ts.type == BT_CHARACTER && f->sym->ts.u.cl | |
2940 | && f->sym->ts.u.cl->length | |
2941 | && f->sym->ts.u.cl->length->expr_type == EXPR_CONSTANT | |
2942 | && (f->sym->attr.pointer || f->sym->attr.allocatable | |
2943 | || (f->sym->as && f->sym->as->type == AS_ASSUMED_SHAPE)) | |
2944 | && (mpz_cmp (a->expr->ts.u.cl->length->value.integer, | |
2945 | f->sym->ts.u.cl->length->value.integer) != 0)) | |
2946 | { | |
2947 | if (where && (f->sym->attr.pointer || f->sym->attr.allocatable)) | |
2948 | gfc_warning (OPT_Wargument_mismatch, | |
2949 | "Character length mismatch (%ld/%ld) between actual " | |
2950 | "argument and pointer or allocatable dummy argument " | |
2951 | "%qs at %L", | |
2952 | mpz_get_si (a->expr->ts.u.cl->length->value.integer), | |
2953 | mpz_get_si (f->sym->ts.u.cl->length->value.integer), | |
2954 | f->sym->name, &a->expr->where); | |
2955 | else if (where) | |
2956 | gfc_warning (OPT_Wargument_mismatch, | |
2957 | "Character length mismatch (%ld/%ld) between actual " | |
2958 | "argument and assumed-shape dummy argument %qs " | |
2959 | "at %L", | |
2960 | mpz_get_si (a->expr->ts.u.cl->length->value.integer), | |
2961 | mpz_get_si (f->sym->ts.u.cl->length->value.integer), | |
2962 | f->sym->name, &a->expr->where); | |
f3e1097b | 2963 | return false; |
eb401400 | 2964 | } |
a0324f7b | 2965 | |
8d51f26f | 2966 | if ((f->sym->attr.pointer || f->sym->attr.allocatable) |
eb401400 AV |
2967 | && f->sym->ts.deferred != a->expr->ts.deferred |
2968 | && a->expr->ts.type == BT_CHARACTER) | |
8d51f26f PT |
2969 | { |
2970 | if (where) | |
0c133211 | 2971 | gfc_error ("Actual argument at %L to allocatable or " |
c4100eae | 2972 | "pointer dummy argument %qs must have a deferred " |
8d51f26f PT |
2973 | "length type parameter if and only if the dummy has one", |
2974 | &a->expr->where, f->sym->name); | |
f3e1097b | 2975 | return false; |
8d51f26f PT |
2976 | } |
2977 | ||
c49ea23d PT |
2978 | if (f->sym->ts.type == BT_CLASS) |
2979 | goto skip_size_check; | |
2980 | ||
37639728 TB |
2981 | actual_size = get_expr_storage_size (a->expr); |
2982 | formal_size = get_sym_storage_size (f->sym); | |
93302a24 JW |
2983 | if (actual_size != 0 && actual_size < formal_size |
2984 | && a->expr->ts.type != BT_PROCEDURE | |
2985 | && f->sym->attr.flavor != FL_PROCEDURE) | |
2d5b90b2 TB |
2986 | { |
2987 | if (a->expr->ts.type == BT_CHARACTER && !f->sym->as && where) | |
3df19fa0 FR |
2988 | gfc_warning (OPT_Wargument_mismatch, |
2989 | "Character length of actual argument shorter " | |
48749dbc | 2990 | "than of dummy argument %qs (%lu/%lu) at %L", |
8d51f26f PT |
2991 | f->sym->name, actual_size, formal_size, |
2992 | &a->expr->where); | |
2d5b90b2 | 2993 | else if (where) |
37d92a7e DH |
2994 | { |
2995 | /* Emit a warning for -std=legacy and an error otherwise. */ | |
2996 | if (gfc_option.warn_std == 0) | |
2997 | gfc_warning (OPT_Wargument_mismatch, | |
2998 | "Actual argument contains too few " | |
2999 | "elements for dummy argument %qs (%lu/%lu) " | |
3000 | "at %L", f->sym->name, actual_size, | |
3001 | formal_size, &a->expr->where); | |
3002 | else | |
3003 | gfc_error_now ("Actual argument contains too few " | |
3004 | "elements for dummy argument %qs (%lu/%lu) " | |
3005 | "at %L", f->sym->name, actual_size, | |
3006 | formal_size, &a->expr->where); | |
3007 | } | |
f3e1097b | 3008 | return false; |
2d5b90b2 TB |
3009 | } |
3010 | ||
c49ea23d PT |
3011 | skip_size_check: |
3012 | ||
e9355cc3 JW |
3013 | /* Satisfy F03:12.4.1.3 by ensuring that a procedure pointer actual |
3014 | argument is provided for a procedure pointer formal argument. */ | |
8fb74da4 | 3015 | if (f->sym->attr.proc_pointer |
a7c0b11d | 3016 | && !((a->expr->expr_type == EXPR_VARIABLE |
4294c093 JW |
3017 | && (a->expr->symtree->n.sym->attr.proc_pointer |
3018 | || gfc_is_proc_ptr_comp (a->expr))) | |
a7c0b11d | 3019 | || (a->expr->expr_type == EXPR_FUNCTION |
4294c093 | 3020 | && is_procptr_result (a->expr)))) |
8fb74da4 JW |
3021 | { |
3022 | if (where) | |
c4100eae | 3023 | gfc_error ("Expected a procedure pointer for argument %qs at %L", |
8fb74da4 | 3024 | f->sym->name, &a->expr->where); |
f3e1097b | 3025 | return false; |
8fb74da4 JW |
3026 | } |
3027 | ||
e9355cc3 | 3028 | /* Satisfy F03:12.4.1.3 by ensuring that a procedure actual argument is |
699fa7aa | 3029 | provided for a procedure formal argument. */ |
e9355cc3 | 3030 | if (f->sym->attr.flavor == FL_PROCEDURE |
4294c093 JW |
3031 | && !((a->expr->expr_type == EXPR_VARIABLE |
3032 | && (a->expr->symtree->n.sym->attr.flavor == FL_PROCEDURE | |
3033 | || a->expr->symtree->n.sym->attr.proc_pointer | |
3034 | || gfc_is_proc_ptr_comp (a->expr))) | |
3035 | || (a->expr->expr_type == EXPR_FUNCTION | |
3036 | && is_procptr_result (a->expr)))) | |
699fa7aa | 3037 | { |
9914f8cf | 3038 | if (where) |
c4100eae | 3039 | gfc_error ("Expected a procedure for argument %qs at %L", |
9914f8cf | 3040 | f->sym->name, &a->expr->where); |
f3e1097b | 3041 | return false; |
699fa7aa PT |
3042 | } |
3043 | ||
b251af97 | 3044 | if (f->sym->as && f->sym->as->type == AS_ASSUMED_SHAPE |
bf9d2177 JJ |
3045 | && a->expr->expr_type == EXPR_VARIABLE |
3046 | && a->expr->symtree->n.sym->as | |
3047 | && a->expr->symtree->n.sym->as->type == AS_ASSUMED_SIZE | |
3048 | && (a->expr->ref == NULL | |
3049 | || (a->expr->ref->type == REF_ARRAY | |
3050 | && a->expr->ref->u.ar.type == AR_FULL))) | |
3051 | { | |
3052 | if (where) | |
c4100eae | 3053 | gfc_error ("Actual argument for %qs cannot be an assumed-size" |
bf9d2177 | 3054 | " array at %L", f->sym->name, where); |
f3e1097b | 3055 | return false; |
bf9d2177 JJ |
3056 | } |
3057 | ||
1600fe22 TS |
3058 | if (a->expr->expr_type != EXPR_NULL |
3059 | && compare_pointer (f->sym, a->expr) == 0) | |
6de9cd9a DN |
3060 | { |
3061 | if (where) | |
c4100eae | 3062 | gfc_error ("Actual argument for %qs must be a pointer at %L", |
6de9cd9a | 3063 | f->sym->name, &a->expr->where); |
f3e1097b | 3064 | return false; |
6de9cd9a DN |
3065 | } |
3066 | ||
7d54ef80 TB |
3067 | if (a->expr->expr_type != EXPR_NULL |
3068 | && (gfc_option.allow_std & GFC_STD_F2008) == 0 | |
3069 | && compare_pointer (f->sym, a->expr) == 2) | |
3070 | { | |
3071 | if (where) | |
3072 | gfc_error ("Fortran 2008: Non-pointer actual argument at %L to " | |
c4100eae | 3073 | "pointer dummy %qs", &a->expr->where,f->sym->name); |
f3e1097b | 3074 | return false; |
7d54ef80 | 3075 | } |
8b704316 | 3076 | |
7d54ef80 | 3077 | |
d3a9eea2 TB |
3078 | /* Fortran 2008, C1242. */ |
3079 | if (f->sym->attr.pointer && gfc_is_coindexed (a->expr)) | |
3080 | { | |
3081 | if (where) | |
3082 | gfc_error ("Coindexed actual argument at %L to pointer " | |
c4100eae | 3083 | "dummy %qs", |
d3a9eea2 | 3084 | &a->expr->where, f->sym->name); |
f3e1097b | 3085 | return false; |
d3a9eea2 TB |
3086 | } |
3087 | ||
3088 | /* Fortran 2008, 12.5.2.5 (no constraint). */ | |
3089 | if (a->expr->expr_type == EXPR_VARIABLE | |
3090 | && f->sym->attr.intent != INTENT_IN | |
3091 | && f->sym->attr.allocatable | |
3092 | && gfc_is_coindexed (a->expr)) | |
3093 | { | |
3094 | if (where) | |
3095 | gfc_error ("Coindexed actual argument at %L to allocatable " | |
c4100eae | 3096 | "dummy %qs requires INTENT(IN)", |
d3a9eea2 | 3097 | &a->expr->where, f->sym->name); |
f3e1097b | 3098 | return false; |
d3a9eea2 TB |
3099 | } |
3100 | ||
3101 | /* Fortran 2008, C1237. */ | |
3102 | if (a->expr->expr_type == EXPR_VARIABLE | |
3103 | && (f->sym->attr.asynchronous || f->sym->attr.volatile_) | |
3104 | && gfc_is_coindexed (a->expr) | |
3105 | && (a->expr->symtree->n.sym->attr.volatile_ | |
3106 | || a->expr->symtree->n.sym->attr.asynchronous)) | |
3107 | { | |
3108 | if (where) | |
3109 | gfc_error ("Coindexed ASYNCHRONOUS or VOLATILE actual argument at " | |
c4100eae | 3110 | "%L requires that dummy %qs has neither " |
d3a9eea2 TB |
3111 | "ASYNCHRONOUS nor VOLATILE", &a->expr->where, |
3112 | f->sym->name); | |
f3e1097b | 3113 | return false; |
d3a9eea2 TB |
3114 | } |
3115 | ||
3116 | /* Fortran 2008, 12.5.2.4 (no constraint). */ | |
3117 | if (a->expr->expr_type == EXPR_VARIABLE | |
3118 | && f->sym->attr.intent != INTENT_IN && !f->sym->attr.value | |
3119 | && gfc_is_coindexed (a->expr) | |
3120 | && gfc_has_ultimate_allocatable (a->expr)) | |
3121 | { | |
3122 | if (where) | |
3123 | gfc_error ("Coindexed actual argument at %L with allocatable " | |
c4100eae | 3124 | "ultimate component to dummy %qs requires either VALUE " |
d3a9eea2 | 3125 | "or INTENT(IN)", &a->expr->where, f->sym->name); |
f3e1097b | 3126 | return false; |
d3a9eea2 TB |
3127 | } |
3128 | ||
c49ea23d PT |
3129 | if (f->sym->ts.type == BT_CLASS |
3130 | && CLASS_DATA (f->sym)->attr.allocatable | |
3131 | && gfc_is_class_array_ref (a->expr, &full_array) | |
3132 | && !full_array) | |
3133 | { | |
3134 | if (where) | |
c4100eae | 3135 | gfc_error ("Actual CLASS array argument for %qs must be a full " |
c49ea23d | 3136 | "array at %L", f->sym->name, &a->expr->where); |
f3e1097b | 3137 | return false; |
c49ea23d PT |
3138 | } |
3139 | ||
3140 | ||
aa08038d | 3141 | if (a->expr->expr_type != EXPR_NULL |
f3e1097b | 3142 | && !compare_allocatable (f->sym, a->expr)) |
aa08038d EE |
3143 | { |
3144 | if (where) | |
c4100eae | 3145 | gfc_error ("Actual argument for %qs must be ALLOCATABLE at %L", |
aa08038d | 3146 | f->sym->name, &a->expr->where); |
f3e1097b | 3147 | return false; |
aa08038d EE |
3148 | } |
3149 | ||
a920e94a | 3150 | /* Check intent = OUT/INOUT for definable actual argument. */ |
8c91ab34 DK |
3151 | if ((f->sym->attr.intent == INTENT_OUT |
3152 | || f->sym->attr.intent == INTENT_INOUT)) | |
a920e94a | 3153 | { |
8c91ab34 DK |
3154 | const char* context = (where |
3155 | ? _("actual argument to INTENT = OUT/INOUT") | |
3156 | : NULL); | |
a920e94a | 3157 | |
bcb4ad36 TB |
3158 | if (((f->sym->ts.type == BT_CLASS && f->sym->attr.class_ok |
3159 | && CLASS_DATA (f->sym)->attr.class_pointer) | |
3160 | || (f->sym->ts.type != BT_CLASS && f->sym->attr.pointer)) | |
524af0d6 | 3161 | && !gfc_check_vardef_context (a->expr, true, false, false, context)) |
f3e1097b | 3162 | return false; |
524af0d6 | 3163 | if (!gfc_check_vardef_context (a->expr, false, false, false, context)) |
f3e1097b | 3164 | return false; |
ee7e677f TB |
3165 | } |
3166 | ||
59be8071 TB |
3167 | if ((f->sym->attr.intent == INTENT_OUT |
3168 | || f->sym->attr.intent == INTENT_INOUT | |
84efddb2 DF |
3169 | || f->sym->attr.volatile_ |
3170 | || f->sym->attr.asynchronous) | |
03af1e4c | 3171 | && gfc_has_vector_subscript (a->expr)) |
59be8071 TB |
3172 | { |
3173 | if (where) | |
84efddb2 DF |
3174 | gfc_error ("Array-section actual argument with vector " |
3175 | "subscripts at %L is incompatible with INTENT(OUT), " | |
3176 | "INTENT(INOUT), VOLATILE or ASYNCHRONOUS attribute " | |
c4100eae | 3177 | "of the dummy argument %qs", |
59be8071 | 3178 | &a->expr->where, f->sym->name); |
f3e1097b | 3179 | return false; |
59be8071 TB |
3180 | } |
3181 | ||
9bce3c1c TB |
3182 | /* C1232 (R1221) For an actual argument which is an array section or |
3183 | an assumed-shape array, the dummy argument shall be an assumed- | |
3184 | shape array, if the dummy argument has the VOLATILE attribute. */ | |
3185 | ||
3186 | if (f->sym->attr.volatile_ | |
271dd55c | 3187 | && a->expr->expr_type == EXPR_VARIABLE |
9bce3c1c TB |
3188 | && a->expr->symtree->n.sym->as |
3189 | && a->expr->symtree->n.sym->as->type == AS_ASSUMED_SHAPE | |
3190 | && !(f->sym->as && f->sym->as->type == AS_ASSUMED_SHAPE)) | |
3191 | { | |
3192 | if (where) | |
3193 | gfc_error ("Assumed-shape actual argument at %L is " | |
3194 | "incompatible with the non-assumed-shape " | |
c4100eae | 3195 | "dummy argument %qs due to VOLATILE attribute", |
9bce3c1c | 3196 | &a->expr->where,f->sym->name); |
f3e1097b | 3197 | return false; |
9bce3c1c TB |
3198 | } |
3199 | ||
eb401400 AV |
3200 | /* Find the last array_ref. */ |
3201 | actual_arr_ref = NULL; | |
3202 | if (a->expr->ref) | |
3203 | actual_arr_ref = gfc_find_array_ref (a->expr, true); | |
3204 | ||
9bce3c1c | 3205 | if (f->sym->attr.volatile_ |
eb401400 | 3206 | && actual_arr_ref && actual_arr_ref->type == AR_SECTION |
9bce3c1c TB |
3207 | && !(f->sym->as && f->sym->as->type == AS_ASSUMED_SHAPE)) |
3208 | { | |
3209 | if (where) | |
3210 | gfc_error ("Array-section actual argument at %L is " | |
3211 | "incompatible with the non-assumed-shape " | |
c4100eae | 3212 | "dummy argument %qs due to VOLATILE attribute", |
eb401400 | 3213 | &a->expr->where, f->sym->name); |
f3e1097b | 3214 | return false; |
9bce3c1c TB |
3215 | } |
3216 | ||
3217 | /* C1233 (R1221) For an actual argument which is a pointer array, the | |
3218 | dummy argument shall be an assumed-shape or pointer array, if the | |
3219 | dummy argument has the VOLATILE attribute. */ | |
3220 | ||
3221 | if (f->sym->attr.volatile_ | |
271dd55c | 3222 | && a->expr->expr_type == EXPR_VARIABLE |
9bce3c1c TB |
3223 | && a->expr->symtree->n.sym->attr.pointer |
3224 | && a->expr->symtree->n.sym->as | |
3225 | && !(f->sym->as | |
3226 | && (f->sym->as->type == AS_ASSUMED_SHAPE | |
3227 | || f->sym->attr.pointer))) | |
3228 | { | |
3229 | if (where) | |
3230 | gfc_error ("Pointer-array actual argument at %L requires " | |
3231 | "an assumed-shape or pointer-array dummy " | |
c4100eae | 3232 | "argument %qs due to VOLATILE attribute", |
9bce3c1c | 3233 | &a->expr->where,f->sym->name); |
f3e1097b | 3234 | return false; |
9bce3c1c TB |
3235 | } |
3236 | ||
6de9cd9a DN |
3237 | match: |
3238 | if (a == actual) | |
3239 | na = i; | |
3240 | ||
7b901ac4 | 3241 | new_arg[i++] = a; |
6de9cd9a DN |
3242 | } |
3243 | ||
3244 | /* Make sure missing actual arguments are optional. */ | |
3245 | i = 0; | |
3246 | for (f = formal; f; f = f->next, i++) | |
3247 | { | |
7b901ac4 | 3248 | if (new_arg[i] != NULL) |
6de9cd9a | 3249 | continue; |
3ab7b3de BM |
3250 | if (f->sym == NULL) |
3251 | { | |
3252 | if (where) | |
b251af97 SK |
3253 | gfc_error ("Missing alternate return spec in subroutine call " |
3254 | "at %L", where); | |
f3e1097b | 3255 | return false; |
3ab7b3de | 3256 | } |
6de9cd9a DN |
3257 | if (!f->sym->attr.optional) |
3258 | { | |
3259 | if (where) | |
c4100eae | 3260 | gfc_error ("Missing actual argument for argument %qs at %L", |
6de9cd9a | 3261 | f->sym->name, where); |
f3e1097b | 3262 | return false; |
6de9cd9a DN |
3263 | } |
3264 | } | |
3265 | ||
3266 | /* The argument lists are compatible. We now relink a new actual | |
3267 | argument list with null arguments in the right places. The head | |
3268 | of the list remains the head. */ | |
3269 | for (i = 0; i < n; i++) | |
7b901ac4 KG |
3270 | if (new_arg[i] == NULL) |
3271 | new_arg[i] = gfc_get_actual_arglist (); | |
6de9cd9a DN |
3272 | |
3273 | if (na != 0) | |
3274 | { | |
fab27f52 MM |
3275 | std::swap (*new_arg[0], *actual); |
3276 | std::swap (new_arg[0], new_arg[na]); | |
6de9cd9a DN |
3277 | } |
3278 | ||
3279 | for (i = 0; i < n - 1; i++) | |
7b901ac4 | 3280 | new_arg[i]->next = new_arg[i + 1]; |
6de9cd9a | 3281 | |
7b901ac4 | 3282 | new_arg[i]->next = NULL; |
6de9cd9a DN |
3283 | |
3284 | if (*ap == NULL && n > 0) | |
7b901ac4 | 3285 | *ap = new_arg[0]; |
6de9cd9a | 3286 | |
1600fe22 | 3287 | /* Note the types of omitted optional arguments. */ |
b5ca4fd2 | 3288 | for (a = *ap, f = formal; a; a = a->next, f = f->next) |
1600fe22 TS |
3289 | if (a->expr == NULL && a->label == NULL) |
3290 | a->missing_arg_type = f->sym->ts.type; | |
3291 | ||
f3e1097b | 3292 | return true; |
6de9cd9a DN |
3293 | } |
3294 | ||
3295 | ||
3296 | typedef struct | |
3297 | { | |
3298 | gfc_formal_arglist *f; | |
3299 | gfc_actual_arglist *a; | |
3300 | } | |
3301 | argpair; | |
3302 | ||
3303 | /* qsort comparison function for argument pairs, with the following | |
3304 | order: | |
3305 | - p->a->expr == NULL | |
3306 | - p->a->expr->expr_type != EXPR_VARIABLE | |
c5014982 | 3307 | - by gfc_symbol pointer value (larger first). */ |
6de9cd9a DN |
3308 | |
3309 | static int | |
3310 | pair_cmp (const void *p1, const void *p2) | |
3311 | { | |
3312 | const gfc_actual_arglist *a1, *a2; | |
3313 | ||
3314 | /* *p1 and *p2 are elements of the to-be-sorted array. */ | |
3315 | a1 = ((const argpair *) p1)->a; | |
3316 | a2 = ((const argpair *) p2)->a; | |
3317 | if (!a1->expr) | |
3318 | { | |
3319 | if (!a2->expr) | |
3320 | return 0; | |
3321 | return -1; | |
3322 | } | |
3323 | if (!a2->expr) | |
3324 | return 1; | |
3325 | if (a1->expr->expr_type != EXPR_VARIABLE) | |
3326 | { | |
3327 | if (a2->expr->expr_type != EXPR_VARIABLE) | |
3328 | return 0; | |
3329 | return -1; | |
3330 | } | |
3331 | if (a2->expr->expr_type != EXPR_VARIABLE) | |
3332 | return 1; | |
c5014982 AM |
3333 | if (a1->expr->symtree->n.sym > a2->expr->symtree->n.sym) |
3334 | return -1; | |
6de9cd9a DN |
3335 | return a1->expr->symtree->n.sym < a2->expr->symtree->n.sym; |
3336 | } | |
3337 | ||
3338 | ||
3339 | /* Given two expressions from some actual arguments, test whether they | |
3340 | refer to the same expression. The analysis is conservative. | |
524af0d6 | 3341 | Returning false will produce no warning. */ |
6de9cd9a | 3342 | |
524af0d6 | 3343 | static bool |
b251af97 | 3344 | compare_actual_expr (gfc_expr *e1, gfc_expr *e2) |
6de9cd9a DN |
3345 | { |
3346 | const gfc_ref *r1, *r2; | |
3347 | ||
3348 | if (!e1 || !e2 | |
3349 | || e1->expr_type != EXPR_VARIABLE | |
3350 | || e2->expr_type != EXPR_VARIABLE | |
3351 | || e1->symtree->n.sym != e2->symtree->n.sym) | |
524af0d6 | 3352 | return false; |
6de9cd9a DN |
3353 | |
3354 | /* TODO: improve comparison, see expr.c:show_ref(). */ | |
3355 | for (r1 = e1->ref, r2 = e2->ref; r1 && r2; r1 = r1->next, r2 = r2->next) | |
3356 | { | |
3357 | if (r1->type != r2->type) | |
524af0d6 | 3358 | return false; |
6de9cd9a DN |
3359 | switch (r1->type) |
3360 | { | |
3361 | case REF_ARRAY: | |
3362 | if (r1->u.ar.type != r2->u.ar.type) | |
524af0d6 | 3363 | return false; |
6de9cd9a DN |
3364 | /* TODO: At the moment, consider only full arrays; |
3365 | we could do better. */ | |
3366 | if (r1->u.ar.type != AR_FULL || r2->u.ar.type != AR_FULL) | |
524af0d6 | 3367 | return false; |
6de9cd9a DN |
3368 | break; |
3369 | ||
3370 | case REF_COMPONENT: | |
3371 | if (r1->u.c.component != r2->u.c.component) | |
524af0d6 | 3372 | return false; |
6de9cd9a DN |
3373 | break; |
3374 | ||
3375 | case REF_SUBSTRING: | |
524af0d6 | 3376 | return false; |
6de9cd9a DN |
3377 | |
3378 | default: | |
3379 | gfc_internal_error ("compare_actual_expr(): Bad component code"); | |
3380 | } | |
3381 | } | |
3382 | if (!r1 && !r2) | |
524af0d6 JB |
3383 | return true; |
3384 | return false; | |
6de9cd9a DN |
3385 | } |
3386 | ||
b251af97 | 3387 | |
6de9cd9a DN |
3388 | /* Given formal and actual argument lists that correspond to one |
3389 | another, check that identical actual arguments aren't not | |
3390 | associated with some incompatible INTENTs. */ | |
3391 | ||
524af0d6 | 3392 | static bool |
b251af97 | 3393 | check_some_aliasing (gfc_formal_arglist *f, gfc_actual_arglist *a) |
6de9cd9a DN |
3394 | { |
3395 | sym_intent f1_intent, f2_intent; | |
3396 | gfc_formal_arglist *f1; | |
3397 | gfc_actual_arglist *a1; | |
3398 | size_t n, i, j; | |
3399 | argpair *p; | |
524af0d6 | 3400 | bool t = true; |
6de9cd9a DN |
3401 | |
3402 | n = 0; | |
3403 | for (f1 = f, a1 = a;; f1 = f1->next, a1 = a1->next) | |
3404 | { | |
3405 | if (f1 == NULL && a1 == NULL) | |
3406 | break; | |
3407 | if (f1 == NULL || a1 == NULL) | |
3408 | gfc_internal_error ("check_some_aliasing(): List mismatch"); | |
3409 | n++; | |
3410 | } | |
3411 | if (n == 0) | |
3412 | return t; | |
1145e690 | 3413 | p = XALLOCAVEC (argpair, n); |
6de9cd9a DN |
3414 | |
3415 | for (i = 0, f1 = f, a1 = a; i < n; i++, f1 = f1->next, a1 = a1->next) | |
3416 | { | |
3417 | p[i].f = f1; | |
3418 | p[i].a = a1; | |
3419 | } | |
3420 | ||
3421 | qsort (p, n, sizeof (argpair), pair_cmp); | |
3422 | ||
3423 | for (i = 0; i < n; i++) | |
3424 | { | |
3425 | if (!p[i].a->expr | |
3426 | || p[i].a->expr->expr_type != EXPR_VARIABLE | |
3427 | || p[i].a->expr->ts.type == BT_PROCEDURE) | |
3428 | continue; | |
3429 | f1_intent = p[i].f->sym->attr.intent; | |
3430 | for (j = i + 1; j < n; j++) | |
3431 | { | |
3432 | /* Expected order after the sort. */ | |
3433 | if (!p[j].a->expr || p[j].a->expr->expr_type != EXPR_VARIABLE) | |
3434 | gfc_internal_error ("check_some_aliasing(): corrupted data"); | |
3435 | ||
3436 | /* Are the expression the same? */ | |
524af0d6 | 3437 | if (!compare_actual_expr (p[i].a->expr, p[j].a->expr)) |
6de9cd9a DN |
3438 | break; |
3439 | f2_intent = p[j].f->sym->attr.intent; | |
3440 | if ((f1_intent == INTENT_IN && f2_intent == INTENT_OUT) | |
9f1930be TB |
3441 | || (f1_intent == INTENT_OUT && f2_intent == INTENT_IN) |
3442 | || (f1_intent == INTENT_OUT && f2_intent == INTENT_OUT)) | |
6de9cd9a | 3443 | { |
db30e21c | 3444 | gfc_warning (0, "Same actual argument associated with INTENT(%s) " |
48749dbc | 3445 | "argument %qs and INTENT(%s) argument %qs at %L", |
6de9cd9a DN |
3446 | gfc_intent_string (f1_intent), p[i].f->sym->name, |
3447 | gfc_intent_string (f2_intent), p[j].f->sym->name, | |
3448 | &p[i].a->expr->where); | |
524af0d6 | 3449 | t = false; |
6de9cd9a DN |
3450 | } |
3451 | } | |
3452 | } | |
3453 | ||
3454 | return t; | |
3455 | } | |
3456 | ||
3457 | ||
3458 | /* Given formal and actual argument lists that correspond to one | |
3459 | another, check that they are compatible in the sense that intents | |
3460 | are not mismatched. */ | |
3461 | ||
524af0d6 | 3462 | static bool |
b251af97 | 3463 | check_intents (gfc_formal_arglist *f, gfc_actual_arglist *a) |
6de9cd9a | 3464 | { |
f17facac | 3465 | sym_intent f_intent; |
6de9cd9a DN |
3466 | |
3467 | for (;; f = f->next, a = a->next) | |
3468 | { | |
99c39534 TB |
3469 | gfc_expr *expr; |
3470 | ||
6de9cd9a DN |
3471 | if (f == NULL && a == NULL) |
3472 | break; | |
3473 | if (f == NULL || a == NULL) | |
3474 | gfc_internal_error ("check_intents(): List mismatch"); | |
3475 | ||
99c39534 TB |
3476 | if (a->expr && a->expr->expr_type == EXPR_FUNCTION |
3477 | && a->expr->value.function.isym | |
3478 | && a->expr->value.function.isym->id == GFC_ISYM_CAF_GET) | |
3479 | expr = a->expr->value.function.actual->expr; | |
3480 | else | |
3481 | expr = a->expr; | |
3482 | ||
3483 | if (expr == NULL || expr->expr_type != EXPR_VARIABLE) | |
6de9cd9a DN |
3484 | continue; |
3485 | ||
6de9cd9a DN |
3486 | f_intent = f->sym->attr.intent; |
3487 | ||
99c39534 | 3488 | if (gfc_pure (NULL) && gfc_impure_variable (expr->symtree->n.sym)) |
6de9cd9a | 3489 | { |
bcb4ad36 TB |
3490 | if ((f->sym->ts.type == BT_CLASS && f->sym->attr.class_ok |
3491 | && CLASS_DATA (f->sym)->attr.class_pointer) | |
3492 | || (f->sym->ts.type != BT_CLASS && f->sym->attr.pointer)) | |
6de9cd9a | 3493 | { |
b251af97 SK |
3494 | gfc_error ("Procedure argument at %L is local to a PURE " |
3495 | "procedure and has the POINTER attribute", | |
99c39534 | 3496 | &expr->where); |
524af0d6 | 3497 | return false; |
6de9cd9a DN |
3498 | } |
3499 | } | |
d3a9eea2 TB |
3500 | |
3501 | /* Fortran 2008, C1283. */ | |
99c39534 | 3502 | if (gfc_pure (NULL) && gfc_is_coindexed (expr)) |
d3a9eea2 TB |
3503 | { |
3504 | if (f_intent == INTENT_INOUT || f_intent == INTENT_OUT) | |
3505 | { | |
3506 | gfc_error ("Coindexed actual argument at %L in PURE procedure " | |
3507 | "is passed to an INTENT(%s) argument", | |
99c39534 | 3508 | &expr->where, gfc_intent_string (f_intent)); |
524af0d6 | 3509 | return false; |
d3a9eea2 TB |
3510 | } |
3511 | ||
bcb4ad36 TB |
3512 | if ((f->sym->ts.type == BT_CLASS && f->sym->attr.class_ok |
3513 | && CLASS_DATA (f->sym)->attr.class_pointer) | |
3514 | || (f->sym->ts.type != BT_CLASS && f->sym->attr.pointer)) | |
d3a9eea2 TB |
3515 | { |
3516 | gfc_error ("Coindexed actual argument at %L in PURE procedure " | |
3517 | "is passed to a POINTER dummy argument", | |
99c39534 | 3518 | &expr->where); |
524af0d6 | 3519 | return false; |
d3a9eea2 TB |
3520 | } |
3521 | } | |
3522 | ||
3523 | /* F2008, Section 12.5.2.4. */ | |
99c39534 TB |
3524 | if (expr->ts.type == BT_CLASS && f->sym->ts.type == BT_CLASS |
3525 | && gfc_is_coindexed (expr)) | |
d3a9eea2 TB |
3526 | { |
3527 | gfc_error ("Coindexed polymorphic actual argument at %L is passed " | |
c4100eae | 3528 | "polymorphic dummy argument %qs", |
99c39534 | 3529 | &expr->where, f->sym->name); |
524af0d6 | 3530 | return false; |
d3a9eea2 | 3531 | } |
6de9cd9a DN |
3532 | } |
3533 | ||
524af0d6 | 3534 | return true; |
6de9cd9a DN |
3535 | } |
3536 | ||
3537 | ||
3538 | /* Check how a procedure is used against its interface. If all goes | |
3539 | well, the actual argument list will also end up being properly | |
3540 | sorted. */ | |
3541 | ||
524af0d6 | 3542 | bool |
b251af97 | 3543 | gfc_procedure_use (gfc_symbol *sym, gfc_actual_arglist **ap, locus *where) |
6de9cd9a | 3544 | { |
4cbc9039 JW |
3545 | gfc_formal_arglist *dummy_args; |
3546 | ||
a9c5fe7e | 3547 | /* Warn about calls with an implicit interface. Special case |
6bd2c800 | 3548 | for calling a ISO_C_BINDING because c_loc and c_funloc |
ca071303 FXC |
3549 | are pseudo-unknown. Additionally, warn about procedures not |
3550 | explicitly declared at all if requested. */ | |
8b7a967e | 3551 | if (sym->attr.if_source == IFSRC_UNKNOWN && !sym->attr.is_iso_c) |
ca071303 | 3552 | { |
8b7a967e TB |
3553 | if (sym->ns->has_implicit_none_export && sym->attr.proc == PROC_UNKNOWN) |
3554 | { | |
c4100eae | 3555 | gfc_error ("Procedure %qs called at %L is not explicitly declared", |
8b7a967e TB |
3556 | sym->name, where); |
3557 | return false; | |
3558 | } | |
73e42eef | 3559 | if (warn_implicit_interface) |
48749dbc MLI |
3560 | gfc_warning (OPT_Wimplicit_interface, |
3561 | "Procedure %qs called with an implicit interface at %L", | |
ca071303 | 3562 | sym->name, where); |
73e42eef | 3563 | else if (warn_implicit_procedure && sym->attr.proc == PROC_UNKNOWN) |
48749dbc MLI |
3564 | gfc_warning (OPT_Wimplicit_procedure, |
3565 | "Procedure %qs called at %L is not explicitly declared", | |
ca071303 FXC |
3566 | sym->name, where); |
3567 | } | |
6de9cd9a | 3568 | |
e6895430 | 3569 | if (sym->attr.if_source == IFSRC_UNKNOWN) |
ac05557c DF |
3570 | { |
3571 | gfc_actual_arglist *a; | |
86d7449c TB |
3572 | |
3573 | if (sym->attr.pointer) | |
3574 | { | |
c4100eae MLI |
3575 | gfc_error ("The pointer object %qs at %L must have an explicit " |
3576 | "function interface or be declared as array", | |
3577 | sym->name, where); | |
524af0d6 | 3578 | return false; |
86d7449c TB |
3579 | } |
3580 | ||
3581 | if (sym->attr.allocatable && !sym->attr.external) | |
3582 | { | |
c4100eae MLI |
3583 | gfc_error ("The allocatable object %qs at %L must have an explicit " |
3584 | "function interface or be declared as array", | |
3585 | sym->name, where); | |
524af0d6 | 3586 | return false; |
86d7449c TB |
3587 | } |
3588 | ||
3589 | if (sym->attr.allocatable) | |
3590 | { | |
c4100eae MLI |
3591 | gfc_error ("Allocatable function %qs at %L must have an explicit " |
3592 | "function interface", sym->name, where); | |
524af0d6 | 3593 | return false; |
86d7449c TB |
3594 | } |
3595 | ||
ac05557c DF |
3596 | for (a = *ap; a; a = a->next) |
3597 | { | |
3598 | /* Skip g77 keyword extensions like %VAL, %REF, %LOC. */ | |
3599 | if (a->name != NULL && a->name[0] != '%') | |
3600 | { | |
c4100eae MLI |
3601 | gfc_error ("Keyword argument requires explicit interface " |
3602 | "for procedure %qs at %L", sym->name, &a->expr->where); | |
ac05557c DF |
3603 | break; |
3604 | } | |
fea54935 | 3605 | |
45a69325 TB |
3606 | /* TS 29113, 6.2. */ |
3607 | if (a->expr && a->expr->ts.type == BT_ASSUMED | |
3608 | && sym->intmod_sym_id != ISOCBINDING_LOC) | |
3609 | { | |
3610 | gfc_error ("Assumed-type argument %s at %L requires an explicit " | |
3611 | "interface", a->expr->symtree->n.sym->name, | |
3612 | &a->expr->where); | |
3613 | break; | |
3614 | } | |
3615 | ||
fea54935 TB |
3616 | /* F2008, C1303 and C1304. */ |
3617 | if (a->expr | |
3618 | && (a->expr->ts.type == BT_DERIVED || a->expr->ts.type == BT_CLASS) | |
3619 | && ((a->expr->ts.u.derived->from_intmod == INTMOD_ISO_FORTRAN_ENV | |
3620 | && a->expr->ts.u.derived->intmod_sym_id == ISOFORTRAN_LOCK_TYPE) | |
3621 | || gfc_expr_attr (a->expr).lock_comp)) | |
3622 | { | |
c4100eae MLI |
3623 | gfc_error ("Actual argument of LOCK_TYPE or with LOCK_TYPE " |
3624 | "component at %L requires an explicit interface for " | |
3625 | "procedure %qs", &a->expr->where, sym->name); | |
fea54935 TB |
3626 | break; |
3627 | } | |
ea8ad3e5 | 3628 | |
5df445a2 TB |
3629 | if (a->expr |
3630 | && (a->expr->ts.type == BT_DERIVED || a->expr->ts.type == BT_CLASS) | |
3631 | && ((a->expr->ts.u.derived->from_intmod == INTMOD_ISO_FORTRAN_ENV | |
3632 | && a->expr->ts.u.derived->intmod_sym_id | |
3633 | == ISOFORTRAN_EVENT_TYPE) | |
3634 | || gfc_expr_attr (a->expr).event_comp)) | |
3635 | { | |
3636 | gfc_error ("Actual argument of EVENT_TYPE or with EVENT_TYPE " | |
3637 | "component at %L requires an explicit interface for " | |
3638 | "procedure %qs", &a->expr->where, sym->name); | |
3639 | break; | |
3640 | } | |
3641 | ||
ea8ad3e5 TB |
3642 | if (a->expr && a->expr->expr_type == EXPR_NULL |
3643 | && a->expr->ts.type == BT_UNKNOWN) | |
3644 | { | |
3645 | gfc_error ("MOLD argument to NULL required at %L", &a->expr->where); | |
524af0d6 | 3646 | return false; |
ea8ad3e5 | 3647 | } |
c62c6622 TB |
3648 | |
3649 | /* TS 29113, C407b. */ | |
3650 | if (a->expr && a->expr->expr_type == EXPR_VARIABLE | |
3651 | && symbol_rank (a->expr->symtree->n.sym) == -1) | |
3652 | { | |
3653 | gfc_error ("Assumed-rank argument requires an explicit interface " | |
3654 | "at %L", &a->expr->where); | |
524af0d6 | 3655 | return false; |
c62c6622 | 3656 | } |
ac05557c DF |
3657 | } |
3658 | ||
524af0d6 | 3659 | return true; |
ac05557c DF |
3660 | } |
3661 | ||
4cbc9039 JW |
3662 | dummy_args = gfc_sym_get_dummy_args (sym); |
3663 | ||
3664 | if (!compare_actual_formal (ap, dummy_args, 0, sym->attr.elemental, where)) | |
524af0d6 | 3665 | return false; |
f8552cd4 | 3666 | |
524af0d6 JB |
3667 | if (!check_intents (dummy_args, *ap)) |
3668 | return false; | |
6de9cd9a | 3669 | |
73e42eef | 3670 | if (warn_aliasing) |
4cbc9039 | 3671 | check_some_aliasing (dummy_args, *ap); |
f8552cd4 | 3672 | |
524af0d6 | 3673 | return true; |
6de9cd9a DN |
3674 | } |
3675 | ||
3676 | ||
7e196f89 JW |
3677 | /* Check how a procedure pointer component is used against its interface. |
3678 | If all goes well, the actual argument list will also end up being properly | |
3679 | sorted. Completely analogous to gfc_procedure_use. */ | |
3680 | ||
3681 | void | |
3682 | gfc_ppc_use (gfc_component *comp, gfc_actual_arglist **ap, locus *where) | |
3683 | { | |
7e196f89 | 3684 | /* Warn about calls with an implicit interface. Special case |
6bd2c800 | 3685 | for calling a ISO_C_BINDING because c_loc and c_funloc |
7e196f89 | 3686 | are pseudo-unknown. */ |
73e42eef | 3687 | if (warn_implicit_interface |
7e196f89 JW |
3688 | && comp->attr.if_source == IFSRC_UNKNOWN |
3689 | && !comp->attr.is_iso_c) | |
48749dbc MLI |
3690 | gfc_warning (OPT_Wimplicit_interface, |
3691 | "Procedure pointer component %qs called with an implicit " | |
7e196f89 JW |
3692 | "interface at %L", comp->name, where); |
3693 | ||
3694 | if (comp->attr.if_source == IFSRC_UNKNOWN) | |
3695 | { | |
3696 | gfc_actual_arglist *a; | |
3697 | for (a = *ap; a; a = a->next) | |
3698 | { | |
3699 | /* Skip g77 keyword extensions like %VAL, %REF, %LOC. */ | |
3700 | if (a->name != NULL && a->name[0] != '%') | |
3701 | { | |
c4100eae MLI |
3702 | gfc_error ("Keyword argument requires explicit interface " |
3703 | "for procedure pointer component %qs at %L", | |
3704 | comp->name, &a->expr->where); | |
7e196f89 JW |
3705 | break; |
3706 | } | |
3707 | } | |
3708 | ||
3709 | return; | |
3710 | } | |
3711 | ||
4cbc9039 JW |
3712 | if (!compare_actual_formal (ap, comp->ts.interface->formal, 0, |
3713 | comp->attr.elemental, where)) | |
7e196f89 JW |
3714 | return; |
3715 | ||
4cbc9039 | 3716 | check_intents (comp->ts.interface->formal, *ap); |
73e42eef | 3717 | if (warn_aliasing) |
4cbc9039 | 3718 | check_some_aliasing (comp->ts.interface->formal, *ap); |
7e196f89 JW |
3719 | } |
3720 | ||
3721 | ||
f0ac18b7 DK |
3722 | /* Try if an actual argument list matches the formal list of a symbol, |
3723 | respecting the symbol's attributes like ELEMENTAL. This is used for | |
3724 | GENERIC resolution. */ | |
3725 | ||
3726 | bool | |
3727 | gfc_arglist_matches_symbol (gfc_actual_arglist** args, gfc_symbol* sym) | |
3728 | { | |
4cbc9039 | 3729 | gfc_formal_arglist *dummy_args; |
f0ac18b7 DK |
3730 | bool r; |
3731 | ||
1d101216 JD |
3732 | if (sym->attr.flavor != FL_PROCEDURE) |
3733 | return false; | |
f0ac18b7 | 3734 | |
4cbc9039 JW |
3735 | dummy_args = gfc_sym_get_dummy_args (sym); |
3736 | ||
f0ac18b7 | 3737 | r = !sym->attr.elemental; |
4cbc9039 | 3738 | if (compare_actual_formal (args, dummy_args, r, !r, NULL)) |
f0ac18b7 | 3739 | { |
4cbc9039 | 3740 | check_intents (dummy_args, *args); |
73e42eef | 3741 | if (warn_aliasing) |
4cbc9039 | 3742 | check_some_aliasing (dummy_args, *args); |
f0ac18b7 DK |
3743 | return true; |
3744 | } | |
3745 | ||
3746 | return false; | |
3747 | } | |
3748 | ||
3749 | ||
6de9cd9a DN |
3750 | /* Given an interface pointer and an actual argument list, search for |
3751 | a formal argument list that matches the actual. If found, returns | |
3752 | a pointer to the symbol of the correct interface. Returns NULL if | |
3753 | not found. */ | |
3754 | ||
3755 | gfc_symbol * | |
b251af97 SK |
3756 | gfc_search_interface (gfc_interface *intr, int sub_flag, |
3757 | gfc_actual_arglist **ap) | |
6de9cd9a | 3758 | { |
22a0a780 | 3759 | gfc_symbol *elem_sym = NULL; |
ea8ad3e5 TB |
3760 | gfc_symbol *null_sym = NULL; |
3761 | locus null_expr_loc; | |
3762 | gfc_actual_arglist *a; | |
3763 | bool has_null_arg = false; | |
3764 | ||
3765 | for (a = *ap; a; a = a->next) | |
3766 | if (a->expr && a->expr->expr_type == EXPR_NULL | |
3767 | && a->expr->ts.type == BT_UNKNOWN) | |
3768 | { | |
3769 | has_null_arg = true; | |
3770 | null_expr_loc = a->expr->where; | |
3771 | break; | |
8b704316 | 3772 | } |
ea8ad3e5 | 3773 | |
6de9cd9a DN |
3774 | for (; intr; intr = intr->next) |
3775 | { | |
f6288c24 | 3776 | if (gfc_fl_struct (intr->sym->attr.flavor)) |
c3f34952 | 3777 | continue; |
6de9cd9a DN |
3778 | if (sub_flag && intr->sym->attr.function) |
3779 | continue; | |
3780 | if (!sub_flag && intr->sym->attr.subroutine) | |
3781 | continue; | |
3782 | ||
f0ac18b7 | 3783 | if (gfc_arglist_matches_symbol (ap, intr->sym)) |
22a0a780 | 3784 | { |
ea8ad3e5 TB |
3785 | if (has_null_arg && null_sym) |
3786 | { | |
3787 | gfc_error ("MOLD= required in NULL() argument at %L: Ambiguity " | |
3788 | "between specific functions %s and %s", | |
3789 | &null_expr_loc, null_sym->name, intr->sym->name); | |
3790 | return NULL; | |
3791 | } | |
3792 | else if (has_null_arg) | |
3793 | { | |
3794 | null_sym = intr->sym; | |
3795 | continue; | |
3796 | } | |
3797 | ||
22a0a780 | 3798 | /* Satisfy 12.4.4.1 such that an elemental match has lower |
8b704316 | 3799 | weight than a non-elemental match. */ |
22a0a780 PT |
3800 | if (intr->sym->attr.elemental) |
3801 | { | |
3802 | elem_sym = intr->sym; | |
3803 | continue; | |
3804 | } | |
3805 | return intr->sym; | |
3806 | } | |
6de9cd9a DN |
3807 | } |
3808 | ||
ea8ad3e5 TB |
3809 | if (null_sym) |
3810 | return null_sym; | |
3811 | ||
22a0a780 | 3812 | return elem_sym ? elem_sym : NULL; |
6de9cd9a DN |
3813 | } |
3814 | ||
3815 | ||
3816 | /* Do a brute force recursive search for a symbol. */ | |
3817 | ||
3818 | static gfc_symtree * | |
b251af97 | 3819 | find_symtree0 (gfc_symtree *root, gfc_symbol *sym) |
6de9cd9a DN |
3820 | { |
3821 | gfc_symtree * st; | |
3822 | ||
3823 | if (root->n.sym == sym) | |
3824 | return root; | |
3825 | ||
3826 | st = NULL; | |
3827 | if (root->left) | |
3828 | st = find_symtree0 (root->left, sym); | |
3829 | if (root->right && ! st) | |
3830 | st = find_symtree0 (root->right, sym); | |
3831 | return st; | |
3832 | } | |
3833 | ||
3834 | ||
3835 | /* Find a symtree for a symbol. */ | |
3836 | ||
f6fad28e DK |
3837 | gfc_symtree * |
3838 | gfc_find_sym_in_symtree (gfc_symbol *sym) | |
6de9cd9a DN |
3839 | { |
3840 | gfc_symtree *st; | |
3841 | gfc_namespace *ns; | |
3842 | ||
3843 | /* First try to find it by name. */ | |
3844 | gfc_find_sym_tree (sym->name, gfc_current_ns, 1, &st); | |
3845 | if (st && st->n.sym == sym) | |
3846 | return st; | |
3847 | ||
66e4ab31 | 3848 | /* If it's been renamed, resort to a brute-force search. */ |
6de9cd9a DN |
3849 | /* TODO: avoid having to do this search. If the symbol doesn't exist |
3850 | in the symtree for the current namespace, it should probably be added. */ | |
3851 | for (ns = gfc_current_ns; ns; ns = ns->parent) | |
3852 | { | |
3853 | st = find_symtree0 (ns->sym_root, sym); | |
3854 | if (st) | |
b251af97 | 3855 | return st; |
6de9cd9a | 3856 | } |
17d5d49f | 3857 | gfc_internal_error ("Unable to find symbol %qs", sym->name); |
66e4ab31 | 3858 | /* Not reached. */ |
6de9cd9a DN |
3859 | } |
3860 | ||
3861 | ||
4a44a72d DK |
3862 | /* See if the arglist to an operator-call contains a derived-type argument |
3863 | with a matching type-bound operator. If so, return the matching specific | |
3864 | procedure defined as operator-target as well as the base-object to use | |
974df0f8 PT |
3865 | (which is the found derived-type argument with operator). The generic |
3866 | name, if any, is transmitted to the final expression via 'gname'. */ | |
4a44a72d DK |
3867 | |
3868 | static gfc_typebound_proc* | |
3869 | matching_typebound_op (gfc_expr** tb_base, | |
3870 | gfc_actual_arglist* args, | |
974df0f8 PT |
3871 | gfc_intrinsic_op op, const char* uop, |
3872 | const char ** gname) | |
4a44a72d DK |
3873 | { |
3874 | gfc_actual_arglist* base; | |
3875 | ||
3876 | for (base = args; base; base = base->next) | |
4b7dd692 | 3877 | if (base->expr->ts.type == BT_DERIVED || base->expr->ts.type == BT_CLASS) |
4a44a72d DK |
3878 | { |
3879 | gfc_typebound_proc* tb; | |
3880 | gfc_symbol* derived; | |
524af0d6 | 3881 | bool result; |
4a44a72d | 3882 | |
efd2e969 PT |
3883 | while (base->expr->expr_type == EXPR_OP |
3884 | && base->expr->value.op.op == INTRINSIC_PARENTHESES) | |
3885 | base->expr = base->expr->value.op.op1; | |
3886 | ||
4b7dd692 | 3887 | if (base->expr->ts.type == BT_CLASS) |
528622fd | 3888 | { |
fba5a793 | 3889 | if (!base->expr->ts.u.derived || CLASS_DATA (base->expr) == NULL |
0a59e583 | 3890 | || !gfc_expr_attr (base->expr).class_ok) |
528622fd JW |
3891 | continue; |
3892 | derived = CLASS_DATA (base->expr)->ts.u.derived; | |
3893 | } | |
4b7dd692 JW |
3894 | else |
3895 | derived = base->expr->ts.u.derived; | |
4a44a72d DK |
3896 | |
3897 | if (op == INTRINSIC_USER) | |
3898 | { | |
3899 | gfc_symtree* tb_uop; | |
3900 | ||
3901 | gcc_assert (uop); | |
3902 | tb_uop = gfc_find_typebound_user_op (derived, &result, uop, | |
3903 | false, NULL); | |
3904 | ||
3905 | if (tb_uop) | |
3906 | tb = tb_uop->n.tb; | |
3907 | else | |
3908 | tb = NULL; | |
3909 | } | |
3910 | else | |
3911 | tb = gfc_find_typebound_intrinsic_op (derived, &result, op, | |
3912 | false, NULL); | |
3913 | ||
3914 | /* This means we hit a PRIVATE operator which is use-associated and | |
3915 | should thus not be seen. */ | |
524af0d6 | 3916 | if (!result) |
4a44a72d DK |
3917 | tb = NULL; |
3918 | ||
3919 | /* Look through the super-type hierarchy for a matching specific | |
3920 | binding. */ | |
3921 | for (; tb; tb = tb->overridden) | |
3922 | { | |
3923 | gfc_tbp_generic* g; | |
3924 | ||
3925 | gcc_assert (tb->is_generic); | |
3926 | for (g = tb->u.generic; g; g = g->next) | |
3927 | { | |
3928 | gfc_symbol* target; | |
3929 | gfc_actual_arglist* argcopy; | |
3930 | bool matches; | |
3931 | ||
3932 | gcc_assert (g->specific); | |
3933 | if (g->specific->error) | |
3934 | continue; | |
3935 | ||
3936 | target = g->specific->u.specific->n.sym; | |
3937 | ||
3938 | /* Check if this arglist matches the formal. */ | |
3939 | argcopy = gfc_copy_actual_arglist (args); | |
3940 | matches = gfc_arglist_matches_symbol (&argcopy, target); | |
3941 | gfc_free_actual_arglist (argcopy); | |
3942 | ||
3943 | /* Return if we found a match. */ | |
3944 | if (matches) | |
3945 | { | |
3946 | *tb_base = base->expr; | |
974df0f8 | 3947 | *gname = g->specific_st->name; |
4a44a72d DK |
3948 | return g->specific; |
3949 | } | |
3950 | } | |
3951 | } | |
3952 | } | |
3953 | ||
3954 | return NULL; | |
3955 | } | |
3956 | ||
3957 | ||
3958 | /* For the 'actual arglist' of an operator call and a specific typebound | |
3959 | procedure that has been found the target of a type-bound operator, build the | |
3960 | appropriate EXPR_COMPCALL and resolve it. We take this indirection over | |
3961 | type-bound procedures rather than resolving type-bound operators 'directly' | |
3962 | so that we can reuse the existing logic. */ | |
3963 | ||
3964 | static void | |
3965 | build_compcall_for_operator (gfc_expr* e, gfc_actual_arglist* actual, | |
974df0f8 PT |
3966 | gfc_expr* base, gfc_typebound_proc* target, |
3967 | const char *gname) | |
4a44a72d DK |
3968 | { |
3969 | e->expr_type = EXPR_COMPCALL; | |
3970 | e->value.compcall.tbp = target; | |
974df0f8 | 3971 | e->value.compcall.name = gname ? gname : "$op"; |
4a44a72d DK |
3972 | e->value.compcall.actual = actual; |
3973 | e->value.compcall.base_object = base; | |
3974 | e->value.compcall.ignore_pass = 1; | |
3975 | e->value.compcall.assign = 0; | |
94fae14b PT |
3976 | if (e->ts.type == BT_UNKNOWN |
3977 | && target->function) | |
3978 | { | |
3979 | if (target->is_generic) | |
3980 | e->ts = target->u.generic->specific->u.specific->n.sym->ts; | |
3981 | else | |
3982 | e->ts = target->u.specific->n.sym->ts; | |
3983 | } | |
4a44a72d DK |
3984 | } |
3985 | ||
3986 | ||
6de9cd9a DN |
3987 | /* This subroutine is called when an expression is being resolved. |
3988 | The expression node in question is either a user defined operator | |
1f2959f0 | 3989 | or an intrinsic operator with arguments that aren't compatible |
6de9cd9a DN |
3990 | with the operator. This subroutine builds an actual argument list |
3991 | corresponding to the operands, then searches for a compatible | |
3992 | interface. If one is found, the expression node is replaced with | |
eaee02a5 JW |
3993 | the appropriate function call. We use the 'match' enum to specify |
3994 | whether a replacement has been made or not, or if an error occurred. */ | |
6de9cd9a | 3995 | |
eaee02a5 JW |
3996 | match |
3997 | gfc_extend_expr (gfc_expr *e) | |
6de9cd9a DN |
3998 | { |
3999 | gfc_actual_arglist *actual; | |
4000 | gfc_symbol *sym; | |
4001 | gfc_namespace *ns; | |
4002 | gfc_user_op *uop; | |
4003 | gfc_intrinsic_op i; | |
974df0f8 | 4004 | const char *gname; |
517d78be JW |
4005 | gfc_typebound_proc* tbo; |
4006 | gfc_expr* tb_base; | |
6de9cd9a DN |
4007 | |
4008 | sym = NULL; | |
4009 | ||
4010 | actual = gfc_get_actual_arglist (); | |
58b03ab2 | 4011 | actual->expr = e->value.op.op1; |
6de9cd9a | 4012 | |
974df0f8 | 4013 | gname = NULL; |
4a44a72d | 4014 | |
58b03ab2 | 4015 | if (e->value.op.op2 != NULL) |
6de9cd9a DN |
4016 | { |
4017 | actual->next = gfc_get_actual_arglist (); | |
58b03ab2 | 4018 | actual->next->expr = e->value.op.op2; |
6de9cd9a DN |
4019 | } |
4020 | ||
e8d4f3fc | 4021 | i = fold_unary_intrinsic (e->value.op.op); |
6de9cd9a | 4022 | |
517d78be JW |
4023 | /* See if we find a matching type-bound operator. */ |
4024 | if (i == INTRINSIC_USER) | |
4025 | tbo = matching_typebound_op (&tb_base, actual, | |
4026 | i, e->value.op.uop->name, &gname); | |
4027 | else | |
4028 | switch (i) | |
4029 | { | |
4030 | #define CHECK_OS_COMPARISON(comp) \ | |
4031 | case INTRINSIC_##comp: \ | |
4032 | case INTRINSIC_##comp##_OS: \ | |
4033 | tbo = matching_typebound_op (&tb_base, actual, \ | |
4034 | INTRINSIC_##comp, NULL, &gname); \ | |
4035 | if (!tbo) \ | |
4036 | tbo = matching_typebound_op (&tb_base, actual, \ | |
4037 | INTRINSIC_##comp##_OS, NULL, &gname); \ | |
4038 | break; | |
4039 | CHECK_OS_COMPARISON(EQ) | |
4040 | CHECK_OS_COMPARISON(NE) | |
4041 | CHECK_OS_COMPARISON(GT) | |
4042 | CHECK_OS_COMPARISON(GE) | |
4043 | CHECK_OS_COMPARISON(LT) | |
4044 | CHECK_OS_COMPARISON(LE) | |
4045 | #undef CHECK_OS_COMPARISON | |
4046 | ||
4047 | default: | |
4048 | tbo = matching_typebound_op (&tb_base, actual, i, NULL, &gname); | |
4049 | break; | |
4050 | } | |
4051 | ||
4052 | /* If there is a matching typebound-operator, replace the expression with | |
4053 | a call to it and succeed. */ | |
4054 | if (tbo) | |
4055 | { | |
4056 | gcc_assert (tb_base); | |
4057 | build_compcall_for_operator (e, actual, tb_base, tbo, gname); | |
4058 | ||
4059 | if (!gfc_resolve_expr (e)) | |
4060 | return MATCH_ERROR; | |
4061 | else | |
4062 | return MATCH_YES; | |
4063 | } | |
e73d3ca6 | 4064 | |
6de9cd9a DN |
4065 | if (i == INTRINSIC_USER) |
4066 | { | |
4067 | for (ns = gfc_current_ns; ns; ns = ns->parent) | |
4068 | { | |
58b03ab2 | 4069 | uop = gfc_find_uop (e->value.op.uop->name, ns); |
6de9cd9a DN |
4070 | if (uop == NULL) |
4071 | continue; | |
4072 | ||
a1ee985f | 4073 | sym = gfc_search_interface (uop->op, 0, &actual); |
6de9cd9a DN |
4074 | if (sym != NULL) |
4075 | break; | |
4076 | } | |
4077 | } | |
4078 | else | |
4079 | { | |
4080 | for (ns = gfc_current_ns; ns; ns = ns->parent) | |
4081 | { | |
3bed9dd0 DF |
4082 | /* Due to the distinction between '==' and '.eq.' and friends, one has |
4083 | to check if either is defined. */ | |
4084 | switch (i) | |
4085 | { | |
4a44a72d DK |
4086 | #define CHECK_OS_COMPARISON(comp) \ |
4087 | case INTRINSIC_##comp: \ | |
4088 | case INTRINSIC_##comp##_OS: \ | |
4089 | sym = gfc_search_interface (ns->op[INTRINSIC_##comp], 0, &actual); \ | |
4090 | if (!sym) \ | |
4091 | sym = gfc_search_interface (ns->op[INTRINSIC_##comp##_OS], 0, &actual); \ | |
4092 | break; | |
4093 | CHECK_OS_COMPARISON(EQ) | |
4094 | CHECK_OS_COMPARISON(NE) | |
4095 | CHECK_OS_COMPARISON(GT) | |
4096 | CHECK_OS_COMPARISON(GE) | |
4097 | CHECK_OS_COMPARISON(LT) | |
4098 | CHECK_OS_COMPARISON(LE) | |
4099 | #undef CHECK_OS_COMPARISON | |
3bed9dd0 DF |
4100 | |
4101 | default: | |
a1ee985f | 4102 | sym = gfc_search_interface (ns->op[i], 0, &actual); |
3bed9dd0 DF |
4103 | } |
4104 | ||
6de9cd9a DN |
4105 | if (sym != NULL) |
4106 | break; | |
4107 | } | |
4108 | } | |
4109 | ||
4a44a72d DK |
4110 | /* TODO: Do an ambiguity-check and error if multiple matching interfaces are |
4111 | found rather than just taking the first one and not checking further. */ | |
4112 | ||
6de9cd9a DN |
4113 | if (sym == NULL) |
4114 | { | |
66e4ab31 | 4115 | /* Don't use gfc_free_actual_arglist(). */ |
04695783 | 4116 | free (actual->next); |
cede9502 | 4117 | free (actual); |
eaee02a5 | 4118 | return MATCH_NO; |
6de9cd9a DN |
4119 | } |
4120 | ||
4121 | /* Change the expression node to a function call. */ | |
4122 | e->expr_type = EXPR_FUNCTION; | |
f6fad28e | 4123 | e->symtree = gfc_find_sym_in_symtree (sym); |
6de9cd9a | 4124 | e->value.function.actual = actual; |
58b03ab2 TS |
4125 | e->value.function.esym = NULL; |
4126 | e->value.function.isym = NULL; | |
cf013e9f | 4127 | e->value.function.name = NULL; |
a1ab6660 | 4128 | e->user_operator = 1; |
6de9cd9a | 4129 | |
524af0d6 | 4130 | if (!gfc_resolve_expr (e)) |
eaee02a5 | 4131 | return MATCH_ERROR; |
6de9cd9a | 4132 | |
eaee02a5 | 4133 | return MATCH_YES; |
6de9cd9a DN |
4134 | } |
4135 | ||
4136 | ||
4f7395ff JW |
4137 | /* Tries to replace an assignment code node with a subroutine call to the |
4138 | subroutine associated with the assignment operator. Return true if the node | |
4139 | was replaced. On false, no error is generated. */ | |
6de9cd9a | 4140 | |
524af0d6 | 4141 | bool |
b251af97 | 4142 | gfc_extend_assign (gfc_code *c, gfc_namespace *ns) |
6de9cd9a DN |
4143 | { |
4144 | gfc_actual_arglist *actual; | |
4f7395ff JW |
4145 | gfc_expr *lhs, *rhs, *tb_base; |
4146 | gfc_symbol *sym = NULL; | |
4147 | const char *gname = NULL; | |
4148 | gfc_typebound_proc* tbo; | |
6de9cd9a | 4149 | |
a513927a | 4150 | lhs = c->expr1; |
6de9cd9a DN |
4151 | rhs = c->expr2; |
4152 | ||
4153 | /* Don't allow an intrinsic assignment to be replaced. */ | |
4b7dd692 | 4154 | if (lhs->ts.type != BT_DERIVED && lhs->ts.type != BT_CLASS |
e19bb186 | 4155 | && (rhs->rank == 0 || rhs->rank == lhs->rank) |
6de9cd9a | 4156 | && (lhs->ts.type == rhs->ts.type |
b251af97 | 4157 | || (gfc_numeric_ts (&lhs->ts) && gfc_numeric_ts (&rhs->ts)))) |
524af0d6 | 4158 | return false; |
6de9cd9a DN |
4159 | |
4160 | actual = gfc_get_actual_arglist (); | |
4161 | actual->expr = lhs; | |
4162 | ||
4163 | actual->next = gfc_get_actual_arglist (); | |
4164 | actual->next->expr = rhs; | |
4165 | ||
4f7395ff JW |
4166 | /* TODO: Ambiguity-check, see above for gfc_extend_expr. */ |
4167 | ||
4168 | /* See if we find a matching type-bound assignment. */ | |
4169 | tbo = matching_typebound_op (&tb_base, actual, INTRINSIC_ASSIGN, | |
4170 | NULL, &gname); | |
4171 | ||
4172 | if (tbo) | |
4173 | { | |
4174 | /* Success: Replace the expression with a type-bound call. */ | |
4175 | gcc_assert (tb_base); | |
4176 | c->expr1 = gfc_get_expr (); | |
4177 | build_compcall_for_operator (c->expr1, actual, tb_base, tbo, gname); | |
4178 | c->expr1->value.compcall.assign = 1; | |
4179 | c->expr1->where = c->loc; | |
4180 | c->expr2 = NULL; | |
4181 | c->op = EXEC_COMPCALL; | |
4182 | return true; | |
4183 | } | |
6de9cd9a | 4184 | |
4f7395ff | 4185 | /* See if we find an 'ordinary' (non-typebound) assignment procedure. */ |
6de9cd9a DN |
4186 | for (; ns; ns = ns->parent) |
4187 | { | |
a1ee985f | 4188 | sym = gfc_search_interface (ns->op[INTRINSIC_ASSIGN], 1, &actual); |
6de9cd9a DN |
4189 | if (sym != NULL) |
4190 | break; | |
4191 | } | |
4192 | ||
4f7395ff | 4193 | if (sym) |
6de9cd9a | 4194 | { |
4f7395ff JW |
4195 | /* Success: Replace the assignment with the call. */ |
4196 | c->op = EXEC_ASSIGN_CALL; | |
4197 | c->symtree = gfc_find_sym_in_symtree (sym); | |
4198 | c->expr1 = NULL; | |
4199 | c->expr2 = NULL; | |
4200 | c->ext.actual = actual; | |
4201 | return true; | |
6de9cd9a DN |
4202 | } |
4203 | ||
4f7395ff JW |
4204 | /* Failure: No assignment procedure found. */ |
4205 | free (actual->next); | |
4206 | free (actual); | |
4207 | return false; | |
6de9cd9a DN |
4208 | } |
4209 | ||
4210 | ||
4211 | /* Make sure that the interface just parsed is not already present in | |
4212 | the given interface list. Ambiguity isn't checked yet since module | |
4213 | procedures can be present without interfaces. */ | |
4214 | ||
524af0d6 | 4215 | bool |
362aa474 | 4216 | gfc_check_new_interface (gfc_interface *base, gfc_symbol *new_sym, locus loc) |
6de9cd9a DN |
4217 | { |
4218 | gfc_interface *ip; | |
4219 | ||
4220 | for (ip = base; ip; ip = ip->next) | |
4221 | { | |
7b901ac4 | 4222 | if (ip->sym == new_sym) |
6de9cd9a | 4223 | { |
c4100eae | 4224 | gfc_error ("Entity %qs at %L is already present in the interface", |
362aa474 | 4225 | new_sym->name, &loc); |
524af0d6 | 4226 | return false; |
6de9cd9a DN |
4227 | } |
4228 | } | |
4229 | ||
524af0d6 | 4230 | return true; |
6de9cd9a DN |
4231 | } |
4232 | ||
4233 | ||
4234 | /* Add a symbol to the current interface. */ | |
4235 | ||
524af0d6 | 4236 | bool |
7b901ac4 | 4237 | gfc_add_interface (gfc_symbol *new_sym) |
6de9cd9a DN |
4238 | { |
4239 | gfc_interface **head, *intr; | |
4240 | gfc_namespace *ns; | |
4241 | gfc_symbol *sym; | |
4242 | ||
4243 | switch (current_interface.type) | |
4244 | { | |
4245 | case INTERFACE_NAMELESS: | |
9e1d712c | 4246 | case INTERFACE_ABSTRACT: |
524af0d6 | 4247 | return true; |
6de9cd9a DN |
4248 | |
4249 | case INTERFACE_INTRINSIC_OP: | |
4250 | for (ns = current_interface.ns; ns; ns = ns->parent) | |
3bed9dd0 DF |
4251 | switch (current_interface.op) |
4252 | { | |
4253 | case INTRINSIC_EQ: | |
4254 | case INTRINSIC_EQ_OS: | |
e73d3ca6 | 4255 | if (!gfc_check_new_interface (ns->op[INTRINSIC_EQ], new_sym, |
524af0d6 | 4256 | gfc_current_locus) |
e73d3ca6 | 4257 | || !gfc_check_new_interface (ns->op[INTRINSIC_EQ_OS], |
524af0d6 JB |
4258 | new_sym, gfc_current_locus)) |
4259 | return false; | |
3bed9dd0 DF |
4260 | break; |
4261 | ||
4262 | case INTRINSIC_NE: | |
4263 | case INTRINSIC_NE_OS: | |
e73d3ca6 | 4264 | if (!gfc_check_new_interface (ns->op[INTRINSIC_NE], new_sym, |
524af0d6 | 4265 | gfc_current_locus) |
e73d3ca6 | 4266 | || !gfc_check_new_interface (ns->op[INTRINSIC_NE_OS], |
524af0d6 JB |
4267 | new_sym, gfc_current_locus)) |
4268 | return false; | |
3bed9dd0 DF |
4269 | break; |
4270 | ||
4271 | case INTRINSIC_GT: | |
4272 | case INTRINSIC_GT_OS: | |
e73d3ca6 | 4273 | if (!gfc_check_new_interface (ns->op[INTRINSIC_GT], |
524af0d6 | 4274 | new_sym, gfc_current_locus) |
e73d3ca6 | 4275 | || !gfc_check_new_interface (ns->op[INTRINSIC_GT_OS], |
524af0d6 JB |
4276 | new_sym, gfc_current_locus)) |
4277 | return false; | |
3bed9dd0 DF |
4278 | break; |
4279 | ||
4280 | case INTRINSIC_GE: | |
4281 | case INTRINSIC_GE_OS: | |
e73d3ca6 | 4282 | if (!gfc_check_new_interface (ns->op[INTRINSIC_GE], |
524af0d6 | 4283 | new_sym, gfc_current_locus) |
e73d3ca6 | 4284 | || !gfc_check_new_interface (ns->op[INTRINSIC_GE_OS], |
524af0d6 JB |
4285 | new_sym, gfc_current_locus)) |
4286 | return false; | |
3bed9dd0 DF |
4287 | break; |
4288 | ||
4289 | case INTRINSIC_LT: | |
4290 | case INTRINSIC_LT_OS: | |
e73d3ca6 | 4291 | if (!gfc_check_new_interface (ns->op[INTRINSIC_LT], |
524af0d6 | 4292 | new_sym, gfc_current_locus) |
e73d3ca6 | 4293 | || !gfc_check_new_interface (ns->op[INTRINSIC_LT_OS], |
524af0d6 JB |
4294 | new_sym, gfc_current_locus)) |
4295 | return false; | |
3bed9dd0 DF |
4296 | break; |
4297 | ||
4298 | case INTRINSIC_LE: | |
4299 | case INTRINSIC_LE_OS: | |
e73d3ca6 | 4300 | if (!gfc_check_new_interface (ns->op[INTRINSIC_LE], |
524af0d6 | 4301 | new_sym, gfc_current_locus) |
e73d3ca6 | 4302 | || !gfc_check_new_interface (ns->op[INTRINSIC_LE_OS], |
524af0d6 JB |
4303 | new_sym, gfc_current_locus)) |
4304 | return false; | |
3bed9dd0 DF |
4305 | break; |
4306 | ||
4307 | default: | |
e73d3ca6 | 4308 | if (!gfc_check_new_interface (ns->op[current_interface.op], |
524af0d6 JB |
4309 | new_sym, gfc_current_locus)) |
4310 | return false; | |
3bed9dd0 | 4311 | } |
6de9cd9a | 4312 | |
a1ee985f | 4313 | head = ¤t_interface.ns->op[current_interface.op]; |
6de9cd9a DN |
4314 | break; |
4315 | ||
4316 | case INTERFACE_GENERIC: | |
e73d3ca6 | 4317 | case INTERFACE_DTIO: |
6de9cd9a DN |
4318 | for (ns = current_interface.ns; ns; ns = ns->parent) |
4319 | { | |
4320 | gfc_find_symbol (current_interface.sym->name, ns, 0, &sym); | |
4321 | if (sym == NULL) | |
4322 | continue; | |
4323 | ||
e73d3ca6 | 4324 | if (!gfc_check_new_interface (sym->generic, |
524af0d6 JB |
4325 | new_sym, gfc_current_locus)) |
4326 | return false; | |
6de9cd9a DN |
4327 | } |
4328 | ||
4329 | head = ¤t_interface.sym->generic; | |
4330 | break; | |
4331 | ||
4332 | case INTERFACE_USER_OP: | |
e73d3ca6 | 4333 | if (!gfc_check_new_interface (current_interface.uop->op, |
524af0d6 JB |
4334 | new_sym, gfc_current_locus)) |
4335 | return false; | |
6de9cd9a | 4336 | |
a1ee985f | 4337 | head = ¤t_interface.uop->op; |
6de9cd9a DN |
4338 | break; |
4339 | ||
4340 | default: | |
4341 | gfc_internal_error ("gfc_add_interface(): Bad interface type"); | |
4342 | } | |
4343 | ||
4344 | intr = gfc_get_interface (); | |
7b901ac4 | 4345 | intr->sym = new_sym; |
63645982 | 4346 | intr->where = gfc_current_locus; |
6de9cd9a DN |
4347 | |
4348 | intr->next = *head; | |
4349 | *head = intr; | |
4350 | ||
524af0d6 | 4351 | return true; |
6de9cd9a DN |
4352 | } |
4353 | ||
4354 | ||
2b77e908 FXC |
4355 | gfc_interface * |
4356 | gfc_current_interface_head (void) | |
4357 | { | |
4358 | switch (current_interface.type) | |
4359 | { | |
4360 | case INTERFACE_INTRINSIC_OP: | |
a1ee985f | 4361 | return current_interface.ns->op[current_interface.op]; |
2b77e908 FXC |
4362 | |
4363 | case INTERFACE_GENERIC: | |
e73d3ca6 | 4364 | case INTERFACE_DTIO: |
2b77e908 | 4365 | return current_interface.sym->generic; |
2b77e908 FXC |
4366 | |
4367 | case INTERFACE_USER_OP: | |
a1ee985f | 4368 | return current_interface.uop->op; |
2b77e908 FXC |
4369 | |
4370 | default: | |
4371 | gcc_unreachable (); | |
4372 | } | |
4373 | } | |
4374 | ||
4375 | ||
4376 | void | |
4377 | gfc_set_current_interface_head (gfc_interface *i) | |
4378 | { | |
4379 | switch (current_interface.type) | |
4380 | { | |
4381 | case INTERFACE_INTRINSIC_OP: | |
a1ee985f | 4382 | current_interface.ns->op[current_interface.op] = i; |
2b77e908 FXC |
4383 | break; |
4384 | ||
4385 | case INTERFACE_GENERIC: | |
e73d3ca6 | 4386 | case INTERFACE_DTIO: |
2b77e908 FXC |
4387 | current_interface.sym->generic = i; |
4388 | break; | |
4389 | ||
4390 | case INTERFACE_USER_OP: | |
a1ee985f | 4391 | current_interface.uop->op = i; |
2b77e908 FXC |
4392 | break; |
4393 | ||
4394 | default: | |
4395 | gcc_unreachable (); | |
4396 | } | |
4397 | } | |
4398 | ||
4399 | ||
6de9cd9a DN |
4400 | /* Gets rid of a formal argument list. We do not free symbols. |
4401 | Symbols are freed when a namespace is freed. */ | |
4402 | ||
4403 | void | |
b251af97 | 4404 | gfc_free_formal_arglist (gfc_formal_arglist *p) |
6de9cd9a DN |
4405 | { |
4406 | gfc_formal_arglist *q; | |
4407 | ||
4408 | for (; p; p = q) | |
4409 | { | |
4410 | q = p->next; | |
cede9502 | 4411 | free (p); |
6de9cd9a DN |
4412 | } |
4413 | } | |
99fc1b90 JW |
4414 | |
4415 | ||
9795c594 JW |
4416 | /* Check that it is ok for the type-bound procedure 'proc' to override the |
4417 | procedure 'old', cf. F08:4.5.7.3. */ | |
99fc1b90 | 4418 | |
524af0d6 | 4419 | bool |
99fc1b90 JW |
4420 | gfc_check_typebound_override (gfc_symtree* proc, gfc_symtree* old) |
4421 | { | |
4422 | locus where; | |
edc802c7 | 4423 | gfc_symbol *proc_target, *old_target; |
99fc1b90 | 4424 | unsigned proc_pass_arg, old_pass_arg, argpos; |
9795c594 JW |
4425 | gfc_formal_arglist *proc_formal, *old_formal; |
4426 | bool check_type; | |
4427 | char err[200]; | |
99fc1b90 JW |
4428 | |
4429 | /* This procedure should only be called for non-GENERIC proc. */ | |
4430 | gcc_assert (!proc->n.tb->is_generic); | |
4431 | ||
4432 | /* If the overwritten procedure is GENERIC, this is an error. */ | |
4433 | if (old->n.tb->is_generic) | |
4434 | { | |
c4100eae | 4435 | gfc_error ("Can't overwrite GENERIC %qs at %L", |
99fc1b90 | 4436 | old->name, &proc->n.tb->where); |
524af0d6 | 4437 | return false; |
99fc1b90 JW |
4438 | } |
4439 | ||
4440 | where = proc->n.tb->where; | |
4441 | proc_target = proc->n.tb->u.specific->n.sym; | |
4442 | old_target = old->n.tb->u.specific->n.sym; | |
4443 | ||
4444 | /* Check that overridden binding is not NON_OVERRIDABLE. */ | |
4445 | if (old->n.tb->non_overridable) | |
4446 | { | |
c4100eae | 4447 | gfc_error ("%qs at %L overrides a procedure binding declared" |
99fc1b90 | 4448 | " NON_OVERRIDABLE", proc->name, &where); |
524af0d6 | 4449 | return false; |
99fc1b90 JW |
4450 | } |
4451 | ||
4452 | /* It's an error to override a non-DEFERRED procedure with a DEFERRED one. */ | |
4453 | if (!old->n.tb->deferred && proc->n.tb->deferred) | |
4454 | { | |
c4100eae | 4455 | gfc_error ("%qs at %L must not be DEFERRED as it overrides a" |
99fc1b90 | 4456 | " non-DEFERRED binding", proc->name, &where); |
524af0d6 | 4457 | return false; |
99fc1b90 JW |
4458 | } |
4459 | ||
4460 | /* If the overridden binding is PURE, the overriding must be, too. */ | |
4461 | if (old_target->attr.pure && !proc_target->attr.pure) | |
4462 | { | |
c4100eae | 4463 | gfc_error ("%qs at %L overrides a PURE procedure and must also be PURE", |
99fc1b90 | 4464 | proc->name, &where); |
524af0d6 | 4465 | return false; |
99fc1b90 JW |
4466 | } |
4467 | ||
4468 | /* If the overridden binding is ELEMENTAL, the overriding must be, too. If it | |
4469 | is not, the overriding must not be either. */ | |
4470 | if (old_target->attr.elemental && !proc_target->attr.elemental) | |
4471 | { | |
c4100eae | 4472 | gfc_error ("%qs at %L overrides an ELEMENTAL procedure and must also be" |
99fc1b90 | 4473 | " ELEMENTAL", proc->name, &where); |
524af0d6 | 4474 | return false; |
99fc1b90 JW |
4475 | } |
4476 | if (!old_target->attr.elemental && proc_target->attr.elemental) | |
4477 | { | |
c4100eae | 4478 | gfc_error ("%qs at %L overrides a non-ELEMENTAL procedure and must not" |
99fc1b90 | 4479 | " be ELEMENTAL, either", proc->name, &where); |
524af0d6 | 4480 | return false; |
99fc1b90 JW |
4481 | } |
4482 | ||
4483 | /* If the overridden binding is a SUBROUTINE, the overriding must also be a | |
4484 | SUBROUTINE. */ | |
4485 | if (old_target->attr.subroutine && !proc_target->attr.subroutine) | |
4486 | { | |
c4100eae | 4487 | gfc_error ("%qs at %L overrides a SUBROUTINE and must also be a" |
99fc1b90 | 4488 | " SUBROUTINE", proc->name, &where); |
524af0d6 | 4489 | return false; |
99fc1b90 JW |
4490 | } |
4491 | ||
4492 | /* If the overridden binding is a FUNCTION, the overriding must also be a | |
4493 | FUNCTION and have the same characteristics. */ | |
4494 | if (old_target->attr.function) | |
4495 | { | |
4496 | if (!proc_target->attr.function) | |
4497 | { | |
c4100eae | 4498 | gfc_error ("%qs at %L overrides a FUNCTION and must also be a" |
99fc1b90 | 4499 | " FUNCTION", proc->name, &where); |
524af0d6 | 4500 | return false; |
99fc1b90 | 4501 | } |
8b704316 | 4502 | |
4668d6f9 PT |
4503 | if (!gfc_check_result_characteristics (proc_target, old_target, |
4504 | err, sizeof(err))) | |
2240d1cf | 4505 | { |
edc802c7 | 4506 | gfc_error ("Result mismatch for the overriding procedure " |
c4100eae | 4507 | "%qs at %L: %s", proc->name, &where, err); |
524af0d6 | 4508 | return false; |
2240d1cf | 4509 | } |
99fc1b90 JW |
4510 | } |
4511 | ||
4512 | /* If the overridden binding is PUBLIC, the overriding one must not be | |
4513 | PRIVATE. */ | |
4514 | if (old->n.tb->access == ACCESS_PUBLIC | |
4515 | && proc->n.tb->access == ACCESS_PRIVATE) | |
4516 | { | |
c4100eae | 4517 | gfc_error ("%qs at %L overrides a PUBLIC procedure and must not be" |
99fc1b90 | 4518 | " PRIVATE", proc->name, &where); |
524af0d6 | 4519 | return false; |
99fc1b90 JW |
4520 | } |
4521 | ||
4522 | /* Compare the formal argument lists of both procedures. This is also abused | |
4523 | to find the position of the passed-object dummy arguments of both | |
4524 | bindings as at least the overridden one might not yet be resolved and we | |
4525 | need those positions in the check below. */ | |
4526 | proc_pass_arg = old_pass_arg = 0; | |
4527 | if (!proc->n.tb->nopass && !proc->n.tb->pass_arg) | |
4528 | proc_pass_arg = 1; | |
4529 | if (!old->n.tb->nopass && !old->n.tb->pass_arg) | |
4530 | old_pass_arg = 1; | |
4531 | argpos = 1; | |
4cbc9039 JW |
4532 | proc_formal = gfc_sym_get_dummy_args (proc_target); |
4533 | old_formal = gfc_sym_get_dummy_args (old_target); | |
4534 | for ( ; proc_formal && old_formal; | |
99fc1b90 JW |
4535 | proc_formal = proc_formal->next, old_formal = old_formal->next) |
4536 | { | |
4537 | if (proc->n.tb->pass_arg | |
4538 | && !strcmp (proc->n.tb->pass_arg, proc_formal->sym->name)) | |
4539 | proc_pass_arg = argpos; | |
4540 | if (old->n.tb->pass_arg | |
4541 | && !strcmp (old->n.tb->pass_arg, old_formal->sym->name)) | |
4542 | old_pass_arg = argpos; | |
4543 | ||
4544 | /* Check that the names correspond. */ | |
4545 | if (strcmp (proc_formal->sym->name, old_formal->sym->name)) | |
4546 | { | |
c4100eae | 4547 | gfc_error ("Dummy argument %qs of %qs at %L should be named %qs as" |
99fc1b90 JW |
4548 | " to match the corresponding argument of the overridden" |
4549 | " procedure", proc_formal->sym->name, proc->name, &where, | |
4550 | old_formal->sym->name); | |
524af0d6 | 4551 | return false; |
99fc1b90 JW |
4552 | } |
4553 | ||
9795c594 | 4554 | check_type = proc_pass_arg != argpos && old_pass_arg != argpos; |
4668d6f9 | 4555 | if (!gfc_check_dummy_characteristics (proc_formal->sym, old_formal->sym, |
524af0d6 | 4556 | check_type, err, sizeof(err))) |
99fc1b90 | 4557 | { |
2700d0e3 JJ |
4558 | gfc_error_opt (OPT_Wargument_mismatch, |
4559 | "Argument mismatch for the overriding procedure " | |
4560 | "%qs at %L: %s", proc->name, &where, err); | |
524af0d6 | 4561 | return false; |
99fc1b90 JW |
4562 | } |
4563 | ||
4564 | ++argpos; | |
4565 | } | |
4566 | if (proc_formal || old_formal) | |
4567 | { | |
c4100eae | 4568 | gfc_error ("%qs at %L must have the same number of formal arguments as" |
99fc1b90 | 4569 | " the overridden procedure", proc->name, &where); |
524af0d6 | 4570 | return false; |
99fc1b90 JW |
4571 | } |
4572 | ||
4573 | /* If the overridden binding is NOPASS, the overriding one must also be | |
4574 | NOPASS. */ | |
4575 | if (old->n.tb->nopass && !proc->n.tb->nopass) | |
4576 | { | |
c4100eae | 4577 | gfc_error ("%qs at %L overrides a NOPASS binding and must also be" |
99fc1b90 | 4578 | " NOPASS", proc->name, &where); |
524af0d6 | 4579 | return false; |
99fc1b90 JW |
4580 | } |
4581 | ||
4582 | /* If the overridden binding is PASS(x), the overriding one must also be | |
4583 | PASS and the passed-object dummy arguments must correspond. */ | |
4584 | if (!old->n.tb->nopass) | |
4585 | { | |
4586 | if (proc->n.tb->nopass) | |
4587 | { | |
c4100eae | 4588 | gfc_error ("%qs at %L overrides a binding with PASS and must also be" |
99fc1b90 | 4589 | " PASS", proc->name, &where); |
524af0d6 | 4590 | return false; |
99fc1b90 JW |
4591 | } |
4592 | ||
4593 | if (proc_pass_arg != old_pass_arg) | |
4594 | { | |
c4100eae | 4595 | gfc_error ("Passed-object dummy argument of %qs at %L must be at" |
99fc1b90 JW |
4596 | " the same position as the passed-object dummy argument of" |
4597 | " the overridden procedure", proc->name, &where); | |
524af0d6 | 4598 | return false; |
99fc1b90 JW |
4599 | } |
4600 | } | |
4601 | ||
524af0d6 | 4602 | return true; |
99fc1b90 | 4603 | } |
e73d3ca6 PT |
4604 | |
4605 | ||
4606 | /* The following three functions check that the formal arguments | |
4607 | of user defined derived type IO procedures are compliant with | |
4608 | the requirements of the standard. */ | |
4609 | ||
4610 | static void | |
4611 | check_dtio_arg_TKR_intent (gfc_symbol *fsym, bool typebound, bt type, | |
4612 | int kind, int rank, sym_intent intent) | |
4613 | { | |
4614 | if (fsym->ts.type != type) | |
739d9339 PT |
4615 | { |
4616 | gfc_error ("DTIO dummy argument at %L must be of type %s", | |
4617 | &fsym->declared_at, gfc_basic_typename (type)); | |
4618 | return; | |
4619 | } | |
e73d3ca6 PT |
4620 | |
4621 | if (fsym->ts.type != BT_CLASS && fsym->ts.type != BT_DERIVED | |
4622 | && fsym->ts.kind != kind) | |
4623 | gfc_error ("DTIO dummy argument at %L must be of KIND = %d", | |
4624 | &fsym->declared_at, kind); | |
4625 | ||
4626 | if (!typebound | |
4627 | && rank == 0 | |
4628 | && (((type == BT_CLASS) && CLASS_DATA (fsym)->attr.dimension) | |
4629 | || ((type != BT_CLASS) && fsym->attr.dimension))) | |
b93a9a15 | 4630 | gfc_error ("DTIO dummy argument at %L must be a scalar", |
e73d3ca6 PT |
4631 | &fsym->declared_at); |
4632 | else if (rank == 1 | |
4633 | && (fsym->as == NULL || fsym->as->type != AS_ASSUMED_SHAPE)) | |
4634 | gfc_error ("DTIO dummy argument at %L must be an " | |
4635 | "ASSUMED SHAPE ARRAY", &fsym->declared_at); | |
4636 | ||
4637 | if (fsym->attr.intent != intent) | |
77be9417 | 4638 | gfc_error ("DTIO dummy argument at %L must have INTENT %s", |
e73d3ca6 PT |
4639 | &fsym->declared_at, gfc_code2string (intents, (int)intent)); |
4640 | return; | |
4641 | } | |
4642 | ||
4643 | ||
4644 | static void | |
4645 | check_dtio_interface1 (gfc_symbol *derived, gfc_symtree *tb_io_st, | |
4646 | bool typebound, bool formatted, int code) | |
4647 | { | |
4648 | gfc_symbol *dtio_sub, *generic_proc, *fsym; | |
4649 | gfc_typebound_proc *tb_io_proc, *specific_proc; | |
4650 | gfc_interface *intr; | |
4651 | gfc_formal_arglist *formal; | |
4652 | int arg_num; | |
4653 | ||
4654 | bool read = ((dtio_codes)code == DTIO_RF) | |
4655 | || ((dtio_codes)code == DTIO_RUF); | |
4656 | bt type; | |
4657 | sym_intent intent; | |
4658 | int kind; | |
4659 | ||
4660 | dtio_sub = NULL; | |
4661 | if (typebound) | |
4662 | { | |
4663 | /* Typebound DTIO binding. */ | |
4664 | tb_io_proc = tb_io_st->n.tb; | |
739d9339 PT |
4665 | if (tb_io_proc == NULL) |
4666 | return; | |
4667 | ||
e73d3ca6 PT |
4668 | gcc_assert (tb_io_proc->is_generic); |
4669 | gcc_assert (tb_io_proc->u.generic->next == NULL); | |
4670 | ||
4671 | specific_proc = tb_io_proc->u.generic->specific; | |
739d9339 PT |
4672 | if (specific_proc == NULL || specific_proc->is_generic) |
4673 | return; | |
e73d3ca6 PT |
4674 | |
4675 | dtio_sub = specific_proc->u.specific->n.sym; | |
4676 | } | |
4677 | else | |
4678 | { | |
4679 | generic_proc = tb_io_st->n.sym; | |
739d9339 PT |
4680 | if (generic_proc == NULL || generic_proc->generic == NULL) |
4681 | return; | |
e73d3ca6 PT |
4682 | |
4683 | for (intr = tb_io_st->n.sym->generic; intr; intr = intr->next) | |
4684 | { | |
a8de3002 | 4685 | if (intr->sym && intr->sym->formal && intr->sym->formal->sym |
e73d3ca6 PT |
4686 | && ((intr->sym->formal->sym->ts.type == BT_CLASS |
4687 | && CLASS_DATA (intr->sym->formal->sym)->ts.u.derived | |
4688 | == derived) | |
4689 | || (intr->sym->formal->sym->ts.type == BT_DERIVED | |
4690 | && intr->sym->formal->sym->ts.u.derived == derived))) | |
4691 | { | |
4692 | dtio_sub = intr->sym; | |
4693 | break; | |
4694 | } | |
a8de3002 PT |
4695 | else if (intr->sym && intr->sym->formal && !intr->sym->formal->sym) |
4696 | { | |
4697 | gfc_error ("Alternate return at %L is not permitted in a DTIO " | |
4698 | "procedure", &intr->sym->declared_at); | |
4699 | return; | |
4700 | } | |
e73d3ca6 PT |
4701 | } |
4702 | ||
4703 | if (dtio_sub == NULL) | |
4704 | return; | |
4705 | } | |
4706 | ||
4707 | gcc_assert (dtio_sub); | |
4708 | if (!dtio_sub->attr.subroutine) | |
2f029c08 | 4709 | gfc_error ("DTIO procedure %qs at %L must be a subroutine", |
e73d3ca6 PT |
4710 | dtio_sub->name, &dtio_sub->declared_at); |
4711 | ||
a8de3002 PT |
4712 | arg_num = 0; |
4713 | for (formal = dtio_sub->formal; formal; formal = formal->next) | |
4714 | arg_num++; | |
4715 | ||
4716 | if (arg_num < (formatted ? 6 : 4)) | |
4717 | { | |
2f029c08 | 4718 | gfc_error ("Too few dummy arguments in DTIO procedure %qs at %L", |
a8de3002 PT |
4719 | dtio_sub->name, &dtio_sub->declared_at); |
4720 | return; | |
4721 | } | |
4722 | ||
4723 | if (arg_num > (formatted ? 6 : 4)) | |
4724 | { | |
2f029c08 | 4725 | gfc_error ("Too many dummy arguments in DTIO procedure %qs at %L", |
a8de3002 PT |
4726 | dtio_sub->name, &dtio_sub->declared_at); |
4727 | return; | |
4728 | } | |
4729 | ||
4730 | ||
e73d3ca6 PT |
4731 | /* Now go through the formal arglist. */ |
4732 | arg_num = 1; | |
4733 | for (formal = dtio_sub->formal; formal; formal = formal->next, arg_num++) | |
4734 | { | |
4735 | if (!formatted && arg_num == 3) | |
4736 | arg_num = 5; | |
4737 | fsym = formal->sym; | |
a8de3002 PT |
4738 | |
4739 | if (fsym == NULL) | |
4740 | { | |
4741 | gfc_error ("Alternate return at %L is not permitted in a DTIO " | |
4742 | "procedure", &dtio_sub->declared_at); | |
4743 | return; | |
4744 | } | |
4745 | ||
e73d3ca6 PT |
4746 | switch (arg_num) |
4747 | { | |
4748 | case(1): /* DTV */ | |
4749 | type = derived->attr.sequence || derived->attr.is_bind_c ? | |
4750 | BT_DERIVED : BT_CLASS; | |
4751 | kind = 0; | |
4752 | intent = read ? INTENT_INOUT : INTENT_IN; | |
4753 | check_dtio_arg_TKR_intent (fsym, typebound, type, kind, | |
4754 | 0, intent); | |
4755 | break; | |
4756 | ||
4757 | case(2): /* UNIT */ | |
4758 | type = BT_INTEGER; | |
4759 | kind = gfc_default_integer_kind; | |
4760 | intent = INTENT_IN; | |
4761 | check_dtio_arg_TKR_intent (fsym, typebound, type, kind, | |
4762 | 0, intent); | |
4763 | break; | |
4764 | case(3): /* IOTYPE */ | |
4765 | type = BT_CHARACTER; | |
4766 | kind = gfc_default_character_kind; | |
4767 | intent = INTENT_IN; | |
4768 | check_dtio_arg_TKR_intent (fsym, typebound, type, kind, | |
4769 | 0, intent); | |
4770 | break; | |
4771 | case(4): /* VLIST */ | |
4772 | type = BT_INTEGER; | |
4773 | kind = gfc_default_integer_kind; | |
4774 | intent = INTENT_IN; | |
4775 | check_dtio_arg_TKR_intent (fsym, typebound, type, kind, | |
4776 | 1, intent); | |
4777 | break; | |
4778 | case(5): /* IOSTAT */ | |
4779 | type = BT_INTEGER; | |
4780 | kind = gfc_default_integer_kind; | |
4781 | intent = INTENT_OUT; | |
4782 | check_dtio_arg_TKR_intent (fsym, typebound, type, kind, | |
4783 | 0, intent); | |
4784 | break; | |
4785 | case(6): /* IOMSG */ | |
4786 | type = BT_CHARACTER; | |
4787 | kind = gfc_default_character_kind; | |
4788 | intent = INTENT_INOUT; | |
4789 | check_dtio_arg_TKR_intent (fsym, typebound, type, kind, | |
4790 | 0, intent); | |
4791 | break; | |
4792 | default: | |
4793 | gcc_unreachable (); | |
4794 | } | |
4795 | } | |
4796 | derived->attr.has_dtio_procs = 1; | |
4797 | return; | |
4798 | } | |
4799 | ||
4800 | void | |
4801 | gfc_check_dtio_interfaces (gfc_symbol *derived) | |
4802 | { | |
4803 | gfc_symtree *tb_io_st; | |
4804 | bool t = false; | |
4805 | int code; | |
4806 | bool formatted; | |
4807 | ||
4808 | if (derived->attr.is_class == 1 || derived->attr.vtype == 1) | |
4809 | return; | |
4810 | ||
4811 | /* Check typebound DTIO bindings. */ | |
4812 | for (code = 0; code < 4; code++) | |
4813 | { | |
4814 | formatted = ((dtio_codes)code == DTIO_RF) | |
4815 | || ((dtio_codes)code == DTIO_WF); | |
4816 | ||
4817 | tb_io_st = gfc_find_typebound_proc (derived, &t, | |
4818 | gfc_code2string (dtio_procs, code), | |
4819 | true, &derived->declared_at); | |
4820 | if (tb_io_st != NULL) | |
4821 | check_dtio_interface1 (derived, tb_io_st, true, formatted, code); | |
4822 | } | |
4823 | ||
4824 | /* Check generic DTIO interfaces. */ | |
4825 | for (code = 0; code < 4; code++) | |
4826 | { | |
4827 | formatted = ((dtio_codes)code == DTIO_RF) | |
4828 | || ((dtio_codes)code == DTIO_WF); | |
4829 | ||
4830 | tb_io_st = gfc_find_symtree (derived->ns->sym_root, | |
4831 | gfc_code2string (dtio_procs, code)); | |
4832 | if (tb_io_st != NULL) | |
4833 | check_dtio_interface1 (derived, tb_io_st, false, formatted, code); | |
4834 | } | |
4835 | } | |
4836 | ||
4837 | ||
e4e659b9 JW |
4838 | gfc_symtree* |
4839 | gfc_find_typebound_dtio_proc (gfc_symbol *derived, bool write, bool formatted) | |
e73d3ca6 PT |
4840 | { |
4841 | gfc_symtree *tb_io_st = NULL; | |
e73d3ca6 PT |
4842 | bool t = false; |
4843 | ||
b93a9a15 | 4844 | if (!derived || !derived->resolved || derived->attr.flavor != FL_DERIVED) |
9beb81ed PT |
4845 | return NULL; |
4846 | ||
e73d3ca6 PT |
4847 | /* Try to find a typebound DTIO binding. */ |
4848 | if (formatted == true) | |
4849 | { | |
4850 | if (write == true) | |
4851 | tb_io_st = gfc_find_typebound_proc (derived, &t, | |
4852 | gfc_code2string (dtio_procs, | |
4853 | DTIO_WF), | |
4854 | true, | |
4855 | &derived->declared_at); | |
4856 | else | |
4857 | tb_io_st = gfc_find_typebound_proc (derived, &t, | |
4858 | gfc_code2string (dtio_procs, | |
4859 | DTIO_RF), | |
4860 | true, | |
4861 | &derived->declared_at); | |
4862 | } | |
4863 | else | |
4864 | { | |
4865 | if (write == true) | |
4866 | tb_io_st = gfc_find_typebound_proc (derived, &t, | |
4867 | gfc_code2string (dtio_procs, | |
4868 | DTIO_WUF), | |
4869 | true, | |
4870 | &derived->declared_at); | |
4871 | else | |
4872 | tb_io_st = gfc_find_typebound_proc (derived, &t, | |
4873 | gfc_code2string (dtio_procs, | |
4874 | DTIO_RUF), | |
4875 | true, | |
4876 | &derived->declared_at); | |
4877 | } | |
e4e659b9 JW |
4878 | return tb_io_st; |
4879 | } | |
4880 | ||
4881 | ||
4882 | gfc_symbol * | |
4883 | gfc_find_specific_dtio_proc (gfc_symbol *derived, bool write, bool formatted) | |
4884 | { | |
4885 | gfc_symtree *tb_io_st = NULL; | |
4886 | gfc_symbol *dtio_sub = NULL; | |
4887 | gfc_symbol *extended; | |
4888 | gfc_typebound_proc *tb_io_proc, *specific_proc; | |
4889 | ||
4890 | tb_io_st = gfc_find_typebound_dtio_proc (derived, write, formatted); | |
e73d3ca6 PT |
4891 | |
4892 | if (tb_io_st != NULL) | |
4893 | { | |
096506bb PT |
4894 | const char *genname; |
4895 | gfc_symtree *st; | |
4896 | ||
e73d3ca6 PT |
4897 | tb_io_proc = tb_io_st->n.tb; |
4898 | gcc_assert (tb_io_proc != NULL); | |
4899 | gcc_assert (tb_io_proc->is_generic); | |
4900 | gcc_assert (tb_io_proc->u.generic->next == NULL); | |
4901 | ||
4902 | specific_proc = tb_io_proc->u.generic->specific; | |
4903 | gcc_assert (!specific_proc->is_generic); | |
4904 | ||
096506bb PT |
4905 | /* Go back and make sure that we have the right specific procedure. |
4906 | Here we most likely have a procedure from the parent type, which | |
4907 | can be overridden in extensions. */ | |
4908 | genname = tb_io_proc->u.generic->specific_st->name; | |
4909 | st = gfc_find_typebound_proc (derived, NULL, genname, | |
4910 | true, &tb_io_proc->where); | |
4911 | if (st) | |
4912 | dtio_sub = st->n.tb->u.specific->n.sym; | |
4913 | else | |
4914 | dtio_sub = specific_proc->u.specific->n.sym; | |
e73d3ca6 | 4915 | |
e4e659b9 JW |
4916 | goto finish; |
4917 | } | |
e73d3ca6 PT |
4918 | |
4919 | /* If there is not a typebound binding, look for a generic | |
4920 | DTIO interface. */ | |
4921 | for (extended = derived; extended; | |
4922 | extended = gfc_get_derived_super_type (extended)) | |
4923 | { | |
e4e659b9 JW |
4924 | if (extended == NULL || extended->ns == NULL |
4925 | || extended->attr.flavor == FL_UNKNOWN) | |
a8de3002 PT |
4926 | return NULL; |
4927 | ||
e73d3ca6 PT |
4928 | if (formatted == true) |
4929 | { | |
4930 | if (write == true) | |
4931 | tb_io_st = gfc_find_symtree (extended->ns->sym_root, | |
4932 | gfc_code2string (dtio_procs, | |
4933 | DTIO_WF)); | |
4934 | else | |
4935 | tb_io_st = gfc_find_symtree (extended->ns->sym_root, | |
4936 | gfc_code2string (dtio_procs, | |
4937 | DTIO_RF)); | |
4938 | } | |
4939 | else | |
4940 | { | |
4941 | if (write == true) | |
4942 | tb_io_st = gfc_find_symtree (extended->ns->sym_root, | |
4943 | gfc_code2string (dtio_procs, | |
4944 | DTIO_WUF)); | |
4945 | else | |
4946 | tb_io_st = gfc_find_symtree (extended->ns->sym_root, | |
4947 | gfc_code2string (dtio_procs, | |
4948 | DTIO_RUF)); | |
4949 | } | |
4950 | ||
4951 | if (tb_io_st != NULL | |
4952 | && tb_io_st->n.sym | |
4953 | && tb_io_st->n.sym->generic) | |
4954 | { | |
40109581 | 4955 | for (gfc_interface *intr = tb_io_st->n.sym->generic; |
413e859c | 4956 | intr && intr->sym; intr = intr->next) |
e73d3ca6 | 4957 | { |
413e859c | 4958 | if (intr->sym->formal) |
e73d3ca6 | 4959 | { |
413e859c JW |
4960 | gfc_symbol *fsym = intr->sym->formal->sym; |
4961 | if ((fsym->ts.type == BT_CLASS | |
4962 | && CLASS_DATA (fsym)->ts.u.derived == extended) | |
4963 | || (fsym->ts.type == BT_DERIVED | |
4964 | && fsym->ts.u.derived == extended)) | |
4965 | { | |
4966 | dtio_sub = intr->sym; | |
4967 | break; | |
4968 | } | |
e73d3ca6 PT |
4969 | } |
4970 | } | |
4971 | } | |
4972 | } | |
4973 | ||
4974 | finish: | |
4975 | if (dtio_sub && derived != CLASS_DATA (dtio_sub->formal->sym)->ts.u.derived) | |
4976 | gfc_find_derived_vtab (derived); | |
4977 | ||
4978 | return dtio_sub; | |
4979 | } |