2006-01-05 Paolo Carlini <pcarlini@suse.de>
[official-gcc.git] / gcc / read-rtl.c
blob79f40508d3be478e6b23387728cbf4e9166f450b
1 /* RTL reader for GCC.
2 Copyright (C) 1987, 1988, 1991, 1994, 1997, 1998, 1999, 2000, 2001, 2002,
3 2003, 2004, 2005
4 Free Software Foundation, Inc.
6 This file is part of GCC.
8 GCC is free software; you can redistribute it and/or modify it under
9 the terms of the GNU General Public License as published by the Free
10 Software Foundation; either version 2, or (at your option) any later
11 version.
13 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
14 WARRANTY; without even the implied warranty of MERCHANTABILITY or
15 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
16 for more details.
18 You should have received a copy of the GNU General Public License
19 along with GCC; see the file COPYING. If not, write to the Free
20 Software Foundation, 51 Franklin Street, Fifth Floor, Boston, MA
21 02110-1301, USA. */
23 #include "bconfig.h"
25 /* Disable rtl checking; it conflicts with the macro handling. */
26 #undef ENABLE_RTL_CHECKING
28 #include "system.h"
29 #include "coretypes.h"
30 #include "tm.h"
31 #include "rtl.h"
32 #include "obstack.h"
33 #include "hashtab.h"
35 static htab_t md_constants;
37 /* One element in a singly-linked list of (integer, string) pairs. */
38 struct map_value {
39 struct map_value *next;
40 int number;
41 const char *string;
44 /* Maps a macro or attribute name to a list of (integer, string) pairs.
45 The integers are mode or code values; the strings are either C conditions
46 or attribute values. */
47 struct mapping {
48 /* The name of the macro or attribute. */
49 const char *name;
51 /* The group (modes or codes) to which the macro or attribute belongs. */
52 struct macro_group *group;
54 /* Gives a unique number to the attribute or macro. Numbers are
55 allocated consecutively, starting at 0. */
56 int index;
58 /* The list of (integer, string) pairs. */
59 struct map_value *values;
62 /* A structure for abstracting the common parts of code and mode macros. */
63 struct macro_group {
64 /* Tables of "mapping" structures, one for attributes and one for macros. */
65 htab_t attrs, macros;
67 /* The number of "real" modes or codes (and by extension, the first
68 number available for use as a macro placeholder). */
69 int num_builtins;
71 /* Treat the given string as the name of a standard mode or code and
72 return its integer value. Use the given file for error reporting. */
73 int (*find_builtin) (const char *, FILE *);
75 /* Return true if the given rtx uses the given mode or code. */
76 bool (*uses_macro_p) (rtx, int);
78 /* Make the given rtx use the given mode or code. */
79 void (*apply_macro) (rtx, int);
82 /* Associates PTR (which can be a string, etc.) with the file location
83 specified by FILENAME and LINENO. */
84 struct ptr_loc {
85 const void *ptr;
86 const char *filename;
87 int lineno;
90 /* A structure used to pass data from read_rtx to apply_macro_traverse
91 via htab_traverse. */
92 struct macro_traverse_data {
93 /* Instruction queue. */
94 rtx queue;
95 /* Attributes seen for modes. */
96 struct map_value *mode_maps;
97 /* Input file. */
98 FILE *infile;
99 /* The last unknown attribute used as a mode. */
100 const char *unknown_mode_attr;
103 /* If CODE is the number of a code macro, return a real rtx code that
104 has the same format. Return CODE otherwise. */
105 #define BELLWETHER_CODE(CODE) \
106 ((CODE) < NUM_RTX_CODE ? CODE : bellwether_codes[CODE - NUM_RTX_CODE])
108 static void fatal_with_file_and_line (FILE *, const char *, ...)
109 ATTRIBUTE_PRINTF_2 ATTRIBUTE_NORETURN;
110 static void fatal_expected_char (FILE *, int, int) ATTRIBUTE_NORETURN;
111 static int find_mode (const char *, FILE *);
112 static bool uses_mode_macro_p (rtx, int);
113 static void apply_mode_macro (rtx, int);
114 static int find_code (const char *, FILE *);
115 static bool uses_code_macro_p (rtx, int);
116 static void apply_code_macro (rtx, int);
117 static const char *apply_macro_to_string (const char *, struct mapping *, int);
118 static rtx apply_macro_to_rtx (rtx, struct mapping *, int,
119 struct map_value *, FILE *, const char **);
120 static bool uses_macro_p (rtx, struct mapping *);
121 static const char *add_condition_to_string (const char *, const char *);
122 static void add_condition_to_rtx (rtx, const char *);
123 static int apply_macro_traverse (void **, void *);
124 static struct mapping *add_mapping (struct macro_group *, htab_t t,
125 const char *, FILE *);
126 static struct map_value **add_map_value (struct map_value **,
127 int, const char *);
128 static void initialize_macros (void);
129 static void read_name (char *, FILE *);
130 static hashval_t leading_ptr_hash (const void *);
131 static int leading_ptr_eq_p (const void *, const void *);
132 static void set_rtx_ptr_loc (const void *, const char *, int);
133 static const struct ptr_loc *get_rtx_ptr_loc (const void *);
134 static char *read_string (FILE *, int);
135 static char *read_quoted_string (FILE *);
136 static char *read_braced_string (FILE *);
137 static void read_escape (FILE *);
138 static hashval_t def_hash (const void *);
139 static int def_name_eq_p (const void *, const void *);
140 static void read_constants (FILE *infile, char *tmp_char);
141 static void validate_const_int (FILE *, const char *);
142 static int find_macro (struct macro_group *, const char *, FILE *);
143 static struct mapping *read_mapping (struct macro_group *, htab_t, FILE *);
144 static void check_code_macro (struct mapping *, FILE *);
145 static rtx read_rtx_1 (FILE *, struct map_value **);
147 /* The mode and code macro structures. */
148 static struct macro_group modes, codes;
150 /* Index I is the value of BELLWETHER_CODE (I + NUM_RTX_CODE). */
151 static enum rtx_code *bellwether_codes;
153 /* Obstack used for allocating RTL strings. */
154 static struct obstack string_obstack;
156 /* A table of ptr_locs, hashed on the PTR field. */
157 static htab_t ptr_locs;
159 /* An obstack for the above. Plain xmalloc is a bit heavyweight for a
160 small structure like ptr_loc. */
161 static struct obstack ptr_loc_obstack;
163 /* A hash table of triples (A, B, C), where each of A, B and C is a condition
164 and A is equivalent to "B && C". This is used to keep track of the source
165 of conditions that are made up of separate rtx strings (such as the split
166 condition of a define_insn_and_split). */
167 static htab_t joined_conditions;
169 /* An obstack for allocating joined_conditions entries. */
170 static struct obstack joined_conditions_obstack;
172 /* Subroutines of read_rtx. */
174 /* The current line number for the file. */
175 int read_rtx_lineno = 1;
177 /* The filename for error reporting. */
178 const char *read_rtx_filename = "<unknown>";
180 static void
181 fatal_with_file_and_line (FILE *infile, const char *msg, ...)
183 char context[64];
184 size_t i;
185 int c;
186 va_list ap;
188 va_start (ap, msg);
190 fprintf (stderr, "%s:%d: ", read_rtx_filename, read_rtx_lineno);
191 vfprintf (stderr, msg, ap);
192 putc ('\n', stderr);
194 /* Gather some following context. */
195 for (i = 0; i < sizeof (context)-1; ++i)
197 c = getc (infile);
198 if (c == EOF)
199 break;
200 if (c == '\r' || c == '\n')
201 break;
202 context[i] = c;
204 context[i] = '\0';
206 fprintf (stderr, "%s:%d: following context is `%s'\n",
207 read_rtx_filename, read_rtx_lineno, context);
209 va_end (ap);
210 exit (1);
213 /* Dump code after printing a message. Used when read_rtx finds
214 invalid data. */
216 static void
217 fatal_expected_char (FILE *infile, int expected_c, int actual_c)
219 fatal_with_file_and_line (infile, "expected character `%c', found `%c'",
220 expected_c, actual_c);
223 /* Implementations of the macro_group callbacks for modes. */
225 static int
226 find_mode (const char *name, FILE *infile)
228 int i;
230 for (i = 0; i < NUM_MACHINE_MODES; i++)
231 if (strcmp (GET_MODE_NAME (i), name) == 0)
232 return i;
234 fatal_with_file_and_line (infile, "unknown mode `%s'", name);
237 static bool
238 uses_mode_macro_p (rtx x, int mode)
240 return (int) GET_MODE (x) == mode;
243 static void
244 apply_mode_macro (rtx x, int mode)
246 PUT_MODE (x, (enum machine_mode) mode);
249 /* Implementations of the macro_group callbacks for codes. */
251 static int
252 find_code (const char *name, FILE *infile)
254 int i;
256 for (i = 0; i < NUM_RTX_CODE; i++)
257 if (strcmp (GET_RTX_NAME (i), name) == 0)
258 return i;
260 fatal_with_file_and_line (infile, "unknown rtx code `%s'", name);
263 static bool
264 uses_code_macro_p (rtx x, int code)
266 return (int) GET_CODE (x) == code;
269 static void
270 apply_code_macro (rtx x, int code)
272 PUT_CODE (x, (enum rtx_code) code);
275 /* Map a code or mode attribute string P to the underlying string for
276 MACRO and VALUE. */
278 static struct map_value *
279 map_attr_string (const char *p, struct mapping *macro, int value)
281 const char *attr;
282 struct mapping *m;
283 struct map_value *v;
285 /* If there's a "macro:" prefix, check whether the macro name matches.
286 Set ATTR to the start of the attribute name. */
287 attr = strchr (p, ':');
288 if (attr == 0)
289 attr = p;
290 else
292 if (strncmp (p, macro->name, attr - p) != 0
293 || macro->name[attr - p] != 0)
294 return 0;
295 attr++;
298 /* Find the attribute specification. */
299 m = (struct mapping *) htab_find (macro->group->attrs, &attr);
300 if (m == 0)
301 return 0;
303 /* Find the attribute value for VALUE. */
304 for (v = m->values; v != 0; v = v->next)
305 if (v->number == value)
306 break;
308 return v;
311 /* Given an attribute string used as a machine mode, return an index
312 to store in the machine mode to be translated by
313 apply_macro_to_rtx. */
315 static unsigned int
316 mode_attr_index (struct map_value **mode_maps, const char *string)
318 char *p;
319 struct map_value *mv;
321 /* Copy the attribute string into permanent storage, without the
322 angle brackets around it. */
323 obstack_grow0 (&string_obstack, string + 1, strlen (string) - 2);
324 p = XOBFINISH (&string_obstack, char *);
326 mv = XNEW (struct map_value);
327 mv->number = *mode_maps == 0 ? 0 : (*mode_maps)->number + 1;
328 mv->string = p;
329 mv->next = *mode_maps;
330 *mode_maps = mv;
332 /* We return a code which we can map back into this string: the
333 number of machine modes + the number of mode macros + the index
334 we just used. */
335 return MAX_MACHINE_MODE + htab_elements (modes.macros) + mv->number;
338 /* Apply MODE_MAPS to the top level of X, expanding cases where an
339 attribute is used for a mode. MACRO is the current macro we are
340 expanding, and VALUE is the value to which we are expanding it.
341 INFILE is used for error messages. This sets *UNKNOWN to true if
342 we find a mode attribute which has not yet been defined, and does
343 not change it otherwise. */
345 static void
346 apply_mode_maps (rtx x, struct map_value *mode_maps, struct mapping *macro,
347 int value, FILE *infile, const char **unknown)
349 unsigned int offset;
350 int indx;
351 struct map_value *pm;
353 offset = MAX_MACHINE_MODE + htab_elements (modes.macros);
354 if (GET_MODE (x) < offset)
355 return;
357 indx = GET_MODE (x) - offset;
358 for (pm = mode_maps; pm; pm = pm->next)
360 if (pm->number == indx)
362 struct map_value *v;
364 v = map_attr_string (pm->string, macro, value);
365 if (v)
366 PUT_MODE (x, (enum machine_mode) find_mode (v->string, infile));
367 else
368 *unknown = pm->string;
369 return;
374 /* Given that MACRO is being expanded as VALUE, apply the appropriate
375 string substitutions to STRING. Return the new string if any changes
376 were needed, otherwise return STRING itself. */
378 static const char *
379 apply_macro_to_string (const char *string, struct mapping *macro, int value)
381 char *base, *copy, *p, *start, *end;
382 struct map_value *v;
384 if (string == 0)
385 return string;
387 base = p = copy = ASTRDUP (string);
388 while ((start = strchr (p, '<')) && (end = strchr (start, '>')))
390 p = start + 1;
392 *end = 0;
393 v = map_attr_string (p, macro, value);
394 *end = '>';
395 if (v == 0)
396 continue;
398 /* Add everything between the last copied byte and the '<',
399 then add in the attribute value. */
400 obstack_grow (&string_obstack, base, start - base);
401 obstack_grow (&string_obstack, v->string, strlen (v->string));
402 base = end + 1;
404 if (base != copy)
406 obstack_grow (&string_obstack, base, strlen (base) + 1);
407 copy = XOBFINISH (&string_obstack, char *);
408 copy_rtx_ptr_loc (copy, string);
409 return copy;
411 return string;
414 /* Return a copy of ORIGINAL in which all uses of MACRO have been
415 replaced by VALUE. MODE_MAPS holds information about attribute
416 strings used for modes. INFILE is used for error messages. This
417 sets *UNKNOWN_MODE_ATTR to the value of an unknown mode attribute,
418 and does not change it otherwise. */
420 static rtx
421 apply_macro_to_rtx (rtx original, struct mapping *macro, int value,
422 struct map_value *mode_maps, FILE *infile,
423 const char **unknown_mode_attr)
425 struct macro_group *group;
426 const char *format_ptr;
427 int i, j;
428 rtx x;
429 enum rtx_code bellwether_code;
431 if (original == 0)
432 return original;
434 /* Create a shallow copy of ORIGINAL. */
435 bellwether_code = BELLWETHER_CODE (GET_CODE (original));
436 x = rtx_alloc (bellwether_code);
437 memcpy (x, original, RTX_SIZE (bellwether_code));
439 /* Change the mode or code itself. */
440 group = macro->group;
441 if (group->uses_macro_p (x, macro->index + group->num_builtins))
442 group->apply_macro (x, value);
444 if (mode_maps)
445 apply_mode_maps (x, mode_maps, macro, value, infile, unknown_mode_attr);
447 /* Change each string and recursively change each rtx. */
448 format_ptr = GET_RTX_FORMAT (bellwether_code);
449 for (i = 0; format_ptr[i] != 0; i++)
450 switch (format_ptr[i])
452 case 'T':
453 XTMPL (x, i) = apply_macro_to_string (XTMPL (x, i), macro, value);
454 break;
456 case 'S':
457 case 's':
458 XSTR (x, i) = apply_macro_to_string (XSTR (x, i), macro, value);
459 break;
461 case 'e':
462 XEXP (x, i) = apply_macro_to_rtx (XEXP (x, i), macro, value,
463 mode_maps, infile,
464 unknown_mode_attr);
465 break;
467 case 'V':
468 case 'E':
469 if (XVEC (original, i))
471 XVEC (x, i) = rtvec_alloc (XVECLEN (original, i));
472 for (j = 0; j < XVECLEN (x, i); j++)
473 XVECEXP (x, i, j) = apply_macro_to_rtx (XVECEXP (original, i, j),
474 macro, value, mode_maps,
475 infile,
476 unknown_mode_attr);
478 break;
480 default:
481 break;
483 return x;
486 /* Return true if X (or some subexpression of X) uses macro MACRO. */
488 static bool
489 uses_macro_p (rtx x, struct mapping *macro)
491 struct macro_group *group;
492 const char *format_ptr;
493 int i, j;
495 if (x == 0)
496 return false;
498 group = macro->group;
499 if (group->uses_macro_p (x, macro->index + group->num_builtins))
500 return true;
502 format_ptr = GET_RTX_FORMAT (BELLWETHER_CODE (GET_CODE (x)));
503 for (i = 0; format_ptr[i] != 0; i++)
504 switch (format_ptr[i])
506 case 'e':
507 if (uses_macro_p (XEXP (x, i), macro))
508 return true;
509 break;
511 case 'V':
512 case 'E':
513 if (XVEC (x, i))
514 for (j = 0; j < XVECLEN (x, i); j++)
515 if (uses_macro_p (XVECEXP (x, i, j), macro))
516 return true;
517 break;
519 default:
520 break;
522 return false;
525 /* Return a condition that must satisfy both ORIGINAL and EXTRA. If ORIGINAL
526 has the form "&& ..." (as used in define_insn_and_splits), assume that
527 EXTRA is already satisfied. Empty strings are treated like "true". */
529 static const char *
530 add_condition_to_string (const char *original, const char *extra)
532 if (original != 0 && original[0] == '&' && original[1] == '&')
533 return original;
534 return join_c_conditions (original, extra);
537 /* Like add_condition, but applied to all conditions in rtx X. */
539 static void
540 add_condition_to_rtx (rtx x, const char *extra)
542 switch (GET_CODE (x))
544 case DEFINE_INSN:
545 case DEFINE_EXPAND:
546 XSTR (x, 2) = add_condition_to_string (XSTR (x, 2), extra);
547 break;
549 case DEFINE_SPLIT:
550 case DEFINE_PEEPHOLE:
551 case DEFINE_PEEPHOLE2:
552 case DEFINE_COND_EXEC:
553 XSTR (x, 1) = add_condition_to_string (XSTR (x, 1), extra);
554 break;
556 case DEFINE_INSN_AND_SPLIT:
557 XSTR (x, 2) = add_condition_to_string (XSTR (x, 2), extra);
558 XSTR (x, 4) = add_condition_to_string (XSTR (x, 4), extra);
559 break;
561 default:
562 break;
566 /* A htab_traverse callback. Search the EXPR_LIST given by DATA
567 for rtxes that use the macro in *SLOT. Replace each such rtx
568 with a list of expansions. */
570 static int
571 apply_macro_traverse (void **slot, void *data)
573 struct macro_traverse_data *mtd = (struct macro_traverse_data *) data;
574 struct mapping *macro;
575 struct map_value *v;
576 rtx elem, new_elem, original, x;
578 macro = (struct mapping *) *slot;
579 for (elem = mtd->queue; elem != 0; elem = XEXP (elem, 1))
580 if (uses_macro_p (XEXP (elem, 0), macro))
582 /* For each macro we expand, we set UNKNOWN_MODE_ATTR to NULL.
583 If apply_macro_rtx finds an unknown attribute for a mode,
584 it will set it to the attribute. We want to know whether
585 the attribute is unknown after we have expanded all
586 possible macros, so setting it to NULL here gives us the
587 right result when the hash table traversal is complete. */
588 mtd->unknown_mode_attr = NULL;
590 original = XEXP (elem, 0);
591 for (v = macro->values; v != 0; v = v->next)
593 x = apply_macro_to_rtx (original, macro, v->number,
594 mtd->mode_maps, mtd->infile,
595 &mtd->unknown_mode_attr);
596 add_condition_to_rtx (x, v->string);
597 if (v != macro->values)
599 /* Insert a new EXPR_LIST node after ELEM and put the
600 new expansion there. */
601 new_elem = rtx_alloc (EXPR_LIST);
602 XEXP (new_elem, 1) = XEXP (elem, 1);
603 XEXP (elem, 1) = new_elem;
604 elem = new_elem;
606 XEXP (elem, 0) = x;
609 return 1;
612 /* Add a new "mapping" structure to hashtable TABLE. NAME is the name
613 of the mapping, GROUP is the group to which it belongs, and INFILE
614 is the file that defined the mapping. */
616 static struct mapping *
617 add_mapping (struct macro_group *group, htab_t table,
618 const char *name, FILE *infile)
620 struct mapping *m;
621 void **slot;
623 m = XNEW (struct mapping);
624 m->name = xstrdup (name);
625 m->group = group;
626 m->index = htab_elements (table);
627 m->values = 0;
629 slot = htab_find_slot (table, m, INSERT);
630 if (*slot != 0)
631 fatal_with_file_and_line (infile, "`%s' already defined", name);
633 *slot = m;
634 return m;
637 /* Add the pair (NUMBER, STRING) to a list of map_value structures.
638 END_PTR points to the current null terminator for the list; return
639 a pointer the new null terminator. */
641 static struct map_value **
642 add_map_value (struct map_value **end_ptr, int number, const char *string)
644 struct map_value *value;
646 value = XNEW (struct map_value);
647 value->next = 0;
648 value->number = number;
649 value->string = string;
651 *end_ptr = value;
652 return &value->next;
655 /* Do one-time initialization of the mode and code attributes. */
657 static void
658 initialize_macros (void)
660 struct mapping *lower, *upper;
661 struct map_value **lower_ptr, **upper_ptr;
662 char *copy, *p;
663 int i;
665 modes.attrs = htab_create (13, def_hash, def_name_eq_p, 0);
666 modes.macros = htab_create (13, def_hash, def_name_eq_p, 0);
667 modes.num_builtins = MAX_MACHINE_MODE;
668 modes.find_builtin = find_mode;
669 modes.uses_macro_p = uses_mode_macro_p;
670 modes.apply_macro = apply_mode_macro;
672 codes.attrs = htab_create (13, def_hash, def_name_eq_p, 0);
673 codes.macros = htab_create (13, def_hash, def_name_eq_p, 0);
674 codes.num_builtins = NUM_RTX_CODE;
675 codes.find_builtin = find_code;
676 codes.uses_macro_p = uses_code_macro_p;
677 codes.apply_macro = apply_code_macro;
679 lower = add_mapping (&modes, modes.attrs, "mode", 0);
680 upper = add_mapping (&modes, modes.attrs, "MODE", 0);
681 lower_ptr = &lower->values;
682 upper_ptr = &upper->values;
683 for (i = 0; i < MAX_MACHINE_MODE; i++)
685 copy = xstrdup (GET_MODE_NAME (i));
686 for (p = copy; *p != 0; p++)
687 *p = TOLOWER (*p);
689 upper_ptr = add_map_value (upper_ptr, i, GET_MODE_NAME (i));
690 lower_ptr = add_map_value (lower_ptr, i, copy);
693 lower = add_mapping (&codes, codes.attrs, "code", 0);
694 upper = add_mapping (&codes, codes.attrs, "CODE", 0);
695 lower_ptr = &lower->values;
696 upper_ptr = &upper->values;
697 for (i = 0; i < NUM_RTX_CODE; i++)
699 copy = xstrdup (GET_RTX_NAME (i));
700 for (p = copy; *p != 0; p++)
701 *p = TOUPPER (*p);
703 lower_ptr = add_map_value (lower_ptr, i, GET_RTX_NAME (i));
704 upper_ptr = add_map_value (upper_ptr, i, copy);
708 /* Return a hash value for the pointer pointed to by DEF. */
710 static hashval_t
711 leading_ptr_hash (const void *def)
713 return htab_hash_pointer (*(const void *const *) def);
716 /* Return true if DEF1 and DEF2 are pointers to the same pointer. */
718 static int
719 leading_ptr_eq_p (const void *def1, const void *def2)
721 return *(const void *const *) def1 == *(const void *const *) def2;
724 /* Associate PTR with the file position given by FILENAME and LINENO. */
726 static void
727 set_rtx_ptr_loc (const void *ptr, const char *filename, int lineno)
729 struct ptr_loc *loc;
731 loc = (struct ptr_loc *) obstack_alloc (&ptr_loc_obstack,
732 sizeof (struct ptr_loc));
733 loc->ptr = ptr;
734 loc->filename = filename;
735 loc->lineno = lineno;
736 *htab_find_slot (ptr_locs, loc, INSERT) = loc;
739 /* Return the position associated with pointer PTR. Return null if no
740 position was set. */
742 static const struct ptr_loc *
743 get_rtx_ptr_loc (const void *ptr)
745 return (const struct ptr_loc *) htab_find (ptr_locs, &ptr);
748 /* Associate NEW_PTR with the same file position as OLD_PTR. */
750 void
751 copy_rtx_ptr_loc (const void *new_ptr, const void *old_ptr)
753 const struct ptr_loc *loc = get_rtx_ptr_loc (old_ptr);
754 if (loc != 0)
755 set_rtx_ptr_loc (new_ptr, loc->filename, loc->lineno);
758 /* If PTR is associated with a known file position, print a #line
759 directive for it. */
761 void
762 print_rtx_ptr_loc (const void *ptr)
764 const struct ptr_loc *loc = get_rtx_ptr_loc (ptr);
765 if (loc != 0)
766 printf ("#line %d \"%s\"\n", loc->lineno, loc->filename);
769 /* Return a condition that satisfies both COND1 and COND2. Either string
770 may be null or empty. */
772 const char *
773 join_c_conditions (const char *cond1, const char *cond2)
775 char *result;
776 const void **entry;
778 if (cond1 == 0 || cond1[0] == 0)
779 return cond2;
781 if (cond2 == 0 || cond2[0] == 0)
782 return cond1;
784 result = concat ("(", cond1, ") && (", cond2, ")", NULL);
785 obstack_ptr_grow (&joined_conditions_obstack, result);
786 obstack_ptr_grow (&joined_conditions_obstack, cond1);
787 obstack_ptr_grow (&joined_conditions_obstack, cond2);
788 entry = XOBFINISH (&joined_conditions_obstack, const void **);
789 *htab_find_slot (joined_conditions, entry, INSERT) = entry;
790 return result;
793 /* Print condition COND, wrapped in brackets. If COND was created by
794 join_c_conditions, recursively invoke this function for the original
795 conditions and join the result with "&&". Otherwise print a #line
796 directive for COND if its original file position is known. */
798 void
799 print_c_condition (const char *cond)
801 const char **halves = (const char **) htab_find (joined_conditions, &cond);
802 if (halves != 0)
804 printf ("(");
805 print_c_condition (halves[1]);
806 printf (" && ");
807 print_c_condition (halves[2]);
808 printf (")");
810 else
812 putc ('\n', stdout);
813 print_rtx_ptr_loc (cond);
814 printf ("(%s)", cond);
818 /* Read chars from INFILE until a non-whitespace char
819 and return that. Comments, both Lisp style and C style,
820 are treated as whitespace.
821 Tools such as genflags use this function. */
824 read_skip_spaces (FILE *infile)
826 int c;
828 while (1)
830 c = getc (infile);
831 switch (c)
833 case '\n':
834 read_rtx_lineno++;
835 break;
837 case ' ': case '\t': case '\f': case '\r':
838 break;
840 case ';':
842 c = getc (infile);
843 while (c != '\n' && c != EOF);
844 read_rtx_lineno++;
845 break;
847 case '/':
849 int prevc;
850 c = getc (infile);
851 if (c != '*')
852 fatal_expected_char (infile, '*', c);
854 prevc = 0;
855 while ((c = getc (infile)) && c != EOF)
857 if (c == '\n')
858 read_rtx_lineno++;
859 else if (prevc == '*' && c == '/')
860 break;
861 prevc = c;
864 break;
866 default:
867 return c;
872 /* Read an rtx code name into the buffer STR[].
873 It is terminated by any of the punctuation chars of rtx printed syntax. */
875 static void
876 read_name (char *str, FILE *infile)
878 char *p;
879 int c;
881 c = read_skip_spaces (infile);
883 p = str;
884 while (1)
886 if (c == ' ' || c == '\n' || c == '\t' || c == '\f' || c == '\r')
887 break;
888 if (c == ':' || c == ')' || c == ']' || c == '"' || c == '/'
889 || c == '(' || c == '[')
891 ungetc (c, infile);
892 break;
894 *p++ = c;
895 c = getc (infile);
897 if (p == str)
898 fatal_with_file_and_line (infile, "missing name or number");
899 if (c == '\n')
900 read_rtx_lineno++;
902 *p = 0;
904 if (md_constants)
906 /* Do constant expansion. */
907 struct md_constant *def;
909 p = str;
912 struct md_constant tmp_def;
914 tmp_def.name = p;
915 def = (struct md_constant *) htab_find (md_constants, &tmp_def);
916 if (def)
917 p = def->value;
918 } while (def);
919 if (p != str)
920 strcpy (str, p);
924 /* Subroutine of the string readers. Handles backslash escapes.
925 Caller has read the backslash, but not placed it into the obstack. */
926 static void
927 read_escape (FILE *infile)
929 int c = getc (infile);
931 switch (c)
933 /* Backslash-newline is replaced by nothing, as in C. */
934 case '\n':
935 read_rtx_lineno++;
936 return;
938 /* \" \' \\ are replaced by the second character. */
939 case '\\':
940 case '"':
941 case '\'':
942 break;
944 /* Standard C string escapes:
945 \a \b \f \n \r \t \v
946 \[0-7] \x
947 all are passed through to the output string unmolested.
948 In normal use these wind up in a string constant processed
949 by the C compiler, which will translate them appropriately.
950 We do not bother checking that \[0-7] are followed by up to
951 two octal digits, or that \x is followed by N hex digits.
952 \? \u \U are left out because they are not in traditional C. */
953 case 'a': case 'b': case 'f': case 'n': case 'r': case 't': case 'v':
954 case '0': case '1': case '2': case '3': case '4': case '5': case '6':
955 case '7': case 'x':
956 obstack_1grow (&string_obstack, '\\');
957 break;
959 /* \; makes stuff for a C string constant containing
960 newline and tab. */
961 case ';':
962 obstack_grow (&string_obstack, "\\n\\t", 4);
963 return;
965 /* pass anything else through, but issue a warning. */
966 default:
967 fprintf (stderr, "%s:%d: warning: unrecognized escape \\%c\n",
968 read_rtx_filename, read_rtx_lineno, c);
969 obstack_1grow (&string_obstack, '\\');
970 break;
973 obstack_1grow (&string_obstack, c);
977 /* Read a double-quoted string onto the obstack. Caller has scanned
978 the leading quote. */
979 static char *
980 read_quoted_string (FILE *infile)
982 int c;
984 while (1)
986 c = getc (infile); /* Read the string */
987 if (c == '\n')
988 read_rtx_lineno++;
989 else if (c == '\\')
991 read_escape (infile);
992 continue;
994 else if (c == '"' || c == EOF)
995 break;
997 obstack_1grow (&string_obstack, c);
1000 obstack_1grow (&string_obstack, 0);
1001 return XOBFINISH (&string_obstack, char *);
1004 /* Read a braced string (a la Tcl) onto the string obstack. Caller
1005 has scanned the leading brace. Note that unlike quoted strings,
1006 the outermost braces _are_ included in the string constant. */
1007 static char *
1008 read_braced_string (FILE *infile)
1010 int c;
1011 int brace_depth = 1; /* caller-processed */
1012 unsigned long starting_read_rtx_lineno = read_rtx_lineno;
1014 obstack_1grow (&string_obstack, '{');
1015 while (brace_depth)
1017 c = getc (infile); /* Read the string */
1019 if (c == '\n')
1020 read_rtx_lineno++;
1021 else if (c == '{')
1022 brace_depth++;
1023 else if (c == '}')
1024 brace_depth--;
1025 else if (c == '\\')
1027 read_escape (infile);
1028 continue;
1030 else if (c == EOF)
1031 fatal_with_file_and_line
1032 (infile, "missing closing } for opening brace on line %lu",
1033 starting_read_rtx_lineno);
1035 obstack_1grow (&string_obstack, c);
1038 obstack_1grow (&string_obstack, 0);
1039 return XOBFINISH (&string_obstack, char *);
1042 /* Read some kind of string constant. This is the high-level routine
1043 used by read_rtx. It handles surrounding parentheses, leading star,
1044 and dispatch to the appropriate string constant reader. */
1046 static char *
1047 read_string (FILE *infile, int star_if_braced)
1049 char *stringbuf;
1050 int saw_paren = 0;
1051 int c, old_lineno;
1053 c = read_skip_spaces (infile);
1054 if (c == '(')
1056 saw_paren = 1;
1057 c = read_skip_spaces (infile);
1060 old_lineno = read_rtx_lineno;
1061 if (c == '"')
1062 stringbuf = read_quoted_string (infile);
1063 else if (c == '{')
1065 if (star_if_braced)
1066 obstack_1grow (&string_obstack, '*');
1067 stringbuf = read_braced_string (infile);
1069 else
1070 fatal_with_file_and_line (infile, "expected `\"' or `{', found `%c'", c);
1072 if (saw_paren)
1074 c = read_skip_spaces (infile);
1075 if (c != ')')
1076 fatal_expected_char (infile, ')', c);
1079 set_rtx_ptr_loc (stringbuf, read_rtx_filename, old_lineno);
1080 return stringbuf;
1083 /* Provide a version of a function to read a long long if the system does
1084 not provide one. */
1085 #if HOST_BITS_PER_WIDE_INT > HOST_BITS_PER_LONG && !defined(HAVE_ATOLL) && !defined(HAVE_ATOQ)
1086 HOST_WIDE_INT atoll (const char *);
1088 HOST_WIDE_INT
1089 atoll (const char *p)
1091 int neg = 0;
1092 HOST_WIDE_INT tmp_wide;
1094 while (ISSPACE (*p))
1095 p++;
1096 if (*p == '-')
1097 neg = 1, p++;
1098 else if (*p == '+')
1099 p++;
1101 tmp_wide = 0;
1102 while (ISDIGIT (*p))
1104 HOST_WIDE_INT new_wide = tmp_wide*10 + (*p - '0');
1105 if (new_wide < tmp_wide)
1107 /* Return INT_MAX equiv on overflow. */
1108 tmp_wide = (~(unsigned HOST_WIDE_INT) 0) >> 1;
1109 break;
1111 tmp_wide = new_wide;
1112 p++;
1115 if (neg)
1116 tmp_wide = -tmp_wide;
1117 return tmp_wide;
1119 #endif
1121 /* Given an object that starts with a char * name field, return a hash
1122 code for its name. */
1123 static hashval_t
1124 def_hash (const void *def)
1126 unsigned result, i;
1127 const char *string = *(const char *const *) def;
1129 for (result = i = 0; *string++ != '\0'; i++)
1130 result += ((unsigned char) *string << (i % CHAR_BIT));
1131 return result;
1134 /* Given two objects that start with char * name fields, return true if
1135 they have the same name. */
1136 static int
1137 def_name_eq_p (const void *def1, const void *def2)
1139 return ! strcmp (*(const char *const *) def1,
1140 *(const char *const *) def2);
1143 /* INFILE is a FILE pointer to read text from. TMP_CHAR is a buffer suitable
1144 to read a name or number into. Process a define_constants directive,
1145 starting with the optional space after the "define_constants". */
1146 static void
1147 read_constants (FILE *infile, char *tmp_char)
1149 int c;
1150 htab_t defs;
1152 c = read_skip_spaces (infile);
1153 if (c != '[')
1154 fatal_expected_char (infile, '[', c);
1155 defs = md_constants;
1156 if (! defs)
1157 defs = htab_create (32, def_hash, def_name_eq_p, (htab_del) 0);
1158 /* Disable constant expansion during definition processing. */
1159 md_constants = 0;
1160 while ( (c = read_skip_spaces (infile)) != ']')
1162 struct md_constant *def;
1163 void **entry_ptr;
1165 if (c != '(')
1166 fatal_expected_char (infile, '(', c);
1167 def = XNEW (struct md_constant);
1168 def->name = tmp_char;
1169 read_name (tmp_char, infile);
1170 entry_ptr = htab_find_slot (defs, def, INSERT);
1171 if (! *entry_ptr)
1172 def->name = xstrdup (tmp_char);
1173 c = read_skip_spaces (infile);
1174 ungetc (c, infile);
1175 read_name (tmp_char, infile);
1176 if (! *entry_ptr)
1178 def->value = xstrdup (tmp_char);
1179 *entry_ptr = def;
1181 else
1183 def = (struct md_constant *) *entry_ptr;
1184 if (strcmp (def->value, tmp_char))
1185 fatal_with_file_and_line (infile,
1186 "redefinition of %s, was %s, now %s",
1187 def->name, def->value, tmp_char);
1189 c = read_skip_spaces (infile);
1190 if (c != ')')
1191 fatal_expected_char (infile, ')', c);
1193 md_constants = defs;
1194 c = read_skip_spaces (infile);
1195 if (c != ')')
1196 fatal_expected_char (infile, ')', c);
1199 /* For every constant definition, call CALLBACK with two arguments:
1200 a pointer a pointer to the constant definition and INFO.
1201 Stops when CALLBACK returns zero. */
1202 void
1203 traverse_md_constants (htab_trav callback, void *info)
1205 if (md_constants)
1206 htab_traverse (md_constants, callback, info);
1209 static void
1210 validate_const_int (FILE *infile, const char *string)
1212 const char *cp;
1213 int valid = 1;
1215 cp = string;
1216 while (*cp && ISSPACE (*cp))
1217 cp++;
1218 if (*cp == '-' || *cp == '+')
1219 cp++;
1220 if (*cp == 0)
1221 valid = 0;
1222 for (; *cp; cp++)
1223 if (! ISDIGIT (*cp))
1224 valid = 0;
1225 if (!valid)
1226 fatal_with_file_and_line (infile, "invalid decimal constant \"%s\"\n", string);
1229 /* Search GROUP for a mode or code called NAME and return its numerical
1230 identifier. INFILE is the file that contained NAME. */
1232 static int
1233 find_macro (struct macro_group *group, const char *name, FILE *infile)
1235 struct mapping *m;
1237 m = (struct mapping *) htab_find (group->macros, &name);
1238 if (m != 0)
1239 return m->index + group->num_builtins;
1240 return group->find_builtin (name, infile);
1243 /* Finish reading a declaration of the form:
1245 (define... <name> [<value1> ... <valuen>])
1247 from INFILE, where each <valuei> is either a bare symbol name or a
1248 "(<name> <string>)" pair. The "(define..." part has already been read.
1250 Represent the declaration as a "mapping" structure; add it to TABLE
1251 (which belongs to GROUP) and return it. */
1253 static struct mapping *
1254 read_mapping (struct macro_group *group, htab_t table, FILE *infile)
1256 char tmp_char[256];
1257 struct mapping *m;
1258 struct map_value **end_ptr;
1259 const char *string;
1260 int number, c;
1262 /* Read the mapping name and create a structure for it. */
1263 read_name (tmp_char, infile);
1264 m = add_mapping (group, table, tmp_char, infile);
1266 c = read_skip_spaces (infile);
1267 if (c != '[')
1268 fatal_expected_char (infile, '[', c);
1270 /* Read each value. */
1271 end_ptr = &m->values;
1272 c = read_skip_spaces (infile);
1275 if (c != '(')
1277 /* A bare symbol name that is implicitly paired to an
1278 empty string. */
1279 ungetc (c, infile);
1280 read_name (tmp_char, infile);
1281 string = "";
1283 else
1285 /* A "(name string)" pair. */
1286 read_name (tmp_char, infile);
1287 string = read_string (infile, false);
1288 c = read_skip_spaces (infile);
1289 if (c != ')')
1290 fatal_expected_char (infile, ')', c);
1292 number = group->find_builtin (tmp_char, infile);
1293 end_ptr = add_map_value (end_ptr, number, string);
1294 c = read_skip_spaces (infile);
1296 while (c != ']');
1298 c = read_skip_spaces (infile);
1299 if (c != ')')
1300 fatal_expected_char (infile, ')', c);
1302 return m;
1305 /* Check newly-created code macro MACRO to see whether every code has the
1306 same format. Initialize the macro's entry in bellwether_codes. */
1308 static void
1309 check_code_macro (struct mapping *macro, FILE *infile)
1311 struct map_value *v;
1312 enum rtx_code bellwether;
1314 bellwether = (enum rtx_code) macro->values->number;
1315 for (v = macro->values->next; v != 0; v = v->next)
1316 if (strcmp (GET_RTX_FORMAT (bellwether), GET_RTX_FORMAT (v->number)) != 0)
1317 fatal_with_file_and_line (infile, "code macro `%s' combines "
1318 "different rtx formats", macro->name);
1320 bellwether_codes = XRESIZEVEC (enum rtx_code, bellwether_codes,
1321 macro->index + 1);
1322 bellwether_codes[macro->index] = bellwether;
1325 /* Read an rtx in printed representation from INFILE and store its
1326 core representation in *X. Also store the line number of the
1327 opening '(' in *LINENO. Return true on success or false if the
1328 end of file has been reached.
1330 read_rtx is not used in the compiler proper, but rather in
1331 the utilities gen*.c that construct C code from machine descriptions. */
1333 bool
1334 read_rtx (FILE *infile, rtx *x, int *lineno)
1336 static rtx queue_head, queue_next;
1337 static int queue_lineno;
1338 int c;
1340 /* Do one-time initialization. */
1341 if (queue_head == 0)
1343 initialize_macros ();
1344 obstack_init (&string_obstack);
1345 queue_head = rtx_alloc (EXPR_LIST);
1346 ptr_locs = htab_create (161, leading_ptr_hash, leading_ptr_eq_p, 0);
1347 obstack_init (&ptr_loc_obstack);
1348 joined_conditions = htab_create (161, leading_ptr_hash,
1349 leading_ptr_eq_p, 0);
1350 obstack_init (&joined_conditions_obstack);
1353 if (queue_next == 0)
1355 struct map_value *mode_maps;
1356 struct macro_traverse_data mtd;
1358 c = read_skip_spaces (infile);
1359 if (c == EOF)
1360 return false;
1361 ungetc (c, infile);
1363 queue_next = queue_head;
1364 queue_lineno = read_rtx_lineno;
1365 mode_maps = 0;
1366 XEXP (queue_next, 0) = read_rtx_1 (infile, &mode_maps);
1367 XEXP (queue_next, 1) = 0;
1369 mtd.queue = queue_next;
1370 mtd.mode_maps = mode_maps;
1371 mtd.infile = infile;
1372 mtd.unknown_mode_attr = mode_maps ? mode_maps->string : NULL;
1373 htab_traverse (modes.macros, apply_macro_traverse, &mtd);
1374 htab_traverse (codes.macros, apply_macro_traverse, &mtd);
1375 if (mtd.unknown_mode_attr)
1376 fatal_with_file_and_line (infile,
1377 "undefined attribute '%s' used for mode",
1378 mtd.unknown_mode_attr);
1381 *x = XEXP (queue_next, 0);
1382 *lineno = queue_lineno;
1383 queue_next = XEXP (queue_next, 1);
1385 return true;
1388 /* Subroutine of read_rtx that reads one construct from INFILE but
1389 doesn't apply any macros. */
1391 static rtx
1392 read_rtx_1 (FILE *infile, struct map_value **mode_maps)
1394 int i;
1395 RTX_CODE real_code, bellwether_code;
1396 const char *format_ptr;
1397 /* tmp_char is a buffer used for reading decimal integers
1398 and names of rtx types and machine modes.
1399 Therefore, 256 must be enough. */
1400 char tmp_char[256];
1401 rtx return_rtx;
1402 int c;
1403 int tmp_int;
1404 HOST_WIDE_INT tmp_wide;
1406 /* Linked list structure for making RTXs: */
1407 struct rtx_list
1409 struct rtx_list *next;
1410 rtx value; /* Value of this node. */
1413 again:
1414 c = read_skip_spaces (infile); /* Should be open paren. */
1415 if (c != '(')
1416 fatal_expected_char (infile, '(', c);
1418 read_name (tmp_char, infile);
1419 if (strcmp (tmp_char, "nil") == 0)
1421 /* (nil) stands for an expression that isn't there. */
1422 c = read_skip_spaces (infile);
1423 if (c != ')')
1424 fatal_expected_char (infile, ')', c);
1425 return 0;
1427 if (strcmp (tmp_char, "define_constants") == 0)
1429 read_constants (infile, tmp_char);
1430 goto again;
1432 if (strcmp (tmp_char, "define_mode_attr") == 0)
1434 read_mapping (&modes, modes.attrs, infile);
1435 goto again;
1437 if (strcmp (tmp_char, "define_mode_macro") == 0)
1439 read_mapping (&modes, modes.macros, infile);
1440 goto again;
1442 if (strcmp (tmp_char, "define_code_attr") == 0)
1444 read_mapping (&codes, codes.attrs, infile);
1445 goto again;
1447 if (strcmp (tmp_char, "define_code_macro") == 0)
1449 check_code_macro (read_mapping (&codes, codes.macros, infile), infile);
1450 goto again;
1452 real_code = (enum rtx_code) find_macro (&codes, tmp_char, infile);
1453 bellwether_code = BELLWETHER_CODE (real_code);
1455 /* If we end up with an insn expression then we free this space below. */
1456 return_rtx = rtx_alloc (bellwether_code);
1457 format_ptr = GET_RTX_FORMAT (bellwether_code);
1458 PUT_CODE (return_rtx, real_code);
1460 /* If what follows is `: mode ', read it and
1461 store the mode in the rtx. */
1463 i = read_skip_spaces (infile);
1464 if (i == ':')
1466 unsigned int mode;
1468 read_name (tmp_char, infile);
1469 if (tmp_char[0] != '<' || tmp_char[strlen (tmp_char) - 1] != '>')
1470 mode = find_macro (&modes, tmp_char, infile);
1471 else
1472 mode = mode_attr_index (mode_maps, tmp_char);
1473 PUT_MODE (return_rtx, (enum machine_mode) mode);
1474 if (GET_MODE (return_rtx) != mode)
1475 fatal_with_file_and_line (infile, "mode too large");
1477 else
1478 ungetc (i, infile);
1480 for (i = 0; format_ptr[i] != 0; i++)
1481 switch (format_ptr[i])
1483 /* 0 means a field for internal use only.
1484 Don't expect it to be present in the input. */
1485 case '0':
1486 break;
1488 case 'e':
1489 case 'u':
1490 XEXP (return_rtx, i) = read_rtx_1 (infile, mode_maps);
1491 break;
1493 case 'V':
1494 /* 'V' is an optional vector: if a closeparen follows,
1495 just store NULL for this element. */
1496 c = read_skip_spaces (infile);
1497 ungetc (c, infile);
1498 if (c == ')')
1500 XVEC (return_rtx, i) = 0;
1501 break;
1503 /* Now process the vector. */
1505 case 'E':
1507 /* Obstack to store scratch vector in. */
1508 struct obstack vector_stack;
1509 int list_counter = 0;
1510 rtvec return_vec = NULL_RTVEC;
1512 c = read_skip_spaces (infile);
1513 if (c != '[')
1514 fatal_expected_char (infile, '[', c);
1516 /* Add expressions to a list, while keeping a count. */
1517 obstack_init (&vector_stack);
1518 while ((c = read_skip_spaces (infile)) && c != ']')
1520 ungetc (c, infile);
1521 list_counter++;
1522 obstack_ptr_grow (&vector_stack, read_rtx_1 (infile, mode_maps));
1524 if (list_counter > 0)
1526 return_vec = rtvec_alloc (list_counter);
1527 memcpy (&return_vec->elem[0], obstack_finish (&vector_stack),
1528 list_counter * sizeof (rtx));
1530 else if (format_ptr[i] == 'E')
1531 fatal_with_file_and_line (infile,
1532 "vector must have at least one element");
1533 XVEC (return_rtx, i) = return_vec;
1534 obstack_free (&vector_stack, NULL);
1535 /* close bracket gotten */
1537 break;
1539 case 'S':
1540 case 'T':
1541 case 's':
1543 char *stringbuf;
1544 int star_if_braced;
1546 c = read_skip_spaces (infile);
1547 ungetc (c, infile);
1548 if (c == ')')
1550 /* 'S' fields are optional and should be NULL if no string
1551 was given. Also allow normal 's' and 'T' strings to be
1552 omitted, treating them in the same way as empty strings. */
1553 XSTR (return_rtx, i) = (format_ptr[i] == 'S' ? NULL : "");
1554 break;
1557 /* The output template slot of a DEFINE_INSN,
1558 DEFINE_INSN_AND_SPLIT, or DEFINE_PEEPHOLE automatically
1559 gets a star inserted as its first character, if it is
1560 written with a brace block instead of a string constant. */
1561 star_if_braced = (format_ptr[i] == 'T');
1563 stringbuf = read_string (infile, star_if_braced);
1565 /* For insn patterns, we want to provide a default name
1566 based on the file and line, like "*foo.md:12", if the
1567 given name is blank. These are only for define_insn and
1568 define_insn_and_split, to aid debugging. */
1569 if (*stringbuf == '\0'
1570 && i == 0
1571 && (GET_CODE (return_rtx) == DEFINE_INSN
1572 || GET_CODE (return_rtx) == DEFINE_INSN_AND_SPLIT))
1574 char line_name[20];
1575 const char *fn = (read_rtx_filename ? read_rtx_filename : "rtx");
1576 const char *slash;
1577 for (slash = fn; *slash; slash ++)
1578 if (*slash == '/' || *slash == '\\' || *slash == ':')
1579 fn = slash + 1;
1580 obstack_1grow (&string_obstack, '*');
1581 obstack_grow (&string_obstack, fn, strlen (fn));
1582 sprintf (line_name, ":%d", read_rtx_lineno);
1583 obstack_grow (&string_obstack, line_name, strlen (line_name)+1);
1584 stringbuf = XOBFINISH (&string_obstack, char *);
1587 if (star_if_braced)
1588 XTMPL (return_rtx, i) = stringbuf;
1589 else
1590 XSTR (return_rtx, i) = stringbuf;
1592 break;
1594 case 'w':
1595 read_name (tmp_char, infile);
1596 validate_const_int (infile, tmp_char);
1597 #if HOST_BITS_PER_WIDE_INT == HOST_BITS_PER_INT
1598 tmp_wide = atoi (tmp_char);
1599 #else
1600 #if HOST_BITS_PER_WIDE_INT == HOST_BITS_PER_LONG
1601 tmp_wide = atol (tmp_char);
1602 #else
1603 /* Prefer atoll over atoq, since the former is in the ISO C99 standard.
1604 But prefer not to use our hand-rolled function above either. */
1605 #if defined(HAVE_ATOLL) || !defined(HAVE_ATOQ)
1606 tmp_wide = atoll (tmp_char);
1607 #else
1608 tmp_wide = atoq (tmp_char);
1609 #endif
1610 #endif
1611 #endif
1612 XWINT (return_rtx, i) = tmp_wide;
1613 break;
1615 case 'i':
1616 case 'n':
1617 read_name (tmp_char, infile);
1618 validate_const_int (infile, tmp_char);
1619 tmp_int = atoi (tmp_char);
1620 XINT (return_rtx, i) = tmp_int;
1621 break;
1623 default:
1624 gcc_unreachable ();
1627 c = read_skip_spaces (infile);
1628 if (c != ')')
1629 fatal_expected_char (infile, ')', c);
1631 return return_rtx;