1 /* Process source files and output type information.
2 Copyright (C) 2002-2017 Free Software Foundation, Inc.
4 This file is part of GCC.
6 GCC is free software; you can redistribute it and/or modify it under
7 the terms of the GNU General Public License as published by the Free
8 Software Foundation; either version 3, or (at your option) any later
11 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
12 WARRANTY; without even the implied warranty of MERCHANTABILITY or
13 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
16 You should have received a copy of the GNU General Public License
17 along with GCC; see the file COPYING3. If not see
18 <http://www.gnu.org/licenses/>. */
20 #ifdef HOST_GENERATOR_FILE
22 #define GENERATOR_FILE 1
27 #include "errors.h" /* for fatal */
29 #include "version.h" /* for version_string & pkgversion_string. */
33 #include "filenames.h"
35 /* Data types, macros, etc. used only in this file. */
38 /* The list of output files. */
41 /* The output header file that is included into pretty much every
46 /* The name of the file containing the list of input files. */
47 static char *inputlist
;
49 /* The plugin input files and their number; in that case only
50 a single file is produced. */
51 static input_file
**plugin_files
;
52 static size_t nb_plugin_files
;
54 /* The generated plugin output file and name. */
55 static outf_p plugin_output
;
56 static char *plugin_output_filename
;
58 /* Our source directory and its length. */
62 /* Variables used for reading and writing the state. */
63 const char *read_state_filename
;
64 const char *write_state_filename
;
66 /* Variables to help debugging. */
70 /* Level for verbose messages. */
73 /* We have a type count and use it to set the state_number of newly
74 allocated types to some unique negative number. */
75 static int type_count
;
77 /* The backup directory should be in the same file system as the
78 generated files, otherwise the rename(2) system call would fail.
79 If NULL, no backup is made when overwriting a generated file. */
80 static const char* backup_dir
; /* (-B) program option. */
83 static outf_p
create_file (const char *, const char *);
85 static const char *get_file_basename (const input_file
*);
86 static const char *get_file_realbasename (const input_file
*);
88 static int get_prefix_langdir_index (const char *);
89 static const char *get_file_langdir (const input_file
*);
91 static void dump_pair (int indent
, pair_p p
);
92 static void dump_type (int indent
, type_p p
);
93 static void dump_type_list (int indent
, type_p p
);
96 /* Nonzero iff an error has occurred. */
97 bool hit_error
= false;
99 static void gen_rtx_next (void);
100 static void write_rtx_next (void);
101 static void open_base_files (void);
102 static void close_output_files (void);
104 /* Report an error at POS, printing MSG. */
107 error_at_line (const struct fileloc
*pos
, const char *msg
, ...)
111 gcc_assert (pos
!= NULL
&& pos
->file
!= NULL
);
114 fprintf (stderr
, "%s:%d: ", get_input_file_name (pos
->file
), pos
->line
);
115 vfprintf (stderr
, msg
, ap
);
116 fputc ('\n', stderr
);
122 /* Locate the ultimate base class of struct S. */
125 get_ultimate_base_class (const_type_p s
)
127 while (s
->u
.s
.base_class
)
128 s
= s
->u
.s
.base_class
;
133 get_ultimate_base_class (type_p s
)
135 while (s
->u
.s
.base_class
)
136 s
= s
->u
.s
.base_class
;
140 /* Input file handling. */
142 /* Table of all input files. */
143 const input_file
**gt_files
;
146 /* A number of places use the name of this "gengtype.c" file for a
147 location for things that we can't rely on the source to define.
148 Make sure we can still use pointer comparison on filenames. */
149 input_file
* this_file
;
150 /* The "system.h" file is likewise specially useful. */
151 input_file
* system_h_file
;
153 /* Vector of per-language directories. */
154 const char **lang_dir_names
;
155 size_t num_lang_dirs
;
157 /* An array of output files suitable for definitions. There is one
158 BASE_FILES entry for each language. */
159 static outf_p
*base_files
;
161 /* Utility debugging function, printing the various type counts within
162 a list of types. Called through the DBGPRINT_COUNT_TYPE macro. */
164 dbgprint_count_type_at (const char *fil
, int lin
, const char *msg
, type_p t
)
166 int nb_types
= 0, nb_scalar
= 0, nb_string
= 0;
167 int nb_struct
= 0, nb_union
= 0, nb_array
= 0, nb_pointer
= 0;
168 int nb_lang_struct
= 0;
169 int nb_user_struct
= 0, nb_undefined
= 0;
171 for (p
= t
; p
; p
= p
->next
)
188 case TYPE_USER_STRUCT
:
200 case TYPE_LANG_STRUCT
:
207 fprintf (stderr
, "\n" "%s:%d: %s: @@%%@@ %d types ::\n",
208 lbasename (fil
), lin
, msg
, nb_types
);
209 if (nb_scalar
> 0 || nb_string
> 0)
210 fprintf (stderr
, "@@%%@@ %d scalars, %d strings\n", nb_scalar
, nb_string
);
211 if (nb_struct
> 0 || nb_union
> 0)
212 fprintf (stderr
, "@@%%@@ %d structs, %d unions\n", nb_struct
, nb_union
);
213 if (nb_pointer
> 0 || nb_array
> 0)
214 fprintf (stderr
, "@@%%@@ %d pointers, %d arrays\n", nb_pointer
, nb_array
);
215 if (nb_lang_struct
> 0)
216 fprintf (stderr
, "@@%%@@ %d lang_structs\n", nb_lang_struct
);
217 if (nb_user_struct
> 0)
218 fprintf (stderr
, "@@%%@@ %d user_structs\n", nb_user_struct
);
219 if (nb_undefined
> 0)
220 fprintf (stderr
, "@@%%@@ %d undefined types\n", nb_undefined
);
221 fprintf (stderr
, "\n");
224 /* Scan the input file, LIST, and determine how much space we need to
225 store strings in. Also, count the number of language directories
226 and files. The numbers returned are overestimates as they does not
227 consider repeated files. */
229 measure_input_list (FILE *list
)
235 num_gt_files
= plugin_files
? nb_plugin_files
: 0;
236 while ((c
= getc (list
)) != EOF
)
245 /* Add space for a lang_bitmap before the input file name. */
246 n
+= sizeof (lang_bitmap
);
260 /* Read one input line from LIST to HEREP (which is updated). A
261 pointer to the string is returned via LINEP. If it was a language
262 subdirectory in square brackets, strip off the square brackets and
263 return true. Otherwise, leave space before the string for a
264 lang_bitmap, and return false. At EOF, returns false, does not
265 touch *HEREP, and sets *LINEP to NULL. POS is used for
268 read_input_line (FILE *list
, char **herep
, char **linep
, struct fileloc
*pos
)
274 /* Read over whitespace. */
275 while (c
== '\n' || c
== ' ')
285 /* No space for a lang_bitmap is necessary. Discard the '['. */
288 while (c
!= ']' && c
!= '\n' && c
!= EOF
)
297 c
= getc (list
); /* eat what should be a newline */
298 if (c
!= '\n' && c
!= EOF
)
299 error_at_line (pos
, "junk on line after language tag [%s]", line
);
302 error_at_line (pos
, "missing close bracket for language tag [%s",
311 /* Leave space for a lang_bitmap. */
312 memset (here
, 0, sizeof (lang_bitmap
));
313 here
+= sizeof (lang_bitmap
);
320 while (c
!= EOF
&& c
!= '\n');
328 /* Read the list of input files from LIST and compute all of the
329 relevant tables. There is one file per line of the list. At
330 first, all the files on the list are language-generic, but
331 eventually a line will appear which is the name of a language
332 subdirectory in square brackets, like this: [cp]. All subsequent
333 files are specific to that language, until another language
334 subdirectory tag appears. Files can appear more than once, if
335 they apply to more than one language. */
337 read_input_list (const char *listname
)
339 FILE *list
= fopen (listname
, "r");
341 fatal ("cannot open %s: %s", listname
, xstrerror (errno
));
345 size_t bufsz
= measure_input_list (list
);
346 char *buf
= XNEWVEC (char, bufsz
);
348 char *committed
= buf
;
349 char *limit
= buf
+ bufsz
;
354 lang_bitmap curlangs
= (1 << num_lang_dirs
) - 1;
356 epos
.file
= input_file_by_name (listname
);
359 lang_dir_names
= XNEWVEC (const char *, num_lang_dirs
);
360 gt_files
= XNEWVEC (const input_file
*, num_gt_files
);
367 is_language
= read_input_line (list
, &here
, &line
, &epos
);
368 gcc_assert (here
<= limit
);
371 else if (is_language
)
374 gcc_assert (langno
<= num_lang_dirs
);
375 for (i
= 0; i
< langno
; i
++)
376 if (strcmp (lang_dir_names
[i
], line
) == 0)
378 error_at_line (&epos
, "duplicate language tag [%s]",
385 curlangs
= 1 << langno
;
386 lang_dir_names
[langno
++] = line
;
391 input_file
*inpf
= input_file_by_name (line
);
392 gcc_assert (nfiles
<= num_gt_files
);
393 for (i
= 0; i
< nfiles
; i
++)
394 /* Since the input_file-s are uniquely hash-consed, we
395 can just compare pointers! */
396 if (gt_files
[i
] == inpf
)
398 /* Throw away the string we just read, and add the
399 current language to the existing string's bitmap. */
400 lang_bitmap bmap
= get_lang_bitmap (inpf
);
402 error_at_line (&epos
,
403 "file %s specified more than once "
404 "for language %s", line
,
406 0 ? "(all)" : lang_dir_names
[langno
-
410 set_lang_bitmap (inpf
, bmap
);
415 set_lang_bitmap (inpf
, curlangs
);
416 gt_files
[nfiles
++] = inpf
;
419 /* Update the global counts now that we know accurately how many
420 things there are. (We do not bother resizing the arrays down.) */
421 num_lang_dirs
= langno
;
422 /* Add the plugin files if provided. */
426 for (i
= 0; i
< nb_plugin_files
; i
++)
427 gt_files
[nfiles
++] = plugin_files
[i
];
429 num_gt_files
= nfiles
;
432 /* Sanity check: any file that resides in a language subdirectory
433 (e.g. 'cp') ought to belong to the corresponding language.
434 ??? Still true if for instance ObjC++ is enabled and C++ isn't?
435 (Can you even do that? Should you be allowed to?) */
438 for (f
= 0; f
< num_gt_files
; f
++)
440 lang_bitmap bitmap
= get_lang_bitmap (gt_files
[f
]);
441 const char *basename
= get_file_basename (gt_files
[f
]);
442 const char *slashpos
= strchr (basename
, '/');
443 #ifdef HAVE_DOS_BASED_FILE_SYSTEM
444 const char *slashpos2
= strchr (basename
, '\\');
446 if (!slashpos
|| (slashpos2
&& slashpos2
< slashpos
))
447 slashpos
= slashpos2
;
453 for (l
= 0; l
< num_lang_dirs
; l
++)
454 if ((size_t) (slashpos
- basename
) == strlen (lang_dir_names
[l
])
455 && memcmp (basename
, lang_dir_names
[l
],
456 strlen (lang_dir_names
[l
])) == 0)
458 if (!(bitmap
& (1 << l
)))
459 error ("%s is in language directory '%s' but is not "
460 "tagged for that language",
461 basename
, lang_dir_names
[l
]);
469 fatal ("error reading %s: %s", listname
, xstrerror (errno
));
476 /* The one and only TYPE_STRING. */
478 struct type string_type
= {
479 TYPE_STRING
, 0, 0, 0, GC_USED
, {0}
482 /* The two and only TYPE_SCALARs. Their u.scalar_is_char flags are
483 set early in main. */
485 struct type scalar_nonchar
= {
486 TYPE_SCALAR
, 0, 0, 0, GC_USED
, {0}
489 struct type scalar_char
= {
490 TYPE_SCALAR
, 0, 0, 0, GC_USED
, {0}
493 /* Lists of various things. */
495 pair_p typedefs
= NULL
;
496 type_p structures
= NULL
;
497 pair_p variables
= NULL
;
499 static type_p
adjust_field_tree_exp (type_p t
, options_p opt
);
500 static type_p
adjust_field_rtx_def (type_p t
, options_p opt
);
502 /* Define S as a typedef to T at POS. */
505 do_typedef (const char *s
, type_p t
, struct fileloc
*pos
)
509 /* temporary kludge - gengtype doesn't handle conditionals or
510 macros. Ignore any attempt to typedef CUMULATIVE_ARGS, unless it
511 is coming from this file (main() sets them up with safe dummy
513 if (!strcmp (s
, "CUMULATIVE_ARGS") && pos
->file
!= this_file
)
516 for (p
= typedefs
; p
!= NULL
; p
= p
->next
)
517 if (strcmp (p
->name
, s
) == 0)
519 if (p
->type
!= t
&& strcmp (s
, "result_type") != 0)
521 error_at_line (pos
, "type `%s' previously defined", s
);
522 error_at_line (&p
->line
, "previously defined here");
527 p
= XNEW (struct pair
);
536 /* Define S as a typename of a scalar. Cannot be used to define
537 typedefs of 'char'. Note: is also used for pointer-to-function
538 typedefs (which are therefore not treated as pointers). */
541 do_scalar_typedef (const char *s
, struct fileloc
*pos
)
543 do_typedef (s
, &scalar_nonchar
, pos
);
546 /* Similar to strtok_r. */
549 strtoken (char *str
, const char *delim
, char **next
)
556 /* Skip the leading delimiters. */
557 str
+= strspn (str
, delim
);
559 /* This is an empty token. */
562 /* The current token. */
565 /* Find the next delimiter. */
566 str
+= strcspn (str
, delim
);
568 /* This is the last token. */
572 /* Terminate the current token. */
574 /* Advance to the next token. */
581 /* Define TYPE_NAME to be a user defined type at location POS. */
584 create_user_defined_type (const char *type_name
, struct fileloc
*pos
)
586 type_p ty
= find_structure (type_name
, TYPE_USER_STRUCT
);
588 /* We might have already seen an incomplete decl of the given type,
589 in which case we won't have yet seen a GTY((user)), and the type will
590 only have kind "TYPE_STRUCT". Mark it as a user struct. */
591 ty
->kind
= TYPE_USER_STRUCT
;
594 ty
->u
.s
.bitmap
= get_lang_bitmap (pos
->file
);
595 do_typedef (type_name
, ty
, pos
);
597 /* If TYPE_NAME specifies a template, create references to the types
598 in the template by pretending that each type is a field of TY.
599 This is needed to make sure that the types referenced by the
600 template are marked as used. */
601 char *str
= xstrdup (type_name
);
602 char *open_bracket
= strchr (str
, '<');
605 /* We only accept simple template declarations (see
606 require_template_declaration), so we only need to parse a
607 comma-separated list of strings, implicitly assumed to
608 be type names, potentially with "*" characters. */
609 char *arg
= open_bracket
+ 1;
610 /* Workaround -Wmaybe-uninitialized false positive during
611 profiledbootstrap by initializing it. */
613 char *type_id
= strtoken (arg
, ",>", &next
);
617 /* Create a new field for every type found inside the template
620 /* Support a single trailing "*" character. */
621 const char *star
= strchr (type_id
, '*');
622 int is_ptr
= (star
!= NULL
);
623 size_t offset_to_star
= star
- type_id
;
625 offset_to_star
= star
- type_id
;
627 if (strstr (type_id
, "char*"))
629 type_id
= strtoken (0, ",>", &next
);
633 char *field_name
= xstrdup (type_id
);
638 /* Strip off the first '*' character (and any subsequent text). */
639 *(field_name
+ offset_to_star
) = '\0';
641 arg_type
= find_structure (field_name
, TYPE_STRUCT
);
642 arg_type
= create_pointer (arg_type
);
645 arg_type
= resolve_typedef (field_name
, pos
);
647 fields
= create_field_at (fields
, arg_type
, field_name
, 0, pos
);
648 type_id
= strtoken (0, ",>", &next
);
651 /* Associate the field list to TY. */
652 ty
->u
.s
.fields
= fields
;
660 /* Given a typedef name S, return its associated type. Return NULL if
661 S is not a registered type name. */
664 type_for_name (const char *s
)
668 /* Special-case support for types within a "gcc::" namespace. Rather
669 than fully-supporting namespaces, simply strip off the "gcc::" prefix
670 where present. This allows us to have GTY roots of this form:
671 extern GTY(()) gcc::some_type *some_ptr;
672 where the autogenerated functions will refer to simply "some_type",
673 where they can be resolved into their namespace. */
674 if (0 == strncmp (s
, "gcc::", 5))
677 for (p
= typedefs
; p
!= NULL
; p
= p
->next
)
678 if (strcmp (p
->name
, s
) == 0)
684 /* Create an undefined type with name S and location POS. Return the
685 newly created type. */
688 create_undefined_type (const char *s
, struct fileloc
*pos
)
690 type_p ty
= find_structure (s
, TYPE_UNDEFINED
);
692 ty
->u
.s
.bitmap
= get_lang_bitmap (pos
->file
);
693 do_typedef (s
, ty
, pos
);
698 /* Return the type previously defined for S. Use POS to report errors. */
701 resolve_typedef (const char *s
, struct fileloc
*pos
)
703 bool is_template_instance
= (strchr (s
, '<') != NULL
);
704 type_p p
= type_for_name (s
);
706 /* If we did not find a typedef registered, generate a TYPE_UNDEFINED
707 type for regular type identifiers. If the type identifier S is a
708 template instantiation, however, we treat it as a user defined
711 FIXME, this is actually a limitation in gengtype. Supporting
712 template types and their instances would require keeping separate
713 track of the basic types definition and its instances. This
714 essentially forces all template classes in GC to be marked
717 p
= (is_template_instance
)
718 ? create_user_defined_type (s
, pos
)
719 : create_undefined_type (s
, pos
);
724 /* Add SUBCLASS to head of linked list of BASE's subclasses. */
726 void add_subclass (type_p base
, type_p subclass
)
728 gcc_assert (union_or_struct_p (base
));
729 gcc_assert (union_or_struct_p (subclass
));
731 subclass
->u
.s
.next_sibling_class
= base
->u
.s
.first_subclass
;
732 base
->u
.s
.first_subclass
= subclass
;
735 /* Create and return a new structure with tag NAME at POS with fields
736 FIELDS and options O. The KIND of structure must be one of
737 TYPE_STRUCT, TYPE_UNION or TYPE_USER_STRUCT. */
740 new_structure (const char *name
, enum typekind kind
, struct fileloc
*pos
,
741 pair_p fields
, options_p o
, type_p base_class
)
745 lang_bitmap bitmap
= get_lang_bitmap (pos
->file
);
746 bool isunion
= (kind
== TYPE_UNION
);
747 type_p
*p
= &structures
;
749 gcc_assert (union_or_struct_p (kind
));
751 for (si
= structures
; si
!= NULL
; p
= &si
->next
, si
= *p
)
752 if (strcmp (name
, si
->u
.s
.tag
) == 0 && UNION_P (si
) == isunion
)
755 if (si
->kind
== TYPE_LANG_STRUCT
)
759 for (si
= ls
->u
.s
.lang_struct
; si
!= NULL
; si
= si
->next
)
760 if (si
->u
.s
.bitmap
== bitmap
)
763 else if (si
->u
.s
.line
.file
!= NULL
&& si
->u
.s
.bitmap
!= bitmap
)
767 si
= XCNEW (struct type
);
768 memcpy (si
, ls
, sizeof (struct type
));
769 ls
->kind
= TYPE_LANG_STRUCT
;
770 ls
->u
.s
.lang_struct
= si
;
771 ls
->u
.s
.fields
= NULL
;
773 si
->state_number
= -type_count
;
774 si
->pointer_to
= NULL
;
775 si
->u
.s
.lang_struct
= ls
;
780 if (ls
!= NULL
&& s
== NULL
)
783 s
= XCNEW (struct type
);
784 s
->state_number
= -type_count
;
785 s
->next
= ls
->u
.s
.lang_struct
;
786 ls
->u
.s
.lang_struct
= s
;
787 s
->u
.s
.lang_struct
= ls
;
795 s
= XCNEW (struct type
);
796 s
->state_number
= -type_count
;
800 if (s
->u
.s
.lang_struct
&& (s
->u
.s
.lang_struct
->u
.s
.bitmap
& bitmap
))
802 error_at_line (pos
, "duplicate definition of '%s %s'",
803 isunion
? "union" : "struct", s
->u
.s
.tag
);
804 error_at_line (&s
->u
.s
.line
, "previous definition here");
810 s
->u
.s
.fields
= fields
;
812 s
->u
.s
.bitmap
= bitmap
;
813 if (s
->u
.s
.lang_struct
)
814 s
->u
.s
.lang_struct
->u
.s
.bitmap
|= bitmap
;
815 s
->u
.s
.base_class
= base_class
;
817 add_subclass (base_class
, s
);
822 /* Return the previously-defined structure or union with tag NAME,
823 or a new empty structure or union if none was defined previously.
824 The KIND of structure must be one of TYPE_STRUCT, TYPE_UNION or
828 find_structure (const char *name
, enum typekind kind
)
831 bool isunion
= (kind
== TYPE_UNION
);
832 type_p
*p
= &structures
;
834 gcc_assert (kind
== TYPE_UNDEFINED
|| union_or_struct_p (kind
));
836 for (s
= structures
; s
!= NULL
; p
= &s
->next
, s
= *p
)
837 if (strcmp (name
, s
->u
.s
.tag
) == 0 && UNION_P (s
) == isunion
)
841 s
= XCNEW (struct type
);
842 s
->state_number
= -type_count
;
849 /* Return a scalar type with name NAME. */
852 create_scalar_type (const char *name
)
854 if (!strcmp (name
, "char") || !strcmp (name
, "unsigned char"))
857 return &scalar_nonchar
;
861 /* Return a pointer to T. */
864 create_pointer (type_p t
)
868 type_p r
= XCNEW (struct type
);
870 r
->state_number
= -type_count
;
871 r
->kind
= TYPE_POINTER
;
875 return t
->pointer_to
;
878 /* Return an array of length LEN. */
881 create_array (type_p t
, const char *len
)
886 v
= XCNEW (struct type
);
887 v
->kind
= TYPE_ARRAY
;
888 v
->state_number
= -type_count
;
894 /* Return a string options structure with name NAME and info INFO.
895 NEXT is the next option in the chain. */
897 create_string_option (options_p next
, const char *name
, const char *info
)
899 options_p o
= XNEW (struct options
);
900 o
->kind
= OPTION_STRING
;
903 o
->info
.string
= info
;
907 /* Create a type options structure with name NAME and info INFO. NEXT
908 is the next option in the chain. */
910 create_type_option (options_p next
, const char* name
, type_p info
)
912 options_p o
= XNEW (struct options
);
915 o
->kind
= OPTION_TYPE
;
920 /* Create a nested pointer options structure with name NAME and info
921 INFO. NEXT is the next option in the chain. */
923 create_nested_option (options_p next
, const char* name
,
924 struct nested_ptr_data
* info
)
927 o
= XNEW (struct options
);
930 o
->kind
= OPTION_NESTED
;
931 o
->info
.nested
= info
;
935 /* Return an options structure for a "nested_ptr" option. */
937 create_nested_ptr_option (options_p next
, type_p t
,
938 const char *to
, const char *from
)
940 struct nested_ptr_data
*d
= XNEW (struct nested_ptr_data
);
942 d
->type
= adjust_field_type (t
, 0);
944 d
->convert_from
= from
;
945 return create_nested_option (next
, "nested_ptr", d
);
948 /* Add a variable named S of type T with options O defined at POS,
951 note_variable (const char *s
, type_p t
, options_p o
, struct fileloc
*pos
)
954 n
= XNEW (struct pair
);
963 /* Most-general structure field creator. */
965 create_field_all (pair_p next
, type_p type
, const char *name
, options_p opt
,
966 const input_file
*inpf
, int line
)
970 field
= XNEW (struct pair
);
975 field
->line
.file
= inpf
;
976 field
->line
.line
= line
;
980 /* Create a field that came from the source code we are scanning,
981 i.e. we have a 'struct fileloc', and possibly options; also,
982 adjust_field_type should be called. */
984 create_field_at (pair_p next
, type_p type
, const char *name
, options_p opt
,
987 return create_field_all (next
, adjust_field_type (type
, opt
),
988 name
, opt
, pos
->file
, pos
->line
);
991 /* Create a fake field with the given type and name. NEXT is the next
992 field in the chain. */
993 #define create_field(next,type,name) \
994 create_field_all (next,type,name, 0, this_file, __LINE__)
996 /* Like create_field, but the field is only valid when condition COND
1000 create_optional_field_ (pair_p next
, type_p type
, const char *name
,
1001 const char *cond
, int line
)
1004 pair_p union_fields
;
1007 /* Create a fake union type with a single nameless field of type TYPE.
1008 The field has a tag of "1". This allows us to make the presence
1009 of a field of type TYPE depend on some boolean "desc" being true. */
1010 union_fields
= create_field (NULL
, type
, "");
1012 create_string_option (union_fields
->opt
, "dot", "");
1014 create_string_option (union_fields
->opt
, "tag", "1");
1016 new_structure (xasprintf ("%s_%d", "fake_union", id
++), TYPE_UNION
,
1017 &lexer_line
, union_fields
, NULL
, NULL
);
1019 /* Create the field and give it the new fake union type. Add a "desc"
1020 tag that specifies the condition under which the field is valid. */
1021 return create_field_all (next
, union_type
, name
,
1022 create_string_option (0, "desc", cond
),
1026 #define create_optional_field(next,type,name,cond) \
1027 create_optional_field_(next,type,name,cond,__LINE__)
1029 /* Reverse a linked list of 'struct pair's in place. */
1031 nreverse_pairs (pair_p list
)
1033 pair_p prev
= 0, p
, next
;
1034 for (p
= list
; p
; p
= next
)
1044 /* We don't care how long a CONST_DOUBLE is. */
1045 #define CONST_DOUBLE_FORMAT "ww"
1046 /* We don't want to see codes that are only for generator files. */
1047 #undef GENERATOR_FILE
1051 #define DEF_RTL_EXPR(ENUM, NAME, FORMAT, CLASS) ENUM ,
1057 static const char *const rtx_name
[NUM_RTX_CODE
] = {
1058 #define DEF_RTL_EXPR(ENUM, NAME, FORMAT, CLASS) NAME ,
1063 static const char *const rtx_format
[NUM_RTX_CODE
] = {
1064 #define DEF_RTL_EXPR(ENUM, NAME, FORMAT, CLASS) FORMAT ,
1069 static int rtx_next_new
[NUM_RTX_CODE
];
1071 /* We also need codes and names for insn notes (not register notes).
1072 Note that we do *not* bias the note values here. */
1075 #define DEF_INSN_NOTE(NAME) NAME,
1076 #include "insn-notes.def"
1077 #undef DEF_INSN_NOTE
1082 /* We must allocate one more entry here, as we use NOTE_INSN_MAX as the
1083 default field for line number notes. */
1084 static const char *const note_insn_name
[NOTE_INSN_MAX
+ 1] = {
1085 #define DEF_INSN_NOTE(NAME) #NAME,
1086 #include "insn-notes.def"
1087 #undef DEF_INSN_NOTE
1090 #undef CONST_DOUBLE_FORMAT
1091 #define GENERATOR_FILE
1093 /* Generate the contents of the rtx_next array. This really doesn't belong
1094 in gengtype at all, but it's needed for adjust_field_rtx_def. */
1100 for (i
= 0; i
< NUM_RTX_CODE
; i
++)
1104 rtx_next_new
[i
] = -1;
1105 if (strncmp (rtx_format
[i
], "uu", 2) == 0)
1106 rtx_next_new
[i
] = 1;
1107 else if (i
== COND_EXEC
|| i
== SET
|| i
== EXPR_LIST
|| i
== INSN_LIST
)
1108 rtx_next_new
[i
] = 1;
1110 for (k
= strlen (rtx_format
[i
]) - 1; k
>= 0; k
--)
1111 if (rtx_format
[i
][k
] == 'e' || rtx_format
[i
][k
] == 'u')
1112 rtx_next_new
[i
] = k
;
1116 /* Write out the contents of the rtx_next array. */
1118 write_rtx_next (void)
1120 outf_p f
= get_output_file_with_visibility (NULL
);
1125 oprintf (f
, "\n/* Used to implement the RTX_NEXT macro. */\n");
1126 oprintf (f
, "EXPORTED_CONST unsigned char rtx_next[NUM_RTX_CODE] = {\n");
1127 for (i
= 0; i
< NUM_RTX_CODE
; i
++)
1128 if (rtx_next_new
[i
] == -1)
1129 oprintf (f
, " 0,\n");
1132 " RTX_HDR_SIZE + %d * sizeof (rtunion),\n", rtx_next_new
[i
]);
1133 oprintf (f
, "};\n");
1136 /* Handle `special("rtx_def")'. This is a special case for field
1137 `fld' of struct rtx_def, which is an array of unions whose values
1138 are based in a complex way on the type of RTL. */
1141 adjust_field_rtx_def (type_p t
, options_p
ARG_UNUSED (opt
))
1146 type_p rtx_tp
, rtvec_tp
, tree_tp
, mem_attrs_tp
, note_union_tp
, scalar_tp
;
1147 type_p basic_block_tp
, reg_attrs_tp
, constant_tp
, symbol_union_tp
;
1149 if (t
->kind
!= TYPE_UNION
)
1151 error_at_line (&lexer_line
,
1152 "special `rtx_def' must be applied to a union");
1153 return &string_type
;
1156 nodot
= create_string_option (NULL
, "dot", "");
1158 rtx_tp
= create_pointer (find_structure ("rtx_def", TYPE_STRUCT
));
1159 rtvec_tp
= create_pointer (find_structure ("rtvec_def", TYPE_STRUCT
));
1160 tree_tp
= create_pointer (find_structure ("tree_node", TYPE_UNION
));
1161 mem_attrs_tp
= create_pointer (find_structure ("mem_attrs", TYPE_STRUCT
));
1163 create_pointer (find_structure ("reg_attrs", TYPE_STRUCT
));
1165 create_pointer (find_structure ("basic_block_def", TYPE_STRUCT
));
1167 create_pointer (find_structure ("constant_descriptor_rtx", TYPE_STRUCT
));
1168 scalar_tp
= &scalar_nonchar
; /* rtunion int */
1171 pair_p note_flds
= NULL
;
1174 for (c
= 0; c
<= NOTE_INSN_MAX
; c
++)
1179 case NOTE_INSN_DELETED_LABEL
:
1180 case NOTE_INSN_DELETED_DEBUG_LABEL
:
1181 note_flds
= create_field (note_flds
, &string_type
, "rt_str");
1184 case NOTE_INSN_BLOCK_BEG
:
1185 case NOTE_INSN_BLOCK_END
:
1186 note_flds
= create_field (note_flds
, tree_tp
, "rt_tree");
1189 case NOTE_INSN_VAR_LOCATION
:
1190 case NOTE_INSN_CALL_ARG_LOCATION
:
1191 note_flds
= create_field (note_flds
, rtx_tp
, "rt_rtx");
1195 note_flds
= create_field (note_flds
, scalar_tp
, "rt_int");
1198 /* NOTE_INSN_MAX is used as the default field for line
1200 if (c
== NOTE_INSN_MAX
)
1202 create_string_option (nodot
, "default", "");
1205 create_string_option (nodot
, "tag", note_insn_name
[c
]);
1207 note_union_tp
= new_structure ("rtx_def_note_subunion", TYPE_UNION
,
1208 &lexer_line
, note_flds
, NULL
, NULL
);
1210 /* Create a type to represent the various forms of SYMBOL_REF_DATA. */
1213 sym_flds
= create_field (NULL
, tree_tp
, "rt_tree");
1214 sym_flds
->opt
= create_string_option (nodot
, "default", "");
1215 sym_flds
= create_field (sym_flds
, constant_tp
, "rt_constant");
1216 sym_flds
->opt
= create_string_option (nodot
, "tag", "1");
1217 symbol_union_tp
= new_structure ("rtx_def_symbol_subunion", TYPE_UNION
,
1218 &lexer_line
, sym_flds
, NULL
, NULL
);
1220 for (i
= 0; i
< NUM_RTX_CODE
; i
++)
1222 pair_p subfields
= NULL
;
1223 size_t aindex
, nmindex
;
1228 for (aindex
= 0; aindex
< strlen (rtx_format
[i
]); aindex
++)
1231 const char *subname
;
1233 switch (rtx_format
[i
][aindex
])
1245 if (i
== MEM
&& aindex
== 1)
1246 t
= mem_attrs_tp
, subname
= "rt_mem";
1247 else if (i
== JUMP_INSN
&& aindex
== 7)
1248 t
= rtx_tp
, subname
= "rt_rtx";
1249 else if (i
== CODE_LABEL
&& aindex
== 4)
1250 t
= scalar_tp
, subname
= "rt_int";
1251 else if (i
== CODE_LABEL
&& aindex
== 3)
1252 t
= rtx_tp
, subname
= "rt_rtx";
1253 else if (i
== LABEL_REF
&& (aindex
== 1 || aindex
== 2))
1254 t
= rtx_tp
, subname
= "rt_rtx";
1255 else if (i
== NOTE
&& aindex
== 3)
1256 t
= note_union_tp
, subname
= "";
1257 else if (i
== NOTE
&& aindex
== 4)
1258 t
= scalar_tp
, subname
= "rt_int";
1259 else if (i
== NOTE
&& aindex
>= 6)
1260 t
= scalar_tp
, subname
= "rt_int";
1261 else if (i
== ADDR_DIFF_VEC
&& aindex
== 4)
1262 t
= scalar_tp
, subname
= "rt_int";
1263 else if (i
== VALUE
&& aindex
== 0)
1264 t
= scalar_tp
, subname
= "rt_int";
1265 else if (i
== DEBUG_EXPR
&& aindex
== 0)
1266 t
= tree_tp
, subname
= "rt_tree";
1267 else if (i
== SYMBOL_REF
&& aindex
== 1)
1268 t
= symbol_union_tp
, subname
= "";
1269 else if (i
== JUMP_TABLE_DATA
&& aindex
>= 4)
1270 t
= scalar_tp
, subname
= "rt_int";
1271 else if (i
== BARRIER
&& aindex
>= 2)
1272 t
= scalar_tp
, subname
= "rt_int";
1273 else if (i
== ENTRY_VALUE
&& aindex
== 0)
1274 t
= rtx_tp
, subname
= "rt_rtx";
1279 "rtx type `%s' has `0' in position %lu, can't handle",
1280 rtx_name
[i
], (unsigned long) aindex
);
1302 subname
= "rt_rtvec";
1307 subname
= "rt_tree";
1318 "rtx type `%s' has `%c' in position %lu, can't handle",
1319 rtx_name
[i
], rtx_format
[i
][aindex
],
1320 (unsigned long) aindex
);
1326 subfields
= create_field (subfields
, t
,
1327 xasprintf (".fld[%lu].%s",
1328 (unsigned long) aindex
,
1330 subfields
->opt
= nodot
;
1331 if (t
== note_union_tp
)
1333 create_string_option (subfields
->opt
, "desc",
1335 if (t
== symbol_union_tp
)
1337 create_string_option (subfields
->opt
, "desc",
1338 "CONSTANT_POOL_ADDRESS_P (&%0)");
1342 subfields
= create_field (subfields
, reg_attrs_tp
, "reg.attrs");
1344 if (i
== SYMBOL_REF
)
1346 /* Add the "block_sym" field if SYMBOL_REF_HAS_BLOCK_INFO_P
1348 type_p field_tp
= find_structure ("block_symbol", TYPE_STRUCT
);
1350 = create_optional_field (subfields
, field_tp
, "block_sym",
1351 "SYMBOL_REF_HAS_BLOCK_INFO_P (&%0)");
1354 sname
= xasprintf ("rtx_def_%s", rtx_name
[i
]);
1355 substruct
= new_structure (sname
, TYPE_STRUCT
, &lexer_line
, subfields
,
1358 ftag
= xstrdup (rtx_name
[i
]);
1359 for (nmindex
= 0; nmindex
< strlen (ftag
); nmindex
++)
1360 ftag
[nmindex
] = TOUPPER (ftag
[nmindex
]);
1361 flds
= create_field (flds
, substruct
, "");
1362 flds
->opt
= create_string_option (nodot
, "tag", ftag
);
1364 return new_structure ("rtx_def_subunion", TYPE_UNION
, &lexer_line
, flds
,
1368 /* Handle `special("tree_exp")'. This is a special case for
1369 field `operands' of struct tree_exp, which although it claims to contain
1370 pointers to trees, actually sometimes contains pointers to RTL too.
1371 Passed T, the old type of the field, and OPT its options. Returns
1372 a new type for the field. */
1375 adjust_field_tree_exp (type_p t
, options_p opt ATTRIBUTE_UNUSED
)
1380 if (t
->kind
!= TYPE_ARRAY
)
1382 error_at_line (&lexer_line
,
1383 "special `tree_exp' must be applied to an array");
1384 return &string_type
;
1387 nodot
= create_string_option (NULL
, "dot", "");
1389 flds
= create_field (NULL
, t
, "");
1390 flds
->opt
= create_string_option (nodot
, "length",
1391 "TREE_OPERAND_LENGTH ((tree) &%0)");
1392 flds
->opt
= create_string_option (flds
->opt
, "default", "");
1394 return new_structure ("tree_exp_subunion", TYPE_UNION
, &lexer_line
, flds
,
1398 /* Perform any special processing on a type T, about to become the type
1399 of a field. Return the appropriate type for the field.
1401 - Converts pointer-to-char, with no length parameter, to TYPE_STRING;
1402 - Similarly for arrays of pointer-to-char;
1403 - Converts structures for which a parameter is provided to
1405 - Handles "special" options.
1409 adjust_field_type (type_p t
, options_p opt
)
1412 const int pointer_p
= t
->kind
== TYPE_POINTER
;
1414 for (; opt
; opt
= opt
->next
)
1415 if (strcmp (opt
->name
, "length") == 0)
1418 error_at_line (&lexer_line
, "duplicate `%s' option", opt
->name
);
1419 if (t
->u
.p
->kind
== TYPE_SCALAR
|| t
->u
.p
->kind
== TYPE_STRING
)
1421 error_at_line (&lexer_line
,
1422 "option `%s' may not be applied to "
1423 "arrays of atomic types", opt
->name
);
1427 else if (strcmp (opt
->name
, "special") == 0
1428 && opt
->kind
== OPTION_STRING
)
1430 const char *special_name
= opt
->info
.string
;
1431 if (strcmp (special_name
, "tree_exp") == 0)
1432 t
= adjust_field_tree_exp (t
, opt
);
1433 else if (strcmp (special_name
, "rtx_def") == 0)
1434 t
= adjust_field_rtx_def (t
, opt
);
1436 error_at_line (&lexer_line
, "unknown special `%s'", special_name
);
1440 && pointer_p
&& t
->u
.p
->kind
== TYPE_SCALAR
&& t
->u
.p
->u
.scalar_is_char
)
1441 return &string_type
;
1442 if (t
->kind
== TYPE_ARRAY
&& t
->u
.a
.p
->kind
== TYPE_POINTER
1443 && t
->u
.a
.p
->u
.p
->kind
== TYPE_SCALAR
1444 && t
->u
.a
.p
->u
.p
->u
.scalar_is_char
)
1445 return create_array (&string_type
, t
->u
.a
.len
);
1451 static void set_gc_used_type (type_p
, enum gc_used_enum
, bool = false);
1452 static void set_gc_used (pair_p
);
1454 /* Handle OPT for set_gc_used_type. */
1457 process_gc_options (options_p opt
, enum gc_used_enum level
, int *maybe_undef
,
1458 int *length
, int *skip
, type_p
*nested_ptr
)
1461 for (o
= opt
; o
; o
= o
->next
)
1462 if (strcmp (o
->name
, "ptr_alias") == 0 && level
== GC_POINTED_TO
1463 && o
->kind
== OPTION_TYPE
)
1464 set_gc_used_type (o
->info
.type
,
1466 else if (strcmp (o
->name
, "maybe_undef") == 0)
1468 else if (strcmp (o
->name
, "length") == 0)
1470 else if (strcmp (o
->name
, "skip") == 0)
1472 else if (strcmp (o
->name
, "nested_ptr") == 0
1473 && o
->kind
== OPTION_NESTED
)
1474 *nested_ptr
= ((const struct nested_ptr_data
*) o
->info
.nested
)->type
;
1478 /* Set the gc_used field of T to LEVEL, and handle the types it references.
1480 If ALLOWED_UNDEFINED_TYPES is true, types of kind TYPE_UNDEFINED
1481 are set to GC_UNUSED. Otherwise, an error is emitted for
1482 TYPE_UNDEFINED types. This is used to support user-defined
1483 template types with non-type arguments.
1485 For instance, when we parse a template type with enum arguments
1486 (e.g. MyType<AnotherType, EnumValue>), the parser created two
1487 artificial fields for 'MyType', one for 'AnotherType', the other
1488 one for 'EnumValue'.
1490 At the time that we parse this type we don't know that 'EnumValue'
1491 is really an enum value, so the parser creates a TYPE_UNDEFINED
1492 type for it. Since 'EnumValue' is never resolved to a known
1493 structure, it will stay with TYPE_UNDEFINED.
1495 Since 'MyType' is a TYPE_USER_STRUCT, we can simply ignore
1496 'EnumValue'. Generating marking code for it would cause
1497 compilation failures since the marking routines assumes that
1498 'EnumValue' is a type. */
1501 set_gc_used_type (type_p t
, enum gc_used_enum level
,
1502 bool allow_undefined_types
)
1504 if (t
->gc_used
>= level
)
1513 case TYPE_USER_STRUCT
:
1518 bool allow_undefined_field_types
= (t
->kind
== TYPE_USER_STRUCT
);
1520 process_gc_options (t
->u
.s
.opt
, level
, &dummy
, &dummy
, &dummy
,
1523 if (t
->u
.s
.base_class
)
1524 set_gc_used_type (t
->u
.s
.base_class
, level
, allow_undefined_types
);
1525 /* Anything pointing to a base class might actually be pointing
1527 for (type_p subclass
= t
->u
.s
.first_subclass
; subclass
;
1528 subclass
= subclass
->u
.s
.next_sibling_class
)
1529 set_gc_used_type (subclass
, level
, allow_undefined_types
);
1531 FOR_ALL_INHERITED_FIELDS(t
, f
)
1533 int maybe_undef
= 0;
1536 type_p nested_ptr
= NULL
;
1537 process_gc_options (f
->opt
, level
, &maybe_undef
, &length
, &skip
,
1540 if (nested_ptr
&& f
->type
->kind
== TYPE_POINTER
)
1541 set_gc_used_type (nested_ptr
, GC_POINTED_TO
);
1542 else if (length
&& f
->type
->kind
== TYPE_POINTER
)
1543 set_gc_used_type (f
->type
->u
.p
, GC_USED
);
1544 else if (maybe_undef
&& f
->type
->kind
== TYPE_POINTER
)
1545 set_gc_used_type (f
->type
->u
.p
, GC_MAYBE_POINTED_TO
);
1547 ; /* target type is not used through this field */
1549 set_gc_used_type (f
->type
, GC_USED
, allow_undefined_field_types
);
1554 case TYPE_UNDEFINED
:
1555 if (level
> GC_UNUSED
)
1557 if (!allow_undefined_types
)
1558 error_at_line (&t
->u
.s
.line
, "undefined type `%s'", t
->u
.s
.tag
);
1559 t
->gc_used
= GC_UNUSED
;
1564 set_gc_used_type (t
->u
.p
, GC_POINTED_TO
);
1568 set_gc_used_type (t
->u
.a
.p
, GC_USED
);
1571 case TYPE_LANG_STRUCT
:
1572 for (t
= t
->u
.s
.lang_struct
; t
; t
= t
->next
)
1573 set_gc_used_type (t
, level
);
1581 /* Set the gc_used fields of all the types pointed to by VARIABLES. */
1584 set_gc_used (pair_p variables
)
1588 for (p
= variables
; p
; p
= p
->next
)
1590 set_gc_used_type (p
->type
, GC_USED
);
1593 if (verbosity_level
>= 2)
1594 printf ("%s used %d GTY-ed variables\n", progname
, nbvars
);
1597 /* File mapping routines. For each input file, there is one output .c file
1598 (but some output files have many input files), and there is one .h file
1599 for the whole build. */
1601 /* Output file handling. */
1603 /* Create and return an outf_p for a new file for NAME, to be called
1607 create_file (const char *name
, const char *oname
)
1609 static const char *const hdr
[] = {
1610 " Copyright (C) 2004-2017 Free Software Foundation, Inc.\n",
1612 "This file is part of GCC.\n",
1614 "GCC is free software; you can redistribute it and/or modify it under\n",
1615 "the terms of the GNU General Public License as published by the Free\n",
1616 "Software Foundation; either version 3, or (at your option) any later\n",
1619 "GCC is distributed in the hope that it will be useful, but WITHOUT ANY\n",
1620 "WARRANTY; without even the implied warranty of MERCHANTABILITY or\n",
1621 "FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License\n",
1622 "for more details.\n",
1624 "You should have received a copy of the GNU General Public License\n",
1625 "along with GCC; see the file COPYING3. If not see\n",
1626 "<http://www.gnu.org/licenses/>. */\n",
1628 "/* This file is machine generated. Do not edit. */\n"
1633 gcc_assert (name
!= NULL
);
1634 gcc_assert (oname
!= NULL
);
1635 f
= XCNEW (struct outf
);
1636 f
->next
= output_files
;
1640 oprintf (f
, "/* Type information for %s.\n", name
);
1641 for (i
= 0; i
< ARRAY_SIZE (hdr
); i
++)
1642 oprintf (f
, "%s", hdr
[i
]);
1646 /* Print, like fprintf, to O.
1647 N.B. You might think this could be implemented more efficiently
1648 with vsnprintf(). Unfortunately, there are C libraries that
1649 provide that function but without the C99 semantics for its return
1650 value, making it impossible to know how much space is required. */
1652 oprintf (outf_p o
, const char *format
, ...)
1658 /* In plugin mode, the O could be a NULL pointer, so avoid crashing
1663 va_start (ap
, format
);
1664 slength
= vasprintf (&s
, format
, ap
);
1665 if (s
== NULL
|| (int) slength
< 0)
1666 fatal ("out of memory");
1669 if (o
->bufused
+ slength
> o
->buflength
)
1671 size_t new_len
= o
->buflength
;
1678 while (o
->bufused
+ slength
>= new_len
);
1679 o
->buf
= XRESIZEVEC (char, o
->buf
, new_len
);
1680 o
->buflength
= new_len
;
1682 memcpy (o
->buf
+ o
->bufused
, s
, slength
);
1683 o
->bufused
+= slength
;
1687 /* Open the global header file and the language-specific header files. */
1690 open_base_files (void)
1694 if (nb_plugin_files
> 0 && plugin_files
)
1697 header_file
= create_file ("GCC", "gtype-desc.h");
1699 base_files
= XNEWVEC (outf_p
, num_lang_dirs
);
1701 for (i
= 0; i
< num_lang_dirs
; i
++)
1702 base_files
[i
] = create_file (lang_dir_names
[i
],
1703 xasprintf ("gtype-%s.h", lang_dir_names
[i
]));
1705 /* gtype-desc.c is a little special, so we create it here. */
1707 /* The order of files here matters very much. */
1708 static const char *const ifiles
[] = {
1709 "config.h", "system.h", "coretypes.h",
1710 "backend.h", "predict.h", "tree.h",
1711 "rtl.h", "gimple.h", "fold-const.h", "insn-codes.h", "splay-tree.h",
1712 "alias.h", "insn-config.h", "flags.h", "expmed.h", "dojump.h",
1713 "explow.h", "calls.h", "memmodel.h", "emit-rtl.h", "varasm.h",
1714 "stmt.h", "expr.h", "alloc-pool.h", "cselib.h", "insn-addr.h",
1715 "optabs.h", "libfuncs.h", "debug.h", "internal-fn.h", "gimple-fold.h",
1716 "tree-eh.h", "gimple-iterator.h", "gimple-ssa.h", "tree-cfg.h",
1717 "tree-vrp.h", "tree-phinodes.h", "ssa-iterators.h", "stringpool.h",
1718 "tree-ssanames.h", "tree-ssa-loop.h", "tree-ssa-loop-ivopts.h",
1719 "tree-ssa-loop-manip.h", "tree-ssa-loop-niter.h", "tree-into-ssa.h",
1720 "tree-dfa.h", "tree-ssa.h", "reload.h", "cpp-id-data.h", "tree-chrec.h",
1721 "except.h", "output.h", "cfgloop.h", "target.h", "lto-streamer.h",
1722 "target-globals.h", "ipa-ref.h", "cgraph.h", "symbol-summary.h",
1723 "ipa-prop.h", "ipa-fnsummary.h", "dwarf2out.h", "omp-offload.h", NULL
1725 const char *const *ifp
;
1726 outf_p gtype_desc_c
;
1728 gtype_desc_c
= create_file ("GCC", "gtype-desc.c");
1729 for (ifp
= ifiles
; *ifp
; ifp
++)
1730 oprintf (gtype_desc_c
, "#include \"%s\"\n", *ifp
);
1732 /* Make sure we handle "cfun" specially. */
1733 oprintf (gtype_desc_c
, "\n/* See definition in function.h. */\n");
1734 oprintf (gtype_desc_c
, "#undef cfun\n");
1736 oprintf (gtype_desc_c
,
1738 "/* Types with a \"gcc::\" namespace have it stripped\n"
1739 " during gengtype parsing. Provide a \"using\" directive\n"
1740 " to ensure that the fully-qualified types are found. */\n"
1741 "using namespace gcc;\n");
1745 /* For INPF an input file, return the real basename of INPF, with all
1746 the directory components skipped. */
1749 get_file_realbasename (const input_file
*inpf
)
1751 return lbasename (get_input_file_name (inpf
));
1754 /* For INPF a filename, return the relative path to INPF from
1755 $(srcdir) if the latter is a prefix in INPF, NULL otherwise. */
1758 get_file_srcdir_relative_path (const input_file
*inpf
)
1760 const char *f
= get_input_file_name (inpf
);
1761 if (strlen (f
) > srcdir_len
1762 && IS_DIR_SEPARATOR (f
[srcdir_len
])
1763 && strncmp (f
, srcdir
, srcdir_len
) == 0)
1764 return f
+ srcdir_len
+ 1;
1769 /* For INPF an input_file, return the relative path to INPF from
1770 $(srcdir) if the latter is a prefix in INPF, or the real basename
1771 of INPF otherwise. */
1774 get_file_basename (const input_file
*inpf
)
1776 const char *srcdir_path
= get_file_srcdir_relative_path (inpf
);
1778 return (srcdir_path
!= NULL
) ? srcdir_path
: get_file_realbasename (inpf
);
1781 /* For F a filename, return the lang_dir_names relative index of the language
1782 directory that is a prefix in F, if any, -1 otherwise. */
1785 get_prefix_langdir_index (const char *f
)
1787 size_t f_len
= strlen (f
);
1790 for (lang_index
= 0; lang_index
< num_lang_dirs
; lang_index
++)
1792 const char *langdir
= lang_dir_names
[lang_index
];
1793 size_t langdir_len
= strlen (langdir
);
1795 if (f_len
> langdir_len
1796 && IS_DIR_SEPARATOR (f
[langdir_len
])
1797 && memcmp (f
, langdir
, langdir_len
) == 0)
1804 /* For INPF an input file, return the name of language directory where
1805 F is located, if any, NULL otherwise. */
1808 get_file_langdir (const input_file
*inpf
)
1810 /* Get the relative path to INPF from $(srcdir) and find the
1811 language by comparing the prefix with language directory names.
1812 If INPF is not even srcdir relative, no point in looking
1816 const char *srcdir_relative_path
= get_file_srcdir_relative_path (inpf
);
1819 if (!srcdir_relative_path
)
1822 lang_index
= get_prefix_langdir_index (srcdir_relative_path
);
1823 if (lang_index
< 0 && strncmp (srcdir_relative_path
, "c-family", 8) == 0)
1825 else if (lang_index
>= 0)
1826 r
= lang_dir_names
[lang_index
];
1833 /* The gt- output file name for INPF. */
1836 get_file_gtfilename (const input_file
*inpf
)
1838 /* Cook up an initial version of the gt- file name from the file real
1839 basename and the language name, if any. */
1841 const char *basename
= get_file_realbasename (inpf
);
1842 const char *langdir
= get_file_langdir (inpf
);
1845 (langdir
? xasprintf ("gt-%s-%s", langdir
, basename
)
1846 : xasprintf ("gt-%s", basename
));
1848 /* Then replace all non alphanumerics characters by '-' and change the
1849 extension to ".h". We expect the input filename extension was at least
1850 one character long. */
1854 for (; *s
!= '.'; s
++)
1855 if (!ISALNUM (*s
) && *s
!= '-')
1858 memcpy (s
, ".h", sizeof (".h"));
1863 /* Each input_file has its associated output file outf_p. The
1864 association is computed by the function
1865 get_output_file_with_visibility. The associated file is cached
1866 inside input_file in its inpoutf field, so is really computed only
1867 once. Associated output file paths (i.e. output_name-s) are
1868 computed by a rule based regexp machinery, using the files_rules
1869 array of struct file_rule_st. A for_name is also computed, giving
1870 the source file name for which the output_file is generated; it is
1871 often the last component of the input_file path. */
1875 Regexpr machinery to compute the output_name and for_name-s of each
1876 input_file. We have a sequence of file rules which gives the POSIX
1877 extended regular expression to match an input file path, and two
1878 transformed strings for the corresponding output_name and the
1879 corresponding for_name. The transformed string contain dollars: $0
1880 is replaced by the entire match, $1 is replaced by the substring
1881 matching the first parenthesis in the regexp, etc. And $$ is replaced
1882 by a single verbatim dollar. The rule order is important. The
1883 general case is last, and the particular cases should come before.
1884 An action routine can, when needed, update the out_name & for_name
1885 and/or return the appropriate output file. It is invoked only when a
1886 rule is triggered. When a rule is triggered, the output_name and
1887 for_name are computed using their transform string in while $$, $0,
1888 $1, ... are suitably replaced. If there is an action, it is called.
1889 In some few cases, the action can directly return the outf_p, but
1890 usually it just updates the output_name and for_name so should free
1891 them before replacing them. The get_output_file_with_visibility
1892 function creates an outf_p only once per each output_name, so it
1893 scans the output_files list for previously seen output file names.
1896 /* Signature of actions in file rules. */
1897 typedef outf_p (frul_actionrout_t
) (input_file
*, char**, char**);
1900 struct file_rule_st
{
1901 const char* frul_srcexpr
; /* Source string for regexp. */
1902 int frul_rflags
; /* Flags passed to regcomp, usually
1904 regex_t
* frul_re
; /* Compiled regular expression
1905 obtained by regcomp. */
1906 const char* frul_tr_out
; /* Transformation string for making
1907 * the output_name, with $1 ... $9 for
1908 * subpatterns and $0 for the whole
1909 * matched filename. */
1910 const char* frul_tr_for
; /* Tranformation string for making the
1912 frul_actionrout_t
* frul_action
; /* The action, if non null, is
1913 * called once the rule matches, on
1914 * the transformed out_name &
1915 * for_name. It could change them
1916 * and/or give the output file. */
1919 /* File rule action handling *.h files. */
1920 static outf_p
header_dot_h_frul (input_file
*, char**, char**);
1922 /* File rule action handling *.c files. */
1923 static outf_p
source_dot_c_frul (input_file
*, char**, char**);
1925 #define NULL_REGEX (regex_t*)0
1927 /* The prefix in our regexp-s matching the directory. */
1928 #define DIR_PREFIX_REGEX "^(([^/]*/)*)"
1930 #define NULL_FRULACT (frul_actionrout_t*)0
1932 /* The array of our rules governing file name generation. Rules order
1933 matters, so change with extreme care! */
1935 struct file_rule_st files_rules
[] = {
1936 /* The general rule assumes that files in subdirectories belong to a
1937 particular front-end, and files not in subdirectories are shared.
1938 The following rules deal with exceptions - files that are in
1939 subdirectories and yet are shared, and files that are top-level,
1940 but are not shared. */
1942 /* the c-family/ source directory is special. */
1943 { DIR_PREFIX_REGEX
"c-family/([[:alnum:]_-]*)\\.c$",
1944 REG_EXTENDED
, NULL_REGEX
,
1945 "gt-c-family-$3.h", "c-family/$3.c", NULL_FRULACT
},
1947 { DIR_PREFIX_REGEX
"c-family/([[:alnum:]_-]*)\\.h$",
1948 REG_EXTENDED
, NULL_REGEX
,
1949 "gt-c-family-$3.h", "c-family/$3.h", NULL_FRULACT
},
1951 /* Both c-lang.h & c-tree.h gives gt-c-c-decl.h for c-decl.c ! */
1952 { DIR_PREFIX_REGEX
"c/c-lang\\.h$",
1953 REG_EXTENDED
, NULL_REGEX
, "gt-c-c-decl.h", "c/c-decl.c", NULL_FRULACT
},
1955 { DIR_PREFIX_REGEX
"c/c-tree\\.h$",
1956 REG_EXTENDED
, NULL_REGEX
, "gt-c-c-decl.h", "c/c-decl.c", NULL_FRULACT
},
1958 /* cp/cp-tree.h gives gt-cp-tree.h for cp/tree.c ! */
1959 { DIR_PREFIX_REGEX
"cp/cp-tree\\.h$",
1960 REG_EXTENDED
, NULL_REGEX
,
1961 "gt-cp-tree.h", "cp/tree.c", NULL_FRULACT
},
1963 /* cp/decl.h & cp/decl.c gives gt-cp-decl.h for cp/decl.c ! */
1964 { DIR_PREFIX_REGEX
"cp/decl\\.[ch]$",
1965 REG_EXTENDED
, NULL_REGEX
,
1966 "gt-cp-decl.h", "cp/decl.c", NULL_FRULACT
},
1968 /* cp/name-lookup.h gives gt-cp-name-lookup.h for cp/name-lookup.c ! */
1969 { DIR_PREFIX_REGEX
"cp/name-lookup\\.h$",
1970 REG_EXTENDED
, NULL_REGEX
,
1971 "gt-cp-name-lookup.h", "cp/name-lookup.c", NULL_FRULACT
},
1973 /* cp/parser.h gives gt-cp-parser.h for cp/parser.c ! */
1974 { DIR_PREFIX_REGEX
"cp/parser\\.h$",
1975 REG_EXTENDED
, NULL_REGEX
,
1976 "gt-cp-parser.h", "cp/parser.c", NULL_FRULACT
},
1978 /* objc/objc-act.h gives gt-objc-objc-act.h for objc/objc-act.c ! */
1979 { DIR_PREFIX_REGEX
"objc/objc-act\\.h$",
1980 REG_EXTENDED
, NULL_REGEX
,
1981 "gt-objc-objc-act.h", "objc/objc-act.c", NULL_FRULACT
},
1983 /* objc/objc-map.h gives gt-objc-objc-map.h for objc/objc-map.c ! */
1984 { DIR_PREFIX_REGEX
"objc/objc-map\\.h$",
1985 REG_EXTENDED
, NULL_REGEX
,
1986 "gt-objc-objc-map.h", "objc/objc-map.c", NULL_FRULACT
},
1988 /* General cases. For header *.h and source *.c or *.cc files, we
1989 * need special actions to handle the language. */
1991 /* Source *.c files are using get_file_gtfilename to compute their
1992 output_name and get_file_basename to compute their for_name
1993 through the source_dot_c_frul action. */
1994 { DIR_PREFIX_REGEX
"([[:alnum:]_-]*)\\.c$",
1995 REG_EXTENDED
, NULL_REGEX
, "gt-$3.h", "$3.c", source_dot_c_frul
},
1997 /* Source *.cc files are using get_file_gtfilename to compute their
1998 output_name and get_file_basename to compute their for_name
1999 through the source_dot_c_frul action. */
2000 { DIR_PREFIX_REGEX
"([[:alnum:]_-]*)\\.cc$",
2001 REG_EXTENDED
, NULL_REGEX
, "gt-$3.h", "$3.cc", source_dot_c_frul
},
2003 /* Common header files get "gtype-desc.c" as their output_name,
2004 * while language specific header files are handled specially. So
2005 * we need the header_dot_h_frul action. */
2006 { DIR_PREFIX_REGEX
"([[:alnum:]_-]*)\\.h$",
2007 REG_EXTENDED
, NULL_REGEX
, "gt-$3.h", "$3.h", header_dot_h_frul
},
2009 { DIR_PREFIX_REGEX
"([[:alnum:]_-]*)\\.in$",
2010 REG_EXTENDED
, NULL_REGEX
, "gt-$3.h", "$3.in", NULL_FRULACT
},
2012 /* Mandatory null last entry signaling end of rules. */
2013 {NULL
, 0, NULL_REGEX
, NULL
, NULL
, NULL_FRULACT
}
2016 /* Special file rules action for handling *.h header files. It gives
2017 "gtype-desc.c" for common headers and corresponding output
2018 files for language-specific header files. */
2020 header_dot_h_frul (input_file
* inpf
, char**poutname
,
2021 char**pforname ATTRIBUTE_UNUSED
)
2023 const char *basename
= 0;
2025 DBGPRINTF ("inpf %p inpname %s outname %s forname %s",
2026 (void*) inpf
, get_input_file_name (inpf
),
2027 *poutname
, *pforname
);
2028 basename
= get_file_basename (inpf
);
2029 lang_index
= get_prefix_langdir_index (basename
);
2030 DBGPRINTF ("basename %s lang_index %d", basename
, lang_index
);
2032 if (lang_index
>= 0)
2034 /* The header is language specific. Given output_name &
2035 for_name remains unchanged. The base_files array gives the
2037 DBGPRINTF ("header_dot_h found language specific @ %p '%s'",
2038 (void*) base_files
[lang_index
],
2039 (base_files
[lang_index
])->name
);
2040 return base_files
[lang_index
];
2044 /* The header is common to all front-end languages. So
2045 output_name is "gtype-desc.c" file. The calling function
2046 get_output_file_with_visibility will find its outf_p. */
2048 *poutname
= xstrdup ("gtype-desc.c");
2049 DBGPRINTF ("special 'gtype-desc.c' for inpname %s",
2050 get_input_file_name (inpf
));
2056 /* Special file rules action for handling *.c source files using
2057 * get_file_gtfilename to compute their output_name and
2058 * get_file_basename to compute their for_name. The output_name is
2059 * gt-<LANG>-<BASE>.h for language specific source files, and
2060 * gt-<BASE>.h for common source files. */
2062 source_dot_c_frul (input_file
* inpf
, char**poutname
, char**pforname
)
2064 char *newbasename
= CONST_CAST (char*, get_file_basename (inpf
));
2065 char *newoutname
= CONST_CAST (char*, get_file_gtfilename (inpf
));
2066 DBGPRINTF ("inpf %p inpname %s original outname %s forname %s",
2067 (void*) inpf
, get_input_file_name (inpf
),
2068 *poutname
, *pforname
);
2069 DBGPRINTF ("newoutname %s", newoutname
);
2070 DBGPRINTF ("newbasename %s", newbasename
);
2073 *poutname
= newoutname
;
2074 *pforname
= newbasename
;
2078 /* Utility function for get_output_file_with_visibility which returns
2079 * a malloc-ed substituted string using TRS on matching of the FILNAM
2080 * file name, using the PMATCH array. */
2082 matching_file_name_substitute (const char *filnam
, regmatch_t pmatch
[10],
2085 struct obstack str_obstack
;
2087 char *rawstr
= NULL
;
2088 const char *pt
= NULL
;
2089 DBGPRINTF ("filnam %s", filnam
);
2090 obstack_init (&str_obstack
);
2091 for (pt
= trs
; *pt
; pt
++) {
2097 /* A double dollar $$ is substituted by a single verbatim
2098 dollar, but who really uses dollar signs in file
2100 obstack_1grow (&str_obstack
, '$');
2102 else if (ISDIGIT (pt
[1]))
2104 /* Handle $0 $1 ... $9 by appropriate substitution. */
2105 int dolnum
= pt
[1] - '0';
2106 int so
= pmatch
[dolnum
].rm_so
;
2107 int eo
= pmatch
[dolnum
].rm_eo
;
2108 DBGPRINTF ("so=%d eo=%d dolnum=%d", so
, eo
, dolnum
);
2109 if (so
>=0 && eo
>=so
)
2110 obstack_grow (&str_obstack
, filnam
+ so
, eo
- so
);
2114 /* This can happen only when files_rules is buggy! */
2117 /* Always skip the character after the dollar. */
2121 obstack_1grow (&str_obstack
, c
);
2123 obstack_1grow (&str_obstack
, '\0');
2124 rawstr
= XOBFINISH (&str_obstack
, char *);
2125 str
= xstrdup (rawstr
);
2126 obstack_free (&str_obstack
, NULL
);
2127 DBGPRINTF ("matched replacement %s", str
);
2133 /* An output file, suitable for definitions, that can see declarations
2134 made in INPF and is linked into every language that uses INPF.
2135 Since the result is cached inside INPF, that argument cannot be
2136 declared constant, but is "almost" constant. */
2139 get_output_file_with_visibility (input_file
*inpf
)
2142 char *for_name
= NULL
;
2143 char *output_name
= NULL
;
2144 const char* inpfname
;
2146 /* This can happen when we need a file with visibility on a
2147 structure that we've never seen. We have to just hope that it's
2148 globally visible. */
2150 inpf
= system_h_file
;
2152 /* The result is cached in INPF, so return it if already known. */
2154 return inpf
->inpoutf
;
2156 /* In plugin mode, return NULL unless the input_file is one of the
2161 for (i
= 0; i
< nb_plugin_files
; i
++)
2162 if (inpf
== plugin_files
[i
])
2164 inpf
->inpoutf
= plugin_output
;
2165 return plugin_output
;
2171 inpfname
= get_input_file_name (inpf
);
2173 /* Try each rule in sequence in files_rules until one is triggered. */
2176 DBGPRINTF ("passing input file @ %p named %s through the files_rules",
2177 (void*) inpf
, inpfname
);
2179 for (; files_rules
[rulix
].frul_srcexpr
!= NULL
; rulix
++)
2181 DBGPRINTF ("rulix#%d srcexpr %s",
2182 rulix
, files_rules
[rulix
].frul_srcexpr
);
2184 if (!files_rules
[rulix
].frul_re
)
2186 /* Compile the regexpr lazily. */
2188 files_rules
[rulix
].frul_re
= XCNEW (regex_t
);
2189 err
= regcomp (files_rules
[rulix
].frul_re
,
2190 files_rules
[rulix
].frul_srcexpr
,
2191 files_rules
[rulix
].frul_rflags
);
2194 /* The regular expression compilation fails only when
2195 file_rules is buggy. */
2203 /* Match the regexpr and trigger the rule if matched. */
2205 /* We have exactly ten pmatch-s, one for each $0, $1, $2,
2207 regmatch_t pmatch
[10];
2208 memset (pmatch
, 0, sizeof (pmatch
));
2209 if (!regexec (files_rules
[rulix
].frul_re
,
2210 inpfname
, 10, pmatch
, 0))
2212 DBGPRINTF ("input @ %p filename %s matched rulix#%d pattern %s",
2213 (void*) inpf
, inpfname
, rulix
,
2214 files_rules
[rulix
].frul_srcexpr
);
2216 matching_file_name_substitute (inpfname
, pmatch
,
2217 files_rules
[rulix
].frul_tr_for
);
2218 DBGPRINTF ("for_name %s", for_name
);
2220 matching_file_name_substitute (inpfname
, pmatch
,
2221 files_rules
[rulix
].frul_tr_out
);
2222 DBGPRINTF ("output_name %s", output_name
);
2223 if (files_rules
[rulix
].frul_action
)
2225 /* Invoke our action routine. */
2227 DBGPRINTF ("before action rulix#%d output_name %s for_name %s",
2228 rulix
, output_name
, for_name
);
2230 (files_rules
[rulix
].frul_action
) (inpf
,
2231 &output_name
, &for_name
);
2232 DBGPRINTF ("after action rulix#%d of=%p output_name %s for_name %s",
2233 rulix
, (void*)of
, output_name
, for_name
);
2234 /* If the action routine returned something, give it back
2235 immediately and cache it in inpf. */
2242 /* The rule matched, and had no action, or that action did
2243 not return any output file but could have changed the
2244 output_name or for_name. We break out of the loop on the
2250 /* The regexpr did not match. */
2251 DBGPRINTF ("rulix#%d did not match %s pattern %s",
2252 rulix
, inpfname
, files_rules
[rulix
].frul_srcexpr
);
2258 if (!output_name
|| !for_name
)
2260 /* This should not be possible, and could only happen if the
2261 files_rules is incomplete or buggy. */
2262 fatal ("failed to compute output name for %s", inpfname
);
2265 /* Look through to see if we've ever seen this output filename
2266 before. If found, cache the result in inpf. */
2267 for (r
= output_files
; r
; r
= r
->next
)
2268 if (filename_cmp (r
->name
, output_name
) == 0)
2271 DBGPRINTF ("found r @ %p for output_name %s for_name %s", (void*)r
,
2272 output_name
, for_name
);
2276 /* If not found, create it, and cache it in inpf. */
2277 r
= create_file (for_name
, output_name
);
2279 gcc_assert (r
&& r
->name
);
2280 DBGPRINTF ("created r @ %p for output_name %s for_name %s", (void*) r
,
2281 output_name
, for_name
);
2288 /* The name of an output file, suitable for definitions, that can see
2289 declarations made in INPF and is linked into every language that
2293 get_output_file_name (input_file
* inpf
)
2295 outf_p o
= get_output_file_with_visibility (inpf
);
2301 /* Check if existing file is equal to the in memory buffer. */
2304 is_file_equal (outf_p of
)
2306 FILE *newfile
= fopen (of
->name
, "r");
2309 if (newfile
== NULL
)
2313 for (i
= 0; i
< of
->bufused
; i
++)
2316 ch
= fgetc (newfile
);
2317 if (ch
== EOF
|| ch
!= (unsigned char) of
->buf
[i
])
2323 if (equal
&& EOF
!= fgetc (newfile
))
2329 /* Copy the output to its final destination,
2330 but don't unnecessarily change modification times. */
2333 close_output_files (void)
2335 int nbwrittenfiles
= 0;
2338 for (of
= output_files
; of
; of
= of
->next
)
2340 if (!is_file_equal (of
))
2342 FILE *newfile
= NULL
;
2343 char *backupname
= NULL
;
2344 /* Back up the old version of the output file gt-FOO.c as
2345 BACKUPDIR/gt-FOO.c~ if we have a backup directory. */
2348 backupname
= concat (backup_dir
, "/",
2349 lbasename (of
->name
), "~", NULL
);
2350 if (!access (of
->name
, F_OK
) && rename (of
->name
, backupname
))
2351 fatal ("failed to back up %s as %s: %s",
2352 of
->name
, backupname
, xstrerror (errno
));
2355 newfile
= fopen (of
->name
, "w");
2356 if (newfile
== NULL
)
2357 fatal ("opening output file %s: %s", of
->name
, xstrerror (errno
));
2358 if (fwrite (of
->buf
, 1, of
->bufused
, newfile
) != of
->bufused
)
2359 fatal ("writing output file %s: %s", of
->name
, xstrerror (errno
));
2360 if (fclose (newfile
) != 0)
2361 fatal ("closing output file %s: %s", of
->name
, xstrerror (errno
));
2363 if (verbosity_level
>= 2 && backupname
)
2364 printf ("%s wrote #%-3d %s backed-up in %s\n",
2365 progname
, nbwrittenfiles
, of
->name
, backupname
);
2366 else if (verbosity_level
>= 1)
2367 printf ("%s write #%-3d %s\n", progname
, nbwrittenfiles
, of
->name
);
2372 /* output file remains unchanged. */
2373 if (verbosity_level
>= 2)
2374 printf ("%s keep %s\n", progname
, of
->name
);
2378 of
->bufused
= of
->buflength
= 0;
2380 if (verbosity_level
>= 1)
2381 printf ("%s wrote %d files.\n", progname
, nbwrittenfiles
);
2388 const input_file
* file
;
2392 struct walk_type_data
;
2394 /* For scalars and strings, given the item in 'val'.
2395 For structures, given a pointer to the item in 'val'.
2396 For misc. pointers, given the item in 'val'.
2398 typedef void (*process_field_fn
) (type_p f
, const struct walk_type_data
* p
);
2399 typedef void (*func_name_fn
) (type_p s
, const struct walk_type_data
* p
);
2401 /* Parameters for write_types. */
2403 struct write_types_data
2406 const char *param_prefix
;
2407 const char *subfield_marker_routine
;
2408 const char *marker_routine
;
2409 const char *reorder_note_routine
;
2410 const char *comment
;
2411 enum write_types_kinds kind
;
2414 static void output_escaped_param (struct walk_type_data
*d
,
2415 const char *, const char *);
2416 static void output_mangled_typename (outf_p
, const_type_p
);
2417 static void walk_type (type_p t
, struct walk_type_data
*d
);
2418 static void write_func_for_structure (type_p orig_s
, type_p s
,
2419 const struct write_types_data
*wtd
);
2420 static void write_types_process_field
2421 (type_p f
, const struct walk_type_data
*d
);
2422 static void write_types (outf_p output_header
,
2424 const struct write_types_data
*wtd
);
2425 static void write_types_local_process_field
2426 (type_p f
, const struct walk_type_data
*d
);
2427 static void write_local_func_for_structure (const_type_p orig_s
, type_p s
);
2428 static void write_local (outf_p output_header
,
2430 static int contains_scalar_p (type_p t
);
2431 static void put_mangled_filename (outf_p
, const input_file
*);
2432 static void finish_root_table (struct flist
*flp
, const char *pfx
,
2433 const char *tname
, const char *lastname
,
2435 static void write_root (outf_p
, pair_p
, type_p
, const char *, int,
2436 struct fileloc
*, bool);
2437 static void write_array (outf_p f
, pair_p v
,
2438 const struct write_types_data
*wtd
);
2439 static void write_roots (pair_p
, bool);
2441 /* Parameters for walk_type. */
2443 struct walk_type_data
2445 process_field_fn process_field
;
2450 const char *prev_val
[4];
2453 const struct fileloc
*line
;
2457 const char *reorder_fn
;
2459 bool fn_wants_lvalue
;
2467 /* Given a string TYPE_NAME, representing a C++ typename, return a valid
2468 pre-processor identifier to use in a #define directive. This replaces
2469 special characters used in C++ identifiers like '>', '<' and ':' with
2472 If no C++ special characters are found in TYPE_NAME, return
2473 TYPE_NAME. Otherwise, return a copy of TYPE_NAME with the special
2474 characters replaced with '_'. In this case, the caller is
2475 responsible for freeing the allocated string. */
2478 filter_type_name (const char *type_name
)
2480 if (strchr (type_name
, '<') || strchr (type_name
, ':'))
2483 char *s
= xstrdup (type_name
);
2484 for (i
= 0; i
< strlen (s
); i
++)
2485 if (s
[i
] == '<' || s
[i
] == '>' || s
[i
] == ':' || s
[i
] == ','
2495 /* Print a mangled name representing T to OF. */
2498 output_mangled_typename (outf_p of
, const_type_p t
)
2506 case TYPE_UNDEFINED
:
2511 output_mangled_typename (of
, t
->u
.p
);
2521 case TYPE_LANG_STRUCT
:
2522 case TYPE_USER_STRUCT
:
2524 /* For references to classes within an inheritance hierarchy,
2525 only ever reference the ultimate base class, since only
2526 it will have gt_ functions. */
2527 t
= get_ultimate_base_class (t
);
2528 const char *id_for_tag
= filter_type_name (t
->u
.s
.tag
);
2529 oprintf (of
, "%lu%s", (unsigned long) strlen (id_for_tag
),
2531 if (id_for_tag
!= t
->u
.s
.tag
)
2532 free (CONST_CAST (char *, id_for_tag
));
2540 /* Print PARAM to D->OF processing escapes. D->VAL references the
2541 current object, D->PREV_VAL the object containing the current
2542 object, ONAME is the name of the option and D->LINE is used to
2543 print error messages. */
2546 output_escaped_param (struct walk_type_data
*d
, const char *param
,
2551 for (p
= param
; *p
; p
++)
2553 oprintf (d
->of
, "%c", *p
);
2558 oprintf (d
->of
, "(%s)", d
->prev_val
[2]);
2561 oprintf (d
->of
, "(%s)", d
->prev_val
[0]);
2564 oprintf (d
->of
, "(%s)", d
->prev_val
[1]);
2568 const char *pp
= d
->val
+ strlen (d
->val
);
2569 while (pp
[-1] == ']')
2572 oprintf (d
->of
, "%s", pp
);
2576 error_at_line (d
->line
, "`%s' option contains bad escape %c%c",
2582 get_string_option (options_p opt
, const char *key
)
2584 for (; opt
; opt
= opt
->next
)
2585 if (strcmp (opt
->name
, key
) == 0)
2586 return opt
->info
.string
;
2590 /* Machinery for avoiding duplicate tags within switch statements. */
2594 struct seen_tag
*next
;
2598 already_seen_tag (struct seen_tag
*seen_tags
, const char *tag
)
2600 /* Linear search, so O(n^2), but n is currently small. */
2603 if (!strcmp (seen_tags
->tag
, tag
))
2605 seen_tags
= seen_tags
->next
;
2607 /* Not yet seen this tag. */
2612 mark_tag_as_seen (struct seen_tag
**seen_tags
, const char *tag
)
2614 /* Add to front of linked list. */
2615 struct seen_tag
*new_node
= XCNEW (struct seen_tag
);
2616 new_node
->tag
= tag
;
2617 new_node
->next
= *seen_tags
;
2618 *seen_tags
= new_node
;
2622 walk_subclasses (type_p base
, struct walk_type_data
*d
,
2623 struct seen_tag
**seen_tags
)
2625 for (type_p sub
= base
->u
.s
.first_subclass
; sub
!= NULL
;
2626 sub
= sub
->u
.s
.next_sibling_class
)
2628 const char *type_tag
= get_string_option (sub
->u
.s
.opt
, "tag");
2629 if (type_tag
&& !already_seen_tag (*seen_tags
, type_tag
))
2631 mark_tag_as_seen (seen_tags
, type_tag
);
2632 oprintf (d
->of
, "%*scase %s:\n", d
->indent
, "", type_tag
);
2634 oprintf (d
->of
, "%*s{\n", d
->indent
, "");
2636 oprintf (d
->of
, "%*s%s *sub = static_cast <%s *> (x);\n",
2637 d
->indent
, "", sub
->u
.s
.tag
, sub
->u
.s
.tag
);
2638 const char *old_val
= d
->val
;
2643 oprintf (d
->of
, "%*s}\n", d
->indent
, "");
2644 oprintf (d
->of
, "%*sbreak;\n", d
->indent
, "");
2647 walk_subclasses (sub
, d
, seen_tags
);
2651 /* Call D->PROCESS_FIELD for every field (or subfield) of D->VAL,
2652 which is of type T. Write code to D->OF to constrain execution (at
2653 the point that D->PROCESS_FIELD is called) to the appropriate
2654 cases. Call D->PROCESS_FIELD on subobjects before calling it on
2655 pointers to those objects. D->PREV_VAL lists the objects
2656 containing the current object, D->OPT is a list of options to
2657 apply, D->INDENT is the current indentation level, D->LINE is used
2658 to print error messages, D->BITMAP indicates which languages to
2659 print the structure for. */
2662 walk_type (type_p t
, struct walk_type_data
*d
)
2664 const char *length
= NULL
;
2665 const char *desc
= NULL
;
2666 const char *type_tag
= NULL
;
2667 int maybe_undef_p
= 0;
2670 const struct nested_ptr_data
*nested_ptr_d
= NULL
;
2672 d
->needs_cast_p
= false;
2673 for (oo
= d
->opt
; oo
; oo
= oo
->next
)
2674 if (strcmp (oo
->name
, "length") == 0 && oo
->kind
== OPTION_STRING
)
2675 length
= oo
->info
.string
;
2676 else if (strcmp (oo
->name
, "maybe_undef") == 0)
2678 else if (strcmp (oo
->name
, "desc") == 0 && oo
->kind
== OPTION_STRING
)
2679 desc
= oo
->info
.string
;
2680 else if (strcmp (oo
->name
, "nested_ptr") == 0
2681 && oo
->kind
== OPTION_NESTED
)
2682 nested_ptr_d
= (const struct nested_ptr_data
*) oo
->info
.nested
;
2683 else if (strcmp (oo
->name
, "dot") == 0)
2685 else if (strcmp (oo
->name
, "tag") == 0)
2686 type_tag
= oo
->info
.string
;
2687 else if (strcmp (oo
->name
, "special") == 0)
2689 else if (strcmp (oo
->name
, "skip") == 0)
2691 else if (strcmp (oo
->name
, "atomic") == 0)
2693 else if (strcmp (oo
->name
, "default") == 0)
2695 else if (strcmp (oo
->name
, "chain_next") == 0)
2697 else if (strcmp (oo
->name
, "chain_prev") == 0)
2699 else if (strcmp (oo
->name
, "chain_circular") == 0)
2701 else if (strcmp (oo
->name
, "reorder") == 0)
2703 else if (strcmp (oo
->name
, "variable_size") == 0)
2705 else if (strcmp (oo
->name
, "for_user") == 0)
2708 error_at_line (d
->line
, "unknown option `%s'\n", oo
->name
);
2714 && (t
->kind
!= TYPE_POINTER
|| !union_or_struct_p (t
->u
.p
)))
2716 error_at_line (d
->line
,
2717 "field `%s' has invalid option `maybe_undef_p'\n",
2722 if (atomic_p
&& (t
->kind
!= TYPE_POINTER
) && (t
->kind
!= TYPE_STRING
))
2724 error_at_line (d
->line
, "field `%s' has invalid option `atomic'\n", d
->val
);
2732 d
->process_field (t
, d
);
2737 d
->in_ptr_field
= true;
2738 if (maybe_undef_p
&& t
->u
.p
->u
.s
.line
.file
== NULL
)
2740 oprintf (d
->of
, "%*sgcc_assert (!%s);\n", d
->indent
, "", d
->val
);
2744 /* If a pointer type is marked as "atomic", we process the
2745 field itself, but we don't walk the data that they point to.
2747 There are two main cases where we walk types: to mark
2748 pointers that are reachable, and to relocate pointers when
2749 writing a PCH file. In both cases, an atomic pointer is
2750 itself marked or relocated, but the memory that it points
2751 to is left untouched. In the case of PCH, that memory will
2752 be read/written unchanged to the PCH file. */
2755 oprintf (d
->of
, "%*sif (%s != NULL) {\n", d
->indent
, "", d
->val
);
2757 d
->process_field (t
, d
);
2759 oprintf (d
->of
, "%*s}\n", d
->indent
, "");
2765 if (!union_or_struct_p (t
->u
.p
))
2767 error_at_line (d
->line
,
2768 "field `%s' is pointer to unimplemented type",
2775 const char *oldprevval2
= d
->prev_val
[2];
2777 if (!union_or_struct_p (nested_ptr_d
->type
))
2779 error_at_line (d
->line
,
2780 "field `%s' has invalid "
2781 "option `nested_ptr'\n", d
->val
);
2785 d
->prev_val
[2] = d
->val
;
2786 oprintf (d
->of
, "%*s{\n", d
->indent
, "");
2788 d
->val
= xasprintf ("x%d", d
->counter
++);
2789 oprintf (d
->of
, "%*s%s %s * %s%s =\n", d
->indent
, "",
2790 (nested_ptr_d
->type
->kind
== TYPE_UNION
2791 ? "union" : "struct"),
2792 nested_ptr_d
->type
->u
.s
.tag
,
2793 d
->fn_wants_lvalue
? "" : "const ", d
->val
);
2794 oprintf (d
->of
, "%*s", d
->indent
+ 2, "");
2795 output_escaped_param (d
, nested_ptr_d
->convert_from
,
2797 oprintf (d
->of
, ";\n");
2799 d
->process_field (nested_ptr_d
->type
, d
);
2801 if (d
->fn_wants_lvalue
)
2803 oprintf (d
->of
, "%*s%s = ", d
->indent
, "",
2805 d
->prev_val
[2] = d
->val
;
2806 output_escaped_param (d
, nested_ptr_d
->convert_to
,
2808 oprintf (d
->of
, ";\n");
2812 oprintf (d
->of
, "%*s}\n", d
->indent
, "");
2813 d
->val
= d
->prev_val
[2];
2814 d
->prev_val
[2] = oldprevval2
;
2817 d
->process_field (t
->u
.p
, d
);
2821 int loopcounter
= d
->loopcounter
;
2822 const char *oldval
= d
->val
;
2823 const char *oldprevval3
= d
->prev_val
[3];
2826 oprintf (d
->of
, "%*sif (%s != NULL) {\n", d
->indent
, "", d
->val
);
2828 oprintf (d
->of
, "%*ssize_t i%d;\n", d
->indent
, "", loopcounter
);
2829 oprintf (d
->of
, "%*sfor (i%d = 0; i%d != (size_t)(", d
->indent
,
2830 "", loopcounter
, loopcounter
);
2831 if (!d
->in_record_p
)
2832 output_escaped_param (d
, length
, "length");
2834 oprintf (d
->of
, "l%d", loopcounter
);
2835 if (d
->have_this_obj
)
2836 /* Try to unswitch loops (see PR53880). */
2837 oprintf (d
->of
, ") && ((void *)%s == this_obj", oldval
);
2838 oprintf (d
->of
, "); i%d++) {\n", loopcounter
);
2840 d
->val
= newval
= xasprintf ("%s[i%d]", oldval
, loopcounter
);
2842 d
->prev_val
[3] = oldval
;
2843 walk_type (t
->u
.p
, d
);
2846 d
->prev_val
[3] = oldprevval3
;
2849 oprintf (d
->of
, "%*s}\n", d
->indent
, "");
2850 d
->process_field (t
, d
);
2852 oprintf (d
->of
, "%*s}\n", d
->indent
, "");
2854 d
->in_ptr_field
= false;
2861 const char *oldval
= d
->val
;
2864 /* If it's an array of scalars, we optimize by not generating
2866 if (t
->u
.a
.p
->kind
== TYPE_SCALAR
)
2870 loopcounter
= d
->loopcounter
;
2872 loopcounter
= d
->counter
++;
2874 /* When walking an array, compute the length and store it in a
2875 local variable before walking the array elements, instead of
2876 recomputing the length expression each time through the loop.
2877 This is necessary to handle tcc_vl_exp objects like CALL_EXPR,
2878 where the length is stored in the first array element,
2879 because otherwise that operand can get overwritten on the
2881 oprintf (d
->of
, "%*s{\n", d
->indent
, "");
2883 oprintf (d
->of
, "%*ssize_t i%d;\n", d
->indent
, "", loopcounter
);
2884 if (!d
->in_record_p
|| !length
)
2886 oprintf (d
->of
, "%*ssize_t l%d = (size_t)(",
2887 d
->indent
, "", loopcounter
);
2889 output_escaped_param (d
, length
, "length");
2891 oprintf (d
->of
, "%s", t
->u
.a
.len
);
2892 oprintf (d
->of
, ");\n");
2895 oprintf (d
->of
, "%*sfor (i%d = 0; i%d != l%d; i%d++) {\n",
2897 loopcounter
, loopcounter
, loopcounter
, loopcounter
);
2899 d
->val
= newval
= xasprintf ("%s[i%d]", oldval
, loopcounter
);
2901 walk_type (t
->u
.a
.p
, d
);
2906 oprintf (d
->of
, "%*s}\n", d
->indent
, "");
2908 oprintf (d
->of
, "%*s}\n", d
->indent
, "");
2916 const char *oldval
= d
->val
;
2917 const char *oldprevval1
= d
->prev_val
[1];
2918 const char *oldprevval2
= d
->prev_val
[2];
2919 const int union_p
= t
->kind
== TYPE_UNION
;
2920 int seen_default_p
= 0;
2922 int lengths_seen
= 0;
2924 bool any_length_seen
= false;
2926 if (!t
->u
.s
.line
.file
)
2927 error_at_line (d
->line
, "incomplete structure `%s'", t
->u
.s
.tag
);
2929 if ((d
->bitmap
& t
->u
.s
.bitmap
) != d
->bitmap
)
2931 error_at_line (d
->line
,
2932 "structure `%s' defined for mismatching languages",
2934 error_at_line (&t
->u
.s
.line
, "one structure defined here");
2937 /* Some things may also be defined in the structure's options. */
2938 for (o
= t
->u
.s
.opt
; o
; o
= o
->next
)
2939 if (!desc
&& strcmp (o
->name
, "desc") == 0
2940 && o
->kind
== OPTION_STRING
)
2941 desc
= o
->info
.string
;
2943 d
->prev_val
[2] = oldval
;
2944 d
->prev_val
[1] = oldprevval2
;
2949 error_at_line (d
->line
,
2950 "missing `desc' option for union `%s'",
2954 oprintf (d
->of
, "%*sswitch ((int) (", d
->indent
, "");
2955 output_escaped_param (d
, desc
, "desc");
2956 oprintf (d
->of
, "))\n");
2958 oprintf (d
->of
, "%*s{\n", d
->indent
, "");
2962 /* We have a "desc" option on a struct, signifying the
2963 base class within a GC-managed inheritance hierarchy.
2964 The current code specialcases the base class, then walks
2965 into subclasses, recursing into this routine to handle them.
2966 This organization requires the base class to have a case in
2967 the switch statement, and hence a tag value is mandatory
2968 for the base class. This restriction could be removed, but
2969 it would require some restructing of this code. */
2972 error_at_line (d
->line
,
2973 "missing `tag' option for type `%s'",
2976 oprintf (d
->of
, "%*sswitch ((int) (", d
->indent
, "");
2977 output_escaped_param (d
, desc
, "desc");
2978 oprintf (d
->of
, "))\n");
2980 oprintf (d
->of
, "%*s{\n", d
->indent
, "");
2981 oprintf (d
->of
, "%*scase %s:\n", d
->indent
, "", type_tag
);
2985 FOR_ALL_INHERITED_FIELDS (t
, f
)
2989 const char *fieldlength
= NULL
;
2991 d
->reorder_fn
= NULL
;
2992 for (oo
= f
->opt
; oo
; oo
= oo
->next
)
2993 if (strcmp (oo
->name
, "skip") == 0)
2995 else if (strcmp (oo
->name
, "length") == 0
2996 && oo
->kind
== OPTION_STRING
)
2997 fieldlength
= oo
->info
.string
;
3007 if (!any_length_seen
)
3009 oprintf (d
->of
, "%*s{\n", d
->indent
, "");
3012 any_length_seen
= true;
3014 oprintf (d
->of
, "%*ssize_t l%d = (size_t)(",
3015 d
->indent
, "", d
->counter
- 1);
3016 output_escaped_param (d
, fieldlength
, "length");
3017 oprintf (d
->of
, ");\n");
3021 endcounter
= d
->counter
;
3023 FOR_ALL_INHERITED_FIELDS (t
, f
)
3026 const char *dot
= ".";
3027 const char *tagid
= NULL
;
3030 const char *fieldlength
= NULL
;
3033 d
->reorder_fn
= NULL
;
3034 for (oo
= f
->opt
; oo
; oo
= oo
->next
)
3035 if (strcmp (oo
->name
, "dot") == 0
3036 && oo
->kind
== OPTION_STRING
)
3037 dot
= oo
->info
.string
;
3038 else if (strcmp (oo
->name
, "tag") == 0
3039 && oo
->kind
== OPTION_STRING
)
3040 tagid
= oo
->info
.string
;
3041 else if (strcmp (oo
->name
, "skip") == 0)
3043 else if (strcmp (oo
->name
, "default") == 0)
3045 else if (strcmp (oo
->name
, "reorder") == 0
3046 && oo
->kind
== OPTION_STRING
)
3047 d
->reorder_fn
= oo
->info
.string
;
3048 else if (strcmp (oo
->name
, "length") == 0
3049 && oo
->kind
== OPTION_STRING
)
3050 fieldlength
= oo
->info
.string
;
3055 if (union_p
&& tagid
)
3057 oprintf (d
->of
, "%*scase %s:\n", d
->indent
, "", tagid
);
3060 else if (union_p
&& default_p
)
3062 oprintf (d
->of
, "%*sdefault:\n", d
->indent
, "");
3066 else if (!union_p
&& (default_p
|| tagid
))
3067 error_at_line (d
->line
,
3068 "can't use `%s' outside a union on field `%s'",
3069 default_p
? "default" : "tag", f
->name
);
3070 else if (union_p
&& !(default_p
|| tagid
)
3071 && f
->type
->kind
== TYPE_SCALAR
)
3074 "%s:%d: warning: field `%s' is missing `tag' or `default' option\n",
3075 get_input_file_name (d
->line
->file
), d
->line
->line
,
3079 else if (union_p
&& !(default_p
|| tagid
))
3080 error_at_line (d
->line
,
3081 "field `%s' is missing `tag' or `default' option",
3086 d
->loopcounter
= endcounter
- lengths_seen
--;
3090 d
->val
= newval
= xasprintf ("%s%s%s", oldval
, dot
, f
->name
);
3092 d
->used_length
= false;
3093 d
->in_record_p
= !union_p
;
3095 walk_type (f
->type
, d
);
3097 d
->in_record_p
= false;
3103 oprintf (d
->of
, "%*sbreak;\n", d
->indent
, "");
3107 d
->reorder_fn
= NULL
;
3110 d
->prev_val
[1] = oldprevval1
;
3111 d
->prev_val
[2] = oldprevval2
;
3113 if (union_p
&& !seen_default_p
)
3115 oprintf (d
->of
, "%*sdefault:\n", d
->indent
, "");
3116 oprintf (d
->of
, "%*s break;\n", d
->indent
, "");
3119 if (desc
&& !union_p
)
3121 oprintf (d
->of
, "%*sbreak;\n", d
->indent
, "");
3126 oprintf (d
->of
, "%*s}\n", d
->indent
, "");
3131 /* Add cases to handle subclasses. */
3132 struct seen_tag
*tags
= NULL
;
3133 walk_subclasses (t
, d
, &tags
);
3135 /* Ensure that if someone forgets a "tag" option that we don't
3136 silent fail to traverse that subclass's fields. */
3137 if (!seen_default_p
)
3139 oprintf (d
->of
, "%*s/* Unrecognized tag value. */\n",
3141 oprintf (d
->of
, "%*sdefault: gcc_unreachable (); \n",
3145 /* End of the switch statement */
3146 oprintf (d
->of
, "%*s}\n", d
->indent
, "");
3149 if (any_length_seen
)
3152 oprintf (d
->of
, "%*s}\n", d
->indent
, "");
3157 case TYPE_LANG_STRUCT
:
3160 for (nt
= t
->u
.s
.lang_struct
; nt
; nt
= nt
->next
)
3161 if ((d
->bitmap
& nt
->u
.s
.bitmap
) == d
->bitmap
)
3164 error_at_line (d
->line
, "structure `%s' differs between languages",
3171 case TYPE_USER_STRUCT
:
3172 d
->process_field (t
, d
);
3176 case TYPE_UNDEFINED
:
3181 /* process_field routine for marking routines. */
3184 write_types_process_field (type_p f
, const struct walk_type_data
*d
)
3186 const struct write_types_data
*wtd
;
3187 const char *cast
= d
->needs_cast_p
? "(void *)" : "";
3188 wtd
= (const struct write_types_data
*) d
->cookie
;
3193 case TYPE_UNDEFINED
:
3196 oprintf (d
->of
, "%*s%s (%s%s", d
->indent
, "",
3197 wtd
->subfield_marker_routine
, cast
, d
->val
);
3198 if (wtd
->param_prefix
)
3200 if (f
->u
.p
->kind
== TYPE_SCALAR
)
3201 /* The current type is a pointer to a scalar (so not
3202 considered like a pointer to instances of user defined
3203 types) and we are seeing it; it means we must be even
3204 more careful about the second argument of the
3205 SUBFIELD_MARKER_ROUTINE call. That argument must
3206 always be the instance of the type for which
3207 write_func_for_structure was called - this really is
3208 what the function SUBFIELD_MARKER_ROUTINE expects.
3209 That is, it must be an instance of the ORIG_S type
3210 parameter of write_func_for_structure. The convention
3211 is that that argument must be "x" in that case (as set
3212 by write_func_for_structure). The problem is, we can't
3213 count on d->prev_val[3] to be always set to "x" in that
3214 case. Sometimes walk_type can set it to something else
3215 (to e.g cooperate with write_array when called from
3216 write_roots). So let's set it to "x" here then. */
3217 oprintf (d
->of
, ", x");
3219 oprintf (d
->of
, ", %s", d
->prev_val
[3]);
3222 oprintf (d
->of
, ", gt_%s_", wtd
->param_prefix
);
3223 output_mangled_typename (d
->of
, d
->orig_s
);
3226 oprintf (d
->of
, ", gt_%sa_%s", wtd
->param_prefix
, d
->prev_val
[0]);
3228 oprintf (d
->of
, ");\n");
3229 if (d
->reorder_fn
&& wtd
->reorder_note_routine
)
3230 oprintf (d
->of
, "%*s%s (%s%s, %s, %s);\n", d
->indent
, "",
3231 wtd
->reorder_note_routine
, cast
, d
->val
,
3232 d
->prev_val
[3], d
->reorder_fn
);
3238 case TYPE_LANG_STRUCT
:
3239 case TYPE_USER_STRUCT
:
3240 if (f
->kind
== TYPE_USER_STRUCT
&& !d
->in_ptr_field
)
3242 /* If F is a user-defined type and the field is not a
3243 pointer to the type, then we should not generate the
3244 standard pointer-marking code. All we need to do is call
3245 the user-provided marking function to process the fields
3247 oprintf (d
->of
, "%*sgt_%sx (&(%s));\n", d
->indent
, "", wtd
->prefix
,
3252 oprintf (d
->of
, "%*sgt_%s_", d
->indent
, "", wtd
->prefix
);
3253 output_mangled_typename (d
->of
, f
);
3254 oprintf (d
->of
, " (%s%s);\n", cast
, d
->val
);
3255 if (d
->reorder_fn
&& wtd
->reorder_note_routine
)
3256 oprintf (d
->of
, "%*s%s (%s%s, %s%s, %s);\n", d
->indent
, "",
3257 wtd
->reorder_note_routine
, cast
, d
->val
, cast
, d
->val
,
3270 /* Return an output file that is suitable for definitions which can
3271 reference struct S */
3274 get_output_file_for_structure (const_type_p s
)
3276 const input_file
*fn
;
3278 gcc_assert (union_or_struct_p (s
));
3279 fn
= s
->u
.s
.line
.file
;
3281 /* The call to get_output_file_with_visibility may update fn by
3282 caching its result inside, so we need the CONST_CAST. */
3283 return get_output_file_with_visibility (CONST_CAST (input_file
*, fn
));
3287 /* Returns the specifier keyword for a string or union type S, empty string
3291 get_type_specifier (const type_p s
)
3293 if (s
->kind
== TYPE_STRUCT
)
3295 else if (s
->kind
== TYPE_LANG_STRUCT
)
3296 return get_type_specifier (s
->u
.s
.lang_struct
);
3297 else if (s
->kind
== TYPE_UNION
)
3303 /* Emits a declaration for type TY (assumed to be a union or a
3304 structure) on stream OUT. */
3307 write_type_decl (outf_p out
, type_p ty
)
3309 if (union_or_struct_p (ty
))
3310 oprintf (out
, "%s%s", get_type_specifier (ty
), ty
->u
.s
.tag
);
3311 else if (ty
->kind
== TYPE_SCALAR
)
3313 if (ty
->u
.scalar_is_char
)
3314 oprintf (out
, "const char");
3316 oprintf (out
, "void");
3318 else if (ty
->kind
== TYPE_POINTER
)
3320 write_type_decl (out
, ty
->u
.p
);
3321 oprintf (out
, " *");
3323 else if (ty
->kind
== TYPE_ARRAY
)
3325 write_type_decl (out
, ty
->u
.a
.p
);
3326 oprintf (out
, " *");
3328 else if (ty
->kind
== TYPE_STRING
)
3330 oprintf (out
, "const char *");
3337 /* Write on OF the name of the marker function for structure S. PREFIX
3338 is the prefix to use (to distinguish ggc from pch markers). */
3341 write_marker_function_name (outf_p of
, type_p s
, const char *prefix
)
3343 if (union_or_struct_p (s
))
3345 const char *id_for_tag
= filter_type_name (s
->u
.s
.tag
);
3346 oprintf (of
, "gt_%sx_%s", prefix
, id_for_tag
);
3347 if (id_for_tag
!= s
->u
.s
.tag
)
3348 free (CONST_CAST (char *, id_for_tag
));
3354 /* Write on OF a user-callable routine to act as an entry point for
3355 the marking routine for S, generated by write_func_for_structure.
3356 WTD distinguishes between ggc and pch markers. */
3359 write_user_func_for_structure_ptr (outf_p of
, type_p s
, const write_types_data
*wtd
)
3361 gcc_assert (union_or_struct_p (s
));
3363 type_p alias_of
= NULL
;
3364 for (options_p opt
= s
->u
.s
.opt
; opt
; opt
= opt
->next
)
3365 if (strcmp (opt
->name
, "ptr_alias") == 0)
3367 /* ALIAS_OF is set if ORIG_S is marked "ptr_alias". This means that
3368 we do not generate marking code for ORIG_S here. Instead, a
3369 forwarder #define in gtype-desc.h will cause every call to its
3370 marker to call the target of this alias.
3372 However, we still want to create a user entry code for the
3373 aliased type. So, if ALIAS_OF is set, we only generate the
3374 user-callable marker function. */
3375 alias_of
= opt
->info
.type
;
3379 DBGPRINTF ("write_user_func_for_structure_ptr: %s %s", s
->u
.s
.tag
,
3382 /* Only write the function once. */
3383 if (s
->u
.s
.wrote_user_func_for_ptr
[wtd
->kind
])
3385 s
->u
.s
.wrote_user_func_for_ptr
[wtd
->kind
] = true;
3387 oprintf (of
, "\nvoid\n");
3388 oprintf (of
, "gt_%sx (", wtd
->prefix
);
3389 write_type_decl (of
, s
);
3390 oprintf (of
, " *& x)\n");
3391 oprintf (of
, "{\n");
3392 oprintf (of
, " if (x)\n ");
3393 write_marker_function_name (of
,
3394 alias_of
? alias_of
: get_ultimate_base_class (s
),
3396 oprintf (of
, " ((void *) x);\n");
3397 oprintf (of
, "}\n");
3401 /* Write a function to mark all the fields of type S on OF. PREFIX
3402 and D are as in write_user_marking_functions. */
3405 write_user_func_for_structure_body (type_p s
, const char *prefix
,
3406 struct walk_type_data
*d
)
3408 oprintf (d
->of
, "\nvoid\n");
3409 oprintf (d
->of
, "gt_%sx (", prefix
);
3410 write_type_decl (d
->of
, s
);
3411 oprintf (d
->of
, "& x_r ATTRIBUTE_UNUSED)\n");
3412 oprintf (d
->of
, "{\n");
3413 oprintf (d
->of
, " ");
3414 write_type_decl (d
->of
, s
);
3415 oprintf (d
->of
, " * ATTRIBUTE_UNUSED x = &x_r;\n");
3419 oprintf (d
->of
, "}\n");
3422 /* Emit the user-callable functions needed to mark all the types used
3423 by the user structure S. PREFIX is the prefix to use to
3424 distinguish ggc and pch markers. D contains data needed to pass to
3425 walk_type when traversing the fields of a type.
3427 For every type T referenced by S, two routines are generated: one
3428 that takes 'T *', marks the pointer and calls the second routine,
3429 which just marks the fields of T. */
3432 write_user_marking_functions (type_p s
,
3433 const write_types_data
*w
,
3434 struct walk_type_data
*d
)
3436 gcc_assert (s
->kind
== TYPE_USER_STRUCT
);
3438 for (pair_p fld
= s
->u
.s
.fields
; fld
; fld
= fld
->next
)
3440 type_p fld_type
= fld
->type
;
3441 if (fld_type
->kind
== TYPE_POINTER
)
3443 type_p pointed_to_type
= fld_type
->u
.p
;
3444 if (union_or_struct_p (pointed_to_type
))
3445 write_user_func_for_structure_ptr (d
->of
, pointed_to_type
, w
);
3447 else if (union_or_struct_p (fld_type
))
3448 write_user_func_for_structure_body (fld_type
, w
->prefix
, d
);
3453 /* For S, a structure that's part of ORIG_S write out a routine that:
3454 - Takes a parameter, a void * but actually of type *S
3455 - If SEEN_ROUTINE returns nonzero, calls write_types_process_field on each
3456 field of S or its substructures and (in some cases) things
3457 that are pointed to by S. */
3460 write_func_for_structure (type_p orig_s
, type_p s
,
3461 const struct write_types_data
*wtd
)
3463 const char *chain_next
= NULL
;
3464 const char *chain_prev
= NULL
;
3465 const char *chain_circular
= NULL
;
3467 struct walk_type_data d
;
3469 if (s
->u
.s
.base_class
)
3471 /* Verify that the base class has a "desc", since otherwise
3472 the traversal hooks there won't attempt to visit fields of
3473 subclasses such as this one. */
3474 const_type_p ubc
= get_ultimate_base_class (s
);
3475 if ((!opts_have (ubc
->u
.s
.opt
, "user")
3476 && !opts_have (ubc
->u
.s
.opt
, "desc")))
3477 error_at_line (&s
->u
.s
.line
,
3478 ("'%s' is a subclass of non-GTY(user) GTY class '%s'"
3479 ", but '%s' lacks a discriminator 'desc' option"),
3480 s
->u
.s
.tag
, ubc
->u
.s
.tag
, ubc
->u
.s
.tag
);
3482 /* Don't write fns for subclasses, only for the ultimate base class
3483 within an inheritance hierarchy. */
3487 memset (&d
, 0, sizeof (d
));
3488 d
.of
= get_output_file_for_structure (s
);
3490 bool for_user
= false;
3491 for (opt
= s
->u
.s
.opt
; opt
; opt
= opt
->next
)
3492 if (strcmp (opt
->name
, "chain_next") == 0
3493 && opt
->kind
== OPTION_STRING
)
3494 chain_next
= opt
->info
.string
;
3495 else if (strcmp (opt
->name
, "chain_prev") == 0
3496 && opt
->kind
== OPTION_STRING
)
3497 chain_prev
= opt
->info
.string
;
3498 else if (strcmp (opt
->name
, "chain_circular") == 0
3499 && opt
->kind
== OPTION_STRING
)
3500 chain_circular
= opt
->info
.string
;
3501 else if (strcmp (opt
->name
, "for_user") == 0)
3503 if (chain_prev
!= NULL
&& chain_next
== NULL
)
3504 error_at_line (&s
->u
.s
.line
, "chain_prev without chain_next");
3505 if (chain_circular
!= NULL
&& chain_next
!= NULL
)
3506 error_at_line (&s
->u
.s
.line
, "chain_circular with chain_next");
3507 if (chain_circular
!= NULL
)
3508 chain_next
= chain_circular
;
3510 d
.process_field
= write_types_process_field
;
3514 d
.line
= &s
->u
.s
.line
;
3515 d
.bitmap
= s
->u
.s
.bitmap
;
3516 d
.prev_val
[0] = "*x";
3517 d
.prev_val
[1] = "not valid postage"; /* Guarantee an error. */
3518 d
.prev_val
[3] = "x";
3520 d
.have_this_obj
= false;
3522 oprintf (d
.of
, "\n");
3523 oprintf (d
.of
, "void\n");
3524 write_marker_function_name (d
.of
, orig_s
, wtd
->prefix
);
3525 oprintf (d
.of
, " (void *x_p)\n");
3526 oprintf (d
.of
, "{\n ");
3527 write_type_decl (d
.of
, s
);
3528 oprintf (d
.of
, " * %sx = (", chain_next
== NULL
? "const " : "");
3529 write_type_decl (d
.of
, s
);
3530 oprintf (d
.of
, " *)x_p;\n");
3531 if (chain_next
!= NULL
)
3533 /* TYPE_USER_STRUCTs should not occur here. These structures
3534 are completely handled by user code. */
3535 gcc_assert (orig_s
->kind
!= TYPE_USER_STRUCT
);
3537 oprintf (d
.of
, " ");
3538 write_type_decl (d
.of
, s
);
3539 oprintf (d
.of
, " * xlimit = x;\n");
3541 if (chain_next
== NULL
)
3543 oprintf (d
.of
, " if (%s (x", wtd
->marker_routine
);
3544 if (wtd
->param_prefix
)
3546 oprintf (d
.of
, ", x, gt_%s_", wtd
->param_prefix
);
3547 output_mangled_typename (d
.of
, orig_s
);
3549 oprintf (d
.of
, "))\n");
3553 if (chain_circular
!= NULL
)
3554 oprintf (d
.of
, " if (!%s (xlimit", wtd
->marker_routine
);
3556 oprintf (d
.of
, " while (%s (xlimit", wtd
->marker_routine
);
3557 if (wtd
->param_prefix
)
3559 oprintf (d
.of
, ", xlimit, gt_%s_", wtd
->param_prefix
);
3560 output_mangled_typename (d
.of
, orig_s
);
3562 oprintf (d
.of
, "))\n");
3563 if (chain_circular
!= NULL
)
3564 oprintf (d
.of
, " return;\n do\n");
3566 oprintf (d
.of
, " xlimit = (");
3567 d
.prev_val
[2] = "*xlimit";
3568 output_escaped_param (&d
, chain_next
, "chain_next");
3569 oprintf (d
.of
, ");\n");
3570 if (chain_prev
!= NULL
)
3572 oprintf (d
.of
, " if (x != xlimit)\n");
3573 oprintf (d
.of
, " for (;;)\n");
3574 oprintf (d
.of
, " {\n");
3575 oprintf (d
.of
, " %s %s * const xprev = (",
3576 s
->kind
== TYPE_UNION
? "union" : "struct", s
->u
.s
.tag
);
3578 d
.prev_val
[2] = "*x";
3579 output_escaped_param (&d
, chain_prev
, "chain_prev");
3580 oprintf (d
.of
, ");\n");
3581 oprintf (d
.of
, " if (xprev == NULL) break;\n");
3582 oprintf (d
.of
, " x = xprev;\n");
3583 oprintf (d
.of
, " (void) %s (xprev", wtd
->marker_routine
);
3584 if (wtd
->param_prefix
)
3586 oprintf (d
.of
, ", xprev, gt_%s_", wtd
->param_prefix
);
3587 output_mangled_typename (d
.of
, orig_s
);
3589 oprintf (d
.of
, ");\n");
3590 oprintf (d
.of
, " }\n");
3592 if (chain_circular
!= NULL
)
3594 oprintf (d
.of
, " while (%s (xlimit", wtd
->marker_routine
);
3595 if (wtd
->param_prefix
)
3597 oprintf (d
.of
, ", xlimit, gt_%s_", wtd
->param_prefix
);
3598 output_mangled_typename (d
.of
, orig_s
);
3600 oprintf (d
.of
, "));\n");
3601 oprintf (d
.of
, " do\n");
3604 oprintf (d
.of
, " while (x != xlimit)\n");
3606 oprintf (d
.of
, " {\n");
3608 d
.prev_val
[2] = "*x";
3610 if (orig_s
->kind
!= TYPE_USER_STRUCT
)
3614 /* User structures have no fields to walk. Simply generate a call
3615 to the user-provided structure marker. */
3616 oprintf (d
.of
, "%*sgt_%sx (x);\n", d
.indent
, "", wtd
->prefix
);
3619 if (chain_next
!= NULL
)
3621 oprintf (d
.of
, " x = (");
3622 output_escaped_param (&d
, chain_next
, "chain_next");
3623 oprintf (d
.of
, ");\n");
3626 oprintf (d
.of
, " }\n");
3627 if (chain_circular
!= NULL
)
3628 oprintf (d
.of
, " while (x != xlimit);\n");
3629 oprintf (d
.of
, "}\n");
3631 if (orig_s
->kind
== TYPE_USER_STRUCT
)
3632 write_user_marking_functions (orig_s
, wtd
, &d
);
3636 write_user_func_for_structure_body (orig_s
, wtd
->prefix
, &d
);
3637 write_user_func_for_structure_ptr (d
.of
, orig_s
, wtd
);
3642 /* Write out marker routines for STRUCTURES and PARAM_STRUCTS. */
3645 write_types (outf_p output_header
, type_p structures
,
3646 const struct write_types_data
*wtd
)
3648 int nbfun
= 0; /* Count the emitted functions. */
3651 oprintf (output_header
, "\n/* %s*/\n", wtd
->comment
);
3653 /* We first emit the macros and the declarations. Functions' code is
3654 emitted afterwards. This is needed in plugin mode. */
3655 oprintf (output_header
, "/* Macros and declarations. */\n");
3656 for (s
= structures
; s
; s
= s
->next
)
3657 /* Do not emit handlers for derived classes; we only ever deal with
3658 the ultimate base class within an inheritance hierarchy. */
3659 if ((s
->gc_used
== GC_POINTED_TO
|| s
->gc_used
== GC_MAYBE_POINTED_TO
)
3660 && !s
->u
.s
.base_class
)
3664 if (s
->gc_used
== GC_MAYBE_POINTED_TO
&& s
->u
.s
.line
.file
== NULL
)
3667 const char *s_id_for_tag
= filter_type_name (s
->u
.s
.tag
);
3669 oprintf (output_header
, "#define gt_%s_", wtd
->prefix
);
3670 output_mangled_typename (output_header
, s
);
3671 oprintf (output_header
, "(X) do { \\\n");
3672 oprintf (output_header
,
3673 " if (X != NULL) gt_%sx_%s (X);\\\n", wtd
->prefix
,
3675 oprintf (output_header
, " } while (0)\n");
3677 for (opt
= s
->u
.s
.opt
; opt
; opt
= opt
->next
)
3678 if (strcmp (opt
->name
, "ptr_alias") == 0
3679 && opt
->kind
== OPTION_TYPE
)
3681 const_type_p
const t
= (const_type_p
) opt
->info
.type
;
3682 if (t
->kind
== TYPE_STRUCT
3683 || t
->kind
== TYPE_UNION
|| t
->kind
== TYPE_LANG_STRUCT
)
3685 const char *t_id_for_tag
= filter_type_name (t
->u
.s
.tag
);
3686 oprintf (output_header
,
3687 "#define gt_%sx_%s gt_%sx_%s\n",
3688 wtd
->prefix
, s
->u
.s
.tag
, wtd
->prefix
, t_id_for_tag
);
3689 if (t_id_for_tag
!= t
->u
.s
.tag
)
3690 free (CONST_CAST (char *, t_id_for_tag
));
3693 error_at_line (&s
->u
.s
.line
,
3694 "structure alias is not a structure");
3700 /* Declare the marker procedure only once. */
3701 oprintf (output_header
,
3702 "extern void gt_%sx_%s (void *);\n",
3703 wtd
->prefix
, s_id_for_tag
);
3705 if (s_id_for_tag
!= s
->u
.s
.tag
)
3706 free (CONST_CAST (char *, s_id_for_tag
));
3708 if (s
->u
.s
.line
.file
== NULL
)
3710 fprintf (stderr
, "warning: structure `%s' used but not defined\n",
3716 /* At last we emit the functions code. */
3717 oprintf (output_header
, "\n/* functions code */\n");
3718 for (s
= structures
; s
; s
= s
->next
)
3719 if (s
->gc_used
== GC_POINTED_TO
|| s
->gc_used
== GC_MAYBE_POINTED_TO
)
3723 if (s
->gc_used
== GC_MAYBE_POINTED_TO
&& s
->u
.s
.line
.file
== NULL
)
3725 for (opt
= s
->u
.s
.opt
; opt
; opt
= opt
->next
)
3726 if (strcmp (opt
->name
, "ptr_alias") == 0)
3731 if (s
->kind
== TYPE_LANG_STRUCT
)
3734 for (ss
= s
->u
.s
.lang_struct
; ss
; ss
= ss
->next
)
3737 DBGPRINTF ("writing func #%d lang_struct ss @ %p '%s'",
3738 nbfun
, (void*) ss
, ss
->u
.s
.tag
);
3739 write_func_for_structure (s
, ss
, wtd
);
3745 DBGPRINTF ("writing func #%d struct s @ %p '%s'",
3746 nbfun
, (void*) s
, s
->u
.s
.tag
);
3747 write_func_for_structure (s
, s
, wtd
);
3752 /* Structure s is not possibly pointed to, so can be ignored. */
3753 DBGPRINTF ("ignored s @ %p '%s' gc_used#%d",
3754 (void*)s
, s
->u
.s
.tag
,
3758 if (verbosity_level
>= 2)
3759 printf ("%s emitted %d routines for %s\n",
3760 progname
, nbfun
, wtd
->comment
);
3763 static const struct write_types_data ggc_wtd
= {
3764 "ggc_m", NULL
, "ggc_mark", "ggc_test_and_set_mark", NULL
,
3765 "GC marker procedures. ",
3769 static const struct write_types_data pch_wtd
= {
3770 "pch_n", "pch_p", "gt_pch_note_object", "gt_pch_note_object",
3771 "gt_pch_note_reorder",
3772 "PCH type-walking procedures. ",
3776 /* Write out the local pointer-walking routines. */
3778 /* process_field routine for local pointer-walking for user-callable
3779 routines. The difference between this and
3780 write_types_local_process_field is that, in this case, we do not
3781 need to check whether the given pointer matches the address of the
3782 parent structure. This check was already generated by the call
3783 to gt_pch_nx in the main gt_pch_p_*() function that is calling
3787 write_types_local_user_process_field (type_p f
, const struct walk_type_data
*d
)
3794 case TYPE_LANG_STRUCT
:
3796 oprintf (d
->of
, "%*s op (&(%s), cookie);\n", d
->indent
, "", d
->val
);
3799 case TYPE_USER_STRUCT
:
3800 if (d
->in_ptr_field
)
3801 oprintf (d
->of
, "%*s op (&(%s), cookie);\n", d
->indent
, "", d
->val
);
3803 oprintf (d
->of
, "%*s gt_pch_nx (&(%s), op, cookie);\n",
3804 d
->indent
, "", d
->val
);
3812 case TYPE_UNDEFINED
:
3818 /* Write a function to PCH walk all the fields of type S on OF.
3819 D contains data needed by walk_type to recurse into the fields of S. */
3822 write_pch_user_walking_for_structure_body (type_p s
, struct walk_type_data
*d
)
3824 oprintf (d
->of
, "\nvoid\n");
3825 oprintf (d
->of
, "gt_pch_nx (");
3826 write_type_decl (d
->of
, s
);
3827 oprintf (d
->of
, "* x ATTRIBUTE_UNUSED,\n"
3828 "\tATTRIBUTE_UNUSED gt_pointer_operator op,\n"
3829 "\tATTRIBUTE_UNUSED void *cookie)\n");
3830 oprintf (d
->of
, "{\n");
3833 d
->process_field
= write_types_local_user_process_field
;
3835 oprintf (d
->of
, "}\n");
3839 /* Emit the user-callable functions needed to mark all the types used
3840 by the user structure S. PREFIX is the prefix to use to
3841 distinguish ggc and pch markers. CHAIN_NEXT is set if S has the
3842 chain_next option defined. D contains data needed to pass to
3843 walk_type when traversing the fields of a type.
3845 For every type T referenced by S, two routines are generated: one
3846 that takes 'T *', marks the pointer and calls the second routine,
3847 which just marks the fields of T. */
3850 write_pch_user_walking_functions (type_p s
, struct walk_type_data
*d
)
3852 gcc_assert (s
->kind
== TYPE_USER_STRUCT
);
3854 for (pair_p fld
= s
->u
.s
.fields
; fld
; fld
= fld
->next
)
3856 type_p fld_type
= fld
->type
;
3857 if (union_or_struct_p (fld_type
))
3858 write_pch_user_walking_for_structure_body (fld_type
, d
);
3863 /* process_field routine for local pointer-walking. */
3866 write_types_local_process_field (type_p f
, const struct walk_type_data
*d
)
3868 gcc_assert (d
->have_this_obj
);
3874 case TYPE_LANG_STRUCT
:
3876 oprintf (d
->of
, "%*sif ((void *)(%s) == this_obj)\n", d
->indent
, "",
3878 oprintf (d
->of
, "%*s op (&(%s), cookie);\n", d
->indent
, "", d
->val
);
3881 case TYPE_USER_STRUCT
:
3882 oprintf (d
->of
, "%*sif ((void *)(%s) == this_obj)\n", d
->indent
, "",
3884 if (d
->in_ptr_field
)
3885 oprintf (d
->of
, "%*s op (&(%s), cookie);\n", d
->indent
, "", d
->val
);
3887 oprintf (d
->of
, "%*s gt_pch_nx (&(%s), op, cookie);\n",
3888 d
->indent
, "", d
->val
);
3896 case TYPE_UNDEFINED
:
3902 /* For S, a structure that's part of ORIG_S, and using parameters
3903 PARAM, write out a routine that:
3904 - Is of type gt_note_pointers
3905 - Calls PROCESS_FIELD on each field of S or its substructures.
3909 write_local_func_for_structure (const_type_p orig_s
, type_p s
)
3911 struct walk_type_data d
;
3913 /* Don't write fns for subclasses, only for the ultimate base class
3914 within an inheritance hierarchy. */
3915 if (s
->u
.s
.base_class
)
3918 memset (&d
, 0, sizeof (d
));
3919 d
.of
= get_output_file_for_structure (s
);
3920 d
.process_field
= write_types_local_process_field
;
3922 d
.line
= &s
->u
.s
.line
;
3923 d
.bitmap
= s
->u
.s
.bitmap
;
3924 d
.prev_val
[0] = d
.prev_val
[2] = "*x";
3925 d
.prev_val
[1] = "not valid postage"; /* Guarantee an error. */
3926 d
.prev_val
[3] = "x";
3928 d
.fn_wants_lvalue
= true;
3930 oprintf (d
.of
, "\n");
3931 oprintf (d
.of
, "void\n");
3932 oprintf (d
.of
, "gt_pch_p_");
3933 output_mangled_typename (d
.of
, orig_s
);
3934 oprintf (d
.of
, " (ATTRIBUTE_UNUSED void *this_obj,\n"
3936 "\tATTRIBUTE_UNUSED gt_pointer_operator op,\n"
3937 "\tATTRIBUTE_UNUSED void *cookie)\n");
3938 oprintf (d
.of
, "{\n");
3939 oprintf (d
.of
, " %s %s * x ATTRIBUTE_UNUSED = (%s %s *)x_p;\n",
3940 s
->kind
== TYPE_UNION
? "union" : "struct", s
->u
.s
.tag
,
3941 s
->kind
== TYPE_UNION
? "union" : "struct", s
->u
.s
.tag
);
3943 d
.have_this_obj
= true;
3945 if (s
->kind
!= TYPE_USER_STRUCT
)
3949 /* User structures have no fields to walk. Simply generate a
3950 call to the user-provided PCH walker. */
3951 oprintf (d
.of
, "%*sif ((void *)(%s) == this_obj)\n", d
.indent
, "",
3953 oprintf (d
.of
, "%*s gt_pch_nx (&(%s), op, cookie);\n",
3954 d
.indent
, "", d
.val
);
3957 oprintf (d
.of
, "}\n");
3959 /* Write user-callable entry points for the PCH walking routines. */
3960 if (orig_s
->kind
== TYPE_USER_STRUCT
)
3961 write_pch_user_walking_functions (s
, &d
);
3963 for (options_p o
= s
->u
.s
.opt
; o
; o
= o
->next
)
3964 if (strcmp (o
->name
, "for_user") == 0)
3966 write_pch_user_walking_for_structure_body (s
, &d
);
3971 /* Write out local marker routines for STRUCTURES and PARAM_STRUCTS. */
3974 write_local (outf_p output_header
, type_p structures
)
3981 oprintf (output_header
, "\n/* Local pointer-walking routines. */\n");
3982 for (s
= structures
; s
; s
= s
->next
)
3983 if (s
->gc_used
== GC_POINTED_TO
|| s
->gc_used
== GC_MAYBE_POINTED_TO
)
3987 if (s
->u
.s
.line
.file
== NULL
)
3989 for (opt
= s
->u
.s
.opt
; opt
; opt
= opt
->next
)
3990 if (strcmp (opt
->name
, "ptr_alias") == 0
3991 && opt
->kind
== OPTION_TYPE
)
3993 const_type_p
const t
= (const_type_p
) opt
->info
.type
;
3994 if (t
->kind
== TYPE_STRUCT
3995 || t
->kind
== TYPE_UNION
|| t
->kind
== TYPE_LANG_STRUCT
)
3997 oprintf (output_header
, "#define gt_pch_p_");
3998 output_mangled_typename (output_header
, s
);
3999 oprintf (output_header
, " gt_pch_p_");
4000 output_mangled_typename (output_header
, t
);
4001 oprintf (output_header
, "\n");
4004 error_at_line (&s
->u
.s
.line
,
4005 "structure alias is not a structure");
4011 /* Declare the marker procedure only once. */
4012 oprintf (output_header
, "extern void gt_pch_p_");
4013 output_mangled_typename (output_header
, s
);
4014 oprintf (output_header
,
4015 "\n (void *, void *, gt_pointer_operator, void *);\n");
4017 if (s
->kind
== TYPE_LANG_STRUCT
)
4020 for (ss
= s
->u
.s
.lang_struct
; ss
; ss
= ss
->next
)
4021 write_local_func_for_structure (s
, ss
);
4024 write_local_func_for_structure (s
, s
);
4028 /* Nonzero if S is a type for which typed GC allocators should be output. */
4030 #define USED_BY_TYPED_GC_P(s) \
4031 ((s->kind == TYPE_POINTER \
4032 && (s->u.p->gc_used == GC_POINTED_TO \
4033 || s->u.p->gc_used == GC_USED)) \
4034 || (union_or_struct_p (s) \
4035 && ((s)->gc_used == GC_POINTED_TO \
4036 || ((s)->gc_used == GC_MAYBE_POINTED_TO \
4037 && s->u.s.line.file != NULL) \
4038 || ((s)->gc_used == GC_USED \
4039 && strncmp (s->u.s.tag, "anonymous", strlen ("anonymous"))) \
4040 || (s->u.s.base_class && opts_have (s->u.s.opt, "tag")))))
4044 /* Might T contain any non-pointer elements? */
4047 contains_scalar_p (type_p t
)
4055 return contains_scalar_p (t
->u
.a
.p
);
4056 case TYPE_USER_STRUCT
:
4057 /* User-marked structures will typically contain pointers. */
4060 /* Could also check for structures that have no non-pointer
4061 fields, but there aren't enough of those to worry about. */
4066 /* Mangle INPF and print it to F. */
4069 put_mangled_filename (outf_p f
, const input_file
*inpf
)
4071 /* The call to get_output_file_name may indirectly update fn since
4072 get_output_file_with_visibility caches its result inside, so we
4073 need the CONST_CAST. */
4074 const char *name
= get_output_file_name (CONST_CAST (input_file
*, inpf
));
4077 for (; *name
!= 0; name
++)
4078 if (ISALNUM (*name
))
4079 oprintf (f
, "%c", *name
);
4081 oprintf (f
, "%c", '_');
4084 /* Finish off the currently-created root tables in FLP. PFX, TNAME,
4085 LASTNAME, and NAME are all strings to insert in various places in
4086 the resulting code. */
4089 finish_root_table (struct flist
*flp
, const char *pfx
, const char *lastname
,
4090 const char *tname
, const char *name
)
4094 for (fli2
= flp
; fli2
; fli2
= fli2
->next
)
4095 if (fli2
->started_p
)
4097 oprintf (fli2
->f
, " %s\n", lastname
);
4098 oprintf (fli2
->f
, "};\n\n");
4101 for (fli2
= flp
; fli2
&& base_files
; fli2
= fli2
->next
)
4102 if (fli2
->started_p
)
4104 lang_bitmap bitmap
= get_lang_bitmap (fli2
->file
);
4107 for (fnum
= 0; bitmap
!= 0; fnum
++, bitmap
>>= 1)
4110 oprintf (base_files
[fnum
],
4111 "extern const struct %s gt_%s_", tname
, pfx
);
4112 put_mangled_filename (base_files
[fnum
], fli2
->file
);
4113 oprintf (base_files
[fnum
], "[];\n");
4119 for (fnum
= 0; base_files
&& fnum
< num_lang_dirs
; fnum
++)
4120 oprintf (base_files
[fnum
],
4121 "EXPORTED_CONST struct %s * const %s[] = {\n", tname
, name
);
4125 for (fli2
= flp
; fli2
; fli2
= fli2
->next
)
4126 if (fli2
->started_p
)
4128 lang_bitmap bitmap
= get_lang_bitmap (fli2
->file
);
4131 fli2
->started_p
= 0;
4133 for (fnum
= 0; base_files
&& bitmap
!= 0; fnum
++, bitmap
>>= 1)
4136 oprintf (base_files
[fnum
], " gt_%s_", pfx
);
4137 put_mangled_filename (base_files
[fnum
], fli2
->file
);
4138 oprintf (base_files
[fnum
], ",\n");
4144 for (fnum
= 0; base_files
&& fnum
< num_lang_dirs
; fnum
++)
4146 oprintf (base_files
[fnum
], " NULL\n");
4147 oprintf (base_files
[fnum
], "};\n");
4152 /* Finish off the created gt_clear_caches_file_c functions. */
4155 finish_cache_funcs (flist
*flp
)
4159 for (fli2
= flp
; fli2
; fli2
= fli2
->next
)
4160 if (fli2
->started_p
)
4162 oprintf (fli2
->f
, "}\n\n");
4165 for (fli2
= flp
; fli2
&& base_files
; fli2
= fli2
->next
)
4166 if (fli2
->started_p
)
4168 lang_bitmap bitmap
= get_lang_bitmap (fli2
->file
);
4171 for (fnum
= 0; bitmap
!= 0; fnum
++, bitmap
>>= 1)
4174 oprintf (base_files
[fnum
], "extern void gt_clear_caches_");
4175 put_mangled_filename (base_files
[fnum
], fli2
->file
);
4176 oprintf (base_files
[fnum
], " ();\n");
4180 for (size_t fnum
= 0; base_files
&& fnum
< num_lang_dirs
; fnum
++)
4181 oprintf (base_files
[fnum
], "void\ngt_clear_caches ()\n{\n");
4183 for (fli2
= flp
; fli2
; fli2
= fli2
->next
)
4184 if (fli2
->started_p
)
4186 lang_bitmap bitmap
= get_lang_bitmap (fli2
->file
);
4189 fli2
->started_p
= 0;
4191 for (fnum
= 0; base_files
&& bitmap
!= 0; fnum
++, bitmap
>>= 1)
4194 oprintf (base_files
[fnum
], " gt_clear_caches_");
4195 put_mangled_filename (base_files
[fnum
], fli2
->file
);
4196 oprintf (base_files
[fnum
], " ();\n");
4200 for (size_t fnum
= 0; base_files
&& fnum
< num_lang_dirs
; fnum
++)
4202 oprintf (base_files
[fnum
], "}\n");
4206 /* Write the first three fields (pointer, count and stride) for
4207 root NAME to F. V and LINE are as for write_root.
4209 Return true if the entry could be written; return false on error. */
4212 start_root_entry (outf_p f
, pair_p v
, const char *name
, struct fileloc
*line
)
4218 error_at_line (line
, "`%s' is too complex to be a root", name
);
4222 oprintf (f
, " {\n");
4223 oprintf (f
, " &%s,\n", name
);
4226 for (ap
= v
->type
; ap
->kind
== TYPE_ARRAY
; ap
= ap
->u
.a
.p
)
4228 oprintf (f
, " * (%s)", ap
->u
.a
.len
);
4229 else if (ap
== v
->type
)
4230 oprintf (f
, " * ARRAY_SIZE (%s)", v
->name
);
4232 oprintf (f
, " sizeof (%s", v
->name
);
4233 for (ap
= v
->type
; ap
->kind
== TYPE_ARRAY
; ap
= ap
->u
.a
.p
)
4235 oprintf (f
, "),\n");
4239 /* A subroutine of write_root for writing the roots for field FIELD_NAME,
4240 which has type FIELD_TYPE. Parameters F to EMIT_PCH are the parameters
4244 write_field_root (outf_p f
, pair_p v
, type_p type
, const char *name
,
4245 int has_length
, struct fileloc
*line
,
4246 bool emit_pch
, type_p field_type
, const char *field_name
)
4249 /* If the field reference is relative to V, rather than to some
4250 subcomponent of V, we can mark any subarrays with a single stride.
4251 We're effectively treating the field as a global variable in its
4253 if (v
&& type
== v
->type
)
4256 newv
.type
= field_type
;
4257 newv
.name
= ACONCAT ((v
->name
, ".", field_name
, NULL
));
4260 /* Otherwise, any arrays nested in the structure are too complex to
4262 else if (field_type
->kind
== TYPE_ARRAY
)
4264 write_root (f
, v
, field_type
, ACONCAT ((name
, ".", field_name
, NULL
)),
4265 has_length
, line
, emit_pch
);
4268 /* Write out to F the table entry and any marker routines needed to
4269 mark NAME as TYPE. V can be one of three values:
4271 - null, if NAME is too complex to represent using a single
4272 count and stride. In this case, it is an error for NAME to
4273 contain any gc-ed data.
4275 - the outermost array that contains NAME, if NAME is part of an array.
4277 - the C variable that contains NAME, if NAME is not part of an array.
4279 LINE is the line of the C source that declares the root variable.
4280 HAS_LENGTH is nonzero iff V was a variable-length array. */
4283 write_root (outf_p f
, pair_p v
, type_p type
, const char *name
, int has_length
,
4284 struct fileloc
*line
, bool emit_pch
)
4291 for (fld
= type
->u
.s
.fields
; fld
; fld
= fld
->next
)
4294 const char *desc
= NULL
;
4297 for (o
= fld
->opt
; o
; o
= o
->next
)
4298 if (strcmp (o
->name
, "skip") == 0)
4300 else if (strcmp (o
->name
, "desc") == 0
4301 && o
->kind
== OPTION_STRING
)
4302 desc
= o
->info
.string
;
4304 error_at_line (line
,
4305 "field `%s' of global `%s' has unknown option `%s'",
4306 fld
->name
, name
, o
->name
);
4310 else if (desc
&& fld
->type
->kind
== TYPE_UNION
)
4312 pair_p validf
= NULL
;
4315 for (ufld
= fld
->type
->u
.s
.fields
; ufld
; ufld
= ufld
->next
)
4317 const char *tag
= NULL
;
4319 for (oo
= ufld
->opt
; oo
; oo
= oo
->next
)
4320 if (strcmp (oo
->name
, "tag") == 0
4321 && oo
->kind
== OPTION_STRING
)
4322 tag
= oo
->info
.string
;
4323 if (tag
== NULL
|| strcmp (tag
, desc
) != 0)
4326 error_at_line (line
,
4327 "both `%s.%s.%s' and `%s.%s.%s' have tag `%s'",
4328 name
, fld
->name
, validf
->name
,
4329 name
, fld
->name
, ufld
->name
, tag
);
4333 write_field_root (f
, v
, type
, name
, 0, line
, emit_pch
,
4335 ACONCAT ((fld
->name
, ".",
4336 validf
->name
, NULL
)));
4339 error_at_line (line
,
4340 "global `%s.%s' has `desc' option but is not union",
4343 write_field_root (f
, v
, type
, name
, 0, line
, emit_pch
, fld
->type
,
4352 newname
= xasprintf ("%s[0]", name
);
4353 write_root (f
, v
, type
->u
.a
.p
, newname
, has_length
, line
, emit_pch
);
4358 case TYPE_USER_STRUCT
:
4359 error_at_line (line
, "`%s' must be a pointer type, because it is "
4360 "a GC root and its type is marked with GTY((user))",
4368 if (!start_root_entry (f
, v
, name
, line
))
4373 if (!has_length
&& union_or_struct_p (tp
))
4375 tp
= get_ultimate_base_class (tp
);
4376 const char *id_for_tag
= filter_type_name (tp
->u
.s
.tag
);
4377 oprintf (f
, " >_ggc_mx_%s,\n", id_for_tag
);
4379 oprintf (f
, " >_pch_nx_%s", id_for_tag
);
4381 oprintf (f
, " NULL");
4382 if (id_for_tag
!= tp
->u
.s
.tag
)
4383 free (CONST_CAST (char *, id_for_tag
));
4386 && (tp
->kind
== TYPE_POINTER
|| union_or_struct_p (tp
)))
4388 oprintf (f
, " >_ggc_ma_%s,\n", name
);
4390 oprintf (f
, " >_pch_na_%s", name
);
4392 oprintf (f
, " NULL");
4396 error_at_line (line
,
4397 "global `%s' is pointer to unimplemented type",
4400 oprintf (f
, "\n },\n");
4406 if (!start_root_entry (f
, v
, name
, line
))
4409 oprintf (f
, " (gt_pointer_walker) >_ggc_m_S,\n");
4410 oprintf (f
, " (gt_pointer_walker) >_pch_n_S\n");
4411 oprintf (f
, " },\n");
4419 case TYPE_UNDEFINED
:
4421 case TYPE_LANG_STRUCT
:
4422 error_at_line (line
, "global `%s' is unimplemented type", name
);
4426 /* This generates a routine to walk an array. */
4429 write_array (outf_p f
, pair_p v
, const struct write_types_data
*wtd
)
4431 struct walk_type_data d
;
4434 memset (&d
, 0, sizeof (d
));
4440 d
.bitmap
= get_lang_bitmap (v
->line
.file
);
4442 d
.prev_val
[3] = prevval3
= xasprintf ("&%s", v
->name
);
4444 if (wtd
->param_prefix
)
4446 oprintf (f
, "static void gt_%sa_%s\n", wtd
->param_prefix
, v
->name
);
4447 oprintf (f
, " (void *, void *, gt_pointer_operator, void *);\n");
4448 oprintf (f
, "static void gt_%sa_%s (ATTRIBUTE_UNUSED void *this_obj,\n",
4449 wtd
->param_prefix
, v
->name
);
4451 " ATTRIBUTE_UNUSED void *x_p,\n"
4452 " ATTRIBUTE_UNUSED gt_pointer_operator op,\n"
4453 " ATTRIBUTE_UNUSED void * cookie)\n");
4454 oprintf (d
.of
, "{\n");
4455 d
.prev_val
[0] = d
.prev_val
[1] = d
.prev_val
[2] = d
.val
= v
->name
;
4456 d
.process_field
= write_types_local_process_field
;
4457 d
.have_this_obj
= true;
4458 walk_type (v
->type
, &d
);
4459 oprintf (f
, "}\n\n");
4463 oprintf (f
, "static void gt_%sa_%s (void *);\n", wtd
->prefix
, v
->name
);
4464 oprintf (f
, "static void\ngt_%sa_%s (ATTRIBUTE_UNUSED void *x_p)\n",
4465 wtd
->prefix
, v
->name
);
4467 d
.prev_val
[0] = d
.prev_val
[1] = d
.prev_val
[2] = d
.val
= v
->name
;
4468 d
.process_field
= write_types_process_field
;
4469 d
.have_this_obj
= false;
4470 walk_type (v
->type
, &d
);
4472 oprintf (f
, "}\n\n");
4475 /* Output a table describing the locations and types of VARIABLES. */
4478 write_roots (pair_p variables
, bool emit_pch
)
4481 struct flist
*flp
= NULL
;
4483 for (v
= variables
; v
; v
= v
->next
)
4486 get_output_file_with_visibility (CONST_CAST (input_file
*,
4489 const char *length
= NULL
;
4490 int deletable_p
= 0;
4492 for (o
= v
->opt
; o
; o
= o
->next
)
4493 if (strcmp (o
->name
, "length") == 0
4494 && o
->kind
== OPTION_STRING
)
4495 length
= o
->info
.string
;
4496 else if (strcmp (o
->name
, "deletable") == 0)
4498 else if (strcmp (o
->name
, "cache") == 0)
4501 error_at_line (&v
->line
,
4502 "global `%s' has unknown option `%s'",
4505 for (fli
= flp
; fli
; fli
= fli
->next
)
4506 if (fli
->f
== f
&& f
)
4510 fli
= XNEW (struct flist
);
4514 fli
->file
= v
->line
.file
;
4515 gcc_assert (fli
->file
);
4518 oprintf (f
, "\n/* GC roots. */\n\n");
4523 && v
->type
->kind
== TYPE_POINTER
4524 && (v
->type
->u
.p
->kind
== TYPE_POINTER
4525 || v
->type
->u
.p
->kind
== TYPE_STRUCT
))
4527 write_array (f
, v
, &ggc_wtd
);
4528 write_array (f
, v
, &pch_wtd
);
4532 for (v
= variables
; v
; v
= v
->next
)
4534 outf_p f
= get_output_file_with_visibility (CONST_CAST (input_file
*,
4541 for (o
= v
->opt
; o
; o
= o
->next
)
4542 if (strcmp (o
->name
, "length") == 0)
4544 else if (strcmp (o
->name
, "deletable") == 0)
4550 for (fli
= flp
; fli
; fli
= fli
->next
)
4553 if (!fli
->started_p
)
4557 oprintf (f
, "EXPORTED_CONST struct ggc_root_tab gt_ggc_r_");
4558 put_mangled_filename (f
, v
->line
.file
);
4559 oprintf (f
, "[] = {\n");
4562 write_root (f
, v
, v
->type
, v
->name
, length_p
, &v
->line
, emit_pch
);
4565 finish_root_table (flp
, "ggc_r", "LAST_GGC_ROOT_TAB", "ggc_root_tab",
4568 for (v
= variables
; v
; v
= v
->next
)
4570 outf_p f
= get_output_file_with_visibility (CONST_CAST (input_file
*,
4576 for (o
= v
->opt
; o
; o
= o
->next
)
4577 if (strcmp (o
->name
, "deletable") == 0)
4583 for (fli
= flp
; fli
; fli
= fli
->next
)
4586 if (!fli
->started_p
)
4590 oprintf (f
, "EXPORTED_CONST struct ggc_root_tab gt_ggc_rd_");
4591 put_mangled_filename (f
, v
->line
.file
);
4592 oprintf (f
, "[] = {\n");
4595 oprintf (f
, " { &%s, 1, sizeof (%s), NULL, NULL },\n",
4599 finish_root_table (flp
, "ggc_rd", "LAST_GGC_ROOT_TAB", "ggc_root_tab",
4600 "gt_ggc_deletable_rtab");
4602 for (v
= variables
; v
; v
= v
->next
)
4604 outf_p f
= get_output_file_with_visibility (CONST_CAST (input_file
*,
4610 for (o
= v
->opt
; o
; o
= o
->next
)
4611 if (strcmp (o
->name
, "cache") == 0)
4616 for (fli
= flp
; fli
; fli
= fli
->next
)
4619 if (!fli
->started_p
)
4623 oprintf (f
, "void\ngt_clear_caches_");
4624 put_mangled_filename (f
, v
->line
.file
);
4625 oprintf (f
, " ()\n{\n");
4628 oprintf (f
, " gt_cleare_cache (%s);\n", v
->name
);
4631 finish_cache_funcs (flp
);
4636 for (v
= variables
; v
; v
= v
->next
)
4638 outf_p f
= get_output_file_with_visibility (CONST_CAST (input_file
*,
4644 for (o
= v
->opt
; o
; o
= o
->next
)
4645 if (strcmp (o
->name
, "deletable") == 0)
4654 if (!contains_scalar_p (v
->type
))
4657 for (fli
= flp
; fli
; fli
= fli
->next
)
4660 if (!fli
->started_p
)
4664 oprintf (f
, "EXPORTED_CONST struct ggc_root_tab gt_pch_rs_");
4665 put_mangled_filename (f
, v
->line
.file
);
4666 oprintf (f
, "[] = {\n");
4669 oprintf (f
, " { &%s, 1, sizeof (%s), NULL, NULL },\n",
4673 finish_root_table (flp
, "pch_rs", "LAST_GGC_ROOT_TAB", "ggc_root_tab",
4674 "gt_pch_scalar_rtab");
4677 /* Prints not-as-ugly version of a typename of T to OF. Trades the uniquness
4678 guaranteee for somewhat increased readability. If name conflicts do happen,
4679 this funcion will have to be adjusted to be more like
4680 output_mangled_typename. */
4684 /* Dumps the value of typekind KIND. */
4687 dump_typekind (int indent
, enum typekind kind
)
4689 printf ("%*ckind = ", indent
, ' ');
4693 printf ("TYPE_SCALAR");
4696 printf ("TYPE_STRING");
4699 printf ("TYPE_STRUCT");
4701 case TYPE_UNDEFINED
:
4702 printf ("TYPE_UNDEFINED");
4704 case TYPE_USER_STRUCT
:
4705 printf ("TYPE_USER_STRUCT");
4708 printf ("TYPE_UNION");
4711 printf ("TYPE_POINTER");
4714 printf ("TYPE_ARRAY");
4716 case TYPE_LANG_STRUCT
:
4717 printf ("TYPE_LANG_STRUCT");
4725 /* Dumps the value of GC_USED flag. */
4728 dump_gc_used (int indent
, enum gc_used_enum gc_used
)
4730 printf ("%*cgc_used = ", indent
, ' ');
4734 printf ("GC_UNUSED");
4739 case GC_MAYBE_POINTED_TO
:
4740 printf ("GC_MAYBE_POINTED_TO");
4743 printf ("GC_POINTED_TO");
4751 /* Dumps the type options OPT. */
4754 dump_options (int indent
, options_p opt
)
4757 printf ("%*coptions = ", indent
, ' ');
4764 printf ("%s:string %s ", o
->name
, o
->info
.string
);
4767 printf ("%s:type ", o
->name
);
4768 dump_type (indent
+1, o
->info
.type
);
4771 printf ("%s:nested ", o
->name
);
4781 /* Dumps the source file location in LINE. */
4784 dump_fileloc (int indent
, struct fileloc line
)
4786 printf ("%*cfileloc: file = %s, line = %d\n", indent
, ' ',
4787 get_input_file_name (line
.file
),
4791 /* Recursively dumps the struct, union, or a language-specific
4795 dump_type_u_s (int indent
, type_p t
)
4799 gcc_assert (union_or_struct_p (t
));
4800 printf ("%*cu.s.tag = %s\n", indent
, ' ', t
->u
.s
.tag
);
4801 dump_fileloc (indent
, t
->u
.s
.line
);
4802 printf ("%*cu.s.fields =\n", indent
, ' ');
4803 fields
= t
->u
.s
.fields
;
4806 dump_pair (indent
+ INDENT
, fields
);
4807 fields
= fields
->next
;
4809 printf ("%*cend of fields of type %p\n", indent
, ' ', (void *) t
);
4810 dump_options (indent
, t
->u
.s
.opt
);
4811 printf ("%*cu.s.bitmap = %X\n", indent
, ' ', t
->u
.s
.bitmap
);
4812 if (t
->kind
== TYPE_LANG_STRUCT
)
4814 printf ("%*cu.s.lang_struct:\n", indent
, ' ');
4815 dump_type_list (indent
+ INDENT
, t
->u
.s
.lang_struct
);
4819 /* Recursively dumps the array T. */
4822 dump_type_u_a (int indent
, type_p t
)
4824 gcc_assert (t
->kind
== TYPE_ARRAY
);
4825 printf ("%*clen = %s, u.a.p:\n", indent
, ' ', t
->u
.a
.len
);
4826 dump_type_list (indent
+ INDENT
, t
->u
.a
.p
);
4829 /* Recursively dumps the type list T. */
4832 dump_type_list (int indent
, type_p t
)
4837 dump_type (indent
, p
);
4842 static htab_t seen_types
;
4844 /* Recursively dumps the type T if it was not dumped previously. */
4847 dump_type (int indent
, type_p t
)
4851 printf ("%*cType at %p: ", indent
, ' ', (void *) t
);
4852 if (t
->kind
== TYPE_UNDEFINED
)
4854 gcc_assert (t
->gc_used
== GC_UNUSED
);
4855 printf ("undefined.\n");
4859 if (seen_types
== NULL
)
4860 seen_types
= htab_create (100, htab_hash_pointer
, htab_eq_pointer
, NULL
);
4862 slot
= htab_find_slot (seen_types
, t
, INSERT
);
4865 printf ("already seen.\n");
4871 dump_typekind (indent
, t
->kind
);
4872 printf ("%*cpointer_to = %p\n", indent
+ INDENT
, ' ',
4873 (void *) t
->pointer_to
);
4874 dump_gc_used (indent
+ INDENT
, t
->gc_used
);
4878 printf ("%*cscalar_is_char = %s\n", indent
+ INDENT
, ' ',
4879 t
->u
.scalar_is_char
? "true" : "false");
4885 case TYPE_LANG_STRUCT
:
4886 case TYPE_USER_STRUCT
:
4887 dump_type_u_s (indent
+ INDENT
, t
);
4890 printf ("%*cp:\n", indent
+ INDENT
, ' ');
4891 dump_type (indent
+ INDENT
, t
->u
.p
);
4894 dump_type_u_a (indent
+ INDENT
, t
);
4899 printf ("%*cEnd of type at %p\n", indent
, ' ', (void *) t
);
4902 /* Dumps the pair P. */
4905 dump_pair (int indent
, pair_p p
)
4907 printf ("%*cpair: name = %s\n", indent
, ' ', p
->name
);
4908 dump_type (indent
, p
->type
);
4909 dump_fileloc (indent
, p
->line
);
4910 dump_options (indent
, p
->opt
);
4911 printf ("%*cEnd of pair %s\n", indent
, ' ', p
->name
);
4914 /* Dumps the list of pairs PP. */
4917 dump_pair_list (const char *name
, pair_p pp
)
4920 printf ("%s:\n", name
);
4921 for (p
= pp
; p
!= NULL
; p
= p
->next
)
4923 printf ("End of %s\n\n", name
);
4926 /* Dumps the STRUCTURES. */
4929 dump_structures (const char *name
, type_p structures
)
4931 printf ("%s:\n", name
);
4932 dump_type_list (0, structures
);
4933 printf ("End of %s\n\n", name
);
4936 /* Dumps the internal structures of gengtype. This is useful to debug
4937 gengtype itself, or to understand what it does, e.g. for plugin
4941 dump_everything (void)
4943 dump_pair_list ("typedefs", typedefs
);
4944 dump_structures ("structures", structures
);
4945 dump_pair_list ("variables", variables
);
4947 /* Allocated with the first call to dump_type. */
4948 htab_delete (seen_types
);
4953 /* Option specification for getopt_long. */
4954 static const struct option gengtype_long_options
[] = {
4955 {"help", no_argument
, NULL
, 'h'},
4956 {"version", no_argument
, NULL
, 'V'},
4957 {"verbose", no_argument
, NULL
, 'v'},
4958 {"dump", no_argument
, NULL
, 'd'},
4959 {"debug", no_argument
, NULL
, 'D'},
4960 {"plugin", required_argument
, NULL
, 'P'},
4961 {"srcdir", required_argument
, NULL
, 'S'},
4962 {"backupdir", required_argument
, NULL
, 'B'},
4963 {"inputs", required_argument
, NULL
, 'I'},
4964 {"read-state", required_argument
, NULL
, 'r'},
4965 {"write-state", required_argument
, NULL
, 'w'},
4966 /* Terminating NULL placeholder. */
4967 {NULL
, no_argument
, NULL
, 0},
4974 printf ("Usage: %s\n", progname
);
4975 printf ("\t -h | --help " " \t# Give this help.\n");
4976 printf ("\t -D | --debug "
4977 " \t# Give debug output to debug %s itself.\n", progname
);
4978 printf ("\t -V | --version " " \t# Give version information.\n");
4979 printf ("\t -v | --verbose \t# Increase verbosity. Can be given several times.\n");
4980 printf ("\t -d | --dump " " \t# Dump state for debugging.\n");
4981 printf ("\t -P | --plugin <output-file> <plugin-src> ... "
4982 " \t# Generate for plugin.\n");
4983 printf ("\t -S | --srcdir <GCC-directory> "
4984 " \t# Specify the GCC source directory.\n");
4985 printf ("\t -B | --backupdir <directory> "
4986 " \t# Specify the backup directory for updated files.\n");
4987 printf ("\t -I | --inputs <input-list> "
4988 " \t# Specify the file with source files list.\n");
4989 printf ("\t -w | --write-state <state-file> " " \t# Write a state file.\n");
4990 printf ("\t -r | --read-state <state-file> " " \t# Read a state file.\n");
4994 print_version (void)
4996 printf ("%s %s%s\n", progname
, pkgversion_string
, version_string
);
4997 printf ("Report bugs: %s\n", bug_report_url
);
5000 /* Parse the program options using getopt_long... */
5002 parse_program_options (int argc
, char **argv
)
5005 while ((opt
= getopt_long (argc
, argv
, "hVvdP:S:B:I:w:r:D",
5006 gengtype_long_options
, NULL
)) >= 0)
5010 case 'h': /* --help */
5013 case 'V': /* --version */
5016 case 'd': /* --dump */
5019 case 'D': /* --debug */
5022 case 'v': /* --verbose */
5025 case 'P': /* --plugin */
5027 plugin_output_filename
= optarg
;
5029 fatal ("missing plugin output file name");
5031 case 'S': /* --srcdir */
5035 fatal ("missing source directory");
5036 srcdir_len
= strlen (srcdir
);
5038 case 'B': /* --backupdir */
5040 backup_dir
= optarg
;
5042 fatal ("missing backup directory");
5044 case 'I': /* --inputs */
5048 fatal ("missing input list");
5050 case 'r': /* --read-state */
5052 read_state_filename
= optarg
;
5054 fatal ("missing read state file");
5055 DBGPRINTF ("read state %s\n", optarg
);
5057 case 'w': /* --write-state */
5058 DBGPRINTF ("write state %s\n", optarg
);
5060 write_state_filename
= optarg
;
5062 fatal ("missing write state file");
5065 fprintf (stderr
, "%s: unknown flag '%c'\n", progname
, opt
);
5067 fatal ("unexpected flag");
5070 if (plugin_output_filename
)
5072 /* In plugin mode we require some input files. */
5075 fatal ("no source files given in plugin mode");
5076 nb_plugin_files
= argc
- optind
;
5077 plugin_files
= XNEWVEC (input_file
*, nb_plugin_files
);
5078 for (i
= 0; i
< (int) nb_plugin_files
; i
++)
5080 char *name
= argv
[i
+ optind
];
5081 plugin_files
[i
] = input_file_by_name (name
);
5088 /******* Manage input files. ******/
5090 /* Hash table of unique input file names. */
5091 static htab_t input_file_htab
;
5093 /* Find or allocate a new input_file by hash-consing it. */
5095 input_file_by_name (const char* name
)
5098 input_file
* f
= NULL
;
5102 namlen
= strlen (name
);
5103 f
= XCNEWVAR (input_file
, sizeof (input_file
)+namlen
+2);
5106 f
->inpisplugin
= false;
5107 strcpy (f
->inpname
, name
);
5108 slot
= htab_find_slot (input_file_htab
, f
, INSERT
);
5109 gcc_assert (slot
!= NULL
);
5112 /* Already known input file. */
5114 return (input_file
*)(*slot
);
5116 /* New input file. */
5121 /* Hash table support routines for input_file-s. */
5123 htab_hash_inputfile (const void *p
)
5125 const input_file
*inpf
= (const input_file
*) p
;
5127 return htab_hash_string (get_input_file_name (inpf
));
5131 htab_eq_inputfile (const void *x
, const void *y
)
5133 const input_file
*inpfx
= (const input_file
*) x
;
5134 const input_file
*inpfy
= (const input_file
*) y
;
5135 gcc_assert (inpfx
!= NULL
&& inpfy
!= NULL
);
5136 return !filename_cmp (get_input_file_name (inpfx
), get_input_file_name (inpfy
));
5141 main (int argc
, char **argv
)
5144 static struct fileloc pos
= { NULL
, 0 };
5145 outf_p output_header
;
5147 /* Mandatory common initializations. */
5148 progname
= "gengtype"; /* For fatal and messages. */
5149 /* Create the hash-table used to hash-cons input files. */
5151 htab_create (800, htab_hash_inputfile
, htab_eq_inputfile
, NULL
);
5152 /* Initialize our special input files. */
5153 this_file
= input_file_by_name (__FILE__
);
5154 system_h_file
= input_file_by_name ("system.h");
5155 /* Set the scalar_is_char union number for predefined scalar types. */
5156 scalar_nonchar
.u
.scalar_is_char
= FALSE
;
5157 scalar_char
.u
.scalar_is_char
= TRUE
;
5159 parse_program_options (argc
, argv
);
5163 time_t now
= (time_t) 0;
5165 DBGPRINTF ("gengtype started pid %d at %s",
5166 (int) getpid (), ctime (&now
));
5169 /* Parse the input list and the input files. */
5170 DBGPRINTF ("inputlist %s", inputlist
);
5171 if (read_state_filename
)
5174 fatal ("input list %s cannot be given with a read state file %s",
5175 inputlist
, read_state_filename
);
5176 read_state (read_state_filename
);
5177 DBGPRINT_COUNT_TYPE ("structures after read_state", structures
);
5181 /* These types are set up with #define or else outside of where
5182 we can see them. We should initialize them before calling
5184 #define POS_HERE(Call) do { pos.file = this_file; pos.line = __LINE__; \
5186 POS_HERE (do_scalar_typedef ("CUMULATIVE_ARGS", &pos
));
5187 POS_HERE (do_scalar_typedef ("REAL_VALUE_TYPE", &pos
));
5188 POS_HERE (do_scalar_typedef ("FIXED_VALUE_TYPE", &pos
));
5189 POS_HERE (do_scalar_typedef ("double_int", &pos
));
5190 POS_HERE (do_scalar_typedef ("offset_int", &pos
));
5191 POS_HERE (do_scalar_typedef ("widest_int", &pos
));
5192 POS_HERE (do_scalar_typedef ("int64_t", &pos
));
5193 POS_HERE (do_scalar_typedef ("uint64_t", &pos
));
5194 POS_HERE (do_scalar_typedef ("uint8", &pos
));
5195 POS_HERE (do_scalar_typedef ("uintptr_t", &pos
));
5196 POS_HERE (do_scalar_typedef ("jword", &pos
));
5197 POS_HERE (do_scalar_typedef ("JCF_u2", &pos
));
5198 POS_HERE (do_scalar_typedef ("void", &pos
));
5199 POS_HERE (do_scalar_typedef ("machine_mode", &pos
));
5200 POS_HERE (do_scalar_typedef ("fixed_size_mode", &pos
));
5201 POS_HERE (do_typedef ("PTR",
5202 create_pointer (resolve_typedef ("void", &pos
)),
5205 read_input_list (inputlist
);
5206 for (i
= 0; i
< num_gt_files
; i
++)
5208 parse_file (get_input_file_name (gt_files
[i
]));
5209 DBGPRINTF ("parsed file #%d %s",
5210 (int) i
, get_input_file_name (gt_files
[i
]));
5212 if (verbosity_level
>= 1)
5213 printf ("%s parsed %d files with %d GTY types\n",
5214 progname
, (int) num_gt_files
, type_count
);
5216 DBGPRINT_COUNT_TYPE ("structures after parsing", structures
);
5219 fatal ("either an input list or a read state file should be given");
5224 if (plugin_output_filename
)
5227 /* In plugin mode, we should have read a state file, and have
5228 given at least one plugin file. */
5229 if (!read_state_filename
)
5230 fatal ("No read state given in plugin mode for %s",
5231 plugin_output_filename
);
5233 if (nb_plugin_files
== 0 || !plugin_files
)
5234 fatal ("No plugin files given in plugin mode for %s",
5235 plugin_output_filename
);
5237 /* Parse our plugin files and augment the state. */
5238 for (ix
= 0; ix
< nb_plugin_files
; ix
++)
5240 input_file
* pluginput
= plugin_files
[ix
];
5241 pluginput
->inpisplugin
= true;
5242 parse_file (get_input_file_name (pluginput
));
5247 plugin_output
= create_file ("GCC", plugin_output_filename
);
5248 DBGPRINTF ("created plugin_output %p named %s",
5249 (void *) plugin_output
, plugin_output
->name
);
5252 { /* No plugin files, we are in normal mode. */
5254 fatal ("gengtype needs a source directory in normal mode");
5261 set_gc_used (variables
);
5263 for (type_p t
= structures
; t
; t
= t
->next
)
5265 bool for_user
= false;
5266 for (options_p o
= t
->u
.s
.opt
; o
; o
= o
->next
)
5267 if (strcmp (o
->name
, "for_user") == 0)
5274 set_gc_used_type (t
, GC_POINTED_TO
);
5276 /* The state at this point is read from the state input file or by
5277 parsing source files and optionally augmented by parsing plugin
5278 source files. Write it now. */
5279 if (write_state_filename
)
5281 DBGPRINT_COUNT_TYPE ("structures before write_state", structures
);
5284 fatal ("didn't write state file %s after errors",
5285 write_state_filename
);
5287 DBGPRINTF ("before write_state %s", write_state_filename
);
5288 write_state (write_state_filename
);
5293 /* After having written the state file we return immediately to
5294 avoid generating any output file. */
5304 output_header
= plugin_output
? plugin_output
: header_file
;
5305 DBGPRINT_COUNT_TYPE ("structures before write_types outputheader",
5308 write_types (output_header
, structures
, &ggc_wtd
);
5309 if (plugin_files
== NULL
)
5311 DBGPRINT_COUNT_TYPE ("structures before write_types headerfil",
5313 write_types (header_file
, structures
, &pch_wtd
);
5314 write_local (header_file
, structures
);
5316 write_roots (variables
, plugin_files
== NULL
);
5318 close_output_files ();
5323 /* Don't bother about free-ing any input or plugin file, etc. */