* config/xtensa/lib2funcs.S: Fix whitespace.
[official-gcc.git] / gcc / protoize.c
blob58be683b9d86eb6b77f94386cc554d82870c9bd2
1 /* Protoize program - Original version by Ron Guilmette (rfg@segfault.us.com).
2 Copyright (C) 1989, 1992, 1993, 1994, 1995, 1996, 1997, 1998,
3 1999, 2000, 2001, 2002, 2003 Free Software Foundation, Inc.
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify it under
8 the terms of the GNU General Public License as published by the Free
9 Software Foundation; either version 2, or (at your option) any later
10 version.
12 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
13 WARRANTY; without even the implied warranty of MERCHANTABILITY or
14 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
15 for more details.
17 You should have received a copy of the GNU General Public License
18 along with GCC; see the file COPYING. If not, write to the Free
19 Software Foundation, 59 Temple Place - Suite 330, Boston, MA
20 02111-1307, USA. */
22 #include "config.h"
23 #include "system.h"
24 #include "coretypes.h"
25 #include "tm.h"
26 #include "intl.h"
27 #include "cppdefault.h"
29 #include <setjmp.h>
30 #include <signal.h>
31 #if ! defined( SIGCHLD ) && defined( SIGCLD )
32 # define SIGCHLD SIGCLD
33 #endif
34 #ifdef HAVE_UNISTD_H
35 #include <unistd.h>
36 #endif
37 #undef abort
38 #include "version.h"
40 /* Include getopt.h for the sake of getopt_long. */
41 #include "getopt.h"
43 /* Macro to see if the path elements match. */
44 #ifdef HAVE_DOS_BASED_FILE_SYSTEM
45 #define IS_SAME_PATH_CHAR(a,b) (TOUPPER (a) == TOUPPER (b))
46 #else
47 #define IS_SAME_PATH_CHAR(a,b) ((a) == (b))
48 #endif
50 /* Macro to see if the paths match. */
51 #define IS_SAME_PATH(a,b) (FILENAME_CMP (a, b) == 0)
53 /* Suffix for aux-info files. */
54 #ifdef __MSDOS__
55 #define AUX_INFO_SUFFIX "X"
56 #else
57 #define AUX_INFO_SUFFIX ".X"
58 #endif
60 /* Suffix for saved files. */
61 #ifdef __MSDOS__
62 #define SAVE_SUFFIX "sav"
63 #else
64 #define SAVE_SUFFIX ".save"
65 #endif
67 /* Suffix for renamed C++ files. */
68 #ifdef HAVE_DOS_BASED_FILE_SYSTEM
69 #define CPLUS_FILE_SUFFIX "cc"
70 #else
71 #define CPLUS_FILE_SUFFIX "C"
72 #endif
74 static void usage (void) ATTRIBUTE_NORETURN;
75 static void aux_info_corrupted (void) ATTRIBUTE_NORETURN;
76 static void declare_source_confusing (const char *) ATTRIBUTE_NORETURN;
77 static const char *shortpath (const char *, const char *);
78 extern void fancy_abort (void) ATTRIBUTE_NORETURN;
79 static void notice (const char *, ...) ATTRIBUTE_PRINTF_1;
80 static char *savestring (const char *, unsigned int);
81 static char *dupnstr (const char *, size_t);
82 static const char *substr (const char *, const char * const);
83 static int safe_read (int, void *, int);
84 static void safe_write (int, void *, int, const char *);
85 static void save_pointers (void);
86 static void restore_pointers (void);
87 static int is_id_char (int);
88 static int in_system_include_dir (const char *);
89 static int directory_specified_p (const char *);
90 static int file_excluded_p (const char *);
91 static char *unexpand_if_needed (const char *);
92 static char *abspath (const char *, const char *);
93 static void check_aux_info (int);
94 static const char *find_corresponding_lparen (const char *);
95 static int referenced_file_is_newer (const char *, time_t);
96 static void save_def_or_dec (const char *, int);
97 static void munge_compile_params (const char *);
98 static int gen_aux_info_file (const char *);
99 static void process_aux_info_file (const char *, int, int);
100 static int identify_lineno (const char *);
101 static void check_source (int, const char *);
102 static const char *seek_to_line (int);
103 static const char *forward_to_next_token_char (const char *);
104 static void output_bytes (const char *, size_t);
105 static void output_string (const char *);
106 static void output_up_to (const char *);
107 static int other_variable_style_function (const char *);
108 static const char *find_rightmost_formals_list (const char *);
109 static void do_cleaning (char *, const char *);
110 static const char *careful_find_l_paren (const char *);
111 static void do_processing (void);
113 /* Look for these where the `const' qualifier is intentionally cast aside. */
114 #define NONCONST
116 /* Define a default place to find the SYSCALLS.X file. */
118 #ifndef UNPROTOIZE
120 #ifndef STANDARD_EXEC_PREFIX
121 #define STANDARD_EXEC_PREFIX "/usr/local/lib/gcc-lib/"
122 #endif /* !defined STANDARD_EXEC_PREFIX */
124 static const char * const standard_exec_prefix = STANDARD_EXEC_PREFIX;
125 static const char * const target_machine = DEFAULT_TARGET_MACHINE;
126 static const char * const target_version = DEFAULT_TARGET_VERSION;
128 #endif /* !defined (UNPROTOIZE) */
130 /* Suffix of aux_info files. */
132 static const char * const aux_info_suffix = AUX_INFO_SUFFIX;
134 /* String to attach to filenames for saved versions of original files. */
136 static const char * const save_suffix = SAVE_SUFFIX;
138 #ifndef UNPROTOIZE
140 /* String to attach to C filenames renamed to C++. */
142 static const char * const cplus_suffix = CPLUS_FILE_SUFFIX;
144 /* File name of the file which contains descriptions of standard system
145 routines. Note that we never actually do anything with this file per se,
146 but we do read in its corresponding aux_info file. */
148 static const char syscalls_filename[] = "SYSCALLS.c";
150 /* Default place to find the above file. */
152 static const char * default_syscalls_dir;
154 /* Variable to hold the complete absolutized filename of the SYSCALLS.c.X
155 file. */
157 static char * syscalls_absolute_filename;
159 #endif /* !defined (UNPROTOIZE) */
161 /* Type of the structure that holds information about macro unexpansions. */
163 struct unexpansion_struct {
164 const char *const expanded;
165 const char *const contracted;
167 typedef struct unexpansion_struct unexpansion;
169 /* A table of conversions that may need to be made for some (stupid) older
170 operating systems where these types are preprocessor macros rather than
171 typedefs (as they really ought to be).
173 WARNING: The contracted forms must be as small (or smaller) as the
174 expanded forms, or else havoc will ensue. */
176 static const unexpansion unexpansions[] = {
177 { "struct _iobuf", "FILE" },
178 { 0, 0 }
181 /* The number of "primary" slots in the hash tables for filenames and for
182 function names. This can be as big or as small as you like, except that
183 it must be a power of two. */
185 #define HASH_TABLE_SIZE (1 << 9)
187 /* Bit mask to use when computing hash values. */
189 static const int hash_mask = (HASH_TABLE_SIZE - 1);
192 /* Datatype for lists of directories or filenames. */
193 struct string_list
195 const char *name;
196 struct string_list *next;
199 static struct string_list *string_list_cons (const char *,
200 struct string_list *);
202 /* List of directories in which files should be converted. */
204 struct string_list *directory_list;
206 /* List of file names which should not be converted.
207 A file is excluded if the end of its name, following a /,
208 matches one of the names in this list. */
210 struct string_list *exclude_list;
212 /* The name of the other style of variable-number-of-parameters functions
213 (i.e. the style that we want to leave unconverted because we don't yet
214 know how to convert them to this style. This string is used in warning
215 messages. */
217 /* Also define here the string that we can search for in the parameter lists
218 taken from the .X files which will unambiguously indicate that we have
219 found a varargs style function. */
221 #ifdef UNPROTOIZE
222 static const char * const other_var_style = "stdarg";
223 #else /* !defined (UNPROTOIZE) */
224 static const char * const other_var_style = "varargs";
225 static const char *varargs_style_indicator = "va_alist";
226 #endif /* !defined (UNPROTOIZE) */
228 /* The following two types are used to create hash tables. In this program,
229 there are two hash tables which are used to store and quickly lookup two
230 different classes of strings. The first type of strings stored in the
231 first hash table are absolute filenames of files which protoize needs to
232 know about. The second type of strings (stored in the second hash table)
233 are function names. It is this second class of strings which really
234 inspired the use of the hash tables, because there may be a lot of them. */
236 typedef struct hash_table_entry_struct hash_table_entry;
238 /* Do some typedefs so that we don't have to write "struct" so often. */
240 typedef struct def_dec_info_struct def_dec_info;
241 typedef struct file_info_struct file_info;
242 typedef struct f_list_chain_item_struct f_list_chain_item;
244 #ifndef UNPROTOIZE
245 static int is_syscalls_file (const file_info *);
246 static void rename_c_file (const hash_table_entry *);
247 static const def_dec_info *find_extern_def (const def_dec_info *,
248 const def_dec_info *);
249 static const def_dec_info *find_static_definition (const def_dec_info *);
250 static void connect_defs_and_decs (const hash_table_entry *);
251 static void add_local_decl (const def_dec_info *, const char *);
252 static void add_global_decls (const file_info *, const char *);
253 #endif /* ! UNPROTOIZE */
254 static int needs_to_be_converted (const file_info *);
255 static void visit_each_hash_node (const hash_table_entry *,
256 void (*)(const hash_table_entry *));
257 static hash_table_entry *add_symbol (hash_table_entry *, const char *);
258 static hash_table_entry *lookup (hash_table_entry *, const char *);
259 static void free_def_dec (def_dec_info *);
260 static file_info *find_file (const char *, int);
261 static void reverse_def_dec_list (const hash_table_entry *);
262 static void edit_fn_declaration (const def_dec_info *, const char *);
263 static int edit_formals_lists (const char *, unsigned int,
264 const def_dec_info *);
265 static void edit_fn_definition (const def_dec_info *, const char *);
266 static void scan_for_missed_items (const file_info *);
267 static void edit_file (const hash_table_entry *);
269 /* In the struct below, note that the "_info" field has two different uses
270 depending on the type of hash table we are in (i.e. either the filenames
271 hash table or the function names hash table). In the filenames hash table
272 the info fields of the entries point to the file_info struct which is
273 associated with each filename (1 per filename). In the function names
274 hash table, the info field points to the head of a singly linked list of
275 def_dec_info entries which are all defs or decs of the function whose
276 name is pointed to by the "symbol" field. Keeping all of the defs/decs
277 for a given function name on a special list specifically for that function
278 name makes it quick and easy to find out all of the important information
279 about a given (named) function. */
281 struct hash_table_entry_struct {
282 hash_table_entry * hash_next; /* -> to secondary entries */
283 const char * symbol; /* -> to the hashed string */
284 union {
285 const def_dec_info * _ddip;
286 file_info * _fip;
287 } _info;
289 #define ddip _info._ddip
290 #define fip _info._fip
292 /* Define a type specifically for our two hash tables. */
294 typedef hash_table_entry hash_table[HASH_TABLE_SIZE];
296 /* The following struct holds all of the important information about any
297 single filename (e.g. file) which we need to know about. */
299 struct file_info_struct {
300 const hash_table_entry * hash_entry; /* -> to associated hash entry */
301 const def_dec_info * defs_decs; /* -> to chain of defs/decs */
302 time_t mtime; /* Time of last modification. */
305 /* Due to the possibility that functions may return pointers to functions,
306 (which may themselves have their own parameter lists) and due to the
307 fact that returned pointers-to-functions may be of type "pointer-to-
308 function-returning-pointer-to-function" (ad nauseum) we have to keep
309 an entire chain of ANSI style formal parameter lists for each function.
311 Normally, for any given function, there will only be one formals list
312 on the chain, but you never know.
314 Note that the head of each chain of formals lists is pointed to by the
315 `f_list_chain' field of the corresponding def_dec_info record.
317 For any given chain, the item at the head of the chain is the *leftmost*
318 parameter list seen in the actual C language function declaration. If
319 there are other members of the chain, then these are linked in left-to-right
320 order from the head of the chain. */
322 struct f_list_chain_item_struct {
323 const f_list_chain_item * chain_next; /* -> to next item on chain */
324 const char * formals_list; /* -> to formals list string */
327 /* The following struct holds all of the important information about any
328 single function definition or declaration which we need to know about.
329 Note that for unprotoize we don't need to know very much because we
330 never even create records for stuff that we don't intend to convert
331 (like for instance defs and decs which are already in old K&R format
332 and "implicit" function declarations). */
334 struct def_dec_info_struct {
335 const def_dec_info * next_in_file; /* -> to rest of chain for file */
336 file_info * file; /* -> file_info for containing file */
337 int line; /* source line number of def/dec */
338 const char * ansi_decl; /* -> left end of ansi decl */
339 hash_table_entry * hash_entry; /* -> hash entry for function name */
340 unsigned int is_func_def; /* = 0 means this is a declaration */
341 const def_dec_info * next_for_func; /* -> to rest of chain for func name */
342 unsigned int f_list_count; /* count of formals lists we expect */
343 char prototyped; /* = 0 means already prototyped */
344 #ifndef UNPROTOIZE
345 const f_list_chain_item * f_list_chain; /* -> chain of formals lists */
346 const def_dec_info * definition; /* -> def/dec containing related def */
347 char is_static; /* = 0 means visibility is "extern" */
348 char is_implicit; /* != 0 for implicit func decl's */
349 char written; /* != 0 means written for implicit */
350 #else /* !defined (UNPROTOIZE) */
351 const char * formal_names; /* -> to list of names of formals */
352 const char * formal_decls; /* -> to string of formal declarations */
353 #endif /* !defined (UNPROTOIZE) */
356 /* Pointer to the tail component of the filename by which this program was
357 invoked. Used everywhere in error and warning messages. */
359 static const char *pname;
361 /* Error counter. Will be nonzero if we should give up at the next convenient
362 stopping point. */
364 static int errors = 0;
366 /* Option flags. */
367 /* ??? These comments should say what the flag mean as well as the options
368 that set them. */
370 /* File name to use for running gcc. Allows GCC 2 to be named
371 something other than gcc. */
372 static const char *compiler_file_name = "gcc";
374 static int version_flag = 0; /* Print our version number. */
375 static int quiet_flag = 0; /* Don't print messages normally. */
376 static int nochange_flag = 0; /* Don't convert, just say what files
377 we would have converted. */
378 static int nosave_flag = 0; /* Don't save the old version. */
379 static int keep_flag = 0; /* Don't delete the .X files. */
380 static const char ** compile_params = 0; /* Option string for gcc. */
381 #ifdef UNPROTOIZE
382 static const char *indent_string = " "; /* Indentation for newly
383 inserted parm decls. */
384 #else /* !defined (UNPROTOIZE) */
385 static int local_flag = 0; /* Insert new local decls (when?). */
386 static int global_flag = 0; /* set by -g option */
387 static int cplusplus_flag = 0; /* Rename converted files to *.C. */
388 static const char *nondefault_syscalls_dir = 0; /* Dir to look for
389 SYSCALLS.c.X in. */
390 #endif /* !defined (UNPROTOIZE) */
392 /* An index into the compile_params array where we should insert the source
393 file name when we are ready to exec the C compiler. A zero value indicates
394 that we have not yet called munge_compile_params. */
396 static int input_file_name_index = 0;
398 /* An index into the compile_params array where we should insert the filename
399 for the aux info file, when we run the C compiler. */
400 static int aux_info_file_name_index = 0;
402 /* Count of command line arguments which were "filename" arguments. */
404 static int n_base_source_files = 0;
406 /* Points to a malloc'ed list of pointers to all of the filenames of base
407 source files which were specified on the command line. */
409 static const char **base_source_filenames;
411 /* Line number of the line within the current aux_info file that we
412 are currently processing. Used for error messages in case the prototypes
413 info file is corrupted somehow. */
415 static int current_aux_info_lineno;
417 /* Pointer to the name of the source file currently being converted. */
419 static const char *convert_filename;
421 /* Pointer to relative root string (taken from aux_info file) which indicates
422 where directory the user was in when he did the compilation step that
423 produced the containing aux_info file. */
425 static const char *invocation_filename;
427 /* Pointer to the base of the input buffer that holds the original text for the
428 source file currently being converted. */
430 static const char *orig_text_base;
432 /* Pointer to the byte just beyond the end of the input buffer that holds the
433 original text for the source file currently being converted. */
435 static const char *orig_text_limit;
437 /* Pointer to the base of the input buffer that holds the cleaned text for the
438 source file currently being converted. */
440 static const char *clean_text_base;
442 /* Pointer to the byte just beyond the end of the input buffer that holds the
443 cleaned text for the source file currently being converted. */
445 static const char *clean_text_limit;
447 /* Pointer to the last byte in the cleaned text buffer that we have already
448 (virtually) copied to the output buffer (or decided to ignore). */
450 static const char * clean_read_ptr;
452 /* Pointer to the base of the output buffer that holds the replacement text
453 for the source file currently being converted. */
455 static char *repl_text_base;
457 /* Pointer to the byte just beyond the end of the output buffer that holds the
458 replacement text for the source file currently being converted. */
460 static char *repl_text_limit;
462 /* Pointer to the last byte which has been stored into the output buffer.
463 The next byte to be stored should be stored just past where this points
464 to. */
466 static char * repl_write_ptr;
468 /* Pointer into the cleaned text buffer for the source file we are currently
469 converting. This points to the first character of the line that we last
470 did a "seek_to_line" to (see below). */
472 static const char *last_known_line_start;
474 /* Number of the line (in the cleaned text buffer) that we last did a
475 "seek_to_line" to. Will be one if we just read a new source file
476 into the cleaned text buffer. */
478 static int last_known_line_number;
480 /* The filenames hash table. */
482 static hash_table filename_primary;
484 /* The function names hash table. */
486 static hash_table function_name_primary;
488 /* The place to keep the recovery address which is used only in cases where
489 we get hopelessly confused by something in the cleaned original text. */
491 static jmp_buf source_confusion_recovery;
493 /* A pointer to the current directory filename (used by abspath). */
495 static char *cwd_buffer;
497 /* A place to save the read pointer until we are sure that an individual
498 attempt at editing will succeed. */
500 static const char * saved_clean_read_ptr;
502 /* A place to save the write pointer until we are sure that an individual
503 attempt at editing will succeed. */
505 static char * saved_repl_write_ptr;
507 /* Translate and output an error message. */
508 static void
509 notice (const char *msgid, ...)
511 va_list ap;
513 va_start (ap, msgid);
514 vfprintf (stderr, _(msgid), ap);
515 va_end (ap);
519 /* Make a copy of a string INPUT with size SIZE. */
521 static char *
522 savestring (const char *input, unsigned int size)
524 char *output = xmalloc (size + 1);
525 strcpy (output, input);
526 return output;
529 /* More 'friendly' abort that prints the line and file.
530 config.h can #define abort fancy_abort if you like that sort of thing. */
532 void
533 fancy_abort (void)
535 notice ("%s: internal abort\n", pname);
536 exit (FATAL_EXIT_CODE);
539 /* Make a duplicate of the first N bytes of a given string in a newly
540 allocated area. */
542 static char *
543 dupnstr (const char *s, size_t n)
545 char *ret_val = xmalloc (n + 1);
547 strncpy (ret_val, s, n);
548 ret_val[n] = '\0';
549 return ret_val;
552 /* Return a pointer to the first occurrence of s2 within s1 or NULL if s2
553 does not occur within s1. Assume neither s1 nor s2 are null pointers. */
555 static const char *
556 substr (const char *s1, const char *const s2)
558 for (; *s1 ; s1++)
560 const char *p1;
561 const char *p2;
562 int c;
564 for (p1 = s1, p2 = s2; (c = *p2); p1++, p2++)
565 if (*p1 != c)
566 goto outer;
567 return s1;
568 outer:
571 return 0;
574 /* Read LEN bytes at PTR from descriptor DESC, for file FILENAME,
575 retrying if necessary. Return the actual number of bytes read. */
577 static int
578 safe_read (int desc, void *ptr, int len)
580 int left = len;
581 while (left > 0) {
582 int nchars = read (desc, ptr, left);
583 if (nchars < 0)
585 #ifdef EINTR
586 if (errno == EINTR)
587 continue;
588 #endif
589 return nchars;
591 if (nchars == 0)
592 break;
593 /* Arithmetic on void pointers is a gcc extension. */
594 ptr = (char *) ptr + nchars;
595 left -= nchars;
597 return len - left;
600 /* Write LEN bytes at PTR to descriptor DESC,
601 retrying if necessary, and treating any real error as fatal. */
603 static void
604 safe_write (int desc, void *ptr, int len, const char *out_fname)
606 while (len > 0) {
607 int written = write (desc, ptr, len);
608 if (written < 0)
610 int errno_val = errno;
611 #ifdef EINTR
612 if (errno_val == EINTR)
613 continue;
614 #endif
615 notice ("%s: error writing file `%s': %s\n",
616 pname, shortpath (NULL, out_fname), xstrerror (errno_val));
617 return;
619 /* Arithmetic on void pointers is a gcc extension. */
620 ptr = (char *) ptr + written;
621 len -= written;
625 /* Get setup to recover in case the edit we are about to do goes awry. */
627 static void
628 save_pointers (void)
630 saved_clean_read_ptr = clean_read_ptr;
631 saved_repl_write_ptr = repl_write_ptr;
634 /* Call this routine to recover our previous state whenever something looks
635 too confusing in the source code we are trying to edit. */
637 static void
638 restore_pointers (void)
640 clean_read_ptr = saved_clean_read_ptr;
641 repl_write_ptr = saved_repl_write_ptr;
644 /* Return true if the given character is a valid identifier character. */
646 static int
647 is_id_char (int ch)
649 return (ISIDNUM (ch) || (ch == '$'));
652 /* Give a message indicating the proper way to invoke this program and then
653 exit with nonzero status. */
655 static void
656 usage (void)
658 #ifdef UNPROTOIZE
659 notice ("%s: usage '%s [ -VqfnkN ] [ -i <istring> ] [ filename ... ]'\n",
660 pname, pname);
661 #else /* !defined (UNPROTOIZE) */
662 notice ("%s: usage '%s [ -VqfnkNlgC ] [ -B <dirname> ] [ filename ... ]'\n",
663 pname, pname);
664 #endif /* !defined (UNPROTOIZE) */
665 exit (FATAL_EXIT_CODE);
668 /* Return true if the given filename (assumed to be an absolute filename)
669 designates a file residing anywhere beneath any one of the "system"
670 include directories. */
672 static int
673 in_system_include_dir (const char *path)
675 const struct default_include *p;
677 if (! IS_ABSOLUTE_PATH (path))
678 abort (); /* Must be an absolutized filename. */
680 for (p = cpp_include_defaults; p->fname; p++)
681 if (!strncmp (path, p->fname, strlen (p->fname))
682 && IS_DIR_SEPARATOR (path[strlen (p->fname)]))
683 return 1;
684 return 0;
687 #if 0
688 /* Return true if the given filename designates a file that the user has
689 read access to and for which the user has write access to the containing
690 directory. */
692 static int
693 file_could_be_converted (const char *path)
695 char *const dir_name = alloca (strlen (path) + 1);
697 if (access (path, R_OK))
698 return 0;
701 char *dir_last_slash;
703 strcpy (dir_name, path);
704 dir_last_slash = strrchr (dir_name, DIR_SEPARATOR);
705 #ifdef DIR_SEPARATOR_2
707 char *slash;
709 slash = strrchr (dir_last_slash ? dir_last_slash : dir_name,
710 DIR_SEPARATOR_2);
711 if (slash)
712 dir_last_slash = slash;
714 #endif
715 if (dir_last_slash)
716 *dir_last_slash = '\0';
717 else
718 abort (); /* Should have been an absolutized filename. */
721 if (access (path, W_OK))
722 return 0;
724 return 1;
727 /* Return true if the given filename designates a file that we are allowed
728 to modify. Files which we should not attempt to modify are (a) "system"
729 include files, and (b) files which the user doesn't have write access to,
730 and (c) files which reside in directories which the user doesn't have
731 write access to. Unless requested to be quiet, give warnings about
732 files that we will not try to convert for one reason or another. An
733 exception is made for "system" include files, which we never try to
734 convert and for which we don't issue the usual warnings. */
736 static int
737 file_normally_convertible (const char *path)
739 char *const dir_name = alloca (strlen (path) + 1);
741 if (in_system_include_dir (path))
742 return 0;
745 char *dir_last_slash;
747 strcpy (dir_name, path);
748 dir_last_slash = strrchr (dir_name, DIR_SEPARATOR);
749 #ifdef DIR_SEPARATOR_2
751 char *slash;
753 slash = strrchr (dir_last_slash ? dir_last_slash : dir_name,
754 DIR_SEPARATOR_2);
755 if (slash)
756 dir_last_slash = slash;
758 #endif
759 if (dir_last_slash)
760 *dir_last_slash = '\0';
761 else
762 abort (); /* Should have been an absolutized filename. */
765 if (access (path, R_OK))
767 if (!quiet_flag)
768 notice ("%s: warning: no read access for file `%s'\n",
769 pname, shortpath (NULL, path));
770 return 0;
773 if (access (path, W_OK))
775 if (!quiet_flag)
776 notice ("%s: warning: no write access for file `%s'\n",
777 pname, shortpath (NULL, path));
778 return 0;
781 if (access (dir_name, W_OK))
783 if (!quiet_flag)
784 notice ("%s: warning: no write access for dir containing `%s'\n",
785 pname, shortpath (NULL, path));
786 return 0;
789 return 1;
791 #endif /* 0 */
793 #ifndef UNPROTOIZE
795 /* Return true if the given file_info struct refers to the special SYSCALLS.c.X
796 file. Return false otherwise. */
798 static int
799 is_syscalls_file (const file_info *fi_p)
801 char const *f = fi_p->hash_entry->symbol;
802 size_t fl = strlen (f), sysl = sizeof (syscalls_filename) - 1;
803 return sysl <= fl && strcmp (f + fl - sysl, syscalls_filename) == 0;
806 #endif /* !defined (UNPROTOIZE) */
808 /* Check to see if this file will need to have anything done to it on this
809 run. If there is nothing in the given file which both needs conversion
810 and for which we have the necessary stuff to do the conversion, return
811 false. Otherwise, return true.
813 Note that (for protoize) it is only valid to call this function *after*
814 the connections between declarations and definitions have all been made
815 by connect_defs_and_decs. */
817 static int
818 needs_to_be_converted (const file_info *file_p)
820 const def_dec_info *ddp;
822 #ifndef UNPROTOIZE
824 if (is_syscalls_file (file_p))
825 return 0;
827 #endif /* !defined (UNPROTOIZE) */
829 for (ddp = file_p->defs_decs; ddp; ddp = ddp->next_in_file)
831 if (
833 #ifndef UNPROTOIZE
835 /* ... and if we a protoizing and this function is in old style ... */
836 !ddp->prototyped
837 /* ... and if this a definition or is a decl with an associated def ... */
838 && (ddp->is_func_def || (!ddp->is_func_def && ddp->definition))
840 #else /* defined (UNPROTOIZE) */
842 /* ... and if we are unprotoizing and this function is in new style ... */
843 ddp->prototyped
845 #endif /* defined (UNPROTOIZE) */
847 /* ... then the containing file needs converting. */
848 return -1;
849 return 0;
852 /* Return 1 if the file name NAME is in a directory
853 that should be converted. */
855 static int
856 directory_specified_p (const char *name)
858 struct string_list *p;
860 for (p = directory_list; p; p = p->next)
861 if (!strncmp (name, p->name, strlen (p->name))
862 && IS_DIR_SEPARATOR (name[strlen (p->name)]))
864 const char *q = name + strlen (p->name) + 1;
866 /* If there are more slashes, it's in a subdir, so
867 this match doesn't count. */
868 while (*q++)
869 if (IS_DIR_SEPARATOR (*(q-1)))
870 goto lose;
871 return 1;
873 lose: ;
876 return 0;
879 /* Return 1 if the file named NAME should be excluded from conversion. */
881 static int
882 file_excluded_p (const char *name)
884 struct string_list *p;
885 int len = strlen (name);
887 for (p = exclude_list; p; p = p->next)
888 if (!strcmp (name + len - strlen (p->name), p->name)
889 && IS_DIR_SEPARATOR (name[len - strlen (p->name) - 1]))
890 return 1;
892 return 0;
895 /* Construct a new element of a string_list.
896 STRING is the new element value, and REST holds the remaining elements. */
898 static struct string_list *
899 string_list_cons (const char *string, struct string_list *rest)
901 struct string_list *temp = xmalloc (sizeof (struct string_list));
903 temp->next = rest;
904 temp->name = string;
905 return temp;
908 /* ??? The GNU convention for mentioning function args in its comments
909 is to capitalize them. So change "hash_tab_p" to HASH_TAB_P below.
910 Likewise for all the other functions. */
912 /* Given a hash table, apply some function to each node in the table. The
913 table to traverse is given as the "hash_tab_p" argument, and the
914 function to be applied to each node in the table is given as "func"
915 argument. */
917 static void
918 visit_each_hash_node (const hash_table_entry *hash_tab_p,
919 void (*func) (const hash_table_entry *))
921 const hash_table_entry *primary;
923 for (primary = hash_tab_p; primary < &hash_tab_p[HASH_TABLE_SIZE]; primary++)
924 if (primary->symbol)
926 hash_table_entry *second;
928 (*func)(primary);
929 for (second = primary->hash_next; second; second = second->hash_next)
930 (*func) (second);
934 /* Initialize all of the fields of a new hash table entry, pointed
935 to by the "p" parameter. Note that the space to hold the entry
936 is assumed to have already been allocated before this routine is
937 called. */
939 static hash_table_entry *
940 add_symbol (hash_table_entry *p, const char *s)
942 p->hash_next = NULL;
943 p->symbol = xstrdup (s);
944 p->ddip = NULL;
945 p->fip = NULL;
946 return p;
949 /* Look for a particular function name or filename in the particular
950 hash table indicated by "hash_tab_p". If the name is not in the
951 given hash table, add it. Either way, return a pointer to the
952 hash table entry for the given name. */
954 static hash_table_entry *
955 lookup (hash_table_entry *hash_tab_p, const char *search_symbol)
957 int hash_value = 0;
958 const char *search_symbol_char_p = search_symbol;
959 hash_table_entry *p;
961 while (*search_symbol_char_p)
962 hash_value += *search_symbol_char_p++;
963 hash_value &= hash_mask;
964 p = &hash_tab_p[hash_value];
965 if (! p->symbol)
966 return add_symbol (p, search_symbol);
967 if (!strcmp (p->symbol, search_symbol))
968 return p;
969 while (p->hash_next)
971 p = p->hash_next;
972 if (!strcmp (p->symbol, search_symbol))
973 return p;
975 p->hash_next = xmalloc (sizeof (hash_table_entry));
976 p = p->hash_next;
977 return add_symbol (p, search_symbol);
980 /* Throw a def/dec record on the junk heap.
982 Also, since we are not using this record anymore, free up all of the
983 stuff it pointed to. */
985 static void
986 free_def_dec (def_dec_info *p)
988 free ((NONCONST void *) p->ansi_decl);
990 #ifndef UNPROTOIZE
992 const f_list_chain_item * curr;
993 const f_list_chain_item * next;
995 for (curr = p->f_list_chain; curr; curr = next)
997 next = curr->chain_next;
998 free ((NONCONST void *) curr);
1001 #endif /* !defined (UNPROTOIZE) */
1003 free (p);
1006 /* Unexpand as many macro symbol as we can find.
1008 If the given line must be unexpanded, make a copy of it in the heap and
1009 return a pointer to the unexpanded copy. Otherwise return NULL. */
1011 static char *
1012 unexpand_if_needed (const char *aux_info_line)
1014 static char *line_buf = 0;
1015 static int line_buf_size = 0;
1016 const unexpansion *unexp_p;
1017 int got_unexpanded = 0;
1018 const char *s;
1019 char *copy_p = line_buf;
1021 if (line_buf == 0)
1023 line_buf_size = 1024;
1024 line_buf = xmalloc (line_buf_size);
1027 copy_p = line_buf;
1029 /* Make a copy of the input string in line_buf, expanding as necessary. */
1031 for (s = aux_info_line; *s != '\n'; )
1033 for (unexp_p = unexpansions; unexp_p->expanded; unexp_p++)
1035 const char *in_p = unexp_p->expanded;
1036 size_t len = strlen (in_p);
1038 if (*s == *in_p && !strncmp (s, in_p, len) && !is_id_char (s[len]))
1040 int size = strlen (unexp_p->contracted);
1041 got_unexpanded = 1;
1042 if (copy_p + size - line_buf >= line_buf_size)
1044 int offset = copy_p - line_buf;
1045 line_buf_size *= 2;
1046 line_buf_size += size;
1047 line_buf = xrealloc (line_buf, line_buf_size);
1048 copy_p = line_buf + offset;
1050 strcpy (copy_p, unexp_p->contracted);
1051 copy_p += size;
1053 /* Assume that there will not be another replacement required
1054 within the text just replaced. */
1056 s += len;
1057 goto continue_outer;
1060 if (copy_p - line_buf == line_buf_size)
1062 int offset = copy_p - line_buf;
1063 line_buf_size *= 2;
1064 line_buf = xrealloc (line_buf, line_buf_size);
1065 copy_p = line_buf + offset;
1067 *copy_p++ = *s++;
1068 continue_outer: ;
1070 if (copy_p + 2 - line_buf >= line_buf_size)
1072 int offset = copy_p - line_buf;
1073 line_buf_size *= 2;
1074 line_buf = xrealloc (line_buf, line_buf_size);
1075 copy_p = line_buf + offset;
1077 *copy_p++ = '\n';
1078 *copy_p = '\0';
1080 return (got_unexpanded ? savestring (line_buf, copy_p - line_buf) : 0);
1083 /* Return the absolutized filename for the given relative
1084 filename. Note that if that filename is already absolute, it may
1085 still be returned in a modified form because this routine also
1086 eliminates redundant slashes and single dots and eliminates double
1087 dots to get a shortest possible filename from the given input
1088 filename. The absolutization of relative filenames is made by
1089 assuming that the given filename is to be taken as relative to
1090 the first argument (cwd) or to the current directory if cwd is
1091 NULL. */
1093 static char *
1094 abspath (const char *cwd, const char *rel_filename)
1096 /* Setup the current working directory as needed. */
1097 const char *const cwd2 = (cwd) ? cwd : cwd_buffer;
1098 char *const abs_buffer = alloca (strlen (cwd2) + strlen (rel_filename) + 2);
1099 char *endp = abs_buffer;
1100 char *outp, *inp;
1102 /* Copy the filename (possibly preceded by the current working
1103 directory name) into the absolutization buffer. */
1106 const char *src_p;
1108 if (! IS_ABSOLUTE_PATH (rel_filename))
1110 src_p = cwd2;
1111 while ((*endp++ = *src_p++))
1112 continue;
1113 *(endp-1) = DIR_SEPARATOR; /* overwrite null */
1115 #ifdef HAVE_DOS_BASED_FILE_SYSTEM
1116 else if (IS_DIR_SEPARATOR (rel_filename[0]))
1118 /* A path starting with a directory separator is considered absolute
1119 for dos based filesystems, but it's really not -- it's just the
1120 convention used throughout GCC and it works. However, in this
1121 case, we still need to prepend the drive spec from cwd_buffer. */
1122 *endp++ = cwd2[0];
1123 *endp++ = cwd2[1];
1125 #endif
1126 src_p = rel_filename;
1127 while ((*endp++ = *src_p++))
1128 continue;
1131 /* Now make a copy of abs_buffer into abs_buffer, shortening the
1132 filename (by taking out slashes and dots) as we go. */
1134 outp = inp = abs_buffer;
1135 *outp++ = *inp++; /* copy first slash */
1136 #if defined (apollo) || defined (_WIN32) || defined (__INTERIX)
1137 if (IS_DIR_SEPARATOR (inp[0]))
1138 *outp++ = *inp++; /* copy second slash */
1139 #endif
1140 for (;;)
1142 if (!inp[0])
1143 break;
1144 else if (IS_DIR_SEPARATOR (inp[0]) && IS_DIR_SEPARATOR (outp[-1]))
1146 inp++;
1147 continue;
1149 else if (inp[0] == '.' && IS_DIR_SEPARATOR (outp[-1]))
1151 if (!inp[1])
1152 break;
1153 else if (IS_DIR_SEPARATOR (inp[1]))
1155 inp += 2;
1156 continue;
1158 else if ((inp[1] == '.') && (inp[2] == 0
1159 || IS_DIR_SEPARATOR (inp[2])))
1161 inp += (IS_DIR_SEPARATOR (inp[2])) ? 3 : 2;
1162 outp -= 2;
1163 while (outp >= abs_buffer && ! IS_DIR_SEPARATOR (*outp))
1164 outp--;
1165 if (outp < abs_buffer)
1167 /* Catch cases like /.. where we try to backup to a
1168 point above the absolute root of the logical file
1169 system. */
1171 notice ("%s: invalid file name: %s\n",
1172 pname, rel_filename);
1173 exit (FATAL_EXIT_CODE);
1175 *++outp = '\0';
1176 continue;
1179 *outp++ = *inp++;
1182 /* On exit, make sure that there is a trailing null, and make sure that
1183 the last character of the returned string is *not* a slash. */
1185 *outp = '\0';
1186 if (IS_DIR_SEPARATOR (outp[-1]))
1187 *--outp = '\0';
1189 /* Make a copy (in the heap) of the stuff left in the absolutization
1190 buffer and return a pointer to the copy. */
1192 return savestring (abs_buffer, outp - abs_buffer);
1195 /* Given a filename (and possibly a directory name from which the filename
1196 is relative) return a string which is the shortest possible
1197 equivalent for the corresponding full (absolutized) filename. The
1198 shortest possible equivalent may be constructed by converting the
1199 absolutized filename to be a relative filename (i.e. relative to
1200 the actual current working directory). However if a relative filename
1201 is longer, then the full absolute filename is returned.
1203 KNOWN BUG:
1205 Note that "simple-minded" conversion of any given type of filename (either
1206 relative or absolute) may not result in a valid equivalent filename if any
1207 subpart of the original filename is actually a symbolic link. */
1209 static const char *
1210 shortpath (const char *cwd, const char *filename)
1212 char *rel_buffer;
1213 char *rel_buf_p;
1214 char *cwd_p = cwd_buffer;
1215 char *path_p;
1216 int unmatched_slash_count = 0;
1217 size_t filename_len = strlen (filename);
1219 path_p = abspath (cwd, filename);
1220 rel_buf_p = rel_buffer = xmalloc (filename_len);
1222 while (*cwd_p && IS_SAME_PATH_CHAR (*cwd_p, *path_p))
1224 cwd_p++;
1225 path_p++;
1227 if (!*cwd_p && (!*path_p || IS_DIR_SEPARATOR (*path_p)))
1229 /* whole pwd matched */
1230 if (!*path_p) /* input *is* the current path! */
1231 return ".";
1232 else
1233 return ++path_p;
1235 else
1237 if (*path_p)
1239 --cwd_p;
1240 --path_p;
1241 while (! IS_DIR_SEPARATOR (*cwd_p)) /* backup to last slash */
1243 --cwd_p;
1244 --path_p;
1246 cwd_p++;
1247 path_p++;
1248 unmatched_slash_count++;
1251 /* Find out how many directory levels in cwd were *not* matched. */
1252 while (*cwd_p++)
1253 if (IS_DIR_SEPARATOR (*(cwd_p-1)))
1254 unmatched_slash_count++;
1256 /* Now we know how long the "short name" will be.
1257 Reject it if longer than the input. */
1258 if (unmatched_slash_count * 3 + strlen (path_p) >= filename_len)
1259 return filename;
1261 /* For each of them, put a `../' at the beginning of the short name. */
1262 while (unmatched_slash_count--)
1264 /* Give up if the result gets to be longer
1265 than the absolute path name. */
1266 if (rel_buffer + filename_len <= rel_buf_p + 3)
1267 return filename;
1268 *rel_buf_p++ = '.';
1269 *rel_buf_p++ = '.';
1270 *rel_buf_p++ = DIR_SEPARATOR;
1273 /* Then tack on the unmatched part of the desired file's name. */
1276 if (rel_buffer + filename_len <= rel_buf_p)
1277 return filename;
1279 while ((*rel_buf_p++ = *path_p++));
1281 --rel_buf_p;
1282 if (IS_DIR_SEPARATOR (*(rel_buf_p-1)))
1283 *--rel_buf_p = '\0';
1284 return rel_buffer;
1288 /* Lookup the given filename in the hash table for filenames. If it is a
1289 new one, then the hash table info pointer will be null. In this case,
1290 we create a new file_info record to go with the filename, and we initialize
1291 that record with some reasonable values. */
1293 /* FILENAME was const, but that causes a warning on AIX when calling stat.
1294 That is probably a bug in AIX, but might as well avoid the warning. */
1296 static file_info *
1297 find_file (const char *filename, int do_not_stat)
1299 hash_table_entry *hash_entry_p;
1301 hash_entry_p = lookup (filename_primary, filename);
1302 if (hash_entry_p->fip)
1303 return hash_entry_p->fip;
1304 else
1306 struct stat stat_buf;
1307 file_info *file_p = xmalloc (sizeof (file_info));
1309 /* If we cannot get status on any given source file, give a warning
1310 and then just set its time of last modification to infinity. */
1312 if (do_not_stat)
1313 stat_buf.st_mtime = (time_t) 0;
1314 else
1316 if (stat (filename, &stat_buf) == -1)
1318 int errno_val = errno;
1319 notice ("%s: %s: can't get status: %s\n",
1320 pname, shortpath (NULL, filename),
1321 xstrerror (errno_val));
1322 stat_buf.st_mtime = (time_t) -1;
1326 hash_entry_p->fip = file_p;
1327 file_p->hash_entry = hash_entry_p;
1328 file_p->defs_decs = NULL;
1329 file_p->mtime = stat_buf.st_mtime;
1330 return file_p;
1334 /* Generate a fatal error because some part of the aux_info file is
1335 messed up. */
1337 static void
1338 aux_info_corrupted (void)
1340 notice ("\n%s: fatal error: aux info file corrupted at line %d\n",
1341 pname, current_aux_info_lineno);
1342 exit (FATAL_EXIT_CODE);
1345 /* ??? This comment is vague. Say what the condition is for. */
1346 /* Check to see that a condition is true. This is kind of like an assert. */
1348 static void
1349 check_aux_info (int cond)
1351 if (! cond)
1352 aux_info_corrupted ();
1355 /* Given a pointer to the closing right parenthesis for a particular formals
1356 list (in an aux_info file) find the corresponding left parenthesis and
1357 return a pointer to it. */
1359 static const char *
1360 find_corresponding_lparen (const char *p)
1362 const char *q;
1363 int paren_depth;
1365 for (paren_depth = 1, q = p-1; paren_depth; q--)
1367 switch (*q)
1369 case ')':
1370 paren_depth++;
1371 break;
1372 case '(':
1373 paren_depth--;
1374 break;
1377 return ++q;
1380 /* Given a line from an aux info file, and a time at which the aux info
1381 file it came from was created, check to see if the item described in
1382 the line comes from a file which has been modified since the aux info
1383 file was created. If so, return nonzero, else return zero. */
1385 static int
1386 referenced_file_is_newer (const char *l, time_t aux_info_mtime)
1388 const char *p;
1389 file_info *fi_p;
1390 char *filename;
1392 check_aux_info (l[0] == '/');
1393 check_aux_info (l[1] == '*');
1394 check_aux_info (l[2] == ' ');
1397 const char *filename_start = p = l + 3;
1399 while (*p != ':'
1400 #ifdef HAVE_DOS_BASED_FILE_SYSTEM
1401 || (*p == ':' && *p && *(p+1) && IS_DIR_SEPARATOR (*(p+1)))
1402 #endif
1404 p++;
1405 filename = alloca ((size_t) (p - filename_start) + 1);
1406 strncpy (filename, filename_start, (size_t) (p - filename_start));
1407 filename[p-filename_start] = '\0';
1410 /* Call find_file to find the file_info record associated with the file
1411 which contained this particular def or dec item. Note that this call
1412 may cause a new file_info record to be created if this is the first time
1413 that we have ever known about this particular file. */
1415 fi_p = find_file (abspath (invocation_filename, filename), 0);
1417 return (fi_p->mtime > aux_info_mtime);
1420 /* Given a line of info from the aux_info file, create a new
1421 def_dec_info record to remember all of the important information about
1422 a function definition or declaration.
1424 Link this record onto the list of such records for the particular file in
1425 which it occurred in proper (descending) line number order (for now).
1427 If there is an identical record already on the list for the file, throw
1428 this one away. Doing so takes care of the (useless and troublesome)
1429 duplicates which are bound to crop up due to multiple inclusions of any
1430 given individual header file.
1432 Finally, link the new def_dec record onto the list of such records
1433 pertaining to this particular function name. */
1435 static void
1436 save_def_or_dec (const char *l, int is_syscalls)
1438 const char *p;
1439 const char *semicolon_p;
1440 def_dec_info *def_dec_p = xmalloc (sizeof (def_dec_info));
1442 #ifndef UNPROTOIZE
1443 def_dec_p->written = 0;
1444 #endif /* !defined (UNPROTOIZE) */
1446 /* Start processing the line by picking off 5 pieces of information from
1447 the left hand end of the line. These are filename, line number,
1448 new/old/implicit flag (new = ANSI prototype format), definition or
1449 declaration flag, and extern/static flag). */
1451 check_aux_info (l[0] == '/');
1452 check_aux_info (l[1] == '*');
1453 check_aux_info (l[2] == ' ');
1456 const char *filename_start = p = l + 3;
1457 char *filename;
1459 while (*p != ':'
1460 #ifdef HAVE_DOS_BASED_FILE_SYSTEM
1461 || (*p == ':' && *p && *(p+1) && IS_DIR_SEPARATOR (*(p+1)))
1462 #endif
1464 p++;
1465 filename = alloca ((size_t) (p - filename_start) + 1);
1466 strncpy (filename, filename_start, (size_t) (p - filename_start));
1467 filename[p-filename_start] = '\0';
1469 /* Call find_file to find the file_info record associated with the file
1470 which contained this particular def or dec item. Note that this call
1471 may cause a new file_info record to be created if this is the first time
1472 that we have ever known about this particular file.
1474 Note that we started out by forcing all of the base source file names
1475 (i.e. the names of the aux_info files with the .X stripped off) into the
1476 filenames hash table, and we simultaneously setup file_info records for
1477 all of these base file names (even if they may be useless later).
1478 The file_info records for all of these "base" file names (properly)
1479 act as file_info records for the "original" (i.e. un-included) files
1480 which were submitted to gcc for compilation (when the -aux-info
1481 option was used). */
1483 def_dec_p->file = find_file (abspath (invocation_filename, filename), is_syscalls);
1487 const char *line_number_start = ++p;
1488 char line_number[10];
1490 while (*p != ':'
1491 #ifdef HAVE_DOS_BASED_FILE_SYSTEM
1492 || (*p == ':' && *p && *(p+1) && IS_DIR_SEPARATOR (*(p+1)))
1493 #endif
1495 p++;
1496 strncpy (line_number, line_number_start, (size_t) (p - line_number_start));
1497 line_number[p-line_number_start] = '\0';
1498 def_dec_p->line = atoi (line_number);
1501 /* Check that this record describes a new-style, old-style, or implicit
1502 definition or declaration. */
1504 p++; /* Skip over the `:'. */
1505 check_aux_info ((*p == 'N') || (*p == 'O') || (*p == 'I'));
1507 /* Is this a new style (ANSI prototyped) definition or declaration? */
1509 def_dec_p->prototyped = (*p == 'N');
1511 #ifndef UNPROTOIZE
1513 /* Is this an implicit declaration? */
1515 def_dec_p->is_implicit = (*p == 'I');
1517 #endif /* !defined (UNPROTOIZE) */
1519 p++;
1521 check_aux_info ((*p == 'C') || (*p == 'F'));
1523 /* Is this item a function definition (F) or a declaration (C). Note that
1524 we treat item taken from the syscalls file as though they were function
1525 definitions regardless of what the stuff in the file says. */
1527 def_dec_p->is_func_def = ((*p++ == 'F') || is_syscalls);
1529 #ifndef UNPROTOIZE
1530 def_dec_p->definition = 0; /* Fill this in later if protoizing. */
1531 #endif /* !defined (UNPROTOIZE) */
1533 check_aux_info (*p++ == ' ');
1534 check_aux_info (*p++ == '*');
1535 check_aux_info (*p++ == '/');
1536 check_aux_info (*p++ == ' ');
1538 #ifdef UNPROTOIZE
1539 check_aux_info ((!strncmp (p, "static", 6)) || (!strncmp (p, "extern", 6)));
1540 #else /* !defined (UNPROTOIZE) */
1541 if (!strncmp (p, "static", 6))
1542 def_dec_p->is_static = -1;
1543 else if (!strncmp (p, "extern", 6))
1544 def_dec_p->is_static = 0;
1545 else
1546 check_aux_info (0); /* Didn't find either `extern' or `static'. */
1547 #endif /* !defined (UNPROTOIZE) */
1550 const char *ansi_start = p;
1552 p += 6; /* Pass over the "static" or "extern". */
1554 /* We are now past the initial stuff. Search forward from here to find
1555 the terminating semicolon that should immediately follow the entire
1556 ANSI format function declaration. */
1558 while (*++p != ';')
1559 continue;
1561 semicolon_p = p;
1563 /* Make a copy of the ansi declaration part of the line from the aux_info
1564 file. */
1566 def_dec_p->ansi_decl
1567 = dupnstr (ansi_start, (size_t) ((semicolon_p+1) - ansi_start));
1569 /* Backup and point at the final right paren of the final argument list. */
1571 p--;
1573 #ifndef UNPROTOIZE
1574 def_dec_p->f_list_chain = NULL;
1575 #endif /* !defined (UNPROTOIZE) */
1577 while (p != ansi_start && (p[-1] == ' ' || p[-1] == '\t')) p--;
1578 if (*p != ')')
1580 free_def_dec (def_dec_p);
1581 return;
1585 /* Now isolate a whole set of formal argument lists, one-by-one. Normally,
1586 there will only be one list to isolate, but there could be more. */
1588 def_dec_p->f_list_count = 0;
1590 for (;;)
1592 const char *left_paren_p = find_corresponding_lparen (p);
1593 #ifndef UNPROTOIZE
1595 f_list_chain_item *cip = xmalloc (sizeof (f_list_chain_item));
1597 cip->formals_list
1598 = dupnstr (left_paren_p + 1, (size_t) (p - (left_paren_p+1)));
1600 /* Add the new chain item at the head of the current list. */
1602 cip->chain_next = def_dec_p->f_list_chain;
1603 def_dec_p->f_list_chain = cip;
1605 #endif /* !defined (UNPROTOIZE) */
1606 def_dec_p->f_list_count++;
1608 p = left_paren_p - 2;
1610 /* p must now point either to another right paren, or to the last
1611 character of the name of the function that was declared/defined.
1612 If p points to another right paren, then this indicates that we
1613 are dealing with multiple formals lists. In that case, there
1614 really should be another right paren preceding this right paren. */
1616 if (*p != ')')
1617 break;
1618 else
1619 check_aux_info (*--p == ')');
1624 const char *past_fn = p + 1;
1626 check_aux_info (*past_fn == ' ');
1628 /* Scan leftwards over the identifier that names the function. */
1630 while (is_id_char (*p))
1631 p--;
1632 p++;
1634 /* p now points to the leftmost character of the function name. */
1637 char *fn_string = alloca (past_fn - p + 1);
1639 strncpy (fn_string, p, (size_t) (past_fn - p));
1640 fn_string[past_fn-p] = '\0';
1641 def_dec_p->hash_entry = lookup (function_name_primary, fn_string);
1645 /* Look at all of the defs and decs for this function name that we have
1646 collected so far. If there is already one which is at the same
1647 line number in the same file, then we can discard this new def_dec_info
1648 record.
1650 As an extra assurance that any such pair of (nominally) identical
1651 function declarations are in fact identical, we also compare the
1652 ansi_decl parts of the lines from the aux_info files just to be on
1653 the safe side.
1655 This comparison will fail if (for instance) the user was playing
1656 messy games with the preprocessor which ultimately causes one
1657 function declaration in one header file to look differently when
1658 that file is included by two (or more) other files. */
1661 const def_dec_info *other;
1663 for (other = def_dec_p->hash_entry->ddip; other; other = other->next_for_func)
1665 if (def_dec_p->line == other->line && def_dec_p->file == other->file)
1667 if (strcmp (def_dec_p->ansi_decl, other->ansi_decl))
1669 notice ("%s:%d: declaration of function `%s' takes different forms\n",
1670 def_dec_p->file->hash_entry->symbol,
1671 def_dec_p->line,
1672 def_dec_p->hash_entry->symbol);
1673 exit (FATAL_EXIT_CODE);
1675 free_def_dec (def_dec_p);
1676 return;
1681 #ifdef UNPROTOIZE
1683 /* If we are doing unprotoizing, we must now setup the pointers that will
1684 point to the K&R name list and to the K&R argument declarations list.
1686 Note that if this is only a function declaration, then we should not
1687 expect to find any K&R style formals list following the ANSI-style
1688 formals list. This is because GCC knows that such information is
1689 useless in the case of function declarations (function definitions
1690 are a different story however).
1692 Since we are unprotoizing, we don't need any such lists anyway.
1693 All we plan to do is to delete all characters between ()'s in any
1694 case. */
1696 def_dec_p->formal_names = NULL;
1697 def_dec_p->formal_decls = NULL;
1699 if (def_dec_p->is_func_def)
1701 p = semicolon_p;
1702 check_aux_info (*++p == ' ');
1703 check_aux_info (*++p == '/');
1704 check_aux_info (*++p == '*');
1705 check_aux_info (*++p == ' ');
1706 check_aux_info (*++p == '(');
1709 const char *kr_names_start = ++p; /* Point just inside '('. */
1711 while (*p++ != ')')
1712 continue;
1713 p--; /* point to closing right paren */
1715 /* Make a copy of the K&R parameter names list. */
1717 def_dec_p->formal_names
1718 = dupnstr (kr_names_start, (size_t) (p - kr_names_start));
1721 check_aux_info (*++p == ' ');
1722 p++;
1724 /* p now points to the first character of the K&R style declarations
1725 list (if there is one) or to the star-slash combination that ends
1726 the comment in which such lists get embedded. */
1728 /* Make a copy of the K&R formal decls list and set the def_dec record
1729 to point to it. */
1731 if (*p == '*') /* Are there no K&R declarations? */
1733 check_aux_info (*++p == '/');
1734 def_dec_p->formal_decls = "";
1736 else
1738 const char *kr_decls_start = p;
1740 while (p[0] != '*' || p[1] != '/')
1741 p++;
1742 p--;
1744 check_aux_info (*p == ' ');
1746 def_dec_p->formal_decls
1747 = dupnstr (kr_decls_start, (size_t) (p - kr_decls_start));
1750 /* Handle a special case. If we have a function definition marked as
1751 being in "old" style, and if its formal names list is empty, then
1752 it may actually have the string "void" in its real formals list
1753 in the original source code. Just to make sure, we will get setup
1754 to convert such things anyway.
1756 This kludge only needs to be here because of an insurmountable
1757 problem with generating .X files. */
1759 if (!def_dec_p->prototyped && !*def_dec_p->formal_names)
1760 def_dec_p->prototyped = 1;
1763 /* Since we are unprotoizing, if this item is already in old (K&R) style,
1764 we can just ignore it. If that is true, throw away the itme now. */
1766 if (!def_dec_p->prototyped)
1768 free_def_dec (def_dec_p);
1769 return;
1772 #endif /* defined (UNPROTOIZE) */
1774 /* Add this record to the head of the list of records pertaining to this
1775 particular function name. */
1777 def_dec_p->next_for_func = def_dec_p->hash_entry->ddip;
1778 def_dec_p->hash_entry->ddip = def_dec_p;
1780 /* Add this new def_dec_info record to the sorted list of def_dec_info
1781 records for this file. Note that we don't have to worry about duplicates
1782 (caused by multiple inclusions of header files) here because we have
1783 already eliminated duplicates above. */
1785 if (!def_dec_p->file->defs_decs)
1787 def_dec_p->file->defs_decs = def_dec_p;
1788 def_dec_p->next_in_file = NULL;
1790 else
1792 int line = def_dec_p->line;
1793 const def_dec_info *prev = NULL;
1794 const def_dec_info *curr = def_dec_p->file->defs_decs;
1795 const def_dec_info *next = curr->next_in_file;
1797 while (next && (line < curr->line))
1799 prev = curr;
1800 curr = next;
1801 next = next->next_in_file;
1803 if (line >= curr->line)
1805 def_dec_p->next_in_file = curr;
1806 if (prev)
1807 ((NONCONST def_dec_info *) prev)->next_in_file = def_dec_p;
1808 else
1809 def_dec_p->file->defs_decs = def_dec_p;
1811 else /* assert (next == NULL); */
1813 ((NONCONST def_dec_info *) curr)->next_in_file = def_dec_p;
1814 /* assert (next == NULL); */
1815 def_dec_p->next_in_file = next;
1820 /* Set up the vector COMPILE_PARAMS which is the argument list for running GCC.
1821 Also set input_file_name_index and aux_info_file_name_index
1822 to the indices of the slots where the file names should go. */
1824 /* We initialize the vector by removing -g, -O, -S, -c, and -o options,
1825 and adding '-aux-info AUXFILE -S -o /dev/null INFILE' at the end. */
1827 static void
1828 munge_compile_params (const char *params_list)
1830 /* Build up the contents in a temporary vector
1831 that is so big that to has to be big enough. */
1832 const char **temp_params
1833 = alloca ((strlen (params_list) + 8) * sizeof (char *));
1834 int param_count = 0;
1835 const char *param;
1836 struct stat st;
1838 temp_params[param_count++] = compiler_file_name;
1839 for (;;)
1841 while (ISSPACE ((const unsigned char)*params_list))
1842 params_list++;
1843 if (!*params_list)
1844 break;
1845 param = params_list;
1846 while (*params_list && !ISSPACE ((const unsigned char)*params_list))
1847 params_list++;
1848 if (param[0] != '-')
1849 temp_params[param_count++]
1850 = dupnstr (param, (size_t) (params_list - param));
1851 else
1853 switch (param[1])
1855 case 'g':
1856 case 'O':
1857 case 'S':
1858 case 'c':
1859 break; /* Don't copy these. */
1860 case 'o':
1861 while (ISSPACE ((const unsigned char)*params_list))
1862 params_list++;
1863 while (*params_list
1864 && !ISSPACE ((const unsigned char)*params_list))
1865 params_list++;
1866 break;
1867 default:
1868 temp_params[param_count++]
1869 = dupnstr (param, (size_t) (params_list - param));
1872 if (!*params_list)
1873 break;
1875 temp_params[param_count++] = "-aux-info";
1877 /* Leave room for the aux-info file name argument. */
1878 aux_info_file_name_index = param_count;
1879 temp_params[param_count++] = NULL;
1881 temp_params[param_count++] = "-S";
1882 temp_params[param_count++] = "-o";
1884 if ((stat (HOST_BIT_BUCKET, &st) == 0)
1885 && (!S_ISDIR (st.st_mode))
1886 && (access (HOST_BIT_BUCKET, W_OK) == 0))
1887 temp_params[param_count++] = HOST_BIT_BUCKET;
1888 else
1889 /* FIXME: This is hardly likely to be right, if HOST_BIT_BUCKET is not
1890 writable. But until this is rejigged to use make_temp_file(), this
1891 is the best we can do. */
1892 temp_params[param_count++] = "/dev/null";
1894 /* Leave room for the input file name argument. */
1895 input_file_name_index = param_count;
1896 temp_params[param_count++] = NULL;
1897 /* Terminate the list. */
1898 temp_params[param_count++] = NULL;
1900 /* Make a copy of the compile_params in heap space. */
1902 compile_params = xmalloc (sizeof (char *) * (param_count+1));
1903 memcpy (compile_params, temp_params, sizeof (char *) * param_count);
1906 /* Do a recompilation for the express purpose of generating a new aux_info
1907 file to go with a specific base source file.
1909 The result is a boolean indicating success. */
1911 static int
1912 gen_aux_info_file (const char *base_filename)
1914 if (!input_file_name_index)
1915 munge_compile_params ("");
1917 /* Store the full source file name in the argument vector. */
1918 compile_params[input_file_name_index] = shortpath (NULL, base_filename);
1919 /* Add .X to source file name to get aux-info file name. */
1920 compile_params[aux_info_file_name_index] =
1921 concat (compile_params[input_file_name_index], aux_info_suffix, NULL);
1923 if (!quiet_flag)
1924 notice ("%s: compiling `%s'\n",
1925 pname, compile_params[input_file_name_index]);
1928 char *errmsg_fmt, *errmsg_arg;
1929 int wait_status, pid;
1931 pid = pexecute (compile_params[0], (char * const *) compile_params,
1932 pname, NULL, &errmsg_fmt, &errmsg_arg,
1933 PEXECUTE_FIRST | PEXECUTE_LAST | PEXECUTE_SEARCH);
1935 if (pid == -1)
1937 int errno_val = errno;
1938 fprintf (stderr, "%s: ", pname);
1939 fprintf (stderr, errmsg_fmt, errmsg_arg);
1940 fprintf (stderr, ": %s\n", xstrerror (errno_val));
1941 return 0;
1944 pid = pwait (pid, &wait_status, 0);
1945 if (pid == -1)
1947 notice ("%s: wait: %s\n", pname, xstrerror (errno));
1948 return 0;
1950 if (WIFSIGNALED (wait_status))
1952 notice ("%s: subprocess got fatal signal %d\n",
1953 pname, WTERMSIG (wait_status));
1954 return 0;
1956 if (WIFEXITED (wait_status))
1958 if (WEXITSTATUS (wait_status) != 0)
1960 notice ("%s: %s exited with status %d\n",
1961 pname, compile_params[0], WEXITSTATUS (wait_status));
1962 return 0;
1964 return 1;
1966 abort ();
1970 /* Read in all of the information contained in a single aux_info file.
1971 Save all of the important stuff for later. */
1973 static void
1974 process_aux_info_file (const char *base_source_filename, int keep_it,
1975 int is_syscalls)
1977 size_t base_len = strlen (base_source_filename);
1978 char * aux_info_filename = alloca (base_len + strlen (aux_info_suffix) + 1);
1979 char *aux_info_base;
1980 char *aux_info_limit;
1981 char *aux_info_relocated_name;
1982 const char *aux_info_second_line;
1983 time_t aux_info_mtime;
1984 size_t aux_info_size;
1985 int must_create;
1987 /* Construct the aux_info filename from the base source filename. */
1989 strcpy (aux_info_filename, base_source_filename);
1990 strcat (aux_info_filename, aux_info_suffix);
1992 /* Check that the aux_info file exists and is readable. If it does not
1993 exist, try to create it (once only). */
1995 /* If file doesn't exist, set must_create.
1996 Likewise if it exists and we can read it but it is obsolete.
1997 Otherwise, report an error. */
1998 must_create = 0;
2000 /* Come here with must_create set to 1 if file is out of date. */
2001 start_over: ;
2003 if (access (aux_info_filename, R_OK) == -1)
2005 if (errno == ENOENT)
2007 if (is_syscalls)
2009 notice ("%s: warning: missing SYSCALLS file `%s'\n",
2010 pname, aux_info_filename);
2011 return;
2013 must_create = 1;
2015 else
2017 int errno_val = errno;
2018 notice ("%s: can't read aux info file `%s': %s\n",
2019 pname, shortpath (NULL, aux_info_filename),
2020 xstrerror (errno_val));
2021 errors++;
2022 return;
2025 #if 0 /* There is code farther down to take care of this. */
2026 else
2028 struct stat s1, s2;
2029 stat (aux_info_file_name, &s1);
2030 stat (base_source_file_name, &s2);
2031 if (s2.st_mtime > s1.st_mtime)
2032 must_create = 1;
2034 #endif /* 0 */
2036 /* If we need a .X file, create it, and verify we can read it. */
2037 if (must_create)
2039 if (!gen_aux_info_file (base_source_filename))
2041 errors++;
2042 return;
2044 if (access (aux_info_filename, R_OK) == -1)
2046 int errno_val = errno;
2047 notice ("%s: can't read aux info file `%s': %s\n",
2048 pname, shortpath (NULL, aux_info_filename),
2049 xstrerror (errno_val));
2050 errors++;
2051 return;
2056 struct stat stat_buf;
2058 /* Get some status information about this aux_info file. */
2060 if (stat (aux_info_filename, &stat_buf) == -1)
2062 int errno_val = errno;
2063 notice ("%s: can't get status of aux info file `%s': %s\n",
2064 pname, shortpath (NULL, aux_info_filename),
2065 xstrerror (errno_val));
2066 errors++;
2067 return;
2070 /* Check on whether or not this aux_info file is zero length. If it is,
2071 then just ignore it and return. */
2073 if ((aux_info_size = stat_buf.st_size) == 0)
2074 return;
2076 /* Get the date/time of last modification for this aux_info file and
2077 remember it. We will have to check that any source files that it
2078 contains information about are at least this old or older. */
2080 aux_info_mtime = stat_buf.st_mtime;
2082 if (!is_syscalls)
2084 /* Compare mod time with the .c file; update .X file if obsolete.
2085 The code later on can fail to check the .c file
2086 if it did not directly define any functions. */
2088 if (stat (base_source_filename, &stat_buf) == -1)
2090 int errno_val = errno;
2091 notice ("%s: can't get status of aux info file `%s': %s\n",
2092 pname, shortpath (NULL, base_source_filename),
2093 xstrerror (errno_val));
2094 errors++;
2095 return;
2097 if (stat_buf.st_mtime > aux_info_mtime)
2099 must_create = 1;
2100 goto start_over;
2106 int aux_info_file;
2107 int fd_flags;
2109 /* Open the aux_info file. */
2111 fd_flags = O_RDONLY;
2112 #ifdef O_BINARY
2113 /* Use binary mode to avoid having to deal with different EOL characters. */
2114 fd_flags |= O_BINARY;
2115 #endif
2116 if ((aux_info_file = open (aux_info_filename, fd_flags, 0444 )) == -1)
2118 int errno_val = errno;
2119 notice ("%s: can't open aux info file `%s' for reading: %s\n",
2120 pname, shortpath (NULL, aux_info_filename),
2121 xstrerror (errno_val));
2122 return;
2125 /* Allocate space to hold the aux_info file in memory. */
2127 aux_info_base = xmalloc (aux_info_size + 1);
2128 aux_info_limit = aux_info_base + aux_info_size;
2129 *aux_info_limit = '\0';
2131 /* Read the aux_info file into memory. */
2133 if (safe_read (aux_info_file, aux_info_base, aux_info_size) !=
2134 (int) aux_info_size)
2136 int errno_val = errno;
2137 notice ("%s: error reading aux info file `%s': %s\n",
2138 pname, shortpath (NULL, aux_info_filename),
2139 xstrerror (errno_val));
2140 free (aux_info_base);
2141 close (aux_info_file);
2142 return;
2145 /* Close the aux info file. */
2147 if (close (aux_info_file))
2149 int errno_val = errno;
2150 notice ("%s: error closing aux info file `%s': %s\n",
2151 pname, shortpath (NULL, aux_info_filename),
2152 xstrerror (errno_val));
2153 free (aux_info_base);
2154 close (aux_info_file);
2155 return;
2159 /* Delete the aux_info file (unless requested not to). If the deletion
2160 fails for some reason, don't even worry about it. */
2162 if (must_create && !keep_it)
2163 if (unlink (aux_info_filename) == -1)
2165 int errno_val = errno;
2166 notice ("%s: can't delete aux info file `%s': %s\n",
2167 pname, shortpath (NULL, aux_info_filename),
2168 xstrerror (errno_val));
2171 /* Save a pointer into the first line of the aux_info file which
2172 contains the filename of the directory from which the compiler
2173 was invoked when the associated source file was compiled.
2174 This information is used later to help create complete
2175 filenames out of the (potentially) relative filenames in
2176 the aux_info file. */
2179 char *p = aux_info_base;
2181 while (*p != ':'
2182 #ifdef HAVE_DOS_BASED_FILE_SYSTEM
2183 || (*p == ':' && *p && *(p+1) && IS_DIR_SEPARATOR (*(p+1)))
2184 #endif
2186 p++;
2187 p++;
2188 while (*p == ' ')
2189 p++;
2190 invocation_filename = p; /* Save a pointer to first byte of path. */
2191 while (*p != ' ')
2192 p++;
2193 *p++ = DIR_SEPARATOR;
2194 *p++ = '\0';
2195 while (*p++ != '\n')
2196 continue;
2197 aux_info_second_line = p;
2198 aux_info_relocated_name = 0;
2199 if (! IS_ABSOLUTE_PATH (invocation_filename))
2201 /* INVOCATION_FILENAME is relative;
2202 append it to BASE_SOURCE_FILENAME's dir. */
2203 char *dir_end;
2204 aux_info_relocated_name = xmalloc (base_len + (p-invocation_filename));
2205 strcpy (aux_info_relocated_name, base_source_filename);
2206 dir_end = strrchr (aux_info_relocated_name, DIR_SEPARATOR);
2207 #ifdef DIR_SEPARATOR_2
2209 char *slash;
2211 slash = strrchr (dir_end ? dir_end : aux_info_relocated_name,
2212 DIR_SEPARATOR_2);
2213 if (slash)
2214 dir_end = slash;
2216 #endif
2217 if (dir_end)
2218 dir_end++;
2219 else
2220 dir_end = aux_info_relocated_name;
2221 strcpy (dir_end, invocation_filename);
2222 invocation_filename = aux_info_relocated_name;
2228 const char *aux_info_p;
2230 /* Do a pre-pass on the lines in the aux_info file, making sure that all
2231 of the source files referenced in there are at least as old as this
2232 aux_info file itself. If not, go back and regenerate the aux_info
2233 file anew. Don't do any of this for the syscalls file. */
2235 if (!is_syscalls)
2237 current_aux_info_lineno = 2;
2239 for (aux_info_p = aux_info_second_line; *aux_info_p; )
2241 if (referenced_file_is_newer (aux_info_p, aux_info_mtime))
2243 free (aux_info_base);
2244 free (aux_info_relocated_name);
2245 if (keep_it && unlink (aux_info_filename) == -1)
2247 int errno_val = errno;
2248 notice ("%s: can't delete file `%s': %s\n",
2249 pname, shortpath (NULL, aux_info_filename),
2250 xstrerror (errno_val));
2251 return;
2253 must_create = 1;
2254 goto start_over;
2257 /* Skip over the rest of this line to start of next line. */
2259 while (*aux_info_p != '\n')
2260 aux_info_p++;
2261 aux_info_p++;
2262 current_aux_info_lineno++;
2266 /* Now do the real pass on the aux_info lines. Save their information in
2267 the in-core data base. */
2269 current_aux_info_lineno = 2;
2271 for (aux_info_p = aux_info_second_line; *aux_info_p;)
2273 char *unexpanded_line = unexpand_if_needed (aux_info_p);
2275 if (unexpanded_line)
2277 save_def_or_dec (unexpanded_line, is_syscalls);
2278 free (unexpanded_line);
2280 else
2281 save_def_or_dec (aux_info_p, is_syscalls);
2283 /* Skip over the rest of this line and get to start of next line. */
2285 while (*aux_info_p != '\n')
2286 aux_info_p++;
2287 aux_info_p++;
2288 current_aux_info_lineno++;
2292 free (aux_info_base);
2293 free (aux_info_relocated_name);
2296 #ifndef UNPROTOIZE
2298 /* Check an individual filename for a .c suffix. If the filename has this
2299 suffix, rename the file such that its suffix is changed to .C. This
2300 function implements the -C option. */
2302 static void
2303 rename_c_file (const hash_table_entry *hp)
2305 const char *filename = hp->symbol;
2306 int last_char_index = strlen (filename) - 1;
2307 char *const new_filename = alloca (strlen (filename)
2308 + strlen (cplus_suffix) + 1);
2310 /* Note that we don't care here if the given file was converted or not. It
2311 is possible that the given file was *not* converted, simply because there
2312 was nothing in it which actually required conversion. Even in this case,
2313 we want to do the renaming. Note that we only rename files with the .c
2314 suffix (except for the syscalls file, which is left alone). */
2316 if (filename[last_char_index] != 'c' || filename[last_char_index-1] != '.'
2317 || IS_SAME_PATH (syscalls_absolute_filename, filename))
2318 return;
2320 strcpy (new_filename, filename);
2321 strcpy (&new_filename[last_char_index], cplus_suffix);
2323 if (rename (filename, new_filename) == -1)
2325 int errno_val = errno;
2326 notice ("%s: warning: can't rename file `%s' to `%s': %s\n",
2327 pname, shortpath (NULL, filename),
2328 shortpath (NULL, new_filename), xstrerror (errno_val));
2329 errors++;
2330 return;
2334 #endif /* !defined (UNPROTOIZE) */
2336 /* Take the list of definitions and declarations attached to a particular
2337 file_info node and reverse the order of the list. This should get the
2338 list into an order such that the item with the lowest associated line
2339 number is nearest the head of the list. When these lists are originally
2340 built, they are in the opposite order. We want to traverse them in
2341 normal line number order later (i.e. lowest to highest) so reverse the
2342 order here. */
2344 static void
2345 reverse_def_dec_list (const hash_table_entry *hp)
2347 file_info *file_p = hp->fip;
2348 def_dec_info *prev = NULL;
2349 def_dec_info *current = (def_dec_info *) file_p->defs_decs;
2351 if (!current)
2352 return; /* no list to reverse */
2354 prev = current;
2355 if (! (current = (def_dec_info *) current->next_in_file))
2356 return; /* can't reverse a single list element */
2358 prev->next_in_file = NULL;
2360 while (current)
2362 def_dec_info *next = (def_dec_info *) current->next_in_file;
2364 current->next_in_file = prev;
2365 prev = current;
2366 current = next;
2369 file_p->defs_decs = prev;
2372 #ifndef UNPROTOIZE
2374 /* Find the (only?) extern definition for a particular function name, starting
2375 from the head of the linked list of entries for the given name. If we
2376 cannot find an extern definition for the given function name, issue a
2377 warning and scrounge around for the next best thing, i.e. an extern
2378 function declaration with a prototype attached to it. Note that we only
2379 allow such substitutions for extern declarations and never for static
2380 declarations. That's because the only reason we allow them at all is
2381 to let un-prototyped function declarations for system-supplied library
2382 functions get their prototypes from our own extra SYSCALLS.c.X file which
2383 contains all of the correct prototypes for system functions. */
2385 static const def_dec_info *
2386 find_extern_def (const def_dec_info *head, const def_dec_info *user)
2388 const def_dec_info *dd_p;
2389 const def_dec_info *extern_def_p = NULL;
2390 int conflict_noted = 0;
2392 /* Don't act too stupid here. Somebody may try to convert an entire system
2393 in one swell fwoop (rather than one program at a time, as should be done)
2394 and in that case, we may find that there are multiple extern definitions
2395 of a given function name in the entire set of source files that we are
2396 converting. If however one of these definitions resides in exactly the
2397 same source file as the reference we are trying to satisfy then in that
2398 case it would be stupid for us to fail to realize that this one definition
2399 *must* be the precise one we are looking for.
2401 To make sure that we don't miss an opportunity to make this "same file"
2402 leap of faith, we do a prescan of the list of records relating to the
2403 given function name, and we look (on this first scan) *only* for a
2404 definition of the function which is in the same file as the reference
2405 we are currently trying to satisfy. */
2407 for (dd_p = head; dd_p; dd_p = dd_p->next_for_func)
2408 if (dd_p->is_func_def && !dd_p->is_static && dd_p->file == user->file)
2409 return dd_p;
2411 /* Now, since we have not found a definition in the same file as the
2412 reference, we scan the list again and consider all possibilities from
2413 all files. Here we may get conflicts with the things listed in the
2414 SYSCALLS.c.X file, but if that happens it only means that the source
2415 code being converted contains its own definition of a function which
2416 could have been supplied by libc.a. In such cases, we should avoid
2417 issuing the normal warning, and defer to the definition given in the
2418 user's own code. */
2420 for (dd_p = head; dd_p; dd_p = dd_p->next_for_func)
2421 if (dd_p->is_func_def && !dd_p->is_static)
2423 if (!extern_def_p) /* Previous definition? */
2424 extern_def_p = dd_p; /* Remember the first definition found. */
2425 else
2427 /* Ignore definition just found if it came from SYSCALLS.c.X. */
2429 if (is_syscalls_file (dd_p->file))
2430 continue;
2432 /* Quietly replace the definition previously found with the one
2433 just found if the previous one was from SYSCALLS.c.X. */
2435 if (is_syscalls_file (extern_def_p->file))
2437 extern_def_p = dd_p;
2438 continue;
2441 /* If we get here, then there is a conflict between two function
2442 declarations for the same function, both of which came from the
2443 user's own code. */
2445 if (!conflict_noted) /* first time we noticed? */
2447 conflict_noted = 1;
2448 notice ("%s: conflicting extern definitions of '%s'\n",
2449 pname, head->hash_entry->symbol);
2450 if (!quiet_flag)
2452 notice ("%s: declarations of '%s' will not be converted\n",
2453 pname, head->hash_entry->symbol);
2454 notice ("%s: conflict list for '%s' follows:\n",
2455 pname, head->hash_entry->symbol);
2456 fprintf (stderr, "%s: %s(%d): %s\n",
2457 pname,
2458 shortpath (NULL, extern_def_p->file->hash_entry->symbol),
2459 extern_def_p->line, extern_def_p->ansi_decl);
2462 if (!quiet_flag)
2463 fprintf (stderr, "%s: %s(%d): %s\n",
2464 pname,
2465 shortpath (NULL, dd_p->file->hash_entry->symbol),
2466 dd_p->line, dd_p->ansi_decl);
2470 /* We want to err on the side of caution, so if we found multiple conflicting
2471 definitions for the same function, treat this as being that same as if we
2472 had found no definitions (i.e. return NULL). */
2474 if (conflict_noted)
2475 return NULL;
2477 if (!extern_def_p)
2479 /* We have no definitions for this function so do the next best thing.
2480 Search for an extern declaration already in prototype form. */
2482 for (dd_p = head; dd_p; dd_p = dd_p->next_for_func)
2483 if (!dd_p->is_func_def && !dd_p->is_static && dd_p->prototyped)
2485 extern_def_p = dd_p; /* save a pointer to the definition */
2486 if (!quiet_flag)
2487 notice ("%s: warning: using formals list from %s(%d) for function `%s'\n",
2488 pname,
2489 shortpath (NULL, dd_p->file->hash_entry->symbol),
2490 dd_p->line, dd_p->hash_entry->symbol);
2491 break;
2494 /* Gripe about unprototyped function declarations that we found no
2495 corresponding definition (or other source of prototype information)
2496 for.
2498 Gripe even if the unprototyped declaration we are worried about
2499 exists in a file in one of the "system" include directories. We
2500 can gripe about these because we should have at least found a
2501 corresponding (pseudo) definition in the SYSCALLS.c.X file. If we
2502 didn't, then that means that the SYSCALLS.c.X file is missing some
2503 needed prototypes for this particular system. That is worth telling
2504 the user about! */
2506 if (!extern_def_p)
2508 const char *file = user->file->hash_entry->symbol;
2510 if (!quiet_flag)
2511 if (in_system_include_dir (file))
2513 /* Why copy this string into `needed' at all?
2514 Why not just use user->ansi_decl without copying? */
2515 char *needed = alloca (strlen (user->ansi_decl) + 1);
2516 char *p;
2518 strcpy (needed, user->ansi_decl);
2519 p = (NONCONST char *) substr (needed, user->hash_entry->symbol)
2520 + strlen (user->hash_entry->symbol) + 2;
2521 /* Avoid having ??? in the string. */
2522 *p++ = '?';
2523 *p++ = '?';
2524 *p++ = '?';
2525 strcpy (p, ");");
2527 notice ("%s: %d: `%s' used but missing from SYSCALLS\n",
2528 shortpath (NULL, file), user->line,
2529 needed+7); /* Don't print "extern " */
2531 #if 0
2532 else
2533 notice ("%s: %d: warning: no extern definition for `%s'\n",
2534 shortpath (NULL, file), user->line,
2535 user->hash_entry->symbol);
2536 #endif
2539 return extern_def_p;
2542 /* Find the (only?) static definition for a particular function name in a
2543 given file. Here we get the function-name and the file info indirectly
2544 from the def_dec_info record pointer which is passed in. */
2546 static const def_dec_info *
2547 find_static_definition (const def_dec_info *user)
2549 const def_dec_info *head = user->hash_entry->ddip;
2550 const def_dec_info *dd_p;
2551 int num_static_defs = 0;
2552 const def_dec_info *static_def_p = NULL;
2554 for (dd_p = head; dd_p; dd_p = dd_p->next_for_func)
2555 if (dd_p->is_func_def && dd_p->is_static && (dd_p->file == user->file))
2557 static_def_p = dd_p; /* save a pointer to the definition */
2558 num_static_defs++;
2560 if (num_static_defs == 0)
2562 if (!quiet_flag)
2563 notice ("%s: warning: no static definition for `%s' in file `%s'\n",
2564 pname, head->hash_entry->symbol,
2565 shortpath (NULL, user->file->hash_entry->symbol));
2567 else if (num_static_defs > 1)
2569 notice ("%s: multiple static defs of `%s' in file `%s'\n",
2570 pname, head->hash_entry->symbol,
2571 shortpath (NULL, user->file->hash_entry->symbol));
2572 return NULL;
2574 return static_def_p;
2577 /* Find good prototype style formal argument lists for all of the function
2578 declarations which didn't have them before now.
2580 To do this we consider each function name one at a time. For each function
2581 name, we look at the items on the linked list of def_dec_info records for
2582 that particular name.
2584 Somewhere on this list we should find one (and only one) def_dec_info
2585 record which represents the actual function definition, and this record
2586 should have a nice formal argument list already associated with it.
2588 Thus, all we have to do is to connect up all of the other def_dec_info
2589 records for this particular function name to the special one which has
2590 the full-blown formals list.
2592 Of course it is a little more complicated than just that. See below for
2593 more details. */
2595 static void
2596 connect_defs_and_decs (const hash_table_entry *hp)
2598 const def_dec_info *dd_p;
2599 const def_dec_info *extern_def_p = NULL;
2600 int first_extern_reference = 1;
2602 /* Traverse the list of definitions and declarations for this particular
2603 function name. For each item on the list, if it is a function
2604 definition (either old style or new style) then GCC has already been
2605 kind enough to produce a prototype for us, and it is associated with
2606 the item already, so declare the item as its own associated "definition".
2608 Also, for each item which is only a function declaration, but which
2609 nonetheless has its own prototype already (obviously supplied by the user)
2610 declare the item as its own definition.
2612 Note that when/if there are multiple user-supplied prototypes already
2613 present for multiple declarations of any given function, these multiple
2614 prototypes *should* all match exactly with one another and with the
2615 prototype for the actual function definition. We don't check for this
2616 here however, since we assume that the compiler must have already done
2617 this consistency checking when it was creating the .X files. */
2619 for (dd_p = hp->ddip; dd_p; dd_p = dd_p->next_for_func)
2620 if (dd_p->prototyped)
2621 ((NONCONST def_dec_info *) dd_p)->definition = dd_p;
2623 /* Traverse the list of definitions and declarations for this particular
2624 function name. For each item on the list, if it is an extern function
2625 declaration and if it has no associated definition yet, go try to find
2626 the matching extern definition for the declaration.
2628 When looking for the matching function definition, warn the user if we
2629 fail to find one.
2631 If we find more that one function definition also issue a warning.
2633 Do the search for the matching definition only once per unique function
2634 name (and only when absolutely needed) so that we can avoid putting out
2635 redundant warning messages, and so that we will only put out warning
2636 messages when there is actually a reference (i.e. a declaration) for
2637 which we need to find a matching definition. */
2639 for (dd_p = hp->ddip; dd_p; dd_p = dd_p->next_for_func)
2640 if (!dd_p->is_func_def && !dd_p->is_static && !dd_p->definition)
2642 if (first_extern_reference)
2644 extern_def_p = find_extern_def (hp->ddip, dd_p);
2645 first_extern_reference = 0;
2647 ((NONCONST def_dec_info *) dd_p)->definition = extern_def_p;
2650 /* Traverse the list of definitions and declarations for this particular
2651 function name. For each item on the list, if it is a static function
2652 declaration and if it has no associated definition yet, go try to find
2653 the matching static definition for the declaration within the same file.
2655 When looking for the matching function definition, warn the user if we
2656 fail to find one in the same file with the declaration, and refuse to
2657 convert this kind of cross-file static function declaration. After all,
2658 this is stupid practice and should be discouraged.
2660 We don't have to worry about the possibility that there is more than one
2661 matching function definition in the given file because that would have
2662 been flagged as an error by the compiler.
2664 Do the search for the matching definition only once per unique
2665 function-name/source-file pair (and only when absolutely needed) so that
2666 we can avoid putting out redundant warning messages, and so that we will
2667 only put out warning messages when there is actually a reference (i.e. a
2668 declaration) for which we actually need to find a matching definition. */
2670 for (dd_p = hp->ddip; dd_p; dd_p = dd_p->next_for_func)
2671 if (!dd_p->is_func_def && dd_p->is_static && !dd_p->definition)
2673 const def_dec_info *dd_p2;
2674 const def_dec_info *static_def;
2676 /* We have now found a single static declaration for which we need to
2677 find a matching definition. We want to minimize the work (and the
2678 number of warnings), so we will find an appropriate (matching)
2679 static definition for this declaration, and then distribute it
2680 (as the definition for) any and all other static declarations
2681 for this function name which occur within the same file, and which
2682 do not already have definitions.
2684 Note that a trick is used here to prevent subsequent attempts to
2685 call find_static_definition for a given function-name & file
2686 if the first such call returns NULL. Essentially, we convert
2687 these NULL return values to -1, and put the -1 into the definition
2688 field for each other static declaration from the same file which
2689 does not already have an associated definition.
2690 This makes these other static declarations look like they are
2691 actually defined already when the outer loop here revisits them
2692 later on. Thus, the outer loop will skip over them. Later, we
2693 turn the -1's back to NULL's. */
2695 ((NONCONST def_dec_info *) dd_p)->definition =
2696 (static_def = find_static_definition (dd_p))
2697 ? static_def
2698 : (const def_dec_info *) -1;
2700 for (dd_p2 = dd_p->next_for_func; dd_p2; dd_p2 = dd_p2->next_for_func)
2701 if (!dd_p2->is_func_def && dd_p2->is_static
2702 && !dd_p2->definition && (dd_p2->file == dd_p->file))
2703 ((NONCONST def_dec_info *) dd_p2)->definition = dd_p->definition;
2706 /* Convert any dummy (-1) definitions we created in the step above back to
2707 NULL's (as they should be). */
2709 for (dd_p = hp->ddip; dd_p; dd_p = dd_p->next_for_func)
2710 if (dd_p->definition == (def_dec_info *) -1)
2711 ((NONCONST def_dec_info *) dd_p)->definition = NULL;
2714 #endif /* !defined (UNPROTOIZE) */
2716 /* Give a pointer into the clean text buffer, return a number which is the
2717 original source line number that the given pointer points into. */
2719 static int
2720 identify_lineno (const char *clean_p)
2722 int line_num = 1;
2723 const char *scan_p;
2725 for (scan_p = clean_text_base; scan_p <= clean_p; scan_p++)
2726 if (*scan_p == '\n')
2727 line_num++;
2728 return line_num;
2731 /* Issue an error message and give up on doing this particular edit. */
2733 static void
2734 declare_source_confusing (const char *clean_p)
2736 if (!quiet_flag)
2738 if (clean_p == 0)
2739 notice ("%s: %d: warning: source too confusing\n",
2740 shortpath (NULL, convert_filename), last_known_line_number);
2741 else
2742 notice ("%s: %d: warning: source too confusing\n",
2743 shortpath (NULL, convert_filename),
2744 identify_lineno (clean_p));
2746 longjmp (source_confusion_recovery, 1);
2749 /* Check that a condition which is expected to be true in the original source
2750 code is in fact true. If not, issue an error message and give up on
2751 converting this particular source file. */
2753 static void
2754 check_source (int cond, const char *clean_p)
2756 if (!cond)
2757 declare_source_confusing (clean_p);
2760 /* If we think of the in-core cleaned text buffer as a memory mapped
2761 file (with the variable last_known_line_start acting as sort of a
2762 file pointer) then we can imagine doing "seeks" on the buffer. The
2763 following routine implements a kind of "seek" operation for the in-core
2764 (cleaned) copy of the source file. When finished, it returns a pointer to
2765 the start of a given (numbered) line in the cleaned text buffer.
2767 Note that protoize only has to "seek" in the forward direction on the
2768 in-core cleaned text file buffers, and it never needs to back up.
2770 This routine is made a little bit faster by remembering the line number
2771 (and pointer value) supplied (and returned) from the previous "seek".
2772 This prevents us from always having to start all over back at the top
2773 of the in-core cleaned buffer again. */
2775 static const char *
2776 seek_to_line (int n)
2778 if (n < last_known_line_number)
2779 abort ();
2781 while (n > last_known_line_number)
2783 while (*last_known_line_start != '\n')
2784 check_source (++last_known_line_start < clean_text_limit, 0);
2785 last_known_line_start++;
2786 last_known_line_number++;
2788 return last_known_line_start;
2791 /* Given a pointer to a character in the cleaned text buffer, return a pointer
2792 to the next non-whitespace character which follows it. */
2794 static const char *
2795 forward_to_next_token_char (const char *ptr)
2797 for (++ptr; ISSPACE ((const unsigned char)*ptr);
2798 check_source (++ptr < clean_text_limit, 0))
2799 continue;
2800 return ptr;
2803 /* Copy a chunk of text of length `len' and starting at `str' to the current
2804 output buffer. Note that all attempts to add stuff to the current output
2805 buffer ultimately go through here. */
2807 static void
2808 output_bytes (const char *str, size_t len)
2810 if ((repl_write_ptr + 1) + len >= repl_text_limit)
2812 size_t new_size = (repl_text_limit - repl_text_base) << 1;
2813 char *new_buf = xrealloc (repl_text_base, new_size);
2815 repl_write_ptr = new_buf + (repl_write_ptr - repl_text_base);
2816 repl_text_base = new_buf;
2817 repl_text_limit = new_buf + new_size;
2819 memcpy (repl_write_ptr + 1, str, len);
2820 repl_write_ptr += len;
2823 /* Copy all bytes (except the trailing null) of a null terminated string to
2824 the current output buffer. */
2826 static void
2827 output_string (const char *str)
2829 output_bytes (str, strlen (str));
2832 /* Copy some characters from the original text buffer to the current output
2833 buffer.
2835 This routine takes a pointer argument `p' which is assumed to be a pointer
2836 into the cleaned text buffer. The bytes which are copied are the `original'
2837 equivalents for the set of bytes between the last value of `clean_read_ptr'
2838 and the argument value `p'.
2840 The set of bytes copied however, comes *not* from the cleaned text buffer,
2841 but rather from the direct counterparts of these bytes within the original
2842 text buffer.
2844 Thus, when this function is called, some bytes from the original text
2845 buffer (which may include original comments and preprocessing directives)
2846 will be copied into the output buffer.
2848 Note that the request implied when this routine is called includes the
2849 byte pointed to by the argument pointer `p'. */
2851 static void
2852 output_up_to (const char *p)
2854 size_t copy_length = (size_t) (p - clean_read_ptr);
2855 const char *copy_start = orig_text_base+(clean_read_ptr-clean_text_base)+1;
2857 if (copy_length == 0)
2858 return;
2860 output_bytes (copy_start, copy_length);
2861 clean_read_ptr = p;
2864 /* Given a pointer to a def_dec_info record which represents some form of
2865 definition of a function (perhaps a real definition, or in lieu of that
2866 perhaps just a declaration with a full prototype) return true if this
2867 function is one which we should avoid converting. Return false
2868 otherwise. */
2870 static int
2871 other_variable_style_function (const char *ansi_header)
2873 #ifdef UNPROTOIZE
2875 /* See if we have a stdarg function, or a function which has stdarg style
2876 parameters or a stdarg style return type. */
2878 return substr (ansi_header, "...") != 0;
2880 #else /* !defined (UNPROTOIZE) */
2882 /* See if we have a varargs function, or a function which has varargs style
2883 parameters or a varargs style return type. */
2885 const char *p;
2886 int len = strlen (varargs_style_indicator);
2888 for (p = ansi_header; p; )
2890 const char *candidate;
2892 if ((candidate = substr (p, varargs_style_indicator)) == 0)
2893 return 0;
2894 else
2895 if (!is_id_char (candidate[-1]) && !is_id_char (candidate[len]))
2896 return 1;
2897 else
2898 p = candidate + 1;
2900 return 0;
2901 #endif /* !defined (UNPROTOIZE) */
2904 /* Do the editing operation specifically for a function "declaration". Note
2905 that editing for function "definitions" are handled in a separate routine
2906 below. */
2908 static void
2909 edit_fn_declaration (const def_dec_info *def_dec_p,
2910 const char *volatile clean_text_p)
2912 const char *start_formals;
2913 const char *end_formals;
2914 const char *function_to_edit = def_dec_p->hash_entry->symbol;
2915 size_t func_name_len = strlen (function_to_edit);
2916 const char *end_of_fn_name;
2918 #ifndef UNPROTOIZE
2920 const f_list_chain_item *this_f_list_chain_item;
2921 const def_dec_info *definition = def_dec_p->definition;
2923 /* If we are protoizing, and if we found no corresponding definition for
2924 this particular function declaration, then just leave this declaration
2925 exactly as it is. */
2927 if (!definition)
2928 return;
2930 /* If we are protoizing, and if the corresponding definition that we found
2931 for this particular function declaration defined an old style varargs
2932 function, then we want to issue a warning and just leave this function
2933 declaration unconverted. */
2935 if (other_variable_style_function (definition->ansi_decl))
2937 if (!quiet_flag)
2938 notice ("%s: %d: warning: varargs function declaration not converted\n",
2939 shortpath (NULL, def_dec_p->file->hash_entry->symbol),
2940 def_dec_p->line);
2941 return;
2944 #endif /* !defined (UNPROTOIZE) */
2946 /* Setup here to recover from confusing source code detected during this
2947 particular "edit". */
2949 save_pointers ();
2950 if (setjmp (source_confusion_recovery))
2952 restore_pointers ();
2953 notice ("%s: declaration of function `%s' not converted\n",
2954 pname, function_to_edit);
2955 return;
2958 /* We are editing a function declaration. The line number we did a seek to
2959 contains the comma or semicolon which follows the declaration. Our job
2960 now is to scan backwards looking for the function name. This name *must*
2961 be followed by open paren (ignoring whitespace, of course). We need to
2962 replace everything between that open paren and the corresponding closing
2963 paren. If we are protoizing, we need to insert the prototype-style
2964 formals lists. If we are unprotoizing, we need to just delete everything
2965 between the pairs of opening and closing parens. */
2967 /* First move up to the end of the line. */
2969 while (*clean_text_p != '\n')
2970 check_source (++clean_text_p < clean_text_limit, 0);
2971 clean_text_p--; /* Point to just before the newline character. */
2973 /* Now we can scan backwards for the function name. */
2977 for (;;)
2979 /* Scan leftwards until we find some character which can be
2980 part of an identifier. */
2982 while (!is_id_char (*clean_text_p))
2983 check_source (--clean_text_p > clean_read_ptr, 0);
2985 /* Scan backwards until we find a char that cannot be part of an
2986 identifier. */
2988 while (is_id_char (*clean_text_p))
2989 check_source (--clean_text_p > clean_read_ptr, 0);
2991 /* Having found an "id break", see if the following id is the one
2992 that we are looking for. If so, then exit from this loop. */
2994 if (!strncmp (clean_text_p+1, function_to_edit, func_name_len))
2996 char ch = *(clean_text_p + 1 + func_name_len);
2998 /* Must also check to see that the name in the source text
2999 ends where it should (in order to prevent bogus matches
3000 on similar but longer identifiers. */
3002 if (! is_id_char (ch))
3003 break; /* exit from loop */
3007 /* We have now found the first perfect match for the function name in
3008 our backward search. This may or may not be the actual function
3009 name at the start of the actual function declaration (i.e. we could
3010 have easily been mislead). We will try to avoid getting fooled too
3011 often by looking forward for the open paren which should follow the
3012 identifier we just found. We ignore whitespace while hunting. If
3013 the next non-whitespace byte we see is *not* an open left paren,
3014 then we must assume that we have been fooled and we start over
3015 again accordingly. Note that there is no guarantee, that even if
3016 we do see the open paren, that we are in the right place.
3017 Programmers do the strangest things sometimes! */
3019 end_of_fn_name = clean_text_p + strlen (def_dec_p->hash_entry->symbol);
3020 start_formals = forward_to_next_token_char (end_of_fn_name);
3022 while (*start_formals != '(');
3024 /* start_of_formals now points to the opening left paren which immediately
3025 follows the name of the function. */
3027 /* Note that there may be several formals lists which need to be modified
3028 due to the possibility that the return type of this function is a
3029 pointer-to-function type. If there are several formals lists, we
3030 convert them in left-to-right order here. */
3032 #ifndef UNPROTOIZE
3033 this_f_list_chain_item = definition->f_list_chain;
3034 #endif /* !defined (UNPROTOIZE) */
3036 for (;;)
3039 int depth;
3041 end_formals = start_formals + 1;
3042 depth = 1;
3043 for (; depth; check_source (++end_formals < clean_text_limit, 0))
3045 switch (*end_formals)
3047 case '(':
3048 depth++;
3049 break;
3050 case ')':
3051 depth--;
3052 break;
3055 end_formals--;
3058 /* end_formals now points to the closing right paren of the formals
3059 list whose left paren is pointed to by start_formals. */
3061 /* Now, if we are protoizing, we insert the new ANSI-style formals list
3062 attached to the associated definition of this function. If however
3063 we are unprotoizing, then we simply delete any formals list which
3064 may be present. */
3066 output_up_to (start_formals);
3067 #ifndef UNPROTOIZE
3068 if (this_f_list_chain_item)
3070 output_string (this_f_list_chain_item->formals_list);
3071 this_f_list_chain_item = this_f_list_chain_item->chain_next;
3073 else
3075 if (!quiet_flag)
3076 notice ("%s: warning: too many parameter lists in declaration of `%s'\n",
3077 pname, def_dec_p->hash_entry->symbol);
3078 check_source (0, end_formals); /* leave the declaration intact */
3080 #endif /* !defined (UNPROTOIZE) */
3081 clean_read_ptr = end_formals - 1;
3083 /* Now see if it looks like there may be another formals list associated
3084 with the function declaration that we are converting (following the
3085 formals list that we just converted. */
3088 const char *another_r_paren = forward_to_next_token_char (end_formals);
3090 if ((*another_r_paren != ')')
3091 || (*(start_formals = forward_to_next_token_char (another_r_paren)) != '('))
3093 #ifndef UNPROTOIZE
3094 if (this_f_list_chain_item)
3096 if (!quiet_flag)
3097 notice ("\n%s: warning: too few parameter lists in declaration of `%s'\n",
3098 pname, def_dec_p->hash_entry->symbol);
3099 check_source (0, start_formals); /* leave the decl intact */
3101 #endif /* !defined (UNPROTOIZE) */
3102 break;
3107 /* There does appear to be yet another formals list, so loop around
3108 again, and convert it also. */
3112 /* Edit a whole group of formals lists, starting with the rightmost one
3113 from some set of formals lists. This routine is called once (from the
3114 outside) for each function declaration which is converted. It is
3115 recursive however, and it calls itself once for each remaining formal
3116 list that lies to the left of the one it was originally called to work
3117 on. Thus, a whole set gets done in right-to-left order.
3119 This routine returns nonzero if it thinks that it should not be trying
3120 to convert this particular function definition (because the name of the
3121 function doesn't match the one expected). */
3123 static int
3124 edit_formals_lists (const char *end_formals, unsigned int f_list_count,
3125 const def_dec_info *def_dec_p)
3127 const char *start_formals;
3128 int depth;
3130 start_formals = end_formals - 1;
3131 depth = 1;
3132 for (; depth; check_source (--start_formals > clean_read_ptr, 0))
3134 switch (*start_formals)
3136 case '(':
3137 depth--;
3138 break;
3139 case ')':
3140 depth++;
3141 break;
3144 start_formals++;
3146 /* start_formals now points to the opening left paren of the formals list. */
3148 f_list_count--;
3150 if (f_list_count)
3152 const char *next_end;
3154 /* There should be more formal lists to the left of here. */
3156 next_end = start_formals - 1;
3157 check_source (next_end > clean_read_ptr, 0);
3158 while (ISSPACE ((const unsigned char)*next_end))
3159 check_source (--next_end > clean_read_ptr, 0);
3160 check_source (*next_end == ')', next_end);
3161 check_source (--next_end > clean_read_ptr, 0);
3162 check_source (*next_end == ')', next_end);
3163 if (edit_formals_lists (next_end, f_list_count, def_dec_p))
3164 return 1;
3167 /* Check that the function name in the header we are working on is the same
3168 as the one we would expect to find. If not, issue a warning and return
3169 nonzero. */
3171 if (f_list_count == 0)
3173 const char *expected = def_dec_p->hash_entry->symbol;
3174 const char *func_name_start;
3175 const char *func_name_limit;
3176 size_t func_name_len;
3178 for (func_name_limit = start_formals-1;
3179 ISSPACE ((const unsigned char)*func_name_limit); )
3180 check_source (--func_name_limit > clean_read_ptr, 0);
3182 for (func_name_start = func_name_limit++;
3183 is_id_char (*func_name_start);
3184 func_name_start--)
3185 check_source (func_name_start > clean_read_ptr, 0);
3186 func_name_start++;
3187 func_name_len = func_name_limit - func_name_start;
3188 if (func_name_len == 0)
3189 check_source (0, func_name_start);
3190 if (func_name_len != strlen (expected)
3191 || strncmp (func_name_start, expected, func_name_len))
3193 notice ("%s: %d: warning: found `%s' but expected `%s'\n",
3194 shortpath (NULL, def_dec_p->file->hash_entry->symbol),
3195 identify_lineno (func_name_start),
3196 dupnstr (func_name_start, func_name_len),
3197 expected);
3198 return 1;
3202 output_up_to (start_formals);
3204 #ifdef UNPROTOIZE
3205 if (f_list_count == 0)
3206 output_string (def_dec_p->formal_names);
3207 #else /* !defined (UNPROTOIZE) */
3209 unsigned f_list_depth;
3210 const f_list_chain_item *flci_p = def_dec_p->f_list_chain;
3212 /* At this point, the current value of f_list count says how many
3213 links we have to follow through the f_list_chain to get to the
3214 particular formals list that we need to output next. */
3216 for (f_list_depth = 0; f_list_depth < f_list_count; f_list_depth++)
3217 flci_p = flci_p->chain_next;
3218 output_string (flci_p->formals_list);
3220 #endif /* !defined (UNPROTOIZE) */
3222 clean_read_ptr = end_formals - 1;
3223 return 0;
3226 /* Given a pointer to a byte in the clean text buffer which points to
3227 the beginning of a line that contains a "follower" token for a
3228 function definition header, do whatever is necessary to find the
3229 right closing paren for the rightmost formals list of the function
3230 definition header. */
3232 static const char *
3233 find_rightmost_formals_list (const char *clean_text_p)
3235 const char *end_formals;
3237 /* We are editing a function definition. The line number we did a seek
3238 to contains the first token which immediately follows the entire set of
3239 formals lists which are part of this particular function definition
3240 header.
3242 Our job now is to scan leftwards in the clean text looking for the
3243 right-paren which is at the end of the function header's rightmost
3244 formals list.
3246 If we ignore whitespace, this right paren should be the first one we
3247 see which is (ignoring whitespace) immediately followed either by the
3248 open curly-brace beginning the function body or by an alphabetic
3249 character (in the case where the function definition is in old (K&R)
3250 style and there are some declarations of formal parameters). */
3252 /* It is possible that the right paren we are looking for is on the
3253 current line (together with its following token). Just in case that
3254 might be true, we start out here by skipping down to the right end of
3255 the current line before starting our scan. */
3257 for (end_formals = clean_text_p; *end_formals != '\n'; end_formals++)
3258 continue;
3259 end_formals--;
3261 #ifdef UNPROTOIZE
3263 /* Now scan backwards while looking for the right end of the rightmost
3264 formals list associated with this function definition. */
3267 char ch;
3268 const char *l_brace_p;
3270 /* Look leftward and try to find a right-paren. */
3272 while (*end_formals != ')')
3274 if (ISSPACE ((unsigned char)*end_formals))
3275 while (ISSPACE ((unsigned char)*end_formals))
3276 check_source (--end_formals > clean_read_ptr, 0);
3277 else
3278 check_source (--end_formals > clean_read_ptr, 0);
3281 ch = *(l_brace_p = forward_to_next_token_char (end_formals));
3282 /* Since we are unprotoizing an ANSI-style (prototyped) function
3283 definition, there had better not be anything (except whitespace)
3284 between the end of the ANSI formals list and the beginning of the
3285 function body (i.e. the '{'). */
3287 check_source (ch == '{', l_brace_p);
3290 #else /* !defined (UNPROTOIZE) */
3292 /* Now scan backwards while looking for the right end of the rightmost
3293 formals list associated with this function definition. */
3295 while (1)
3297 char ch;
3298 const char *l_brace_p;
3300 /* Look leftward and try to find a right-paren. */
3302 while (*end_formals != ')')
3304 if (ISSPACE ((const unsigned char)*end_formals))
3305 while (ISSPACE ((const unsigned char)*end_formals))
3306 check_source (--end_formals > clean_read_ptr, 0);
3307 else
3308 check_source (--end_formals > clean_read_ptr, 0);
3311 ch = *(l_brace_p = forward_to_next_token_char (end_formals));
3313 /* Since it is possible that we found a right paren before the starting
3314 '{' of the body which IS NOT the one at the end of the real K&R
3315 formals list (say for instance, we found one embedded inside one of
3316 the old K&R formal parameter declarations) we have to check to be
3317 sure that this is in fact the right paren that we were looking for.
3319 The one we were looking for *must* be followed by either a '{' or
3320 by an alphabetic character, while others *cannot* validly be followed
3321 by such characters. */
3323 if ((ch == '{') || ISALPHA ((unsigned char) ch))
3324 break;
3326 /* At this point, we have found a right paren, but we know that it is
3327 not the one we were looking for, so backup one character and keep
3328 looking. */
3330 check_source (--end_formals > clean_read_ptr, 0);
3333 #endif /* !defined (UNPROTOIZE) */
3335 return end_formals;
3338 #ifndef UNPROTOIZE
3340 /* Insert into the output file a totally new declaration for a function
3341 which (up until now) was being called from within the current block
3342 without having been declared at any point such that the declaration
3343 was visible (i.e. in scope) at the point of the call.
3345 We need to add in explicit declarations for all such function calls
3346 in order to get the full benefit of prototype-based function call
3347 parameter type checking. */
3349 static void
3350 add_local_decl (const def_dec_info *def_dec_p, const char *clean_text_p)
3352 const char *start_of_block;
3353 const char *function_to_edit = def_dec_p->hash_entry->symbol;
3355 /* Don't insert new local explicit declarations unless explicitly requested
3356 to do so. */
3358 if (!local_flag)
3359 return;
3361 /* Setup here to recover from confusing source code detected during this
3362 particular "edit". */
3364 save_pointers ();
3365 if (setjmp (source_confusion_recovery))
3367 restore_pointers ();
3368 notice ("%s: local declaration for function `%s' not inserted\n",
3369 pname, function_to_edit);
3370 return;
3373 /* We have already done a seek to the start of the line which should
3374 contain *the* open curly brace which begins the block in which we need
3375 to insert an explicit function declaration (to replace the implicit one).
3377 Now we scan that line, starting from the left, until we find the
3378 open curly brace we are looking for. Note that there may actually be
3379 multiple open curly braces on the given line, but we will be happy
3380 with the leftmost one no matter what. */
3382 start_of_block = clean_text_p;
3383 while (*start_of_block != '{' && *start_of_block != '\n')
3384 check_source (++start_of_block < clean_text_limit, 0);
3386 /* Note that the line from the original source could possibly
3387 contain *no* open curly braces! This happens if the line contains
3388 a macro call which expands into a chunk of text which includes a
3389 block (and that block's associated open and close curly braces).
3390 In cases like this, we give up, issue a warning, and do nothing. */
3392 if (*start_of_block != '{')
3394 if (!quiet_flag)
3395 notice ("\n%s: %d: warning: can't add declaration of `%s' into macro call\n",
3396 def_dec_p->file->hash_entry->symbol, def_dec_p->line,
3397 def_dec_p->hash_entry->symbol);
3398 return;
3401 /* Figure out what a nice (pretty) indentation would be for the new
3402 declaration we are adding. In order to do this, we must scan forward
3403 from the '{' until we find the first line which starts with some
3404 non-whitespace characters (i.e. real "token" material). */
3407 const char *ep = forward_to_next_token_char (start_of_block) - 1;
3408 const char *sp;
3410 /* Now we have ep pointing at the rightmost byte of some existing indent
3411 stuff. At least that is the hope.
3413 We can now just scan backwards and find the left end of the existing
3414 indentation string, and then copy it to the output buffer. */
3416 for (sp = ep; ISSPACE ((const unsigned char)*sp) && *sp != '\n'; sp--)
3417 continue;
3419 /* Now write out the open { which began this block, and any following
3420 trash up to and including the last byte of the existing indent that
3421 we just found. */
3423 output_up_to (ep);
3425 /* Now we go ahead and insert the new declaration at this point.
3427 If the definition of the given function is in the same file that we
3428 are currently editing, and if its full ANSI declaration normally
3429 would start with the keyword `extern', suppress the `extern'. */
3432 const char *decl = def_dec_p->definition->ansi_decl;
3434 if ((*decl == 'e') && (def_dec_p->file == def_dec_p->definition->file))
3435 decl += 7;
3436 output_string (decl);
3439 /* Finally, write out a new indent string, just like the preceding one
3440 that we found. This will typically include a newline as the first
3441 character of the indent string. */
3443 output_bytes (sp, (size_t) (ep - sp) + 1);
3447 /* Given a pointer to a file_info record, and a pointer to the beginning
3448 of a line (in the clean text buffer) which is assumed to contain the
3449 first "follower" token for the first function definition header in the
3450 given file, find a good place to insert some new global function
3451 declarations (which will replace scattered and imprecise implicit ones)
3452 and then insert the new explicit declaration at that point in the file. */
3454 static void
3455 add_global_decls (const file_info *file_p, const char *clean_text_p)
3457 const def_dec_info *dd_p;
3458 const char *scan_p;
3460 /* Setup here to recover from confusing source code detected during this
3461 particular "edit". */
3463 save_pointers ();
3464 if (setjmp (source_confusion_recovery))
3466 restore_pointers ();
3467 notice ("%s: global declarations for file `%s' not inserted\n",
3468 pname, shortpath (NULL, file_p->hash_entry->symbol));
3469 return;
3472 /* Start by finding a good location for adding the new explicit function
3473 declarations. To do this, we scan backwards, ignoring whitespace
3474 and comments and other junk until we find either a semicolon, or until
3475 we hit the beginning of the file. */
3477 scan_p = find_rightmost_formals_list (clean_text_p);
3478 for (;; --scan_p)
3480 if (scan_p < clean_text_base)
3481 break;
3482 check_source (scan_p > clean_read_ptr, 0);
3483 if (*scan_p == ';')
3484 break;
3487 /* scan_p now points either to a semicolon, or to just before the start
3488 of the whole file. */
3490 /* Now scan forward for the first non-whitespace character. In theory,
3491 this should be the first character of the following function definition
3492 header. We will put in the added declarations just prior to that. */
3494 scan_p++;
3495 while (ISSPACE ((const unsigned char)*scan_p))
3496 scan_p++;
3497 scan_p--;
3499 output_up_to (scan_p);
3501 /* Now write out full prototypes for all of the things that had been
3502 implicitly declared in this file (but only those for which we were
3503 actually able to find unique matching definitions). Avoid duplicates
3504 by marking things that we write out as we go. */
3507 int some_decls_added = 0;
3509 for (dd_p = file_p->defs_decs; dd_p; dd_p = dd_p->next_in_file)
3510 if (dd_p->is_implicit && dd_p->definition && !dd_p->definition->written)
3512 const char *decl = dd_p->definition->ansi_decl;
3514 /* If the function for which we are inserting a declaration is
3515 actually defined later in the same file, then suppress the
3516 leading `extern' keyword (if there is one). */
3518 if (*decl == 'e' && (dd_p->file == dd_p->definition->file))
3519 decl += 7;
3521 output_string ("\n");
3522 output_string (decl);
3523 some_decls_added = 1;
3524 ((NONCONST def_dec_info *) dd_p->definition)->written = 1;
3526 if (some_decls_added)
3527 output_string ("\n\n");
3530 /* Unmark all of the definitions that we just marked. */
3532 for (dd_p = file_p->defs_decs; dd_p; dd_p = dd_p->next_in_file)
3533 if (dd_p->definition)
3534 ((NONCONST def_dec_info *) dd_p->definition)->written = 0;
3537 #endif /* !defined (UNPROTOIZE) */
3539 /* Do the editing operation specifically for a function "definition". Note
3540 that editing operations for function "declarations" are handled by a
3541 separate routine above. */
3543 static void
3544 edit_fn_definition (const def_dec_info *def_dec_p, const char *clean_text_p)
3546 const char *end_formals;
3547 const char *function_to_edit = def_dec_p->hash_entry->symbol;
3549 /* Setup here to recover from confusing source code detected during this
3550 particular "edit". */
3552 save_pointers ();
3553 if (setjmp (source_confusion_recovery))
3555 restore_pointers ();
3556 notice ("%s: definition of function `%s' not converted\n",
3557 pname, function_to_edit);
3558 return;
3561 end_formals = find_rightmost_formals_list (clean_text_p);
3563 /* end_of_formals now points to the closing right paren of the rightmost
3564 formals list which is actually part of the `header' of the function
3565 definition that we are converting. */
3567 /* If the header of this function definition looks like it declares a
3568 function with a variable number of arguments, and if the way it does
3569 that is different from that way we would like it (i.e. varargs vs.
3570 stdarg) then issue a warning and leave the header unconverted. */
3572 if (other_variable_style_function (def_dec_p->ansi_decl))
3574 if (!quiet_flag)
3575 notice ("%s: %d: warning: definition of %s not converted\n",
3576 shortpath (NULL, def_dec_p->file->hash_entry->symbol),
3577 identify_lineno (end_formals),
3578 other_var_style);
3579 output_up_to (end_formals);
3580 return;
3583 if (edit_formals_lists (end_formals, def_dec_p->f_list_count, def_dec_p))
3585 restore_pointers ();
3586 notice ("%s: definition of function `%s' not converted\n",
3587 pname, function_to_edit);
3588 return;
3591 /* Have to output the last right paren because this never gets flushed by
3592 edit_formals_list. */
3594 output_up_to (end_formals);
3596 #ifdef UNPROTOIZE
3598 const char *decl_p;
3599 const char *semicolon_p;
3600 const char *limit_p;
3601 const char *scan_p;
3602 int had_newlines = 0;
3604 /* Now write out the K&R style formal declarations, one per line. */
3606 decl_p = def_dec_p->formal_decls;
3607 limit_p = decl_p + strlen (decl_p);
3608 for (;decl_p < limit_p; decl_p = semicolon_p + 2)
3610 for (semicolon_p = decl_p; *semicolon_p != ';'; semicolon_p++)
3611 continue;
3612 output_string ("\n");
3613 output_string (indent_string);
3614 output_bytes (decl_p, (size_t) ((semicolon_p + 1) - decl_p));
3617 /* If there are no newlines between the end of the formals list and the
3618 start of the body, we should insert one now. */
3620 for (scan_p = end_formals+1; *scan_p != '{'; )
3622 if (*scan_p == '\n')
3624 had_newlines = 1;
3625 break;
3627 check_source (++scan_p < clean_text_limit, 0);
3629 if (!had_newlines)
3630 output_string ("\n");
3632 #else /* !defined (UNPROTOIZE) */
3633 /* If we are protoizing, there may be some flotsam & jetsam (like comments
3634 and preprocessing directives) after the old formals list but before
3635 the following { and we would like to preserve that stuff while effectively
3636 deleting the existing K&R formal parameter declarations. We do so here
3637 in a rather tricky way. Basically, we white out any stuff *except*
3638 the comments/pp-directives in the original text buffer, then, if there
3639 is anything in this area *other* than whitespace, we output it. */
3641 const char *end_formals_orig;
3642 const char *start_body;
3643 const char *start_body_orig;
3644 const char *scan;
3645 const char *scan_orig;
3646 int have_flotsam = 0;
3647 int have_newlines = 0;
3649 for (start_body = end_formals + 1; *start_body != '{';)
3650 check_source (++start_body < clean_text_limit, 0);
3652 end_formals_orig = orig_text_base + (end_formals - clean_text_base);
3653 start_body_orig = orig_text_base + (start_body - clean_text_base);
3654 scan = end_formals + 1;
3655 scan_orig = end_formals_orig + 1;
3656 for (; scan < start_body; scan++, scan_orig++)
3658 if (*scan == *scan_orig)
3660 have_newlines |= (*scan_orig == '\n');
3661 /* Leave identical whitespace alone. */
3662 if (!ISSPACE ((const unsigned char)*scan_orig))
3663 *((NONCONST char *) scan_orig) = ' '; /* identical - so whiteout */
3665 else
3666 have_flotsam = 1;
3668 if (have_flotsam)
3669 output_bytes (end_formals_orig + 1,
3670 (size_t) (start_body_orig - end_formals_orig) - 1);
3671 else
3672 if (have_newlines)
3673 output_string ("\n");
3674 else
3675 output_string (" ");
3676 clean_read_ptr = start_body - 1;
3678 #endif /* !defined (UNPROTOIZE) */
3681 /* Clean up the clean text buffer. Do this by converting comments and
3682 preprocessing directives into spaces. Also convert line continuations
3683 into whitespace. Also, whiteout string and character literals. */
3685 static void
3686 do_cleaning (char *new_clean_text_base, const char *new_clean_text_limit)
3688 char *scan_p;
3689 int non_whitespace_since_newline = 0;
3691 for (scan_p = new_clean_text_base; scan_p < new_clean_text_limit; scan_p++)
3693 switch (*scan_p)
3695 case '/': /* Handle comments. */
3696 if (scan_p[1] != '*')
3697 goto regular;
3698 non_whitespace_since_newline = 1;
3699 scan_p[0] = ' ';
3700 scan_p[1] = ' ';
3701 scan_p += 2;
3702 while (scan_p[1] != '/' || scan_p[0] != '*')
3704 if (!ISSPACE ((const unsigned char)*scan_p))
3705 *scan_p = ' ';
3706 if (++scan_p >= new_clean_text_limit)
3707 abort ();
3709 *scan_p++ = ' ';
3710 *scan_p = ' ';
3711 break;
3713 case '#': /* Handle pp directives. */
3714 if (non_whitespace_since_newline)
3715 goto regular;
3716 *scan_p = ' ';
3717 while (scan_p[1] != '\n' || scan_p[0] == '\\')
3719 if (!ISSPACE ((const unsigned char)*scan_p))
3720 *scan_p = ' ';
3721 if (++scan_p >= new_clean_text_limit)
3722 abort ();
3724 *scan_p++ = ' ';
3725 break;
3727 case '\'': /* Handle character literals. */
3728 non_whitespace_since_newline = 1;
3729 while (scan_p[1] != '\'' || scan_p[0] == '\\')
3731 if (scan_p[0] == '\\'
3732 && !ISSPACE ((const unsigned char) scan_p[1]))
3733 scan_p[1] = ' ';
3734 if (!ISSPACE ((const unsigned char)*scan_p))
3735 *scan_p = ' ';
3736 if (++scan_p >= new_clean_text_limit)
3737 abort ();
3739 *scan_p++ = ' ';
3740 break;
3742 case '"': /* Handle string literals. */
3743 non_whitespace_since_newline = 1;
3744 while (scan_p[1] != '"' || scan_p[0] == '\\')
3746 if (scan_p[0] == '\\'
3747 && !ISSPACE ((const unsigned char) scan_p[1]))
3748 scan_p[1] = ' ';
3749 if (!ISSPACE ((const unsigned char)*scan_p))
3750 *scan_p = ' ';
3751 if (++scan_p >= new_clean_text_limit)
3752 abort ();
3754 if (!ISSPACE ((const unsigned char)*scan_p))
3755 *scan_p = ' ';
3756 scan_p++;
3757 break;
3759 case '\\': /* Handle line continuations. */
3760 if (scan_p[1] != '\n')
3761 goto regular;
3762 *scan_p = ' ';
3763 break;
3765 case '\n':
3766 non_whitespace_since_newline = 0; /* Reset. */
3767 break;
3769 case ' ':
3770 case '\v':
3771 case '\t':
3772 case '\r':
3773 case '\f':
3774 case '\b':
3775 break; /* Whitespace characters. */
3777 default:
3778 regular:
3779 non_whitespace_since_newline = 1;
3780 break;
3785 /* Given a pointer to the closing right parenthesis for a particular formals
3786 list (in the clean text buffer) find the corresponding left parenthesis
3787 and return a pointer to it. */
3789 static const char *
3790 careful_find_l_paren (const char *p)
3792 const char *q;
3793 int paren_depth;
3795 for (paren_depth = 1, q = p-1; paren_depth; check_source (--q >= clean_text_base, 0))
3797 switch (*q)
3799 case ')':
3800 paren_depth++;
3801 break;
3802 case '(':
3803 paren_depth--;
3804 break;
3807 return ++q;
3810 /* Scan the clean text buffer for cases of function definitions that we
3811 don't really know about because they were preprocessed out when the
3812 aux info files were created.
3814 In this version of protoize/unprotoize we just give a warning for each
3815 one found. A later version may be able to at least unprotoize such
3816 missed items.
3818 Note that we may easily find all function definitions simply by
3819 looking for places where there is a left paren which is (ignoring
3820 whitespace) immediately followed by either a left-brace or by an
3821 upper or lower case letter. Whenever we find this combination, we
3822 have also found a function definition header.
3824 Finding function *declarations* using syntactic clues is much harder.
3825 I will probably try to do this in a later version though. */
3827 static void
3828 scan_for_missed_items (const file_info *file_p)
3830 static const char *scan_p;
3831 const char *limit = clean_text_limit - 3;
3832 static const char *backup_limit;
3834 backup_limit = clean_text_base - 1;
3836 for (scan_p = clean_text_base; scan_p < limit; scan_p++)
3838 if (*scan_p == ')')
3840 static const char *last_r_paren;
3841 const char *ahead_p;
3843 last_r_paren = scan_p;
3845 for (ahead_p = scan_p + 1; ISSPACE ((const unsigned char)*ahead_p); )
3846 check_source (++ahead_p < limit, limit);
3848 scan_p = ahead_p - 1;
3850 if (ISALPHA ((const unsigned char)*ahead_p) || *ahead_p == '{')
3852 const char *last_l_paren;
3853 const int lineno = identify_lineno (ahead_p);
3855 if (setjmp (source_confusion_recovery))
3856 continue;
3858 /* We know we have a function definition header. Now skip
3859 leftwards over all of its associated formals lists. */
3863 last_l_paren = careful_find_l_paren (last_r_paren);
3864 for (last_r_paren = last_l_paren-1;
3865 ISSPACE ((const unsigned char)*last_r_paren); )
3866 check_source (--last_r_paren >= backup_limit, backup_limit);
3868 while (*last_r_paren == ')');
3870 if (is_id_char (*last_r_paren))
3872 const char *id_limit = last_r_paren + 1;
3873 const char *id_start;
3874 size_t id_length;
3875 const def_dec_info *dd_p;
3877 for (id_start = id_limit-1; is_id_char (*id_start); )
3878 check_source (--id_start >= backup_limit, backup_limit);
3879 id_start++;
3880 backup_limit = id_start;
3881 if ((id_length = (size_t) (id_limit - id_start)) == 0)
3882 goto not_missed;
3885 char *func_name = alloca (id_length + 1);
3886 static const char * const stmt_keywords[]
3887 = { "if", "else", "do", "while", "for", "switch", "case", "return", 0 };
3888 const char * const *stmt_keyword;
3890 strncpy (func_name, id_start, id_length);
3891 func_name[id_length] = '\0';
3893 /* We must check here to see if we are actually looking at
3894 a statement rather than an actual function call. */
3896 for (stmt_keyword = stmt_keywords; *stmt_keyword; stmt_keyword++)
3897 if (!strcmp (func_name, *stmt_keyword))
3898 goto not_missed;
3900 #if 0
3901 notice ("%s: found definition of `%s' at %s(%d)\n",
3902 pname,
3903 func_name,
3904 shortpath (NULL, file_p->hash_entry->symbol),
3905 identify_lineno (id_start));
3906 #endif /* 0 */
3907 /* We really should check for a match of the function name
3908 here also, but why bother. */
3910 for (dd_p = file_p->defs_decs; dd_p; dd_p = dd_p->next_in_file)
3911 if (dd_p->is_func_def && dd_p->line == lineno)
3912 goto not_missed;
3914 /* If we make it here, then we did not know about this
3915 function definition. */
3917 notice ("%s: %d: warning: `%s' excluded by preprocessing\n",
3918 shortpath (NULL, file_p->hash_entry->symbol),
3919 identify_lineno (id_start), func_name);
3920 notice ("%s: function definition not converted\n",
3921 pname);
3923 not_missed: ;
3930 /* Do all editing operations for a single source file (either a "base" file
3931 or an "include" file). To do this we read the file into memory, keep a
3932 virgin copy there, make another cleaned in-core copy of the original file
3933 (i.e. one in which all of the comments and preprocessing directives have
3934 been replaced with whitespace), then use these two in-core copies of the
3935 file to make a new edited in-core copy of the file. Finally, rename the
3936 original file (as a way of saving it), and then write the edited version
3937 of the file from core to a disk file of the same name as the original.
3939 Note that the trick of making a copy of the original sans comments &
3940 preprocessing directives make the editing a whole lot easier. */
3942 static void
3943 edit_file (const hash_table_entry *hp)
3945 struct stat stat_buf;
3946 const file_info *file_p = hp->fip;
3947 char *new_orig_text_base;
3948 char *new_orig_text_limit;
3949 char *new_clean_text_base;
3950 char *new_clean_text_limit;
3951 size_t orig_size;
3952 size_t repl_size;
3953 int first_definition_in_file;
3955 /* If we are not supposed to be converting this file, or if there is
3956 nothing in there which needs converting, just skip this file. */
3958 if (!needs_to_be_converted (file_p))
3959 return;
3961 convert_filename = file_p->hash_entry->symbol;
3963 /* Convert a file if it is in a directory where we want conversion
3964 and the file is not excluded. */
3966 if (!directory_specified_p (convert_filename)
3967 || file_excluded_p (convert_filename))
3969 if (!quiet_flag
3970 #ifdef UNPROTOIZE
3971 /* Don't even mention "system" include files unless we are
3972 protoizing. If we are protoizing, we mention these as a
3973 gentle way of prodding the user to convert his "system"
3974 include files to prototype format. */
3975 && !in_system_include_dir (convert_filename)
3976 #endif /* defined (UNPROTOIZE) */
3978 notice ("%s: `%s' not converted\n",
3979 pname, shortpath (NULL, convert_filename));
3980 return;
3983 /* Let the user know what we are up to. */
3985 if (nochange_flag)
3986 notice ("%s: would convert file `%s'\n",
3987 pname, shortpath (NULL, convert_filename));
3988 else
3989 notice ("%s: converting file `%s'\n",
3990 pname, shortpath (NULL, convert_filename));
3991 fflush (stderr);
3993 /* Find out the size (in bytes) of the original file. */
3995 /* The cast avoids an erroneous warning on AIX. */
3996 if (stat (convert_filename, &stat_buf) == -1)
3998 int errno_val = errno;
3999 notice ("%s: can't get status for file `%s': %s\n",
4000 pname, shortpath (NULL, convert_filename),
4001 xstrerror (errno_val));
4002 return;
4004 orig_size = stat_buf.st_size;
4006 /* Allocate a buffer to hold the original text. */
4008 orig_text_base = new_orig_text_base = xmalloc (orig_size + 2);
4009 orig_text_limit = new_orig_text_limit = new_orig_text_base + orig_size;
4011 /* Allocate a buffer to hold the cleaned-up version of the original text. */
4013 clean_text_base = new_clean_text_base = xmalloc (orig_size + 2);
4014 clean_text_limit = new_clean_text_limit = new_clean_text_base + orig_size;
4015 clean_read_ptr = clean_text_base - 1;
4017 /* Allocate a buffer that will hopefully be large enough to hold the entire
4018 converted output text. As an initial guess for the maximum size of the
4019 output buffer, use 125% of the size of the original + some extra. This
4020 buffer can be expanded later as needed. */
4022 repl_size = orig_size + (orig_size >> 2) + 4096;
4023 repl_text_base = xmalloc (repl_size + 2);
4024 repl_text_limit = repl_text_base + repl_size - 1;
4025 repl_write_ptr = repl_text_base - 1;
4028 int input_file;
4029 int fd_flags;
4031 /* Open the file to be converted in READ ONLY mode. */
4033 fd_flags = O_RDONLY;
4034 #ifdef O_BINARY
4035 /* Use binary mode to avoid having to deal with different EOL characters. */
4036 fd_flags |= O_BINARY;
4037 #endif
4038 if ((input_file = open (convert_filename, fd_flags, 0444)) == -1)
4040 int errno_val = errno;
4041 notice ("%s: can't open file `%s' for reading: %s\n",
4042 pname, shortpath (NULL, convert_filename),
4043 xstrerror (errno_val));
4044 return;
4047 /* Read the entire original source text file into the original text buffer
4048 in one swell fwoop. Then figure out where the end of the text is and
4049 make sure that it ends with a newline followed by a null. */
4051 if (safe_read (input_file, new_orig_text_base, orig_size) !=
4052 (int) orig_size)
4054 int errno_val = errno;
4055 close (input_file);
4056 notice ("\n%s: error reading input file `%s': %s\n",
4057 pname, shortpath (NULL, convert_filename),
4058 xstrerror (errno_val));
4059 return;
4062 close (input_file);
4065 if (orig_size == 0 || orig_text_limit[-1] != '\n')
4067 *new_orig_text_limit++ = '\n';
4068 orig_text_limit++;
4071 /* Create the cleaned up copy of the original text. */
4073 memcpy (new_clean_text_base, orig_text_base,
4074 (size_t) (orig_text_limit - orig_text_base));
4075 do_cleaning (new_clean_text_base, new_clean_text_limit);
4077 #if 0
4079 int clean_file;
4080 size_t clean_size = orig_text_limit - orig_text_base;
4081 char *const clean_filename = alloca (strlen (convert_filename) + 6 + 1);
4083 /* Open (and create) the clean file. */
4085 strcpy (clean_filename, convert_filename);
4086 strcat (clean_filename, ".clean");
4087 if ((clean_file = creat (clean_filename, 0666)) == -1)
4089 int errno_val = errno;
4090 notice ("%s: can't create/open clean file `%s': %s\n",
4091 pname, shortpath (NULL, clean_filename),
4092 xstrerror (errno_val));
4093 return;
4096 /* Write the clean file. */
4098 safe_write (clean_file, new_clean_text_base, clean_size, clean_filename);
4100 close (clean_file);
4102 #endif /* 0 */
4104 /* Do a simplified scan of the input looking for things that were not
4105 mentioned in the aux info files because of the fact that they were
4106 in a region of the source which was preprocessed-out (via #if or
4107 via #ifdef). */
4109 scan_for_missed_items (file_p);
4111 /* Setup to do line-oriented forward seeking in the clean text buffer. */
4113 last_known_line_number = 1;
4114 last_known_line_start = clean_text_base;
4116 /* Now get down to business and make all of the necessary edits. */
4119 const def_dec_info *def_dec_p;
4121 first_definition_in_file = 1;
4122 def_dec_p = file_p->defs_decs;
4123 for (; def_dec_p; def_dec_p = def_dec_p->next_in_file)
4125 const char *clean_text_p = seek_to_line (def_dec_p->line);
4127 /* clean_text_p now points to the first character of the line which
4128 contains the `terminator' for the declaration or definition that
4129 we are about to process. */
4131 #ifndef UNPROTOIZE
4133 if (global_flag && def_dec_p->is_func_def && first_definition_in_file)
4135 add_global_decls (def_dec_p->file, clean_text_p);
4136 first_definition_in_file = 0;
4139 /* Don't edit this item if it is already in prototype format or if it
4140 is a function declaration and we have found no corresponding
4141 definition. */
4143 if (def_dec_p->prototyped
4144 || (!def_dec_p->is_func_def && !def_dec_p->definition))
4145 continue;
4147 #endif /* !defined (UNPROTOIZE) */
4149 if (def_dec_p->is_func_def)
4150 edit_fn_definition (def_dec_p, clean_text_p);
4151 else
4152 #ifndef UNPROTOIZE
4153 if (def_dec_p->is_implicit)
4154 add_local_decl (def_dec_p, clean_text_p);
4155 else
4156 #endif /* !defined (UNPROTOIZE) */
4157 edit_fn_declaration (def_dec_p, clean_text_p);
4161 /* Finalize things. Output the last trailing part of the original text. */
4163 output_up_to (clean_text_limit - 1);
4165 /* If this is just a test run, stop now and just deallocate the buffers. */
4167 if (nochange_flag)
4169 free (new_orig_text_base);
4170 free (new_clean_text_base);
4171 free (repl_text_base);
4172 return;
4175 /* Change the name of the original input file. This is just a quick way of
4176 saving the original file. */
4178 if (!nosave_flag)
4180 char *new_filename
4181 = xmalloc (strlen (convert_filename) + strlen (save_suffix) + 2);
4183 strcpy (new_filename, convert_filename);
4184 #ifdef __MSDOS__
4185 /* MSDOS filenames are restricted to 8.3 format, so we save `foo.c'
4186 as `foo.<save_suffix>'. */
4187 new_filename[(strlen (convert_filename) - 1] = '\0';
4188 #endif
4189 strcat (new_filename, save_suffix);
4191 /* Don't overwrite existing file. */
4192 if (access (new_filename, F_OK) == 0)
4194 if (!quiet_flag)
4195 notice ("%s: warning: file `%s' already saved in `%s'\n",
4196 pname,
4197 shortpath (NULL, convert_filename),
4198 shortpath (NULL, new_filename));
4200 else if (rename (convert_filename, new_filename) == -1)
4202 int errno_val = errno;
4203 notice ("%s: can't link file `%s' to `%s': %s\n",
4204 pname,
4205 shortpath (NULL, convert_filename),
4206 shortpath (NULL, new_filename),
4207 xstrerror (errno_val));
4208 return;
4212 if (unlink (convert_filename) == -1)
4214 int errno_val = errno;
4215 /* The file may have already been renamed. */
4216 if (errno_val != ENOENT)
4218 notice ("%s: can't delete file `%s': %s\n",
4219 pname, shortpath (NULL, convert_filename),
4220 xstrerror (errno_val));
4221 return;
4226 int output_file;
4228 /* Open (and create) the output file. */
4230 if ((output_file = creat (convert_filename, 0666)) == -1)
4232 int errno_val = errno;
4233 notice ("%s: can't create/open output file `%s': %s\n",
4234 pname, shortpath (NULL, convert_filename),
4235 xstrerror (errno_val));
4236 return;
4238 #ifdef O_BINARY
4239 /* Use binary mode to avoid changing the existing EOL character. */
4240 setmode (output_file, O_BINARY);
4241 #endif
4243 /* Write the output file. */
4246 unsigned int out_size = (repl_write_ptr + 1) - repl_text_base;
4248 safe_write (output_file, repl_text_base, out_size, convert_filename);
4251 close (output_file);
4254 /* Deallocate the conversion buffers. */
4256 free (new_orig_text_base);
4257 free (new_clean_text_base);
4258 free (repl_text_base);
4260 /* Change the mode of the output file to match the original file. */
4262 /* The cast avoids an erroneous warning on AIX. */
4263 if (chmod (convert_filename, stat_buf.st_mode) == -1)
4265 int errno_val = errno;
4266 notice ("%s: can't change mode of file `%s': %s\n",
4267 pname, shortpath (NULL, convert_filename),
4268 xstrerror (errno_val));
4271 /* Note: We would try to change the owner and group of the output file
4272 to match those of the input file here, except that may not be a good
4273 thing to do because it might be misleading. Also, it might not even
4274 be possible to do that (on BSD systems with quotas for instance). */
4277 /* Do all of the individual steps needed to do the protoization (or
4278 unprotoization) of the files referenced in the aux_info files given
4279 in the command line. */
4281 static void
4282 do_processing (void)
4284 const char * const *base_pp;
4285 const char * const * const end_pps
4286 = &base_source_filenames[n_base_source_files];
4288 #ifndef UNPROTOIZE
4289 int syscalls_len;
4290 #endif /* !defined (UNPROTOIZE) */
4292 /* One-by-one, check (and create if necessary), open, and read all of the
4293 stuff in each aux_info file. After reading each aux_info file, the
4294 aux_info_file just read will be automatically deleted unless the
4295 keep_flag is set. */
4297 for (base_pp = base_source_filenames; base_pp < end_pps; base_pp++)
4298 process_aux_info_file (*base_pp, keep_flag, 0);
4300 #ifndef UNPROTOIZE
4302 /* Also open and read the special SYSCALLS.c aux_info file which gives us
4303 the prototypes for all of the standard system-supplied functions. */
4305 if (nondefault_syscalls_dir)
4307 syscalls_absolute_filename
4308 = xmalloc (strlen (nondefault_syscalls_dir) + 1
4309 + sizeof (syscalls_filename));
4310 strcpy (syscalls_absolute_filename, nondefault_syscalls_dir);
4312 else
4314 GET_ENVIRONMENT (default_syscalls_dir, "GCC_EXEC_PREFIX");
4315 if (!default_syscalls_dir)
4317 default_syscalls_dir = standard_exec_prefix;
4319 syscalls_absolute_filename
4320 = xmalloc (strlen (default_syscalls_dir) + 0
4321 + strlen (target_machine) + 1
4322 + strlen (target_version) + 1
4323 + sizeof (syscalls_filename));
4324 strcpy (syscalls_absolute_filename, default_syscalls_dir);
4325 strcat (syscalls_absolute_filename, target_machine);
4326 strcat (syscalls_absolute_filename, "/");
4327 strcat (syscalls_absolute_filename, target_version);
4328 strcat (syscalls_absolute_filename, "/");
4331 syscalls_len = strlen (syscalls_absolute_filename);
4332 if (! IS_DIR_SEPARATOR (*(syscalls_absolute_filename + syscalls_len - 1)))
4334 *(syscalls_absolute_filename + syscalls_len++) = DIR_SEPARATOR;
4335 *(syscalls_absolute_filename + syscalls_len) = '\0';
4337 strcat (syscalls_absolute_filename, syscalls_filename);
4339 /* Call process_aux_info_file in such a way that it does not try to
4340 delete the SYSCALLS aux_info file. */
4342 process_aux_info_file (syscalls_absolute_filename, 1, 1);
4344 #endif /* !defined (UNPROTOIZE) */
4346 /* When we first read in all of the information from the aux_info files
4347 we saved in it descending line number order, because that was likely to
4348 be faster. Now however, we want the chains of def & dec records to
4349 appear in ascending line number order as we get further away from the
4350 file_info record that they hang from. The following line causes all of
4351 these lists to be rearranged into ascending line number order. */
4353 visit_each_hash_node (filename_primary, reverse_def_dec_list);
4355 #ifndef UNPROTOIZE
4357 /* Now do the "real" work. The following line causes each declaration record
4358 to be "visited". For each of these nodes, an attempt is made to match
4359 up the function declaration with a corresponding function definition,
4360 which should have a full prototype-format formals list with it. Once
4361 these match-ups are made, the conversion of the function declarations
4362 to prototype format can be made. */
4364 visit_each_hash_node (function_name_primary, connect_defs_and_decs);
4366 #endif /* !defined (UNPROTOIZE) */
4368 /* Now convert each file that can be converted (and needs to be). */
4370 visit_each_hash_node (filename_primary, edit_file);
4372 #ifndef UNPROTOIZE
4374 /* If we are working in cplusplus mode, try to rename all .c files to .C
4375 files. Don't panic if some of the renames don't work. */
4377 if (cplusplus_flag && !nochange_flag)
4378 visit_each_hash_node (filename_primary, rename_c_file);
4380 #endif /* !defined (UNPROTOIZE) */
4383 static const struct option longopts[] =
4385 {"version", 0, 0, 'V'},
4386 {"file_name", 0, 0, 'p'},
4387 {"quiet", 0, 0, 'q'},
4388 {"silent", 0, 0, 'q'},
4389 {"force", 0, 0, 'f'},
4390 {"keep", 0, 0, 'k'},
4391 {"nosave", 0, 0, 'N'},
4392 {"nochange", 0, 0, 'n'},
4393 {"compiler-options", 1, 0, 'c'},
4394 {"exclude", 1, 0, 'x'},
4395 {"directory", 1, 0, 'd'},
4396 #ifdef UNPROTOIZE
4397 {"indent", 1, 0, 'i'},
4398 #else
4399 {"local", 0, 0, 'l'},
4400 {"global", 0, 0, 'g'},
4401 {"c++", 0, 0, 'C'},
4402 {"syscalls-dir", 1, 0, 'B'},
4403 #endif
4404 {0, 0, 0, 0}
4407 extern int main (int, char **const);
4410 main (int argc, char **const argv)
4412 int longind;
4413 int c;
4414 const char *params = "";
4416 pname = strrchr (argv[0], DIR_SEPARATOR);
4417 #ifdef DIR_SEPARATOR_2
4419 char *slash;
4421 slash = strrchr (pname ? pname : argv[0], DIR_SEPARATOR_2);
4422 if (slash)
4423 pname = slash;
4425 #endif
4426 pname = pname ? pname+1 : argv[0];
4428 #ifdef SIGCHLD
4429 /* We *MUST* set SIGCHLD to SIG_DFL so that the wait4() call will
4430 receive the signal. A different setting is inheritable */
4431 signal (SIGCHLD, SIG_DFL);
4432 #endif
4434 gcc_init_libintl ();
4436 cwd_buffer = getpwd ();
4437 if (!cwd_buffer)
4439 notice ("%s: cannot get working directory: %s\n",
4440 pname, xstrerror(errno));
4441 return (FATAL_EXIT_CODE);
4444 /* By default, convert the files in the current directory. */
4445 directory_list = string_list_cons (cwd_buffer, NULL);
4447 while ((c = getopt_long (argc, argv,
4448 #ifdef UNPROTOIZE
4449 "c:d:i:knNp:qvVx:",
4450 #else
4451 "B:c:Cd:gklnNp:qvVx:",
4452 #endif
4453 longopts, &longind)) != EOF)
4455 if (c == 0) /* Long option. */
4456 c = longopts[longind].val;
4457 switch (c)
4459 case 'p':
4460 compiler_file_name = optarg;
4461 break;
4462 case 'd':
4463 directory_list
4464 = string_list_cons (abspath (NULL, optarg), directory_list);
4465 break;
4466 case 'x':
4467 exclude_list = string_list_cons (optarg, exclude_list);
4468 break;
4470 case 'v':
4471 case 'V':
4472 version_flag = 1;
4473 break;
4474 case 'q':
4475 quiet_flag = 1;
4476 break;
4477 #if 0
4478 case 'f':
4479 force_flag = 1;
4480 break;
4481 #endif
4482 case 'n':
4483 nochange_flag = 1;
4484 keep_flag = 1;
4485 break;
4486 case 'N':
4487 nosave_flag = 1;
4488 break;
4489 case 'k':
4490 keep_flag = 1;
4491 break;
4492 case 'c':
4493 params = optarg;
4494 break;
4495 #ifdef UNPROTOIZE
4496 case 'i':
4497 indent_string = optarg;
4498 break;
4499 #else /* !defined (UNPROTOIZE) */
4500 case 'l':
4501 local_flag = 1;
4502 break;
4503 case 'g':
4504 global_flag = 1;
4505 break;
4506 case 'C':
4507 cplusplus_flag = 1;
4508 break;
4509 case 'B':
4510 nondefault_syscalls_dir = optarg;
4511 break;
4512 #endif /* !defined (UNPROTOIZE) */
4513 default:
4514 usage ();
4518 /* Set up compile_params based on -p and -c options. */
4519 munge_compile_params (params);
4521 n_base_source_files = argc - optind;
4523 /* Now actually make a list of the base source filenames. */
4525 base_source_filenames
4526 = xmalloc ((n_base_source_files + 1) * sizeof (char *));
4527 n_base_source_files = 0;
4528 for (; optind < argc; optind++)
4530 const char *path = abspath (NULL, argv[optind]);
4531 int len = strlen (path);
4533 if (path[len-1] == 'c' && path[len-2] == '.')
4534 base_source_filenames[n_base_source_files++] = path;
4535 else
4537 notice ("%s: input file names must have .c suffixes: %s\n",
4538 pname, shortpath (NULL, path));
4539 errors++;
4543 #ifndef UNPROTOIZE
4544 /* We are only interested in the very first identifier token in the
4545 definition of `va_list', so if there is more junk after that first
4546 identifier token, delete it from the `varargs_style_indicator'. */
4548 const char *cp;
4550 for (cp = varargs_style_indicator; ISIDNUM (*cp); cp++)
4551 continue;
4552 if (*cp != 0)
4553 varargs_style_indicator = savestring (varargs_style_indicator,
4554 cp - varargs_style_indicator);
4556 #endif /* !defined (UNPROTOIZE) */
4558 if (errors)
4559 usage ();
4560 else
4562 if (version_flag)
4563 fprintf (stderr, "%s: %s\n", pname, version_string);
4564 do_processing ();
4567 return (errors ? FATAL_EXIT_CODE : SUCCESS_EXIT_CODE);