Mercurial > hg > CbC > CbC_gcc
diff gcc/protoize.c @ 0:a06113de4d67
first commit
| author | kent <kent@cr.ie.u-ryukyu.ac.jp> |
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| date | Fri, 17 Jul 2009 14:47:48 +0900 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/gcc/protoize.c Fri Jul 17 14:47:48 2009 +0900 @@ -0,0 +1,4535 @@ +/* Protoize program - Original version by Ron Guilmette (rfg@segfault.us.com). + Copyright (C) 1989, 1992, 1993, 1994, 1995, 1996, 1997, 1998, + 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2007, 2008 Free Software + Foundation, Inc. + +This file is part of GCC. + +GCC is free software; you can redistribute it and/or modify it under +the terms of the GNU General Public License as published by the Free +Software Foundation; either version 3, or (at your option) any later +version. + +GCC is distributed in the hope that it will be useful, but WITHOUT ANY +WARRANTY; without even the implied warranty of MERCHANTABILITY or +FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License +for more details. + +You should have received a copy of the GNU General Public License +along with GCC; see the file COPYING3. If not see +<http://www.gnu.org/licenses/>. */ + +#include "config.h" +#include "system.h" +#include "coretypes.h" +#include "tm.h" +#include "intl.h" +#include "cppdefault.h" + +#include <setjmp.h> +#include <signal.h> +#if ! defined( SIGCHLD ) && defined( SIGCLD ) +# define SIGCHLD SIGCLD +#endif +#ifdef HAVE_UNISTD_H +#include <unistd.h> +#endif +#include "version.h" + +/* Include getopt.h for the sake of getopt_long. */ +#include "getopt.h" + +/* Macro to see if the path elements match. */ +#ifdef HAVE_DOS_BASED_FILE_SYSTEM +#define IS_SAME_PATH_CHAR(a,b) (TOUPPER (a) == TOUPPER (b)) +#else +#define IS_SAME_PATH_CHAR(a,b) ((a) == (b)) +#endif + +/* Macro to see if the paths match. */ +#define IS_SAME_PATH(a,b) (FILENAME_CMP (a, b) == 0) + +/* Suffix for aux-info files. */ +#ifdef __MSDOS__ +#define AUX_INFO_SUFFIX "X" +#else +#define AUX_INFO_SUFFIX ".X" +#endif + +/* Suffix for saved files. */ +#ifdef __MSDOS__ +#define SAVE_SUFFIX "sav" +#else +#define SAVE_SUFFIX ".save" +#endif + +/* Suffix for renamed C++ files. */ +#ifdef HAVE_DOS_BASED_FILE_SYSTEM +#define CPLUS_FILE_SUFFIX "cc" +#else +#define CPLUS_FILE_SUFFIX "C" +#endif + +static void usage (void) ATTRIBUTE_NORETURN; +static void aux_info_corrupted (void) ATTRIBUTE_NORETURN; +static void declare_source_confusing (const char *) ATTRIBUTE_NORETURN; +static const char *shortpath (const char *, const char *); +static void notice (const char *, ...) ATTRIBUTE_PRINTF_1; +static char *savestring (const char *, unsigned int); +static char *dupnstr (const char *, size_t); +static int safe_read (int, void *, int); +static void safe_write (int, void *, int, const char *); +static void save_pointers (void); +static void restore_pointers (void); +static int is_id_char (int); +static int in_system_include_dir (const char *); +static int directory_specified_p (const char *); +static int file_excluded_p (const char *); +static char *unexpand_if_needed (const char *); +static char *abspath (const char *, const char *); +static void check_aux_info (int); +static const char *find_corresponding_lparen (const char *); +static int referenced_file_is_newer (const char *, time_t); +static void save_def_or_dec (const char *, int); +static void munge_compile_params (const char *); +static int gen_aux_info_file (const char *); +static void process_aux_info_file (const char *, int, int); +static int identify_lineno (const char *); +static void check_source (int, const char *); +static const char *seek_to_line (int); +static const char *forward_to_next_token_char (const char *); +static void output_bytes (const char *, size_t); +static void output_string (const char *); +static void output_up_to (const char *); +static int other_variable_style_function (const char *); +static const char *find_rightmost_formals_list (const char *); +static void do_cleaning (char *, const char *); +static const char *careful_find_l_paren (const char *); +static void do_processing (void); + +/* Look for these where the `const' qualifier is intentionally cast aside. */ +#define NONCONST + +/* Define a default place to find the SYSCALLS.X file. */ + +#ifndef UNPROTOIZE + +#ifndef STANDARD_EXEC_PREFIX +#define STANDARD_EXEC_PREFIX "/usr/local/lib/gcc-lib/" +#endif /* !defined STANDARD_EXEC_PREFIX */ + +static const char * const standard_exec_prefix = STANDARD_EXEC_PREFIX; +static const char * const target_machine = DEFAULT_TARGET_MACHINE; +static const char * const target_version = DEFAULT_TARGET_VERSION; + +#endif /* !defined (UNPROTOIZE) */ + +/* Suffix of aux_info files. */ + +static const char * const aux_info_suffix = AUX_INFO_SUFFIX; + +/* String to attach to filenames for saved versions of original files. */ + +static const char * const save_suffix = SAVE_SUFFIX; + +#ifndef UNPROTOIZE + +/* String to attach to C filenames renamed to C++. */ + +static const char * const cplus_suffix = CPLUS_FILE_SUFFIX; + +/* File name of the file which contains descriptions of standard system + routines. Note that we never actually do anything with this file per se, + but we do read in its corresponding aux_info file. */ + +static const char syscalls_filename[] = "SYSCALLS.c"; + +/* Default place to find the above file. */ + +static const char * default_syscalls_dir; + +/* Variable to hold the complete absolutized filename of the SYSCALLS.c.X + file. */ + +static char * syscalls_absolute_filename; + +#endif /* !defined (UNPROTOIZE) */ + +/* Type of the structure that holds information about macro unexpansions. */ + +struct unexpansion_struct { + const char *const expanded; + const char *const contracted; +}; +typedef struct unexpansion_struct unexpansion; + +/* A table of conversions that may need to be made for some (stupid) older + operating systems where these types are preprocessor macros rather than + typedefs (as they really ought to be). + + WARNING: The contracted forms must be as small (or smaller) as the + expanded forms, or else havoc will ensue. */ + +static const unexpansion unexpansions[] = { + { "struct _iobuf", "FILE" }, + { 0, 0 } +}; + +/* The number of "primary" slots in the hash tables for filenames and for + function names. This can be as big or as small as you like, except that + it must be a power of two. */ + +#define HASH_TABLE_SIZE (1 << 9) + +/* Bit mask to use when computing hash values. */ + +static const int hash_mask = (HASH_TABLE_SIZE - 1); + + +/* Datatype for lists of directories or filenames. */ +struct string_list +{ + const char *name; + struct string_list *next; +}; + +static struct string_list *string_list_cons (const char *, + struct string_list *); + +/* List of directories in which files should be converted. */ + +struct string_list *directory_list; + +/* List of file names which should not be converted. + A file is excluded if the end of its name, following a /, + matches one of the names in this list. */ + +struct string_list *exclude_list; + +/* The name of the other style of variable-number-of-parameters functions + (i.e. the style that we want to leave unconverted because we don't yet + know how to convert them to this style. This string is used in warning + messages. */ + +/* Also define here the string that we can search for in the parameter lists + taken from the .X files which will unambiguously indicate that we have + found a varargs style function. */ + +#ifdef UNPROTOIZE +static const char * const other_var_style = "stdarg"; +#else /* !defined (UNPROTOIZE) */ +static const char * const other_var_style = "varargs"; +static const char *varargs_style_indicator = "va_alist"; +#endif /* !defined (UNPROTOIZE) */ + +/* The following two types are used to create hash tables. In this program, + there are two hash tables which are used to store and quickly lookup two + different classes of strings. The first type of strings stored in the + first hash table are absolute filenames of files which protoize needs to + know about. The second type of strings (stored in the second hash table) + are function names. It is this second class of strings which really + inspired the use of the hash tables, because there may be a lot of them. */ + +typedef struct hash_table_entry_struct hash_table_entry; + +/* Do some typedefs so that we don't have to write "struct" so often. */ + +typedef struct def_dec_info_struct def_dec_info; +typedef struct file_info_struct file_info; +typedef struct f_list_chain_item_struct f_list_chain_item; + +#ifndef UNPROTOIZE +static int is_syscalls_file (const file_info *); +static void rename_c_file (const hash_table_entry *); +static const def_dec_info *find_extern_def (const def_dec_info *, + const def_dec_info *); +static const def_dec_info *find_static_definition (const def_dec_info *); +static void connect_defs_and_decs (const hash_table_entry *); +static void add_local_decl (const def_dec_info *, const char *); +static void add_global_decls (const file_info *, const char *); +#endif /* ! UNPROTOIZE */ +static int needs_to_be_converted (const file_info *); +static void visit_each_hash_node (const hash_table_entry *, + void (*)(const hash_table_entry *)); +static hash_table_entry *add_symbol (hash_table_entry *, const char *); +static hash_table_entry *lookup (hash_table_entry *, const char *); +static void free_def_dec (def_dec_info *); +static file_info *find_file (const char *, int); +static void reverse_def_dec_list (const hash_table_entry *); +static void edit_fn_declaration (const def_dec_info *, const char *); +static int edit_formals_lists (const char *, unsigned int, + const def_dec_info *); +static void edit_fn_definition (const def_dec_info *, const char *); +static void scan_for_missed_items (const file_info *); +static void edit_file (const hash_table_entry *); + +/* In the struct below, note that the "_info" field has two different uses + depending on the type of hash table we are in (i.e. either the filenames + hash table or the function names hash table). In the filenames hash table + the info fields of the entries point to the file_info struct which is + associated with each filename (1 per filename). In the function names + hash table, the info field points to the head of a singly linked list of + def_dec_info entries which are all defs or decs of the function whose + name is pointed to by the "symbol" field. Keeping all of the defs/decs + for a given function name on a special list specifically for that function + name makes it quick and easy to find out all of the important information + about a given (named) function. */ + +struct hash_table_entry_struct { + hash_table_entry * hash_next; /* -> to secondary entries */ + const char * symbol; /* -> to the hashed string */ + union { + const def_dec_info * _ddip; + file_info * _fip; + } _info; +}; +#define ddip _info._ddip +#define fip _info._fip + +/* Define a type specifically for our two hash tables. */ + +typedef hash_table_entry hash_table[HASH_TABLE_SIZE]; + +/* The following struct holds all of the important information about any + single filename (e.g. file) which we need to know about. */ + +struct file_info_struct { + const hash_table_entry * hash_entry; /* -> to associated hash entry */ + const def_dec_info * defs_decs; /* -> to chain of defs/decs */ + time_t mtime; /* Time of last modification. */ +}; + +/* Due to the possibility that functions may return pointers to functions, + (which may themselves have their own parameter lists) and due to the + fact that returned pointers-to-functions may be of type "pointer-to- + function-returning-pointer-to-function" (ad nauseum) we have to keep + an entire chain of ANSI style formal parameter lists for each function. + + Normally, for any given function, there will only be one formals list + on the chain, but you never know. + + Note that the head of each chain of formals lists is pointed to by the + `f_list_chain' field of the corresponding def_dec_info record. + + For any given chain, the item at the head of the chain is the *leftmost* + parameter list seen in the actual C language function declaration. If + there are other members of the chain, then these are linked in left-to-right + order from the head of the chain. */ + +struct f_list_chain_item_struct { + const f_list_chain_item * chain_next; /* -> to next item on chain */ + const char * formals_list; /* -> to formals list string */ +}; + +/* The following struct holds all of the important information about any + single function definition or declaration which we need to know about. + Note that for unprotoize we don't need to know very much because we + never even create records for stuff that we don't intend to convert + (like for instance defs and decs which are already in old K&R format + and "implicit" function declarations). */ + +struct def_dec_info_struct { + const def_dec_info * next_in_file; /* -> to rest of chain for file */ + file_info * file; /* -> file_info for containing file */ + int line; /* source line number of def/dec */ + const char * ansi_decl; /* -> left end of ansi decl */ + hash_table_entry * hash_entry; /* -> hash entry for function name */ + unsigned int is_func_def; /* = 0 means this is a declaration */ + const def_dec_info * next_for_func; /* -> to rest of chain for func name */ + unsigned int f_list_count; /* count of formals lists we expect */ + char prototyped; /* = 0 means already prototyped */ +#ifndef UNPROTOIZE + const f_list_chain_item * f_list_chain; /* -> chain of formals lists */ + const def_dec_info * definition; /* -> def/dec containing related def */ + char is_static; /* = 0 means visibility is "extern" */ + char is_implicit; /* != 0 for implicit func decl's */ + char written; /* != 0 means written for implicit */ +#else /* !defined (UNPROTOIZE) */ + const char * formal_names; /* -> to list of names of formals */ + const char * formal_decls; /* -> to string of formal declarations */ +#endif /* !defined (UNPROTOIZE) */ +}; + +/* Pointer to the tail component of the filename by which this program was + invoked. Used everywhere in error and warning messages. */ + +static const char *pname; + +/* Error counter. Will be nonzero if we should give up at the next convenient + stopping point. */ + +static int errors = 0; + +/* Option flags. */ +/* ??? The variables are not marked static because some of them have + the same names as gcc variables declared in options.h. */ +/* ??? These comments should say what the flag mean as well as the options + that set them. */ + +/* File name to use for running gcc. Allows GCC 2 to be named + something other than gcc. */ +static const char *compiler_file_name = "gcc"; + +int version_flag = 0; /* Print our version number. */ +int quiet_flag = 0; /* Don't print messages normally. */ +int nochange_flag = 0; /* Don't convert, just say what files + we would have converted. */ +int nosave_flag = 0; /* Don't save the old version. */ +int keep_flag = 0; /* Don't delete the .X files. */ +static const char ** compile_params = 0; /* Option string for gcc. */ +#ifdef UNPROTOIZE +static const char *indent_string = " "; /* Indentation for newly + inserted parm decls. */ +#else /* !defined (UNPROTOIZE) */ +int local_flag = 0; /* Insert new local decls (when?). */ +int global_flag = 0; /* set by -g option */ +int cplusplus_flag = 0; /* Rename converted files to *.C. */ +static const char *nondefault_syscalls_dir = 0; /* Dir to look for + SYSCALLS.c.X in. */ +#endif /* !defined (UNPROTOIZE) */ + +/* An index into the compile_params array where we should insert the source + file name when we are ready to exec the C compiler. A zero value indicates + that we have not yet called munge_compile_params. */ + +static int input_file_name_index = 0; + +/* An index into the compile_params array where we should insert the filename + for the aux info file, when we run the C compiler. */ +static int aux_info_file_name_index = 0; + +/* Count of command line arguments which were "filename" arguments. */ + +static int n_base_source_files = 0; + +/* Points to a malloc'ed list of pointers to all of the filenames of base + source files which were specified on the command line. */ + +static const char **base_source_filenames; + +/* Line number of the line within the current aux_info file that we + are currently processing. Used for error messages in case the prototypes + info file is corrupted somehow. */ + +static int current_aux_info_lineno; + +/* Pointer to the name of the source file currently being converted. */ + +static const char *convert_filename; + +/* Pointer to relative root string (taken from aux_info file) which indicates + where directory the user was in when he did the compilation step that + produced the containing aux_info file. */ + +static const char *invocation_filename; + +/* Pointer to the base of the input buffer that holds the original text for the + source file currently being converted. */ + +static const char *orig_text_base; + +/* Pointer to the byte just beyond the end of the input buffer that holds the + original text for the source file currently being converted. */ + +static const char *orig_text_limit; + +/* Pointer to the base of the input buffer that holds the cleaned text for the + source file currently being converted. */ + +static const char *clean_text_base; + +/* Pointer to the byte just beyond the end of the input buffer that holds the + cleaned text for the source file currently being converted. */ + +static const char *clean_text_limit; + +/* Pointer to the last byte in the cleaned text buffer that we have already + (virtually) copied to the output buffer (or decided to ignore). */ + +static const char * clean_read_ptr; + +/* Pointer to the base of the output buffer that holds the replacement text + for the source file currently being converted. */ + +static char *repl_text_base; + +/* Pointer to the byte just beyond the end of the output buffer that holds the + replacement text for the source file currently being converted. */ + +static char *repl_text_limit; + +/* Pointer to the last byte which has been stored into the output buffer. + The next byte to be stored should be stored just past where this points + to. */ + +static char * repl_write_ptr; + +/* Pointer into the cleaned text buffer for the source file we are currently + converting. This points to the first character of the line that we last + did a "seek_to_line" to (see below). */ + +static const char *last_known_line_start; + +/* Number of the line (in the cleaned text buffer) that we last did a + "seek_to_line" to. Will be one if we just read a new source file + into the cleaned text buffer. */ + +static int last_known_line_number; + +/* The filenames hash table. */ + +static hash_table filename_primary; + +/* The function names hash table. */ + +static hash_table function_name_primary; + +/* The place to keep the recovery address which is used only in cases where + we get hopelessly confused by something in the cleaned original text. */ + +static jmp_buf source_confusion_recovery; + +/* A pointer to the current directory filename (used by abspath). */ + +static char *cwd_buffer; + +/* A place to save the read pointer until we are sure that an individual + attempt at editing will succeed. */ + +static const char * saved_clean_read_ptr; + +/* A place to save the write pointer until we are sure that an individual + attempt at editing will succeed. */ + +static char * saved_repl_write_ptr; + +/* Translate and output an error message. */ +static void +notice (const char *cmsgid, ...) +{ + va_list ap; + + va_start (ap, cmsgid); + vfprintf (stderr, _(cmsgid), ap); + va_end (ap); +} + + +/* Make a copy of a string INPUT with size SIZE. */ + +static char * +savestring (const char *input, unsigned int size) +{ + char *output = xmalloc (size + 1); + strcpy (output, input); + return output; +} + + +/* Make a duplicate of the first N bytes of a given string in a newly + allocated area. */ + +static char * +dupnstr (const char *s, size_t n) +{ + char *ret_val = xmalloc (n + 1); + + strncpy (ret_val, s, n); + ret_val[n] = '\0'; + return ret_val; +} + +/* Read LEN bytes at PTR from descriptor DESC, for file FILENAME, + retrying if necessary. Return the actual number of bytes read. */ + +static int +safe_read (int desc, void *ptr, int len) +{ + int left = len; + while (left > 0) { + int nchars = read (desc, ptr, left); + if (nchars < 0) + { +#ifdef EINTR + if (errno == EINTR) + continue; +#endif + return nchars; + } + if (nchars == 0) + break; + /* Arithmetic on void pointers is a gcc extension. */ + ptr = (char *) ptr + nchars; + left -= nchars; + } + return len - left; +} + +/* Write LEN bytes at PTR to descriptor DESC, + retrying if necessary, and treating any real error as fatal. */ + +static void +safe_write (int desc, void *ptr, int len, const char *out_fname) +{ + while (len > 0) { + int written = write (desc, ptr, len); + if (written < 0) + { + int errno_val = errno; +#ifdef EINTR + if (errno_val == EINTR) + continue; +#endif + notice ("%s: error writing file '%s': %s\n", + pname, shortpath (NULL, out_fname), xstrerror (errno_val)); + return; + } + /* Arithmetic on void pointers is a gcc extension. */ + ptr = (char *) ptr + written; + len -= written; + } +} + +/* Get setup to recover in case the edit we are about to do goes awry. */ + +static void +save_pointers (void) +{ + saved_clean_read_ptr = clean_read_ptr; + saved_repl_write_ptr = repl_write_ptr; +} + +/* Call this routine to recover our previous state whenever something looks + too confusing in the source code we are trying to edit. */ + +static void +restore_pointers (void) +{ + clean_read_ptr = saved_clean_read_ptr; + repl_write_ptr = saved_repl_write_ptr; +} + +/* Return true if the given character is a valid identifier character. */ + +static int +is_id_char (int ch) +{ + return (ISIDNUM (ch) || (ch == '$')); +} + +/* Give a message indicating the proper way to invoke this program and then + exit with nonzero status. */ + +static void +usage (void) +{ +#ifdef UNPROTOIZE + notice ("%s: usage '%s [ -VqfnkN ] [ -i <istring> ] [ filename ... ]'\n", + pname, pname); +#else /* !defined (UNPROTOIZE) */ + notice ("%s: usage '%s [ -VqfnkNlgC ] [ -B <dirname> ] [ filename ... ]'\n", + pname, pname); +#endif /* !defined (UNPROTOIZE) */ + exit (FATAL_EXIT_CODE); +} + +/* Return true if the given filename (assumed to be an absolute filename) + designates a file residing anywhere beneath any one of the "system" + include directories. */ + +static int +in_system_include_dir (const char *path) +{ + const struct default_include *p; + + gcc_assert (IS_ABSOLUTE_PATH (path)); + + for (p = cpp_include_defaults; p->fname; p++) + if (!strncmp (path, p->fname, strlen (p->fname)) + && IS_DIR_SEPARATOR (path[strlen (p->fname)])) + return 1; + return 0; +} + +#if 0 +/* Return true if the given filename designates a file that the user has + read access to and for which the user has write access to the containing + directory. */ + +static int +file_could_be_converted (const char *path) +{ + char *const dir_name = alloca (strlen (path) + 1); + + if (access (path, R_OK)) + return 0; + + { + char *dir_last_slash; + + strcpy (dir_name, path); + dir_last_slash = strrchr (dir_name, DIR_SEPARATOR); +#ifdef DIR_SEPARATOR_2 + { + char *slash; + + slash = strrchr (dir_last_slash ? dir_last_slash : dir_name, + DIR_SEPARATOR_2); + if (slash) + dir_last_slash = slash; + } +#endif + gcc_assert (dir_last_slash); + *dir_last_slash = '\0'; + } + + if (access (path, W_OK)) + return 0; + + return 1; +} + +/* Return true if the given filename designates a file that we are allowed + to modify. Files which we should not attempt to modify are (a) "system" + include files, and (b) files which the user doesn't have write access to, + and (c) files which reside in directories which the user doesn't have + write access to. Unless requested to be quiet, give warnings about + files that we will not try to convert for one reason or another. An + exception is made for "system" include files, which we never try to + convert and for which we don't issue the usual warnings. */ + +static int +file_normally_convertible (const char *path) +{ + char *const dir_name = alloca (strlen (path) + 1); + + if (in_system_include_dir (path)) + return 0; + + { + char *dir_last_slash; + + strcpy (dir_name, path); + dir_last_slash = strrchr (dir_name, DIR_SEPARATOR); +#ifdef DIR_SEPARATOR_2 + { + char *slash; + + slash = strrchr (dir_last_slash ? dir_last_slash : dir_name, + DIR_SEPARATOR_2); + if (slash) + dir_last_slash = slash; + } +#endif + gcc_assert (dir_last_slash); + *dir_last_slash = '\0'; + } + + if (access (path, R_OK)) + { + if (!quiet_flag) + notice ("%s: warning: no read access for file '%s'\n", + pname, shortpath (NULL, path)); + return 0; + } + + if (access (path, W_OK)) + { + if (!quiet_flag) + notice ("%s: warning: no write access for file '%s'\n", + pname, shortpath (NULL, path)); + return 0; + } + + if (access (dir_name, W_OK)) + { + if (!quiet_flag) + notice ("%s: warning: no write access for dir containing '%s'\n", + pname, shortpath (NULL, path)); + return 0; + } + + return 1; +} +#endif /* 0 */ + +#ifndef UNPROTOIZE + +/* Return true if the given file_info struct refers to the special SYSCALLS.c.X + file. Return false otherwise. */ + +static int +is_syscalls_file (const file_info *fi_p) +{ + char const *f = fi_p->hash_entry->symbol; + size_t fl = strlen (f), sysl = sizeof (syscalls_filename) - 1; + return sysl <= fl && strcmp (f + fl - sysl, syscalls_filename) == 0; +} + +#endif /* !defined (UNPROTOIZE) */ + +/* Check to see if this file will need to have anything done to it on this + run. If there is nothing in the given file which both needs conversion + and for which we have the necessary stuff to do the conversion, return + false. Otherwise, return true. + + Note that (for protoize) it is only valid to call this function *after* + the connections between declarations and definitions have all been made + by connect_defs_and_decs. */ + +static int +needs_to_be_converted (const file_info *file_p) +{ + const def_dec_info *ddp; + +#ifndef UNPROTOIZE + + if (is_syscalls_file (file_p)) + return 0; + +#endif /* !defined (UNPROTOIZE) */ + + for (ddp = file_p->defs_decs; ddp; ddp = ddp->next_in_file) + + if ( + +#ifndef UNPROTOIZE + + /* ... and if we a protoizing and this function is in old style ... */ + !ddp->prototyped + /* ... and if this a definition or is a decl with an associated def ... */ + && (ddp->is_func_def || (!ddp->is_func_def && ddp->definition)) + +#else /* defined (UNPROTOIZE) */ + + /* ... and if we are unprotoizing and this function is in new style ... */ + ddp->prototyped + +#endif /* defined (UNPROTOIZE) */ + ) + /* ... then the containing file needs converting. */ + return -1; + return 0; +} + +/* Return 1 if the file name NAME is in a directory + that should be converted. */ + +static int +directory_specified_p (const char *name) +{ + struct string_list *p; + + for (p = directory_list; p; p = p->next) + if (!strncmp (name, p->name, strlen (p->name)) + && IS_DIR_SEPARATOR (name[strlen (p->name)])) + { + const char *q = name + strlen (p->name) + 1; + + /* If there are more slashes, it's in a subdir, so + this match doesn't count. */ + while (*q++) + if (IS_DIR_SEPARATOR (*(q-1))) + goto lose; + return 1; + + lose: ; + } + + return 0; +} + +/* Return 1 if the file named NAME should be excluded from conversion. */ + +static int +file_excluded_p (const char *name) +{ + struct string_list *p; + int len = strlen (name); + + for (p = exclude_list; p; p = p->next) + if (!strcmp (name + len - strlen (p->name), p->name) + && IS_DIR_SEPARATOR (name[len - strlen (p->name) - 1])) + return 1; + + return 0; +} + +/* Construct a new element of a string_list. + STRING is the new element value, and REST holds the remaining elements. */ + +static struct string_list * +string_list_cons (const char *string, struct string_list *rest) +{ + struct string_list *temp = xmalloc (sizeof (struct string_list)); + + temp->next = rest; + temp->name = string; + return temp; +} + +/* ??? The GNU convention for mentioning function args in its comments + is to capitalize them. So change "hash_tab_p" to HASH_TAB_P below. + Likewise for all the other functions. */ + +/* Given a hash table, apply some function to each node in the table. The + table to traverse is given as the "hash_tab_p" argument, and the + function to be applied to each node in the table is given as "func" + argument. */ + +static void +visit_each_hash_node (const hash_table_entry *hash_tab_p, + void (*func) (const hash_table_entry *)) +{ + const hash_table_entry *primary; + + for (primary = hash_tab_p; primary < &hash_tab_p[HASH_TABLE_SIZE]; primary++) + if (primary->symbol) + { + hash_table_entry *second; + + (*func)(primary); + for (second = primary->hash_next; second; second = second->hash_next) + (*func) (second); + } +} + +/* Initialize all of the fields of a new hash table entry, pointed + to by the "p" parameter. Note that the space to hold the entry + is assumed to have already been allocated before this routine is + called. */ + +static hash_table_entry * +add_symbol (hash_table_entry *p, const char *s) +{ + p->hash_next = NULL; + p->symbol = xstrdup (s); + p->ddip = NULL; + p->fip = NULL; + return p; +} + +/* Look for a particular function name or filename in the particular + hash table indicated by "hash_tab_p". If the name is not in the + given hash table, add it. Either way, return a pointer to the + hash table entry for the given name. */ + +static hash_table_entry * +lookup (hash_table_entry *hash_tab_p, const char *search_symbol) +{ + int hash_value = 0; + const char *search_symbol_char_p = search_symbol; + hash_table_entry *p; + + while (*search_symbol_char_p) + hash_value += *search_symbol_char_p++; + hash_value &= hash_mask; + p = &hash_tab_p[hash_value]; + if (! p->symbol) + return add_symbol (p, search_symbol); + if (!strcmp (p->symbol, search_symbol)) + return p; + while (p->hash_next) + { + p = p->hash_next; + if (!strcmp (p->symbol, search_symbol)) + return p; + } + p->hash_next = xmalloc (sizeof (hash_table_entry)); + p = p->hash_next; + return add_symbol (p, search_symbol); +} + +/* Throw a def/dec record on the junk heap. + + Also, since we are not using this record anymore, free up all of the + stuff it pointed to. */ + +static void +free_def_dec (def_dec_info *p) +{ + free ((NONCONST void *) p->ansi_decl); + +#ifndef UNPROTOIZE + { + const f_list_chain_item * curr; + const f_list_chain_item * next; + + for (curr = p->f_list_chain; curr; curr = next) + { + next = curr->chain_next; + free ((NONCONST void *) curr); + } + } +#endif /* !defined (UNPROTOIZE) */ + + free (p); +} + +/* Unexpand as many macro symbols as we can find. + + If the given line must be unexpanded, make a copy of it in the heap and + return a pointer to the unexpanded copy. Otherwise return NULL. */ + +static char * +unexpand_if_needed (const char *aux_info_line) +{ + static char *line_buf = 0; + static int line_buf_size = 0; + const unexpansion *unexp_p; + int got_unexpanded = 0; + const char *s; + char *copy_p = line_buf; + + if (line_buf == 0) + { + line_buf_size = 1024; + line_buf = xmalloc (line_buf_size); + } + + copy_p = line_buf; + + /* Make a copy of the input string in line_buf, expanding as necessary. */ + + for (s = aux_info_line; *s != '\n'; ) + { + for (unexp_p = unexpansions; unexp_p->expanded; unexp_p++) + { + const char *in_p = unexp_p->expanded; + size_t len = strlen (in_p); + + if (*s == *in_p && !strncmp (s, in_p, len) && !is_id_char (s[len])) + { + int size = strlen (unexp_p->contracted); + got_unexpanded = 1; + if (copy_p + size - line_buf >= line_buf_size) + { + int offset = copy_p - line_buf; + line_buf_size *= 2; + line_buf_size += size; + line_buf = xrealloc (line_buf, line_buf_size); + copy_p = line_buf + offset; + } + strcpy (copy_p, unexp_p->contracted); + copy_p += size; + + /* Assume that there will not be another replacement required + within the text just replaced. */ + + s += len; + goto continue_outer; + } + } + if (copy_p - line_buf == line_buf_size) + { + int offset = copy_p - line_buf; + line_buf_size *= 2; + line_buf = xrealloc (line_buf, line_buf_size); + copy_p = line_buf + offset; + } + *copy_p++ = *s++; +continue_outer: ; + } + if (copy_p + 2 - line_buf >= line_buf_size) + { + int offset = copy_p - line_buf; + line_buf_size *= 2; + line_buf = xrealloc (line_buf, line_buf_size); + copy_p = line_buf + offset; + } + *copy_p++ = '\n'; + *copy_p = '\0'; + + return (got_unexpanded ? savestring (line_buf, copy_p - line_buf) : 0); +} + +/* Return the absolutized filename for the given relative + filename. Note that if that filename is already absolute, it may + still be returned in a modified form because this routine also + eliminates redundant slashes and single dots and eliminates double + dots to get a shortest possible filename from the given input + filename. The absolutization of relative filenames is made by + assuming that the given filename is to be taken as relative to + the first argument (cwd) or to the current directory if cwd is + NULL. */ + +static char * +abspath (const char *cwd, const char *rel_filename) +{ + /* Setup the current working directory as needed. */ + const char *const cwd2 = (cwd) ? cwd : cwd_buffer; + char *const abs_buffer = alloca (strlen (cwd2) + strlen (rel_filename) + 2); + char *endp = abs_buffer; + char *outp, *inp; + + /* Copy the filename (possibly preceded by the current working + directory name) into the absolutization buffer. */ + + { + const char *src_p; + + if (! IS_ABSOLUTE_PATH (rel_filename)) + { + src_p = cwd2; + while ((*endp++ = *src_p++)) + continue; + *(endp-1) = DIR_SEPARATOR; /* overwrite null */ + } +#ifdef HAVE_DOS_BASED_FILE_SYSTEM + else if (IS_DIR_SEPARATOR (rel_filename[0])) + { + /* A path starting with a directory separator is considered absolute + for dos based filesystems, but it's really not -- it's just the + convention used throughout GCC and it works. However, in this + case, we still need to prepend the drive spec from cwd_buffer. */ + *endp++ = cwd2[0]; + *endp++ = cwd2[1]; + } +#endif + src_p = rel_filename; + while ((*endp++ = *src_p++)) + continue; + } + + /* Now make a copy of abs_buffer into abs_buffer, shortening the + filename (by taking out slashes and dots) as we go. */ + + outp = inp = abs_buffer; + *outp++ = *inp++; /* copy first slash */ +#if defined (apollo) || defined (_WIN32) || defined (__INTERIX) + if (IS_DIR_SEPARATOR (inp[0])) + *outp++ = *inp++; /* copy second slash */ +#endif + for (;;) + { + if (!inp[0]) + break; + else if (IS_DIR_SEPARATOR (inp[0]) && IS_DIR_SEPARATOR (outp[-1])) + { + inp++; + continue; + } + else if (inp[0] == '.' && IS_DIR_SEPARATOR (outp[-1])) + { + if (!inp[1]) + break; + else if (IS_DIR_SEPARATOR (inp[1])) + { + inp += 2; + continue; + } + else if ((inp[1] == '.') && (inp[2] == 0 + || IS_DIR_SEPARATOR (inp[2]))) + { + inp += (IS_DIR_SEPARATOR (inp[2])) ? 3 : 2; + outp -= 2; + while (outp >= abs_buffer && ! IS_DIR_SEPARATOR (*outp)) + outp--; + if (outp < abs_buffer) + { + /* Catch cases like /.. where we try to backup to a + point above the absolute root of the logical file + system. */ + + notice ("%s: invalid file name: %s\n", + pname, rel_filename); + exit (FATAL_EXIT_CODE); + } + *++outp = '\0'; + continue; + } + } + *outp++ = *inp++; + } + + /* On exit, make sure that there is a trailing null, and make sure that + the last character of the returned string is *not* a slash. */ + + *outp = '\0'; + if (IS_DIR_SEPARATOR (outp[-1])) + *--outp = '\0'; + + /* Make a copy (in the heap) of the stuff left in the absolutization + buffer and return a pointer to the copy. */ + + return savestring (abs_buffer, outp - abs_buffer); +} + +/* Given a filename (and possibly a directory name from which the filename + is relative) return a string which is the shortest possible + equivalent for the corresponding full (absolutized) filename. The + shortest possible equivalent may be constructed by converting the + absolutized filename to be a relative filename (i.e. relative to + the actual current working directory). However if a relative filename + is longer, then the full absolute filename is returned. + + KNOWN BUG: + + Note that "simple-minded" conversion of any given type of filename (either + relative or absolute) may not result in a valid equivalent filename if any + subpart of the original filename is actually a symbolic link. */ + +static const char * +shortpath (const char *cwd, const char *filename) +{ + char *rel_buffer; + char *rel_buf_p; + char *cwd_p = cwd_buffer; + char *path_p; + int unmatched_slash_count = 0; + size_t filename_len = strlen (filename); + + path_p = abspath (cwd, filename); + rel_buf_p = rel_buffer = xmalloc (filename_len); + + while (*cwd_p && IS_SAME_PATH_CHAR (*cwd_p, *path_p)) + { + cwd_p++; + path_p++; + } + if (!*cwd_p && (!*path_p || IS_DIR_SEPARATOR (*path_p))) + { + /* whole pwd matched */ + if (!*path_p) /* input *is* the current path! */ + return "."; + else + return ++path_p; + } + else + { + if (*path_p) + { + --cwd_p; + --path_p; + while (! IS_DIR_SEPARATOR (*cwd_p)) /* backup to last slash */ + { + --cwd_p; + --path_p; + } + cwd_p++; + path_p++; + unmatched_slash_count++; + } + + /* Find out how many directory levels in cwd were *not* matched. */ + while (*cwd_p++) + if (IS_DIR_SEPARATOR (*(cwd_p-1))) + unmatched_slash_count++; + + /* Now we know how long the "short name" will be. + Reject it if longer than the input. */ + if (unmatched_slash_count * 3 + strlen (path_p) >= filename_len) + return filename; + + /* For each of them, put a `../' at the beginning of the short name. */ + while (unmatched_slash_count--) + { + /* Give up if the result gets to be longer + than the absolute path name. */ + if (rel_buffer + filename_len <= rel_buf_p + 3) + return filename; + *rel_buf_p++ = '.'; + *rel_buf_p++ = '.'; + *rel_buf_p++ = DIR_SEPARATOR; + } + + /* Then tack on the unmatched part of the desired file's name. */ + do + { + if (rel_buffer + filename_len <= rel_buf_p) + return filename; + } + while ((*rel_buf_p++ = *path_p++)); + + --rel_buf_p; + if (IS_DIR_SEPARATOR (*(rel_buf_p-1))) + *--rel_buf_p = '\0'; + return rel_buffer; + } +} + +/* Lookup the given filename in the hash table for filenames. If it is a + new one, then the hash table info pointer will be null. In this case, + we create a new file_info record to go with the filename, and we initialize + that record with some reasonable values. */ + +/* FILENAME was const, but that causes a warning on AIX when calling stat. + That is probably a bug in AIX, but might as well avoid the warning. */ + +static file_info * +find_file (const char *filename, int do_not_stat) +{ + hash_table_entry *hash_entry_p; + + hash_entry_p = lookup (filename_primary, filename); + if (hash_entry_p->fip) + return hash_entry_p->fip; + else + { + struct stat stat_buf; + file_info *file_p = xmalloc (sizeof (file_info)); + + /* If we cannot get status on any given source file, give a warning + and then just set its time of last modification to infinity. */ + + if (do_not_stat) + stat_buf.st_mtime = (time_t) 0; + else + { + if (stat (filename, &stat_buf) == -1) + { + int errno_val = errno; + notice ("%s: %s: can't get status: %s\n", + pname, shortpath (NULL, filename), + xstrerror (errno_val)); + stat_buf.st_mtime = (time_t) -1; + } + } + + hash_entry_p->fip = file_p; + file_p->hash_entry = hash_entry_p; + file_p->defs_decs = NULL; + file_p->mtime = stat_buf.st_mtime; + return file_p; + } +} + +/* Generate a fatal error because some part of the aux_info file is + messed up. */ + +static void +aux_info_corrupted (void) +{ + notice ("\n%s: fatal error: aux info file corrupted at line %d\n", + pname, current_aux_info_lineno); + exit (FATAL_EXIT_CODE); +} + +/* ??? This comment is vague. Say what the condition is for. */ +/* Check to see that a condition is true. This is kind of like an assert. */ + +static void +check_aux_info (int cond) +{ + if (! cond) + aux_info_corrupted (); +} + +/* Given a pointer to the closing right parenthesis for a particular formals + list (in an aux_info file) find the corresponding left parenthesis and + return a pointer to it. */ + +static const char * +find_corresponding_lparen (const char *p) +{ + const char *q; + int paren_depth; + + for (paren_depth = 1, q = p-1; paren_depth; q--) + { + switch (*q) + { + case ')': + paren_depth++; + break; + case '(': + paren_depth--; + break; + } + } + return ++q; +} + +/* Given a line from an aux info file, and a time at which the aux info + file it came from was created, check to see if the item described in + the line comes from a file which has been modified since the aux info + file was created. If so, return nonzero, else return zero. */ + +static int +referenced_file_is_newer (const char *l, time_t aux_info_mtime) +{ + const char *p; + file_info *fi_p; + char *filename; + + check_aux_info (l[0] == '/'); + check_aux_info (l[1] == '*'); + check_aux_info (l[2] == ' '); + + { + const char *filename_start = p = l + 3; + + while (*p != ':' +#ifdef HAVE_DOS_BASED_FILE_SYSTEM + || (*p == ':' && *p && *(p+1) && IS_DIR_SEPARATOR (*(p+1))) +#endif + ) + p++; + filename = alloca ((size_t) (p - filename_start) + 1); + strncpy (filename, filename_start, (size_t) (p - filename_start)); + filename[p-filename_start] = '\0'; + } + + /* Call find_file to find the file_info record associated with the file + which contained this particular def or dec item. Note that this call + may cause a new file_info record to be created if this is the first time + that we have ever known about this particular file. */ + + fi_p = find_file (abspath (invocation_filename, filename), 0); + + return (fi_p->mtime > aux_info_mtime); +} + +/* Given a line of info from the aux_info file, create a new + def_dec_info record to remember all of the important information about + a function definition or declaration. + + Link this record onto the list of such records for the particular file in + which it occurred in proper (descending) line number order (for now). + + If there is an identical record already on the list for the file, throw + this one away. Doing so takes care of the (useless and troublesome) + duplicates which are bound to crop up due to multiple inclusions of any + given individual header file. + + Finally, link the new def_dec record onto the list of such records + pertaining to this particular function name. */ + +static void +save_def_or_dec (const char *l, int is_syscalls) +{ + const char *p; + const char *semicolon_p; + def_dec_info *def_dec_p = xmalloc (sizeof (def_dec_info)); + +#ifndef UNPROTOIZE + def_dec_p->written = 0; +#endif /* !defined (UNPROTOIZE) */ + + /* Start processing the line by picking off 5 pieces of information from + the left hand end of the line. These are filename, line number, + new/old/implicit flag (new = ANSI prototype format), definition or + declaration flag, and extern/static flag). */ + + check_aux_info (l[0] == '/'); + check_aux_info (l[1] == '*'); + check_aux_info (l[2] == ' '); + + { + const char *filename_start = p = l + 3; + char *filename; + + while (*p != ':' +#ifdef HAVE_DOS_BASED_FILE_SYSTEM + || (*p == ':' && *p && *(p+1) && IS_DIR_SEPARATOR (*(p+1))) +#endif + ) + p++; + filename = alloca ((size_t) (p - filename_start) + 1); + strncpy (filename, filename_start, (size_t) (p - filename_start)); + filename[p-filename_start] = '\0'; + + /* Call find_file to find the file_info record associated with the file + which contained this particular def or dec item. Note that this call + may cause a new file_info record to be created if this is the first time + that we have ever known about this particular file. + + Note that we started out by forcing all of the base source file names + (i.e. the names of the aux_info files with the .X stripped off) into the + filenames hash table, and we simultaneously setup file_info records for + all of these base file names (even if they may be useless later). + The file_info records for all of these "base" file names (properly) + act as file_info records for the "original" (i.e. un-included) files + which were submitted to gcc for compilation (when the -aux-info + option was used). */ + + def_dec_p->file = find_file (abspath (invocation_filename, filename), is_syscalls); + } + + { + const char *line_number_start = ++p; + char line_number[10]; + + while (*p != ':' +#ifdef HAVE_DOS_BASED_FILE_SYSTEM + || (*p == ':' && *p && *(p+1) && IS_DIR_SEPARATOR (*(p+1))) +#endif + ) + p++; + strncpy (line_number, line_number_start, (size_t) (p - line_number_start)); + line_number[p-line_number_start] = '\0'; + def_dec_p->line = atoi (line_number); + } + + /* Check that this record describes a new-style, old-style, or implicit + definition or declaration. */ + + p++; /* Skip over the `:'. */ + check_aux_info ((*p == 'N') || (*p == 'O') || (*p == 'I')); + + /* Is this a new style (ANSI prototyped) definition or declaration? */ + + def_dec_p->prototyped = (*p == 'N'); + +#ifndef UNPROTOIZE + + /* Is this an implicit declaration? */ + + def_dec_p->is_implicit = (*p == 'I'); + +#endif /* !defined (UNPROTOIZE) */ + + p++; + + check_aux_info ((*p == 'C') || (*p == 'F')); + + /* Is this item a function definition (F) or a declaration (C). Note that + we treat item taken from the syscalls file as though they were function + definitions regardless of what the stuff in the file says. */ + + def_dec_p->is_func_def = ((*p++ == 'F') || is_syscalls); + +#ifndef UNPROTOIZE + def_dec_p->definition = 0; /* Fill this in later if protoizing. */ +#endif /* !defined (UNPROTOIZE) */ + + check_aux_info (*p++ == ' '); + check_aux_info (*p++ == '*'); + check_aux_info (*p++ == '/'); + check_aux_info (*p++ == ' '); + +#ifdef UNPROTOIZE + check_aux_info ((!strncmp (p, "static", 6)) || (!strncmp (p, "extern", 6))); +#else /* !defined (UNPROTOIZE) */ + if (!strncmp (p, "static", 6)) + def_dec_p->is_static = -1; + else if (!strncmp (p, "extern", 6)) + def_dec_p->is_static = 0; + else + check_aux_info (0); /* Didn't find either `extern' or `static'. */ +#endif /* !defined (UNPROTOIZE) */ + + { + const char *ansi_start = p; + + p += 6; /* Pass over the "static" or "extern". */ + + /* We are now past the initial stuff. Search forward from here to find + the terminating semicolon that should immediately follow the entire + ANSI format function declaration. */ + + while (*++p != ';') + continue; + + semicolon_p = p; + + /* Make a copy of the ansi declaration part of the line from the aux_info + file. */ + + def_dec_p->ansi_decl + = dupnstr (ansi_start, (size_t) ((semicolon_p+1) - ansi_start)); + + /* Backup and point at the final right paren of the final argument list. */ + + p--; + +#ifndef UNPROTOIZE + def_dec_p->f_list_chain = NULL; +#endif /* !defined (UNPROTOIZE) */ + + while (p != ansi_start && (p[-1] == ' ' || p[-1] == '\t')) p--; + if (*p != ')') + { + free_def_dec (def_dec_p); + return; + } + } + + /* Now isolate a whole set of formal argument lists, one-by-one. Normally, + there will only be one list to isolate, but there could be more. */ + + def_dec_p->f_list_count = 0; + + for (;;) + { + const char *left_paren_p = find_corresponding_lparen (p); +#ifndef UNPROTOIZE + { + f_list_chain_item *cip = xmalloc (sizeof (f_list_chain_item)); + + cip->formals_list + = dupnstr (left_paren_p + 1, (size_t) (p - (left_paren_p+1))); + + /* Add the new chain item at the head of the current list. */ + + cip->chain_next = def_dec_p->f_list_chain; + def_dec_p->f_list_chain = cip; + } +#endif /* !defined (UNPROTOIZE) */ + def_dec_p->f_list_count++; + + p = left_paren_p - 2; + + /* p must now point either to another right paren, or to the last + character of the name of the function that was declared/defined. + If p points to another right paren, then this indicates that we + are dealing with multiple formals lists. In that case, there + really should be another right paren preceding this right paren. */ + + if (*p != ')') + break; + else + check_aux_info (*--p == ')'); + } + + + { + const char *past_fn = p + 1; + + check_aux_info (*past_fn == ' '); + + /* Scan leftwards over the identifier that names the function. */ + + while (is_id_char (*p)) + p--; + p++; + + /* p now points to the leftmost character of the function name. */ + + { + char *fn_string = alloca (past_fn - p + 1); + + strncpy (fn_string, p, (size_t) (past_fn - p)); + fn_string[past_fn-p] = '\0'; + def_dec_p->hash_entry = lookup (function_name_primary, fn_string); + } + } + + /* Look at all of the defs and decs for this function name that we have + collected so far. If there is already one which is at the same + line number in the same file, then we can discard this new def_dec_info + record. + + As an extra assurance that any such pair of (nominally) identical + function declarations are in fact identical, we also compare the + ansi_decl parts of the lines from the aux_info files just to be on + the safe side. + + This comparison will fail if (for instance) the user was playing + messy games with the preprocessor which ultimately causes one + function declaration in one header file to look differently when + that file is included by two (or more) other files. */ + + { + const def_dec_info *other; + + for (other = def_dec_p->hash_entry->ddip; other; other = other->next_for_func) + { + if (def_dec_p->line == other->line && def_dec_p->file == other->file) + { + if (strcmp (def_dec_p->ansi_decl, other->ansi_decl)) + { + notice ("%s:%d: declaration of function '%s' takes different forms\n", + def_dec_p->file->hash_entry->symbol, + def_dec_p->line, + def_dec_p->hash_entry->symbol); + exit (FATAL_EXIT_CODE); + } + free_def_dec (def_dec_p); + return; + } + } + } + +#ifdef UNPROTOIZE + + /* If we are doing unprotoizing, we must now setup the pointers that will + point to the K&R name list and to the K&R argument declarations list. + + Note that if this is only a function declaration, then we should not + expect to find any K&R style formals list following the ANSI-style + formals list. This is because GCC knows that such information is + useless in the case of function declarations (function definitions + are a different story however). + + Since we are unprotoizing, we don't need any such lists anyway. + All we plan to do is to delete all characters between ()'s in any + case. */ + + def_dec_p->formal_names = NULL; + def_dec_p->formal_decls = NULL; + + if (def_dec_p->is_func_def) + { + p = semicolon_p; + check_aux_info (*++p == ' '); + check_aux_info (*++p == '/'); + check_aux_info (*++p == '*'); + check_aux_info (*++p == ' '); + check_aux_info (*++p == '('); + + { + const char *kr_names_start = ++p; /* Point just inside '('. */ + + while (*p++ != ')') + continue; + p--; /* point to closing right paren */ + + /* Make a copy of the K&R parameter names list. */ + + def_dec_p->formal_names + = dupnstr (kr_names_start, (size_t) (p - kr_names_start)); + } + + check_aux_info (*++p == ' '); + p++; + + /* p now points to the first character of the K&R style declarations + list (if there is one) or to the star-slash combination that ends + the comment in which such lists get embedded. */ + + /* Make a copy of the K&R formal decls list and set the def_dec record + to point to it. */ + + if (*p == '*') /* Are there no K&R declarations? */ + { + check_aux_info (*++p == '/'); + def_dec_p->formal_decls = ""; + } + else + { + const char *kr_decls_start = p; + + while (p[0] != '*' || p[1] != '/') + p++; + p--; + + check_aux_info (*p == ' '); + + def_dec_p->formal_decls + = dupnstr (kr_decls_start, (size_t) (p - kr_decls_start)); + } + + /* Handle a special case. If we have a function definition marked as + being in "old" style, and if its formal names list is empty, then + it may actually have the string "void" in its real formals list + in the original source code. Just to make sure, we will get setup + to convert such things anyway. + + This kludge only needs to be here because of an insurmountable + problem with generating .X files. */ + + if (!def_dec_p->prototyped && !*def_dec_p->formal_names) + def_dec_p->prototyped = 1; + } + + /* Since we are unprotoizing, if this item is already in old (K&R) style, + we can just ignore it. If that is true, throw away the item now. */ + + if (!def_dec_p->prototyped) + { + free_def_dec (def_dec_p); + return; + } + +#endif /* defined (UNPROTOIZE) */ + + /* Add this record to the head of the list of records pertaining to this + particular function name. */ + + def_dec_p->next_for_func = def_dec_p->hash_entry->ddip; + def_dec_p->hash_entry->ddip = def_dec_p; + + /* Add this new def_dec_info record to the sorted list of def_dec_info + records for this file. Note that we don't have to worry about duplicates + (caused by multiple inclusions of header files) here because we have + already eliminated duplicates above. */ + + if (!def_dec_p->file->defs_decs) + { + def_dec_p->file->defs_decs = def_dec_p; + def_dec_p->next_in_file = NULL; + } + else + { + int line = def_dec_p->line; + const def_dec_info *prev = NULL; + const def_dec_info *curr = def_dec_p->file->defs_decs; + const def_dec_info *next = curr->next_in_file; + + while (next && (line < curr->line)) + { + prev = curr; + curr = next; + next = next->next_in_file; + } + if (line >= curr->line) + { + def_dec_p->next_in_file = curr; + if (prev) + ((NONCONST def_dec_info *) prev)->next_in_file = def_dec_p; + else + def_dec_p->file->defs_decs = def_dec_p; + } + else /* assert (next == NULL); */ + { + ((NONCONST def_dec_info *) curr)->next_in_file = def_dec_p; + /* assert (next == NULL); */ + def_dec_p->next_in_file = next; + } + } +} + +/* Set up the vector COMPILE_PARAMS which is the argument list for running GCC. + Also set input_file_name_index and aux_info_file_name_index + to the indices of the slots where the file names should go. */ + +/* We initialize the vector by removing -g, -O, -S, -c, and -o options, + and adding '-aux-info AUXFILE -S -o /dev/null INFILE' at the end. */ + +static void +munge_compile_params (const char *params_list) +{ + /* Build up the contents in a temporary vector + that is so big that to has to be big enough. */ + const char **temp_params + = alloca ((strlen (params_list) + 8) * sizeof (char *)); + int param_count = 0; + const char *param; + struct stat st; + + temp_params[param_count++] = compiler_file_name; + for (;;) + { + while (ISSPACE ((const unsigned char)*params_list)) + params_list++; + if (!*params_list) + break; + param = params_list; + while (*params_list && !ISSPACE ((const unsigned char)*params_list)) + params_list++; + if (param[0] != '-') + temp_params[param_count++] + = dupnstr (param, (size_t) (params_list - param)); + else + { + switch (param[1]) + { + case 'g': + case 'O': + case 'S': + case 'c': + break; /* Don't copy these. */ + case 'o': + while (ISSPACE ((const unsigned char)*params_list)) + params_list++; + while (*params_list + && !ISSPACE ((const unsigned char)*params_list)) + params_list++; + break; + default: + temp_params[param_count++] + = dupnstr (param, (size_t) (params_list - param)); + } + } + if (!*params_list) + break; + } + temp_params[param_count++] = "-aux-info"; + + /* Leave room for the aux-info file name argument. */ + aux_info_file_name_index = param_count; + temp_params[param_count++] = NULL; + + temp_params[param_count++] = "-S"; + temp_params[param_count++] = "-o"; + + if ((stat (HOST_BIT_BUCKET, &st) == 0) + && (!S_ISDIR (st.st_mode)) + && (access (HOST_BIT_BUCKET, W_OK) == 0)) + temp_params[param_count++] = HOST_BIT_BUCKET; + else + /* FIXME: This is hardly likely to be right, if HOST_BIT_BUCKET is not + writable. But until this is rejigged to use make_temp_file(), this + is the best we can do. */ + temp_params[param_count++] = "/dev/null"; + + /* Leave room for the input file name argument. */ + input_file_name_index = param_count; + temp_params[param_count++] = NULL; + /* Terminate the list. */ + temp_params[param_count++] = NULL; + + /* Make a copy of the compile_params in heap space. */ + + compile_params = xmalloc (sizeof (char *) * (param_count+1)); + memcpy (compile_params, temp_params, sizeof (char *) * param_count); +} + +/* Do a recompilation for the express purpose of generating a new aux_info + file to go with a specific base source file. + + The result is a boolean indicating success. */ + +static int +gen_aux_info_file (const char *base_filename) +{ + if (!input_file_name_index) + munge_compile_params (""); + + /* Store the full source file name in the argument vector. */ + compile_params[input_file_name_index] = shortpath (NULL, base_filename); + /* Add .X to source file name to get aux-info file name. */ + compile_params[aux_info_file_name_index] = + concat (compile_params[input_file_name_index], aux_info_suffix, NULL); + + if (!quiet_flag) + notice ("%s: compiling '%s'\n", + pname, compile_params[input_file_name_index]); + + { + char *errmsg_fmt, *errmsg_arg; + int wait_status, pid; + + pid = pexecute (compile_params[0], (char * const *) compile_params, + pname, NULL, &errmsg_fmt, &errmsg_arg, + PEXECUTE_FIRST | PEXECUTE_LAST | PEXECUTE_SEARCH); + + if (pid == -1) + { + int errno_val = errno; + fprintf (stderr, "%s: ", pname); + fprintf (stderr, errmsg_fmt, errmsg_arg); + fprintf (stderr, ": %s\n", xstrerror (errno_val)); + return 0; + } + + pid = pwait (pid, &wait_status, 0); + if (pid == -1) + { + notice ("%s: wait: %s\n", pname, xstrerror (errno)); + return 0; + } + if (WIFSIGNALED (wait_status)) + { + notice ("%s: subprocess got fatal signal %d\n", + pname, WTERMSIG (wait_status)); + return 0; + } + if (WIFEXITED (wait_status)) + { + if (WEXITSTATUS (wait_status) != 0) + { + notice ("%s: %s exited with status %d\n", + pname, compile_params[0], WEXITSTATUS (wait_status)); + return 0; + } + return 1; + } + gcc_unreachable (); + } +} + +/* Read in all of the information contained in a single aux_info file. + Save all of the important stuff for later. */ + +static void +process_aux_info_file (const char *base_source_filename, int keep_it, + int is_syscalls) +{ + size_t base_len = strlen (base_source_filename); + char * aux_info_filename = alloca (base_len + strlen (aux_info_suffix) + 1); + char *aux_info_base; + char *aux_info_limit; + char *aux_info_relocated_name; + const char *aux_info_second_line; + time_t aux_info_mtime; + size_t aux_info_size; + int must_create; + + /* Construct the aux_info filename from the base source filename. */ + + strcpy (aux_info_filename, base_source_filename); + strcat (aux_info_filename, aux_info_suffix); + + /* Check that the aux_info file exists and is readable. If it does not + exist, try to create it (once only). */ + + /* If file doesn't exist, set must_create. + Likewise if it exists and we can read it but it is obsolete. + Otherwise, report an error. */ + must_create = 0; + + /* Come here with must_create set to 1 if file is out of date. */ +start_over: ; + + if (access (aux_info_filename, R_OK) == -1) + { + if (errno == ENOENT) + { + if (is_syscalls) + { + notice ("%s: warning: missing SYSCALLS file '%s'\n", + pname, aux_info_filename); + return; + } + must_create = 1; + } + else + { + int errno_val = errno; + notice ("%s: can't read aux info file '%s': %s\n", + pname, shortpath (NULL, aux_info_filename), + xstrerror (errno_val)); + errors++; + return; + } + } +#if 0 /* There is code farther down to take care of this. */ + else + { + struct stat s1, s2; + stat (aux_info_file_name, &s1); + stat (base_source_file_name, &s2); + if (s2.st_mtime > s1.st_mtime) + must_create = 1; + } +#endif /* 0 */ + + /* If we need a .X file, create it, and verify we can read it. */ + if (must_create) + { + if (!gen_aux_info_file (base_source_filename)) + { + errors++; + return; + } + if (access (aux_info_filename, R_OK) == -1) + { + int errno_val = errno; + notice ("%s: can't read aux info file '%s': %s\n", + pname, shortpath (NULL, aux_info_filename), + xstrerror (errno_val)); + errors++; + return; + } + } + + { + struct stat stat_buf; + + /* Get some status information about this aux_info file. */ + + if (stat (aux_info_filename, &stat_buf) == -1) + { + int errno_val = errno; + notice ("%s: can't get status of aux info file '%s': %s\n", + pname, shortpath (NULL, aux_info_filename), + xstrerror (errno_val)); + errors++; + return; + } + + /* Check on whether or not this aux_info file is zero length. If it is, + then just ignore it and return. */ + + if ((aux_info_size = stat_buf.st_size) == 0) + return; + + /* Get the date/time of last modification for this aux_info file and + remember it. We will have to check that any source files that it + contains information about are at least this old or older. */ + + aux_info_mtime = stat_buf.st_mtime; + + if (!is_syscalls) + { + /* Compare mod time with the .c file; update .X file if obsolete. + The code later on can fail to check the .c file + if it did not directly define any functions. */ + + if (stat (base_source_filename, &stat_buf) == -1) + { + int errno_val = errno; + notice ("%s: can't get status of aux info file '%s': %s\n", + pname, shortpath (NULL, base_source_filename), + xstrerror (errno_val)); + errors++; + return; + } + if (stat_buf.st_mtime > aux_info_mtime) + { + must_create = 1; + goto start_over; + } + } + } + + { + int aux_info_file; + int fd_flags; + + /* Open the aux_info file. */ + + fd_flags = O_RDONLY; +#ifdef O_BINARY + /* Use binary mode to avoid having to deal with different EOL characters. */ + fd_flags |= O_BINARY; +#endif + if ((aux_info_file = open (aux_info_filename, fd_flags, 0444 )) == -1) + { + int errno_val = errno; + notice ("%s: can't open aux info file '%s' for reading: %s\n", + pname, shortpath (NULL, aux_info_filename), + xstrerror (errno_val)); + return; + } + + /* Allocate space to hold the aux_info file in memory. */ + + aux_info_base = xmalloc (aux_info_size + 1); + aux_info_limit = aux_info_base + aux_info_size; + *aux_info_limit = '\0'; + + /* Read the aux_info file into memory. */ + + if (safe_read (aux_info_file, aux_info_base, aux_info_size) != + (int) aux_info_size) + { + int errno_val = errno; + notice ("%s: error reading aux info file '%s': %s\n", + pname, shortpath (NULL, aux_info_filename), + xstrerror (errno_val)); + free (aux_info_base); + close (aux_info_file); + return; + } + + /* Close the aux info file. */ + + if (close (aux_info_file)) + { + int errno_val = errno; + notice ("%s: error closing aux info file '%s': %s\n", + pname, shortpath (NULL, aux_info_filename), + xstrerror (errno_val)); + free (aux_info_base); + close (aux_info_file); + return; + } + } + + /* Delete the aux_info file (unless requested not to). If the deletion + fails for some reason, don't even worry about it. */ + + if (must_create && !keep_it) + if (unlink (aux_info_filename) == -1) + { + int errno_val = errno; + notice ("%s: can't delete aux info file '%s': %s\n", + pname, shortpath (NULL, aux_info_filename), + xstrerror (errno_val)); + } + + /* Save a pointer into the first line of the aux_info file which + contains the filename of the directory from which the compiler + was invoked when the associated source file was compiled. + This information is used later to help create complete + filenames out of the (potentially) relative filenames in + the aux_info file. */ + + { + char *p = aux_info_base; + + while (*p != ':' +#ifdef HAVE_DOS_BASED_FILE_SYSTEM + || (*p == ':' && *p && *(p+1) && IS_DIR_SEPARATOR (*(p+1))) +#endif + ) + p++; + p++; + while (*p == ' ') + p++; + invocation_filename = p; /* Save a pointer to first byte of path. */ + while (*p != ' ') + p++; + *p++ = DIR_SEPARATOR; + *p++ = '\0'; + while (*p++ != '\n') + continue; + aux_info_second_line = p; + aux_info_relocated_name = 0; + if (! IS_ABSOLUTE_PATH (invocation_filename)) + { + /* INVOCATION_FILENAME is relative; + append it to BASE_SOURCE_FILENAME's dir. */ + char *dir_end; + aux_info_relocated_name = xmalloc (base_len + (p-invocation_filename)); + strcpy (aux_info_relocated_name, base_source_filename); + dir_end = strrchr (aux_info_relocated_name, DIR_SEPARATOR); +#ifdef DIR_SEPARATOR_2 + { + char *slash; + + slash = strrchr (dir_end ? dir_end : aux_info_relocated_name, + DIR_SEPARATOR_2); + if (slash) + dir_end = slash; + } +#endif + if (dir_end) + dir_end++; + else + dir_end = aux_info_relocated_name; + strcpy (dir_end, invocation_filename); + invocation_filename = aux_info_relocated_name; + } + } + + + { + const char *aux_info_p; + + /* Do a pre-pass on the lines in the aux_info file, making sure that all + of the source files referenced in there are at least as old as this + aux_info file itself. If not, go back and regenerate the aux_info + file anew. Don't do any of this for the syscalls file. */ + + if (!is_syscalls) + { + current_aux_info_lineno = 2; + + for (aux_info_p = aux_info_second_line; *aux_info_p; ) + { + if (referenced_file_is_newer (aux_info_p, aux_info_mtime)) + { + free (aux_info_base); + free (aux_info_relocated_name); + if (keep_it && unlink (aux_info_filename) == -1) + { + int errno_val = errno; + notice ("%s: can't delete file '%s': %s\n", + pname, shortpath (NULL, aux_info_filename), + xstrerror (errno_val)); + return; + } + must_create = 1; + goto start_over; + } + + /* Skip over the rest of this line to start of next line. */ + + while (*aux_info_p != '\n') + aux_info_p++; + aux_info_p++; + current_aux_info_lineno++; + } + } + + /* Now do the real pass on the aux_info lines. Save their information in + the in-core data base. */ + + current_aux_info_lineno = 2; + + for (aux_info_p = aux_info_second_line; *aux_info_p;) + { + char *unexpanded_line = unexpand_if_needed (aux_info_p); + + if (unexpanded_line) + { + save_def_or_dec (unexpanded_line, is_syscalls); + free (unexpanded_line); + } + else + save_def_or_dec (aux_info_p, is_syscalls); + + /* Skip over the rest of this line and get to start of next line. */ + + while (*aux_info_p != '\n') + aux_info_p++; + aux_info_p++; + current_aux_info_lineno++; + } + } + + free (aux_info_base); + free (aux_info_relocated_name); +} + +#ifndef UNPROTOIZE + +/* Check an individual filename for a .c suffix. If the filename has this + suffix, rename the file such that its suffix is changed to .C. This + function implements the -C option. */ + +static void +rename_c_file (const hash_table_entry *hp) +{ + const char *filename = hp->symbol; + int last_char_index = strlen (filename) - 1; + char *const new_filename = alloca (strlen (filename) + + strlen (cplus_suffix) + 1); + + /* Note that we don't care here if the given file was converted or not. It + is possible that the given file was *not* converted, simply because there + was nothing in it which actually required conversion. Even in this case, + we want to do the renaming. Note that we only rename files with the .c + suffix (except for the syscalls file, which is left alone). */ + + if (filename[last_char_index] != 'c' || filename[last_char_index-1] != '.' + || IS_SAME_PATH (syscalls_absolute_filename, filename)) + return; + + strcpy (new_filename, filename); + strcpy (&new_filename[last_char_index], cplus_suffix); + + if (rename (filename, new_filename) == -1) + { + int errno_val = errno; + notice ("%s: warning: can't rename file '%s' to '%s': %s\n", + pname, shortpath (NULL, filename), + shortpath (NULL, new_filename), xstrerror (errno_val)); + errors++; + return; + } +} + +#endif /* !defined (UNPROTOIZE) */ + +/* Take the list of definitions and declarations attached to a particular + file_info node and reverse the order of the list. This should get the + list into an order such that the item with the lowest associated line + number is nearest the head of the list. When these lists are originally + built, they are in the opposite order. We want to traverse them in + normal line number order later (i.e. lowest to highest) so reverse the + order here. */ + +static void +reverse_def_dec_list (const hash_table_entry *hp) +{ + file_info *file_p = hp->fip; + def_dec_info *prev = NULL; + def_dec_info *current = (def_dec_info *) file_p->defs_decs; + + if (!current) + return; /* no list to reverse */ + + prev = current; + if (! (current = (def_dec_info *) current->next_in_file)) + return; /* can't reverse a single list element */ + + prev->next_in_file = NULL; + + while (current) + { + def_dec_info *next = (def_dec_info *) current->next_in_file; + + current->next_in_file = prev; + prev = current; + current = next; + } + + file_p->defs_decs = prev; +} + +#ifndef UNPROTOIZE + +/* Find the (only?) extern definition for a particular function name, starting + from the head of the linked list of entries for the given name. If we + cannot find an extern definition for the given function name, issue a + warning and scrounge around for the next best thing, i.e. an extern + function declaration with a prototype attached to it. Note that we only + allow such substitutions for extern declarations and never for static + declarations. That's because the only reason we allow them at all is + to let un-prototyped function declarations for system-supplied library + functions get their prototypes from our own extra SYSCALLS.c.X file which + contains all of the correct prototypes for system functions. */ + +static const def_dec_info * +find_extern_def (const def_dec_info *head, const def_dec_info *user) +{ + const def_dec_info *dd_p; + const def_dec_info *extern_def_p = NULL; + int conflict_noted = 0; + + /* Don't act too stupid here. Somebody may try to convert an entire system + in one swell fwoop (rather than one program at a time, as should be done) + and in that case, we may find that there are multiple extern definitions + of a given function name in the entire set of source files that we are + converting. If however one of these definitions resides in exactly the + same source file as the reference we are trying to satisfy then in that + case it would be stupid for us to fail to realize that this one definition + *must* be the precise one we are looking for. + + To make sure that we don't miss an opportunity to make this "same file" + leap of faith, we do a prescan of the list of records relating to the + given function name, and we look (on this first scan) *only* for a + definition of the function which is in the same file as the reference + we are currently trying to satisfy. */ + + for (dd_p = head; dd_p; dd_p = dd_p->next_for_func) + if (dd_p->is_func_def && !dd_p->is_static && dd_p->file == user->file) + return dd_p; + + /* Now, since we have not found a definition in the same file as the + reference, we scan the list again and consider all possibilities from + all files. Here we may get conflicts with the things listed in the + SYSCALLS.c.X file, but if that happens it only means that the source + code being converted contains its own definition of a function which + could have been supplied by libc.a. In such cases, we should avoid + issuing the normal warning, and defer to the definition given in the + user's own code. */ + + for (dd_p = head; dd_p; dd_p = dd_p->next_for_func) + if (dd_p->is_func_def && !dd_p->is_static) + { + if (!extern_def_p) /* Previous definition? */ + extern_def_p = dd_p; /* Remember the first definition found. */ + else + { + /* Ignore definition just found if it came from SYSCALLS.c.X. */ + + if (is_syscalls_file (dd_p->file)) + continue; + + /* Quietly replace the definition previously found with the one + just found if the previous one was from SYSCALLS.c.X. */ + + if (is_syscalls_file (extern_def_p->file)) + { + extern_def_p = dd_p; + continue; + } + + /* If we get here, then there is a conflict between two function + declarations for the same function, both of which came from the + user's own code. */ + + if (!conflict_noted) /* first time we noticed? */ + { + conflict_noted = 1; + notice ("%s: conflicting extern definitions of '%s'\n", + pname, head->hash_entry->symbol); + if (!quiet_flag) + { + notice ("%s: declarations of '%s' will not be converted\n", + pname, head->hash_entry->symbol); + notice ("%s: conflict list for '%s' follows:\n", + pname, head->hash_entry->symbol); + fprintf (stderr, "%s: %s(%d): %s\n", + pname, + shortpath (NULL, extern_def_p->file->hash_entry->symbol), + extern_def_p->line, extern_def_p->ansi_decl); + } + } + if (!quiet_flag) + fprintf (stderr, "%s: %s(%d): %s\n", + pname, + shortpath (NULL, dd_p->file->hash_entry->symbol), + dd_p->line, dd_p->ansi_decl); + } + } + + /* We want to err on the side of caution, so if we found multiple conflicting + definitions for the same function, treat this as being that same as if we + had found no definitions (i.e. return NULL). */ + + if (conflict_noted) + return NULL; + + if (!extern_def_p) + { + /* We have no definitions for this function so do the next best thing. + Search for an extern declaration already in prototype form. */ + + for (dd_p = head; dd_p; dd_p = dd_p->next_for_func) + if (!dd_p->is_func_def && !dd_p->is_static && dd_p->prototyped) + { + extern_def_p = dd_p; /* save a pointer to the definition */ + if (!quiet_flag) + notice ("%s: warning: using formals list from %s(%d) for function '%s'\n", + pname, + shortpath (NULL, dd_p->file->hash_entry->symbol), + dd_p->line, dd_p->hash_entry->symbol); + break; + } + + /* Gripe about unprototyped function declarations that we found no + corresponding definition (or other source of prototype information) + for. + + Gripe even if the unprototyped declaration we are worried about + exists in a file in one of the "system" include directories. We + can gripe about these because we should have at least found a + corresponding (pseudo) definition in the SYSCALLS.c.X file. If we + didn't, then that means that the SYSCALLS.c.X file is missing some + needed prototypes for this particular system. That is worth telling + the user about! */ + + if (!extern_def_p) + { + const char *file = user->file->hash_entry->symbol; + + if (!quiet_flag) + if (in_system_include_dir (file)) + { + /* Why copy this string into `needed' at all? + Why not just use user->ansi_decl without copying? */ + char *needed = alloca (strlen (user->ansi_decl) + 1); + char *p; + + strcpy (needed, user->ansi_decl); + p = strstr (needed, user->hash_entry->symbol) + + strlen (user->hash_entry->symbol) + 2; + /* Avoid having ??? in the string. */ + *p++ = '?'; + *p++ = '?'; + *p++ = '?'; + strcpy (p, ");"); + + notice ("%s: %d: '%s' used but missing from SYSCALLS\n", + shortpath (NULL, file), user->line, + needed+7); /* Don't print "extern " */ + } +#if 0 + else + notice ("%s: %d: warning: no extern definition for '%s'\n", + shortpath (NULL, file), user->line, + user->hash_entry->symbol); +#endif + } + } + return extern_def_p; +} + +/* Find the (only?) static definition for a particular function name in a + given file. Here we get the function-name and the file info indirectly + from the def_dec_info record pointer which is passed in. */ + +static const def_dec_info * +find_static_definition (const def_dec_info *user) +{ + const def_dec_info *head = user->hash_entry->ddip; + const def_dec_info *dd_p; + int num_static_defs = 0; + const def_dec_info *static_def_p = NULL; + + for (dd_p = head; dd_p; dd_p = dd_p->next_for_func) + if (dd_p->is_func_def && dd_p->is_static && (dd_p->file == user->file)) + { + static_def_p = dd_p; /* save a pointer to the definition */ + num_static_defs++; + } + if (num_static_defs == 0) + { + if (!quiet_flag) + notice ("%s: warning: no static definition for '%s' in file '%s'\n", + pname, head->hash_entry->symbol, + shortpath (NULL, user->file->hash_entry->symbol)); + } + else if (num_static_defs > 1) + { + notice ("%s: multiple static defs of '%s' in file '%s'\n", + pname, head->hash_entry->symbol, + shortpath (NULL, user->file->hash_entry->symbol)); + return NULL; + } + return static_def_p; +} + +/* Find good prototype style formal argument lists for all of the function + declarations which didn't have them before now. + + To do this we consider each function name one at a time. For each function + name, we look at the items on the linked list of def_dec_info records for + that particular name. + + Somewhere on this list we should find one (and only one) def_dec_info + record which represents the actual function definition, and this record + should have a nice formal argument list already associated with it. + + Thus, all we have to do is to connect up all of the other def_dec_info + records for this particular function name to the special one which has + the full-blown formals list. + + Of course it is a little more complicated than just that. See below for + more details. */ + +static void +connect_defs_and_decs (const hash_table_entry *hp) +{ + const def_dec_info *dd_p; + const def_dec_info *extern_def_p = NULL; + int first_extern_reference = 1; + + /* Traverse the list of definitions and declarations for this particular + function name. For each item on the list, if it is a function + definition (either old style or new style) then GCC has already been + kind enough to produce a prototype for us, and it is associated with + the item already, so declare the item as its own associated "definition". + + Also, for each item which is only a function declaration, but which + nonetheless has its own prototype already (obviously supplied by the user) + declare the item as its own definition. + + Note that when/if there are multiple user-supplied prototypes already + present for multiple declarations of any given function, these multiple + prototypes *should* all match exactly with one another and with the + prototype for the actual function definition. We don't check for this + here however, since we assume that the compiler must have already done + this consistency checking when it was creating the .X files. */ + + for (dd_p = hp->ddip; dd_p; dd_p = dd_p->next_for_func) + if (dd_p->prototyped) + ((NONCONST def_dec_info *) dd_p)->definition = dd_p; + + /* Traverse the list of definitions and declarations for this particular + function name. For each item on the list, if it is an extern function + declaration and if it has no associated definition yet, go try to find + the matching extern definition for the declaration. + + When looking for the matching function definition, warn the user if we + fail to find one. + + If we find more that one function definition also issue a warning. + + Do the search for the matching definition only once per unique function + name (and only when absolutely needed) so that we can avoid putting out + redundant warning messages, and so that we will only put out warning + messages when there is actually a reference (i.e. a declaration) for + which we need to find a matching definition. */ + + for (dd_p = hp->ddip; dd_p; dd_p = dd_p->next_for_func) + if (!dd_p->is_func_def && !dd_p->is_static && !dd_p->definition) + { + if (first_extern_reference) + { + extern_def_p = find_extern_def (hp->ddip, dd_p); + first_extern_reference = 0; + } + ((NONCONST def_dec_info *) dd_p)->definition = extern_def_p; + } + + /* Traverse the list of definitions and declarations for this particular + function name. For each item on the list, if it is a static function + declaration and if it has no associated definition yet, go try to find + the matching static definition for the declaration within the same file. + + When looking for the matching function definition, warn the user if we + fail to find one in the same file with the declaration, and refuse to + convert this kind of cross-file static function declaration. After all, + this is stupid practice and should be discouraged. + + We don't have to worry about the possibility that there is more than one + matching function definition in the given file because that would have + been flagged as an error by the compiler. + + Do the search for the matching definition only once per unique + function-name/source-file pair (and only when absolutely needed) so that + we can avoid putting out redundant warning messages, and so that we will + only put out warning messages when there is actually a reference (i.e. a + declaration) for which we actually need to find a matching definition. */ + + for (dd_p = hp->ddip; dd_p; dd_p = dd_p->next_for_func) + if (!dd_p->is_func_def && dd_p->is_static && !dd_p->definition) + { + const def_dec_info *dd_p2; + const def_dec_info *static_def; + + /* We have now found a single static declaration for which we need to + find a matching definition. We want to minimize the work (and the + number of warnings), so we will find an appropriate (matching) + static definition for this declaration, and then distribute it + (as the definition for) any and all other static declarations + for this function name which occur within the same file, and which + do not already have definitions. + + Note that a trick is used here to prevent subsequent attempts to + call find_static_definition for a given function-name & file + if the first such call returns NULL. Essentially, we convert + these NULL return values to -1, and put the -1 into the definition + field for each other static declaration from the same file which + does not already have an associated definition. + This makes these other static declarations look like they are + actually defined already when the outer loop here revisits them + later on. Thus, the outer loop will skip over them. Later, we + turn the -1's back to NULL's. */ + + ((NONCONST def_dec_info *) dd_p)->definition = + (static_def = find_static_definition (dd_p)) + ? static_def + : (const def_dec_info *) -1; + + for (dd_p2 = dd_p->next_for_func; dd_p2; dd_p2 = dd_p2->next_for_func) + if (!dd_p2->is_func_def && dd_p2->is_static + && !dd_p2->definition && (dd_p2->file == dd_p->file)) + ((NONCONST def_dec_info *) dd_p2)->definition = dd_p->definition; + } + + /* Convert any dummy (-1) definitions we created in the step above back to + NULL's (as they should be). */ + + for (dd_p = hp->ddip; dd_p; dd_p = dd_p->next_for_func) + if (dd_p->definition == (def_dec_info *) -1) + ((NONCONST def_dec_info *) dd_p)->definition = NULL; +} + +#endif /* !defined (UNPROTOIZE) */ + +/* Give a pointer into the clean text buffer, return a number which is the + original source line number that the given pointer points into. */ + +static int +identify_lineno (const char *clean_p) +{ + int line_num = 1; + const char *scan_p; + + for (scan_p = clean_text_base; scan_p <= clean_p; scan_p++) + if (*scan_p == '\n') + line_num++; + return line_num; +} + +/* Issue an error message and give up on doing this particular edit. */ + +static void +declare_source_confusing (const char *clean_p) +{ + if (!quiet_flag) + { + if (clean_p == 0) + notice ("%s: %d: warning: source too confusing\n", + shortpath (NULL, convert_filename), last_known_line_number); + else + notice ("%s: %d: warning: source too confusing\n", + shortpath (NULL, convert_filename), + identify_lineno (clean_p)); + } + longjmp (source_confusion_recovery, 1); +} + +/* Check that a condition which is expected to be true in the original source + code is in fact true. If not, issue an error message and give up on + converting this particular source file. */ + +static void +check_source (int cond, const char *clean_p) +{ + if (!cond) + declare_source_confusing (clean_p); +} + +/* If we think of the in-core cleaned text buffer as a memory mapped + file (with the variable last_known_line_start acting as sort of a + file pointer) then we can imagine doing "seeks" on the buffer. The + following routine implements a kind of "seek" operation for the in-core + (cleaned) copy of the source file. When finished, it returns a pointer to + the start of a given (numbered) line in the cleaned text buffer. + + Note that protoize only has to "seek" in the forward direction on the + in-core cleaned text file buffers, and it never needs to back up. + + This routine is made a little bit faster by remembering the line number + (and pointer value) supplied (and returned) from the previous "seek". + This prevents us from always having to start all over back at the top + of the in-core cleaned buffer again. */ + +static const char * +seek_to_line (int n) +{ + gcc_assert (n >= last_known_line_number); + + while (n > last_known_line_number) + { + while (*last_known_line_start != '\n') + check_source (++last_known_line_start < clean_text_limit, 0); + last_known_line_start++; + last_known_line_number++; + } + return last_known_line_start; +} + +/* Given a pointer to a character in the cleaned text buffer, return a pointer + to the next non-whitespace character which follows it. */ + +static const char * +forward_to_next_token_char (const char *ptr) +{ + for (++ptr; ISSPACE ((const unsigned char)*ptr); + check_source (++ptr < clean_text_limit, 0)) + continue; + return ptr; +} + +/* Copy a chunk of text of length `len' and starting at `str' to the current + output buffer. Note that all attempts to add stuff to the current output + buffer ultimately go through here. */ + +static void +output_bytes (const char *str, size_t len) +{ + if ((repl_write_ptr + 1) + len >= repl_text_limit) + { + size_t new_size = (repl_text_limit - repl_text_base) << 1; + char *new_buf = xrealloc (repl_text_base, new_size); + + repl_write_ptr = new_buf + (repl_write_ptr - repl_text_base); + repl_text_base = new_buf; + repl_text_limit = new_buf + new_size; + } + memcpy (repl_write_ptr + 1, str, len); + repl_write_ptr += len; +} + +/* Copy all bytes (except the trailing null) of a null terminated string to + the current output buffer. */ + +static void +output_string (const char *str) +{ + output_bytes (str, strlen (str)); +} + +/* Copy some characters from the original text buffer to the current output + buffer. + + This routine takes a pointer argument `p' which is assumed to be a pointer + into the cleaned text buffer. The bytes which are copied are the `original' + equivalents for the set of bytes between the last value of `clean_read_ptr' + and the argument value `p'. + + The set of bytes copied however, comes *not* from the cleaned text buffer, + but rather from the direct counterparts of these bytes within the original + text buffer. + + Thus, when this function is called, some bytes from the original text + buffer (which may include original comments and preprocessing directives) + will be copied into the output buffer. + + Note that the request implied when this routine is called includes the + byte pointed to by the argument pointer `p'. */ + +static void +output_up_to (const char *p) +{ + size_t copy_length = (size_t) (p - clean_read_ptr); + const char *copy_start = orig_text_base+(clean_read_ptr-clean_text_base)+1; + + if (copy_length == 0) + return; + + output_bytes (copy_start, copy_length); + clean_read_ptr = p; +} + +/* Given a pointer to a def_dec_info record which represents some form of + definition of a function (perhaps a real definition, or in lieu of that + perhaps just a declaration with a full prototype) return true if this + function is one which we should avoid converting. Return false + otherwise. */ + +static int +other_variable_style_function (const char *ansi_header) +{ +#ifdef UNPROTOIZE + + /* See if we have a stdarg function, or a function which has stdarg style + parameters or a stdarg style return type. */ + + return strstr (ansi_header, "...") != 0; + +#else /* !defined (UNPROTOIZE) */ + + /* See if we have a varargs function, or a function which has varargs style + parameters or a varargs style return type. */ + + const char *p; + int len = strlen (varargs_style_indicator); + + for (p = ansi_header; p; ) + { + const char *candidate; + + if ((candidate = strstr (p, varargs_style_indicator)) == 0) + return 0; + else + if (!is_id_char (candidate[-1]) && !is_id_char (candidate[len])) + return 1; + else + p = candidate + 1; + } + return 0; +#endif /* !defined (UNPROTOIZE) */ +} + +/* Do the editing operation specifically for a function "declaration". Note + that editing for function "definitions" are handled in a separate routine + below. */ + +static void +edit_fn_declaration (const def_dec_info *def_dec_p, + const char *volatile clean_text_p) +{ + const char *start_formals; + const char *end_formals; + const char *function_to_edit = def_dec_p->hash_entry->symbol; + size_t func_name_len = strlen (function_to_edit); + const char *end_of_fn_name; + +#ifndef UNPROTOIZE + + const f_list_chain_item *this_f_list_chain_item; + const def_dec_info *definition = def_dec_p->definition; + + /* If we are protoizing, and if we found no corresponding definition for + this particular function declaration, then just leave this declaration + exactly as it is. */ + + if (!definition) + return; + + /* If we are protoizing, and if the corresponding definition that we found + for this particular function declaration defined an old style varargs + function, then we want to issue a warning and just leave this function + declaration unconverted. */ + + if (other_variable_style_function (definition->ansi_decl)) + { + if (!quiet_flag) + notice ("%s: %d: warning: varargs function declaration not converted\n", + shortpath (NULL, def_dec_p->file->hash_entry->symbol), + def_dec_p->line); + return; + } + +#endif /* !defined (UNPROTOIZE) */ + + /* Setup here to recover from confusing source code detected during this + particular "edit". */ + + save_pointers (); + if (setjmp (source_confusion_recovery)) + { + restore_pointers (); + notice ("%s: declaration of function '%s' not converted\n", + pname, function_to_edit); + return; + } + + /* We are editing a function declaration. The line number we did a seek to + contains the comma or semicolon which follows the declaration. Our job + now is to scan backwards looking for the function name. This name *must* + be followed by open paren (ignoring whitespace, of course). We need to + replace everything between that open paren and the corresponding closing + paren. If we are protoizing, we need to insert the prototype-style + formals lists. If we are unprotoizing, we need to just delete everything + between the pairs of opening and closing parens. */ + + /* First move up to the end of the line. */ + + while (*clean_text_p != '\n') + check_source (++clean_text_p < clean_text_limit, 0); + clean_text_p--; /* Point to just before the newline character. */ + + /* Now we can scan backwards for the function name. */ + + do + { + for (;;) + { + /* Scan leftwards until we find some character which can be + part of an identifier. */ + + while (!is_id_char (*clean_text_p)) + check_source (--clean_text_p > clean_read_ptr, 0); + + /* Scan backwards until we find a char that cannot be part of an + identifier. */ + + while (is_id_char (*clean_text_p)) + check_source (--clean_text_p > clean_read_ptr, 0); + + /* Having found an "id break", see if the following id is the one + that we are looking for. If so, then exit from this loop. */ + + if (!strncmp (clean_text_p+1, function_to_edit, func_name_len)) + { + char ch = *(clean_text_p + 1 + func_name_len); + + /* Must also check to see that the name in the source text + ends where it should (in order to prevent bogus matches + on similar but longer identifiers. */ + + if (! is_id_char (ch)) + break; /* exit from loop */ + } + } + + /* We have now found the first perfect match for the function name in + our backward search. This may or may not be the actual function + name at the start of the actual function declaration (i.e. we could + have easily been mislead). We will try to avoid getting fooled too + often by looking forward for the open paren which should follow the + identifier we just found. We ignore whitespace while hunting. If + the next non-whitespace byte we see is *not* an open left paren, + then we must assume that we have been fooled and we start over + again accordingly. Note that there is no guarantee, that even if + we do see the open paren, that we are in the right place. + Programmers do the strangest things sometimes! */ + + end_of_fn_name = clean_text_p + strlen (def_dec_p->hash_entry->symbol); + start_formals = forward_to_next_token_char (end_of_fn_name); + } + while (*start_formals != '('); + + /* start_of_formals now points to the opening left paren which immediately + follows the name of the function. */ + + /* Note that there may be several formals lists which need to be modified + due to the possibility that the return type of this function is a + pointer-to-function type. If there are several formals lists, we + convert them in left-to-right order here. */ + +#ifndef UNPROTOIZE + this_f_list_chain_item = definition->f_list_chain; +#endif /* !defined (UNPROTOIZE) */ + + for (;;) + { + { + int depth; + + end_formals = start_formals + 1; + depth = 1; + for (; depth; check_source (++end_formals < clean_text_limit, 0)) + { + switch (*end_formals) + { + case '(': + depth++; + break; + case ')': + depth--; + break; + } + } + end_formals--; + } + + /* end_formals now points to the closing right paren of the formals + list whose left paren is pointed to by start_formals. */ + + /* Now, if we are protoizing, we insert the new ANSI-style formals list + attached to the associated definition of this function. If however + we are unprotoizing, then we simply delete any formals list which + may be present. */ + + output_up_to (start_formals); +#ifndef UNPROTOIZE + if (this_f_list_chain_item) + { + output_string (this_f_list_chain_item->formals_list); + this_f_list_chain_item = this_f_list_chain_item->chain_next; + } + else + { + if (!quiet_flag) + notice ("%s: warning: too many parameter lists in declaration of '%s'\n", + pname, def_dec_p->hash_entry->symbol); + check_source (0, end_formals); /* leave the declaration intact */ + } +#endif /* !defined (UNPROTOIZE) */ + clean_read_ptr = end_formals - 1; + + /* Now see if it looks like there may be another formals list associated + with the function declaration that we are converting (following the + formals list that we just converted. */ + + { + const char *another_r_paren = forward_to_next_token_char (end_formals); + + if ((*another_r_paren != ')') + || (*(start_formals = forward_to_next_token_char (another_r_paren)) != '(')) + { +#ifndef UNPROTOIZE + if (this_f_list_chain_item) + { + if (!quiet_flag) + notice ("\n%s: warning: too few parameter lists in declaration of '%s'\n", + pname, def_dec_p->hash_entry->symbol); + check_source (0, start_formals); /* leave the decl intact */ + } +#endif /* !defined (UNPROTOIZE) */ + break; + + } + } + + /* There does appear to be yet another formals list, so loop around + again, and convert it also. */ + } +} + +/* Edit a whole group of formals lists, starting with the rightmost one + from some set of formals lists. This routine is called once (from the + outside) for each function declaration which is converted. It is + recursive however, and it calls itself once for each remaining formal + list that lies to the left of the one it was originally called to work + on. Thus, a whole set gets done in right-to-left order. + + This routine returns nonzero if it thinks that it should not be trying + to convert this particular function definition (because the name of the + function doesn't match the one expected). */ + +static int +edit_formals_lists (const char *end_formals, unsigned int f_list_count, + const def_dec_info *def_dec_p) +{ + const char *start_formals; + int depth; + + start_formals = end_formals - 1; + depth = 1; + for (; depth; check_source (--start_formals > clean_read_ptr, 0)) + { + switch (*start_formals) + { + case '(': + depth--; + break; + case ')': + depth++; + break; + } + } + start_formals++; + + /* start_formals now points to the opening left paren of the formals list. */ + + f_list_count--; + + if (f_list_count) + { + const char *next_end; + + /* There should be more formal lists to the left of here. */ + + next_end = start_formals - 1; + check_source (next_end > clean_read_ptr, 0); + while (ISSPACE ((const unsigned char)*next_end)) + check_source (--next_end > clean_read_ptr, 0); + check_source (*next_end == ')', next_end); + check_source (--next_end > clean_read_ptr, 0); + check_source (*next_end == ')', next_end); + if (edit_formals_lists (next_end, f_list_count, def_dec_p)) + return 1; + } + + /* Check that the function name in the header we are working on is the same + as the one we would expect to find. If not, issue a warning and return + nonzero. */ + + if (f_list_count == 0) + { + const char *expected = def_dec_p->hash_entry->symbol; + const char *func_name_start; + const char *func_name_limit; + size_t func_name_len; + + for (func_name_limit = start_formals-1; + ISSPACE ((const unsigned char)*func_name_limit); ) + check_source (--func_name_limit > clean_read_ptr, 0); + + for (func_name_start = func_name_limit++; + is_id_char (*func_name_start); + func_name_start--) + check_source (func_name_start > clean_read_ptr, 0); + func_name_start++; + func_name_len = func_name_limit - func_name_start; + if (func_name_len == 0) + check_source (0, func_name_start); + if (func_name_len != strlen (expected) + || strncmp (func_name_start, expected, func_name_len)) + { + notice ("%s: %d: warning: found '%s' but expected '%s'\n", + shortpath (NULL, def_dec_p->file->hash_entry->symbol), + identify_lineno (func_name_start), + dupnstr (func_name_start, func_name_len), + expected); + return 1; + } + } + + output_up_to (start_formals); + +#ifdef UNPROTOIZE + if (f_list_count == 0) + output_string (def_dec_p->formal_names); +#else /* !defined (UNPROTOIZE) */ + { + unsigned f_list_depth; + const f_list_chain_item *flci_p = def_dec_p->f_list_chain; + + /* At this point, the current value of f_list count says how many + links we have to follow through the f_list_chain to get to the + particular formals list that we need to output next. */ + + for (f_list_depth = 0; f_list_depth < f_list_count; f_list_depth++) + flci_p = flci_p->chain_next; + output_string (flci_p->formals_list); + } +#endif /* !defined (UNPROTOIZE) */ + + clean_read_ptr = end_formals - 1; + return 0; +} + +/* Given a pointer to a byte in the clean text buffer which points to + the beginning of a line that contains a "follower" token for a + function definition header, do whatever is necessary to find the + right closing paren for the rightmost formals list of the function + definition header. */ + +static const char * +find_rightmost_formals_list (const char *clean_text_p) +{ + const char *end_formals; + + /* We are editing a function definition. The line number we did a seek + to contains the first token which immediately follows the entire set of + formals lists which are part of this particular function definition + header. + + Our job now is to scan leftwards in the clean text looking for the + right-paren which is at the end of the function header's rightmost + formals list. + + If we ignore whitespace, this right paren should be the first one we + see which is (ignoring whitespace) immediately followed either by the + open curly-brace beginning the function body or by an alphabetic + character (in the case where the function definition is in old (K&R) + style and there are some declarations of formal parameters). */ + + /* It is possible that the right paren we are looking for is on the + current line (together with its following token). Just in case that + might be true, we start out here by skipping down to the right end of + the current line before starting our scan. */ + + for (end_formals = clean_text_p; *end_formals != '\n'; end_formals++) + continue; + end_formals--; + +#ifdef UNPROTOIZE + + /* Now scan backwards while looking for the right end of the rightmost + formals list associated with this function definition. */ + + { + char ch; + const char *l_brace_p; + + /* Look leftward and try to find a right-paren. */ + + while (*end_formals != ')') + { + if (ISSPACE ((unsigned char)*end_formals)) + while (ISSPACE ((unsigned char)*end_formals)) + check_source (--end_formals > clean_read_ptr, 0); + else + check_source (--end_formals > clean_read_ptr, 0); + } + + ch = *(l_brace_p = forward_to_next_token_char (end_formals)); + /* Since we are unprotoizing an ANSI-style (prototyped) function + definition, there had better not be anything (except whitespace) + between the end of the ANSI formals list and the beginning of the + function body (i.e. the '{'). */ + + check_source (ch == '{', l_brace_p); + } + +#else /* !defined (UNPROTOIZE) */ + + /* Now scan backwards while looking for the right end of the rightmost + formals list associated with this function definition. */ + + while (1) + { + char ch; + const char *l_brace_p; + + /* Look leftward and try to find a right-paren. */ + + while (*end_formals != ')') + { + if (ISSPACE ((const unsigned char)*end_formals)) + while (ISSPACE ((const unsigned char)*end_formals)) + check_source (--end_formals > clean_read_ptr, 0); + else + check_source (--end_formals > clean_read_ptr, 0); + } + + ch = *(l_brace_p = forward_to_next_token_char (end_formals)); + + /* Since it is possible that we found a right paren before the starting + '{' of the body which IS NOT the one at the end of the real K&R + formals list (say for instance, we found one embedded inside one of + the old K&R formal parameter declarations) we have to check to be + sure that this is in fact the right paren that we were looking for. + + The one we were looking for *must* be followed by either a '{' or + by an alphabetic character, while others *cannot* validly be followed + by such characters. */ + + if ((ch == '{') || ISALPHA ((unsigned char) ch)) + break; + + /* At this point, we have found a right paren, but we know that it is + not the one we were looking for, so backup one character and keep + looking. */ + + check_source (--end_formals > clean_read_ptr, 0); + } + +#endif /* !defined (UNPROTOIZE) */ + + return end_formals; +} + +#ifndef UNPROTOIZE + +/* Insert into the output file a totally new declaration for a function + which (up until now) was being called from within the current block + without having been declared at any point such that the declaration + was visible (i.e. in scope) at the point of the call. + + We need to add in explicit declarations for all such function calls + in order to get the full benefit of prototype-based function call + parameter type checking. */ + +static void +add_local_decl (const def_dec_info *def_dec_p, const char *clean_text_p) +{ + const char *start_of_block; + const char *function_to_edit = def_dec_p->hash_entry->symbol; + + /* Don't insert new local explicit declarations unless explicitly requested + to do so. */ + + if (!local_flag) + return; + + /* Setup here to recover from confusing source code detected during this + particular "edit". */ + + save_pointers (); + if (setjmp (source_confusion_recovery)) + { + restore_pointers (); + notice ("%s: local declaration for function '%s' not inserted\n", + pname, function_to_edit); + return; + } + + /* We have already done a seek to the start of the line which should + contain *the* open curly brace which begins the block in which we need + to insert an explicit function declaration (to replace the implicit one). + + Now we scan that line, starting from the left, until we find the + open curly brace we are looking for. Note that there may actually be + multiple open curly braces on the given line, but we will be happy + with the leftmost one no matter what. */ + + start_of_block = clean_text_p; + while (*start_of_block != '{' && *start_of_block != '\n') + check_source (++start_of_block < clean_text_limit, 0); + + /* Note that the line from the original source could possibly + contain *no* open curly braces! This happens if the line contains + a macro call which expands into a chunk of text which includes a + block (and that block's associated open and close curly braces). + In cases like this, we give up, issue a warning, and do nothing. */ + + if (*start_of_block != '{') + { + if (!quiet_flag) + notice ("\n%s: %d: warning: can't add declaration of '%s' into macro call\n", + def_dec_p->file->hash_entry->symbol, def_dec_p->line, + def_dec_p->hash_entry->symbol); + return; + } + + /* Figure out what a nice (pretty) indentation would be for the new + declaration we are adding. In order to do this, we must scan forward + from the '{' until we find the first line which starts with some + non-whitespace characters (i.e. real "token" material). */ + + { + const char *ep = forward_to_next_token_char (start_of_block) - 1; + const char *sp; + + /* Now we have ep pointing at the rightmost byte of some existing indent + stuff. At least that is the hope. + + We can now just scan backwards and find the left end of the existing + indentation string, and then copy it to the output buffer. */ + + for (sp = ep; ISSPACE ((const unsigned char)*sp) && *sp != '\n'; sp--) + continue; + + /* Now write out the open { which began this block, and any following + trash up to and including the last byte of the existing indent that + we just found. */ + + output_up_to (ep); + + /* Now we go ahead and insert the new declaration at this point. + + If the definition of the given function is in the same file that we + are currently editing, and if its full ANSI declaration normally + would start with the keyword `extern', suppress the `extern'. */ + + { + const char *decl = def_dec_p->definition->ansi_decl; + + if ((*decl == 'e') && (def_dec_p->file == def_dec_p->definition->file)) + decl += 7; + output_string (decl); + } + + /* Finally, write out a new indent string, just like the preceding one + that we found. This will typically include a newline as the first + character of the indent string. */ + + output_bytes (sp, (size_t) (ep - sp) + 1); + } +} + +/* Given a pointer to a file_info record, and a pointer to the beginning + of a line (in the clean text buffer) which is assumed to contain the + first "follower" token for the first function definition header in the + given file, find a good place to insert some new global function + declarations (which will replace scattered and imprecise implicit ones) + and then insert the new explicit declaration at that point in the file. */ + +static void +add_global_decls (const file_info *file_p, const char *clean_text_p) +{ + const def_dec_info *dd_p; + const char *scan_p; + + /* Setup here to recover from confusing source code detected during this + particular "edit". */ + + save_pointers (); + if (setjmp (source_confusion_recovery)) + { + restore_pointers (); + notice ("%s: global declarations for file '%s' not inserted\n", + pname, shortpath (NULL, file_p->hash_entry->symbol)); + return; + } + + /* Start by finding a good location for adding the new explicit function + declarations. To do this, we scan backwards, ignoring whitespace + and comments and other junk until we find either a semicolon, or until + we hit the beginning of the file. */ + + scan_p = find_rightmost_formals_list (clean_text_p); + for (;; --scan_p) + { + if (scan_p < clean_text_base) + break; + check_source (scan_p > clean_read_ptr, 0); + if (*scan_p == ';') + break; + } + + /* scan_p now points either to a semicolon, or to just before the start + of the whole file. */ + + /* Now scan forward for the first non-whitespace character. In theory, + this should be the first character of the following function definition + header. We will put in the added declarations just prior to that. */ + + scan_p++; + while (ISSPACE ((const unsigned char)*scan_p)) + scan_p++; + scan_p--; + + output_up_to (scan_p); + + /* Now write out full prototypes for all of the things that had been + implicitly declared in this file (but only those for which we were + actually able to find unique matching definitions). Avoid duplicates + by marking things that we write out as we go. */ + + { + int some_decls_added = 0; + + for (dd_p = file_p->defs_decs; dd_p; dd_p = dd_p->next_in_file) + if (dd_p->is_implicit && dd_p->definition && !dd_p->definition->written) + { + const char *decl = dd_p->definition->ansi_decl; + + /* If the function for which we are inserting a declaration is + actually defined later in the same file, then suppress the + leading `extern' keyword (if there is one). */ + + if (*decl == 'e' && (dd_p->file == dd_p->definition->file)) + decl += 7; + + output_string ("\n"); + output_string (decl); + some_decls_added = 1; + ((NONCONST def_dec_info *) dd_p->definition)->written = 1; + } + if (some_decls_added) + output_string ("\n\n"); + } + + /* Unmark all of the definitions that we just marked. */ + + for (dd_p = file_p->defs_decs; dd_p; dd_p = dd_p->next_in_file) + if (dd_p->definition) + ((NONCONST def_dec_info *) dd_p->definition)->written = 0; +} + +#endif /* !defined (UNPROTOIZE) */ + +/* Do the editing operation specifically for a function "definition". Note + that editing operations for function "declarations" are handled by a + separate routine above. */ + +static void +edit_fn_definition (const def_dec_info *def_dec_p, + const char *volatile clean_text_p) +{ + const char *end_formals; + const char *function_to_edit = def_dec_p->hash_entry->symbol; + + /* Setup here to recover from confusing source code detected during this + particular "edit". */ + + save_pointers (); + if (setjmp (source_confusion_recovery)) + { + restore_pointers (); + notice ("%s: definition of function '%s' not converted\n", + pname, function_to_edit); + return; + } + + end_formals = find_rightmost_formals_list (clean_text_p); + + /* end_of_formals now points to the closing right paren of the rightmost + formals list which is actually part of the `header' of the function + definition that we are converting. */ + + /* If the header of this function definition looks like it declares a + function with a variable number of arguments, and if the way it does + that is different from that way we would like it (i.e. varargs vs. + stdarg) then issue a warning and leave the header unconverted. */ + + if (other_variable_style_function (def_dec_p->ansi_decl)) + { + if (!quiet_flag) + notice ("%s: %d: warning: definition of %s not converted\n", + shortpath (NULL, def_dec_p->file->hash_entry->symbol), + identify_lineno (end_formals), + other_var_style); + output_up_to (end_formals); + return; + } + + if (edit_formals_lists (end_formals, def_dec_p->f_list_count, def_dec_p)) + { + restore_pointers (); + notice ("%s: definition of function '%s' not converted\n", + pname, function_to_edit); + return; + } + + /* Have to output the last right paren because this never gets flushed by + edit_formals_list. */ + + output_up_to (end_formals); + +#ifdef UNPROTOIZE + { + const char *decl_p; + const char *semicolon_p; + const char *limit_p; + const char *scan_p; + int had_newlines = 0; + + /* Now write out the K&R style formal declarations, one per line. */ + + decl_p = def_dec_p->formal_decls; + limit_p = decl_p + strlen (decl_p); + for (;decl_p < limit_p; decl_p = semicolon_p + 2) + { + for (semicolon_p = decl_p; *semicolon_p != ';'; semicolon_p++) + continue; + output_string ("\n"); + output_string (indent_string); + output_bytes (decl_p, (size_t) ((semicolon_p + 1) - decl_p)); + } + + /* If there are no newlines between the end of the formals list and the + start of the body, we should insert one now. */ + + for (scan_p = end_formals+1; *scan_p != '{'; ) + { + if (*scan_p == '\n') + { + had_newlines = 1; + break; + } + check_source (++scan_p < clean_text_limit, 0); + } + if (!had_newlines) + output_string ("\n"); + } +#else /* !defined (UNPROTOIZE) */ + /* If we are protoizing, there may be some flotsam & jetsam (like comments + and preprocessing directives) after the old formals list but before + the following { and we would like to preserve that stuff while effectively + deleting the existing K&R formal parameter declarations. We do so here + in a rather tricky way. Basically, we white out any stuff *except* + the comments/pp-directives in the original text buffer, then, if there + is anything in this area *other* than whitespace, we output it. */ + { + const char *end_formals_orig; + const char *start_body; + const char *start_body_orig; + const char *scan; + const char *scan_orig; + int have_flotsam = 0; + int have_newlines = 0; + + for (start_body = end_formals + 1; *start_body != '{';) + check_source (++start_body < clean_text_limit, 0); + + end_formals_orig = orig_text_base + (end_formals - clean_text_base); + start_body_orig = orig_text_base + (start_body - clean_text_base); + scan = end_formals + 1; + scan_orig = end_formals_orig + 1; + for (; scan < start_body; scan++, scan_orig++) + { + if (*scan == *scan_orig) + { + have_newlines |= (*scan_orig == '\n'); + /* Leave identical whitespace alone. */ + if (!ISSPACE ((const unsigned char)*scan_orig)) + *((NONCONST char *) scan_orig) = ' '; /* identical - so whiteout */ + } + else + have_flotsam = 1; + } + if (have_flotsam) + output_bytes (end_formals_orig + 1, + (size_t) (start_body_orig - end_formals_orig) - 1); + else + if (have_newlines) + output_string ("\n"); + else + output_string (" "); + clean_read_ptr = start_body - 1; + } +#endif /* !defined (UNPROTOIZE) */ +} + +/* Clean up the clean text buffer. Do this by converting comments and + preprocessing directives into spaces. Also convert line continuations + into whitespace. Also, whiteout string and character literals. */ + +static void +do_cleaning (char *new_clean_text_base, const char *new_clean_text_limit) +{ + char *scan_p; + int non_whitespace_since_newline = 0; + + for (scan_p = new_clean_text_base; scan_p < new_clean_text_limit; scan_p++) + { + switch (*scan_p) + { + case '/': /* Handle comments. */ + if (scan_p[1] != '*') + goto regular; + non_whitespace_since_newline = 1; + scan_p[0] = ' '; + scan_p[1] = ' '; + scan_p += 2; + while (scan_p[1] != '/' || scan_p[0] != '*') + { + if (!ISSPACE ((const unsigned char)*scan_p)) + *scan_p = ' '; + ++scan_p; + gcc_assert (scan_p < new_clean_text_limit); + } + *scan_p++ = ' '; + *scan_p = ' '; + break; + + case '#': /* Handle pp directives. */ + if (non_whitespace_since_newline) + goto regular; + *scan_p = ' '; + while (scan_p[1] != '\n' || scan_p[0] == '\\') + { + if (!ISSPACE ((const unsigned char)*scan_p)) + *scan_p = ' '; + ++scan_p; + gcc_assert (scan_p < new_clean_text_limit); + } + *scan_p++ = ' '; + break; + + case '\'': /* Handle character literals. */ + non_whitespace_since_newline = 1; + while (scan_p[1] != '\'' || scan_p[0] == '\\') + { + if (scan_p[0] == '\\' + && !ISSPACE ((const unsigned char) scan_p[1])) + scan_p[1] = ' '; + if (!ISSPACE ((const unsigned char)*scan_p)) + *scan_p = ' '; + ++scan_p; + gcc_assert (scan_p < new_clean_text_limit); + } + *scan_p++ = ' '; + break; + + case '"': /* Handle string literals. */ + non_whitespace_since_newline = 1; + while (scan_p[1] != '"' || scan_p[0] == '\\') + { + if (scan_p[0] == '\\' + && !ISSPACE ((const unsigned char) scan_p[1])) + scan_p[1] = ' '; + if (!ISSPACE ((const unsigned char)*scan_p)) + *scan_p = ' '; + ++scan_p; + gcc_assert (scan_p < new_clean_text_limit); + } + if (!ISSPACE ((const unsigned char)*scan_p)) + *scan_p = ' '; + scan_p++; + break; + + case '\\': /* Handle line continuations. */ + if (scan_p[1] != '\n') + goto regular; + *scan_p = ' '; + break; + + case '\n': + non_whitespace_since_newline = 0; /* Reset. */ + break; + + case ' ': + case '\v': + case '\t': + case '\r': + case '\f': + case '\b': + break; /* Whitespace characters. */ + + default: +regular: + non_whitespace_since_newline = 1; + break; + } + } +} + +/* Given a pointer to the closing right parenthesis for a particular formals + list (in the clean text buffer) find the corresponding left parenthesis + and return a pointer to it. */ + +static const char * +careful_find_l_paren (const char *p) +{ + const char *q; + int paren_depth; + + for (paren_depth = 1, q = p-1; paren_depth; check_source (--q >= clean_text_base, 0)) + { + switch (*q) + { + case ')': + paren_depth++; + break; + case '(': + paren_depth--; + break; + } + } + return ++q; +} + +/* Scan the clean text buffer for cases of function definitions that we + don't really know about because they were preprocessed out when the + aux info files were created. + + In this version of protoize/unprotoize we just give a warning for each + one found. A later version may be able to at least unprotoize such + missed items. + + Note that we may easily find all function definitions simply by + looking for places where there is a left paren which is (ignoring + whitespace) immediately followed by either a left-brace or by an + upper or lower case letter. Whenever we find this combination, we + have also found a function definition header. + + Finding function *declarations* using syntactic clues is much harder. + I will probably try to do this in a later version though. */ + +static void +scan_for_missed_items (const file_info *file_p) +{ + static const char *scan_p; + const char *limit = clean_text_limit - 3; + static const char *backup_limit; + + backup_limit = clean_text_base - 1; + + for (scan_p = clean_text_base; scan_p < limit; scan_p++) + { + if (*scan_p == ')') + { + static const char *last_r_paren; + const char *ahead_p; + + last_r_paren = scan_p; + + for (ahead_p = scan_p + 1; ISSPACE ((const unsigned char)*ahead_p); ) + check_source (++ahead_p < limit, limit); + + scan_p = ahead_p - 1; + + if (ISALPHA ((const unsigned char)*ahead_p) || *ahead_p == '{') + { + const char *last_l_paren; + const int lineno = identify_lineno (ahead_p); + + if (setjmp (source_confusion_recovery)) + continue; + + /* We know we have a function definition header. Now skip + leftwards over all of its associated formals lists. */ + + do + { + last_l_paren = careful_find_l_paren (last_r_paren); + for (last_r_paren = last_l_paren-1; + ISSPACE ((const unsigned char)*last_r_paren); ) + check_source (--last_r_paren >= backup_limit, backup_limit); + } + while (*last_r_paren == ')'); + + if (is_id_char (*last_r_paren)) + { + const char *id_limit = last_r_paren + 1; + const char *id_start; + size_t id_length; + const def_dec_info *dd_p; + + for (id_start = id_limit-1; is_id_char (*id_start); ) + check_source (--id_start >= backup_limit, backup_limit); + id_start++; + backup_limit = id_start; + if ((id_length = (size_t) (id_limit - id_start)) == 0) + goto not_missed; + + { + char *func_name = alloca (id_length + 1); + static const char * const stmt_keywords[] + = { "if", "else", "do", "while", "for", "switch", "case", "return", 0 }; + const char * const *stmt_keyword; + + strncpy (func_name, id_start, id_length); + func_name[id_length] = '\0'; + + /* We must check here to see if we are actually looking at + a statement rather than an actual function call. */ + + for (stmt_keyword = stmt_keywords; *stmt_keyword; stmt_keyword++) + if (!strcmp (func_name, *stmt_keyword)) + goto not_missed; + +#if 0 + notice ("%s: found definition of '%s' at %s(%d)\n", + pname, + func_name, + shortpath (NULL, file_p->hash_entry->symbol), + identify_lineno (id_start)); +#endif /* 0 */ + /* We really should check for a match of the function name + here also, but why bother. */ + + for (dd_p = file_p->defs_decs; dd_p; dd_p = dd_p->next_in_file) + if (dd_p->is_func_def && dd_p->line == lineno) + goto not_missed; + + /* If we make it here, then we did not know about this + function definition. */ + + notice ("%s: %d: warning: '%s' excluded by preprocessing\n", + shortpath (NULL, file_p->hash_entry->symbol), + identify_lineno (id_start), func_name); + notice ("%s: function definition not converted\n", + pname); + } + not_missed: ; + } + } + } + } +} + +/* Do all editing operations for a single source file (either a "base" file + or an "include" file). To do this we read the file into memory, keep a + virgin copy there, make another cleaned in-core copy of the original file + (i.e. one in which all of the comments and preprocessing directives have + been replaced with whitespace), then use these two in-core copies of the + file to make a new edited in-core copy of the file. Finally, rename the + original file (as a way of saving it), and then write the edited version + of the file from core to a disk file of the same name as the original. + + Note that the trick of making a copy of the original sans comments & + preprocessing directives make the editing a whole lot easier. */ + +static void +edit_file (const hash_table_entry *hp) +{ + struct stat stat_buf; + const file_info *file_p = hp->fip; + char *new_orig_text_base; + char *new_orig_text_limit; + char *new_clean_text_base; + char *new_clean_text_limit; + size_t orig_size; + size_t repl_size; + int first_definition_in_file; + + /* If we are not supposed to be converting this file, or if there is + nothing in there which needs converting, just skip this file. */ + + if (!needs_to_be_converted (file_p)) + return; + + convert_filename = file_p->hash_entry->symbol; + + /* Convert a file if it is in a directory where we want conversion + and the file is not excluded. */ + + if (!directory_specified_p (convert_filename) + || file_excluded_p (convert_filename)) + { + if (!quiet_flag +#ifdef UNPROTOIZE + /* Don't even mention "system" include files unless we are + protoizing. If we are protoizing, we mention these as a + gentle way of prodding the user to convert his "system" + include files to prototype format. */ + && !in_system_include_dir (convert_filename) +#endif /* defined (UNPROTOIZE) */ + ) + notice ("%s: '%s' not converted\n", + pname, shortpath (NULL, convert_filename)); + return; + } + + /* Let the user know what we are up to. */ + + if (nochange_flag) + notice ("%s: would convert file '%s'\n", + pname, shortpath (NULL, convert_filename)); + else + notice ("%s: converting file '%s'\n", + pname, shortpath (NULL, convert_filename)); + fflush (stderr); + + /* Find out the size (in bytes) of the original file. */ + + /* The cast avoids an erroneous warning on AIX. */ + if (stat (convert_filename, &stat_buf) == -1) + { + int errno_val = errno; + notice ("%s: can't get status for file '%s': %s\n", + pname, shortpath (NULL, convert_filename), + xstrerror (errno_val)); + return; + } + orig_size = stat_buf.st_size; + + /* Allocate a buffer to hold the original text. */ + + orig_text_base = new_orig_text_base = xmalloc (orig_size + 2); + orig_text_limit = new_orig_text_limit = new_orig_text_base + orig_size; + + /* Allocate a buffer to hold the cleaned-up version of the original text. */ + + clean_text_base = new_clean_text_base = xmalloc (orig_size + 2); + clean_text_limit = new_clean_text_limit = new_clean_text_base + orig_size; + clean_read_ptr = clean_text_base - 1; + + /* Allocate a buffer that will hopefully be large enough to hold the entire + converted output text. As an initial guess for the maximum size of the + output buffer, use 125% of the size of the original + some extra. This + buffer can be expanded later as needed. */ + + repl_size = orig_size + (orig_size >> 2) + 4096; + repl_text_base = xmalloc (repl_size + 2); + repl_text_limit = repl_text_base + repl_size - 1; + repl_write_ptr = repl_text_base - 1; + + { + int input_file; + int fd_flags; + + /* Open the file to be converted in READ ONLY mode. */ + + fd_flags = O_RDONLY; +#ifdef O_BINARY + /* Use binary mode to avoid having to deal with different EOL characters. */ + fd_flags |= O_BINARY; +#endif + if ((input_file = open (convert_filename, fd_flags, 0444)) == -1) + { + int errno_val = errno; + notice ("%s: can't open file '%s' for reading: %s\n", + pname, shortpath (NULL, convert_filename), + xstrerror (errno_val)); + return; + } + + /* Read the entire original source text file into the original text buffer + in one swell fwoop. Then figure out where the end of the text is and + make sure that it ends with a newline followed by a null. */ + + if (safe_read (input_file, new_orig_text_base, orig_size) != + (int) orig_size) + { + int errno_val = errno; + close (input_file); + notice ("\n%s: error reading input file '%s': %s\n", + pname, shortpath (NULL, convert_filename), + xstrerror (errno_val)); + return; + } + + close (input_file); + } + + if (orig_size == 0 || orig_text_limit[-1] != '\n') + { + *new_orig_text_limit++ = '\n'; + orig_text_limit++; + } + + /* Create the cleaned up copy of the original text. */ + + memcpy (new_clean_text_base, orig_text_base, + (size_t) (orig_text_limit - orig_text_base)); + do_cleaning (new_clean_text_base, new_clean_text_limit); + +#if 0 + { + int clean_file; + size_t clean_size = orig_text_limit - orig_text_base; + char *const clean_filename = alloca (strlen (convert_filename) + 6 + 1); + + /* Open (and create) the clean file. */ + + strcpy (clean_filename, convert_filename); + strcat (clean_filename, ".clean"); + if ((clean_file = creat (clean_filename, 0666)) == -1) + { + int errno_val = errno; + notice ("%s: can't create/open clean file '%s': %s\n", + pname, shortpath (NULL, clean_filename), + xstrerror (errno_val)); + return; + } + + /* Write the clean file. */ + + safe_write (clean_file, new_clean_text_base, clean_size, clean_filename); + + close (clean_file); + } +#endif /* 0 */ + + /* Do a simplified scan of the input looking for things that were not + mentioned in the aux info files because of the fact that they were + in a region of the source which was preprocessed-out (via #if or + via #ifdef). */ + + scan_for_missed_items (file_p); + + /* Setup to do line-oriented forward seeking in the clean text buffer. */ + + last_known_line_number = 1; + last_known_line_start = clean_text_base; + + /* Now get down to business and make all of the necessary edits. */ + + { + const def_dec_info *def_dec_p; + + first_definition_in_file = 1; + def_dec_p = file_p->defs_decs; + for (; def_dec_p; def_dec_p = def_dec_p->next_in_file) + { + const char *clean_text_p = seek_to_line (def_dec_p->line); + + /* clean_text_p now points to the first character of the line which + contains the `terminator' for the declaration or definition that + we are about to process. */ + +#ifndef UNPROTOIZE + + if (global_flag && def_dec_p->is_func_def && first_definition_in_file) + { + add_global_decls (def_dec_p->file, clean_text_p); + first_definition_in_file = 0; + } + + /* Don't edit this item if it is already in prototype format or if it + is a function declaration and we have found no corresponding + definition. */ + + if (def_dec_p->prototyped + || (!def_dec_p->is_func_def && !def_dec_p->definition)) + continue; + +#endif /* !defined (UNPROTOIZE) */ + + if (def_dec_p->is_func_def) + edit_fn_definition (def_dec_p, clean_text_p); + else +#ifndef UNPROTOIZE + if (def_dec_p->is_implicit) + add_local_decl (def_dec_p, clean_text_p); + else +#endif /* !defined (UNPROTOIZE) */ + edit_fn_declaration (def_dec_p, clean_text_p); + } + } + + /* Finalize things. Output the last trailing part of the original text. */ + + output_up_to (clean_text_limit - 1); + + /* If this is just a test run, stop now and just deallocate the buffers. */ + + if (nochange_flag) + { + free (new_orig_text_base); + free (new_clean_text_base); + free (repl_text_base); + return; + } + + /* Change the name of the original input file. This is just a quick way of + saving the original file. */ + + if (!nosave_flag) + { + char *new_filename + = xmalloc (strlen (convert_filename) + strlen (save_suffix) + 2); + + strcpy (new_filename, convert_filename); +#ifdef __MSDOS__ + /* MSDOS filenames are restricted to 8.3 format, so we save `foo.c' + as `foo.<save_suffix>'. */ + new_filename[(strlen (convert_filename) - 1] = '\0'; +#endif + strcat (new_filename, save_suffix); + + /* Don't overwrite existing file. */ + if (access (new_filename, F_OK) == 0) + { + if (!quiet_flag) + notice ("%s: warning: file '%s' already saved in '%s'\n", + pname, + shortpath (NULL, convert_filename), + shortpath (NULL, new_filename)); + } + else if (rename (convert_filename, new_filename) == -1) + { + int errno_val = errno; + notice ("%s: can't link file '%s' to '%s': %s\n", + pname, + shortpath (NULL, convert_filename), + shortpath (NULL, new_filename), + xstrerror (errno_val)); + return; + } + } + + if (unlink (convert_filename) == -1) + { + int errno_val = errno; + /* The file may have already been renamed. */ + if (errno_val != ENOENT) + { + notice ("%s: can't delete file '%s': %s\n", + pname, shortpath (NULL, convert_filename), + xstrerror (errno_val)); + return; + } + } + + { + int output_file; + + /* Open (and create) the output file. */ + + if ((output_file = creat (convert_filename, 0666)) == -1) + { + int errno_val = errno; + notice ("%s: can't create/open output file '%s': %s\n", + pname, shortpath (NULL, convert_filename), + xstrerror (errno_val)); + return; + } +#ifdef O_BINARY + /* Use binary mode to avoid changing the existing EOL character. */ + setmode (output_file, O_BINARY); +#endif + + /* Write the output file. */ + + { + unsigned int out_size = (repl_write_ptr + 1) - repl_text_base; + + safe_write (output_file, repl_text_base, out_size, convert_filename); + } + + close (output_file); + } + + /* Deallocate the conversion buffers. */ + + free (new_orig_text_base); + free (new_clean_text_base); + free (repl_text_base); + + /* Change the mode of the output file to match the original file. */ + + /* The cast avoids an erroneous warning on AIX. */ + if (chmod (convert_filename, stat_buf.st_mode) == -1) + { + int errno_val = errno; + notice ("%s: can't change mode of file '%s': %s\n", + pname, shortpath (NULL, convert_filename), + xstrerror (errno_val)); + } + + /* Note: We would try to change the owner and group of the output file + to match those of the input file here, except that may not be a good + thing to do because it might be misleading. Also, it might not even + be possible to do that (on BSD systems with quotas for instance). */ +} + +/* Do all of the individual steps needed to do the protoization (or + unprotoization) of the files referenced in the aux_info files given + in the command line. */ + +static void +do_processing (void) +{ + const char * const *base_pp; + const char * const * const end_pps + = &base_source_filenames[n_base_source_files]; + +#ifndef UNPROTOIZE + int syscalls_len; +#endif /* !defined (UNPROTOIZE) */ + + /* One-by-one, check (and create if necessary), open, and read all of the + stuff in each aux_info file. After reading each aux_info file, the + aux_info_file just read will be automatically deleted unless the + keep_flag is set. */ + + for (base_pp = base_source_filenames; base_pp < end_pps; base_pp++) + process_aux_info_file (*base_pp, keep_flag, 0); + +#ifndef UNPROTOIZE + + /* Also open and read the special SYSCALLS.c aux_info file which gives us + the prototypes for all of the standard system-supplied functions. */ + + if (nondefault_syscalls_dir) + { + syscalls_absolute_filename + = xmalloc (strlen (nondefault_syscalls_dir) + 1 + + sizeof (syscalls_filename)); + strcpy (syscalls_absolute_filename, nondefault_syscalls_dir); + } + else + { + GET_ENVIRONMENT (default_syscalls_dir, "GCC_EXEC_PREFIX"); + if (!default_syscalls_dir) + { + default_syscalls_dir = standard_exec_prefix; + } + syscalls_absolute_filename + = xmalloc (strlen (default_syscalls_dir) + 0 + + strlen (target_machine) + 1 + + strlen (target_version) + 1 + + sizeof (syscalls_filename)); + strcpy (syscalls_absolute_filename, default_syscalls_dir); + strcat (syscalls_absolute_filename, target_machine); + strcat (syscalls_absolute_filename, "/"); + strcat (syscalls_absolute_filename, target_version); + strcat (syscalls_absolute_filename, "/"); + } + + syscalls_len = strlen (syscalls_absolute_filename); + if (! IS_DIR_SEPARATOR (*(syscalls_absolute_filename + syscalls_len - 1))) + { + *(syscalls_absolute_filename + syscalls_len++) = DIR_SEPARATOR; + *(syscalls_absolute_filename + syscalls_len) = '\0'; + } + strcat (syscalls_absolute_filename, syscalls_filename); + + /* Call process_aux_info_file in such a way that it does not try to + delete the SYSCALLS aux_info file. */ + + process_aux_info_file (syscalls_absolute_filename, 1, 1); + +#endif /* !defined (UNPROTOIZE) */ + + /* When we first read in all of the information from the aux_info files + we saved in it descending line number order, because that was likely to + be faster. Now however, we want the chains of def & dec records to + appear in ascending line number order as we get further away from the + file_info record that they hang from. The following line causes all of + these lists to be rearranged into ascending line number order. */ + + visit_each_hash_node (filename_primary, reverse_def_dec_list); + +#ifndef UNPROTOIZE + + /* Now do the "real" work. The following line causes each declaration record + to be "visited". For each of these nodes, an attempt is made to match + up the function declaration with a corresponding function definition, + which should have a full prototype-format formals list with it. Once + these match-ups are made, the conversion of the function declarations + to prototype format can be made. */ + + visit_each_hash_node (function_name_primary, connect_defs_and_decs); + +#endif /* !defined (UNPROTOIZE) */ + + /* Now convert each file that can be converted (and needs to be). */ + + visit_each_hash_node (filename_primary, edit_file); + +#ifndef UNPROTOIZE + + /* If we are working in cplusplus mode, try to rename all .c files to .C + files. Don't panic if some of the renames don't work. */ + + if (cplusplus_flag && !nochange_flag) + visit_each_hash_node (filename_primary, rename_c_file); + +#endif /* !defined (UNPROTOIZE) */ +} + +static const struct option longopts[] = +{ + {"version", 0, 0, 'V'}, + {"file_name", 0, 0, 'p'}, + {"quiet", 0, 0, 'q'}, + {"silent", 0, 0, 'q'}, + {"force", 0, 0, 'f'}, + {"keep", 0, 0, 'k'}, + {"nosave", 0, 0, 'N'}, + {"nochange", 0, 0, 'n'}, + {"compiler-options", 1, 0, 'c'}, + {"exclude", 1, 0, 'x'}, + {"directory", 1, 0, 'd'}, +#ifdef UNPROTOIZE + {"indent", 1, 0, 'i'}, +#else + {"local", 0, 0, 'l'}, + {"global", 0, 0, 'g'}, + {"c++", 0, 0, 'C'}, + {"syscalls-dir", 1, 0, 'B'}, +#endif + {0, 0, 0, 0} +}; + +extern int main (int, char **const); + +int +main (int argc, char **const argv) +{ + int longind; + int c; + const char *params = ""; + + pname = strrchr (argv[0], DIR_SEPARATOR); +#ifdef DIR_SEPARATOR_2 + { + char *slash; + + slash = strrchr (pname ? pname : argv[0], DIR_SEPARATOR_2); + if (slash) + pname = slash; + } +#endif + pname = pname ? pname+1 : argv[0]; + +#ifdef SIGCHLD + /* We *MUST* set SIGCHLD to SIG_DFL so that the wait4() call will + receive the signal. A different setting is inheritable */ + signal (SIGCHLD, SIG_DFL); +#endif + + /* Unlock the stdio streams. */ + unlock_std_streams (); + + gcc_init_libintl (); + + cwd_buffer = getpwd (); + if (!cwd_buffer) + { + notice ("%s: cannot get working directory: %s\n", + pname, xstrerror(errno)); + return (FATAL_EXIT_CODE); + } + + /* By default, convert the files in the current directory. */ + directory_list = string_list_cons (cwd_buffer, NULL); + + while ((c = getopt_long (argc, argv, +#ifdef UNPROTOIZE + "c:d:i:knNp:qvVx:", +#else + "B:c:Cd:gklnNp:qvVx:", +#endif + longopts, &longind)) != EOF) + { + if (c == 0) /* Long option. */ + c = longopts[longind].val; + switch (c) + { + case 'p': + compiler_file_name = optarg; + break; + case 'd': + directory_list + = string_list_cons (abspath (NULL, optarg), directory_list); + break; + case 'x': + exclude_list = string_list_cons (optarg, exclude_list); + break; + + case 'v': + case 'V': + version_flag = 1; + break; + case 'q': + quiet_flag = 1; + break; +#if 0 + case 'f': + force_flag = 1; + break; +#endif + case 'n': + nochange_flag = 1; + keep_flag = 1; + break; + case 'N': + nosave_flag = 1; + break; + case 'k': + keep_flag = 1; + break; + case 'c': + params = optarg; + break; +#ifdef UNPROTOIZE + case 'i': + indent_string = optarg; + break; +#else /* !defined (UNPROTOIZE) */ + case 'l': + local_flag = 1; + break; + case 'g': + global_flag = 1; + break; + case 'C': + cplusplus_flag = 1; + break; + case 'B': + nondefault_syscalls_dir = optarg; + break; +#endif /* !defined (UNPROTOIZE) */ + default: + usage (); + } + } + + /* Set up compile_params based on -p and -c options. */ + munge_compile_params (params); + + n_base_source_files = argc - optind; + + /* Now actually make a list of the base source filenames. */ + + base_source_filenames + = xmalloc ((n_base_source_files + 1) * sizeof (char *)); + n_base_source_files = 0; + for (; optind < argc; optind++) + { + const char *path = abspath (NULL, argv[optind]); + int len = strlen (path); + + if (path[len-1] == 'c' && path[len-2] == '.') + base_source_filenames[n_base_source_files++] = path; + else + { + notice ("%s: input file names must have .c suffixes: %s\n", + pname, shortpath (NULL, path)); + errors++; + } + } + +#ifndef UNPROTOIZE + /* We are only interested in the very first identifier token in the + definition of `va_list', so if there is more junk after that first + identifier token, delete it from the `varargs_style_indicator'. */ + { + const char *cp; + + for (cp = varargs_style_indicator; ISIDNUM (*cp); cp++) + continue; + if (*cp != 0) + varargs_style_indicator = savestring (varargs_style_indicator, + cp - varargs_style_indicator); + } +#endif /* !defined (UNPROTOIZE) */ + + if (errors) + usage (); + else + { + if (version_flag) + fprintf (stderr, "%s %s%s\n", pname, pkgversion_string, + version_string); + do_processing (); + } + + return (errors ? FATAL_EXIT_CODE : SUCCESS_EXIT_CODE); +}