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gnu / gcc / 75bbfcfa8623f5b211475a54f52ced32201575e7 / . / gcc / cppfiles.c
blob: 4c64b9be69fd19f13201a913aacfa454dffb9b99 [file] [log] [blame]
/* Part of CPP library. (include file handling)
Copyright (C) 1986, 87, 89, 92 - 95, 98, 1999 Free Software Foundation, Inc.
Written by Per Bothner, 1994.
Based on CCCP program by Paul Rubin, June 1986
Adapted to ANSI C, Richard Stallman, Jan 1987
Split out of cpplib.c, Zack Weinberg, Oct 1998
This program 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 2, or (at your option) any
later version.
This program 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 this program; if not, write to the Free Software
Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
In other words, you are welcome to use, share and improve this program.
You are forbidden to forbid anyone else to use, share and improve
what you give them. Help stamp out software-hoarding! */
#include "config.h"
#include "system.h"
#include "cpplib.h"
/* The entry points to this file are: find_include_file, finclude,
include_hash, append_include_chain, deps_output, and file_cleanup.
file_cleanup is only called through CPP_BUFFER(pfile)->cleanup,
so it's static anyway. */
static struct include_hash *redundant_include_p
PROTO ((cpp_reader *,
struct include_hash *,
struct file_name_list *));
static struct file_name_map *read_name_map PROTO ((cpp_reader *,
const char *));
static char *read_filename_string PROTO ((int, FILE *));
static char *remap_filename PROTO ((cpp_reader *, char *,
struct file_name_list *));
static long read_and_prescan PROTO ((cpp_reader *, cpp_buffer *,
int, size_t));
static struct file_name_list *actual_directory PROTO ((cpp_reader *, char *));
#if 0
static void hack_vms_include_specification PROTO ((char *));
#endif
/* Windows does not natively support inodes, and neither does MSDOS.
VMS has non-numeric inodes. */
#ifdef VMS
#define INO_T_EQ(a, b) (!bcmp((char *) &(a), (char *) &(b), sizeof (a)))
#elif (defined _WIN32 && !defined CYGWIN && ! defined (_UWIN)) \
|| defined __MSDOS__
#define INO_T_EQ(a, b) 0
#else
#define INO_T_EQ(a, b) ((a) == (b))
#endif
/* Merge the four include chains together in the order quote, bracket,
system, after. Remove duplicate dirs (as determined by
INO_T_EQ()). The system_include and after_include chains are never
referred to again after this function; all access is through the
bracket_include path.
For the future: Check if the directory is empty (but
how?) and possibly preload the include hash. */
void
merge_include_chains (opts)
struct cpp_options *opts;
{
struct file_name_list *prev, *cur, *other;
struct file_name_list *quote, *brack, *systm, *after;
struct file_name_list *qtail, *btail, *stail, *atail;
qtail = opts->pending->quote_tail;
btail = opts->pending->brack_tail;
stail = opts->pending->systm_tail;
atail = opts->pending->after_tail;
quote = opts->pending->quote_head;
brack = opts->pending->brack_head;
systm = opts->pending->systm_head;
after = opts->pending->after_head;
/* Paste together bracket, system, and after include chains. */
if (stail)
stail->next = after;
else
systm = after;
if (btail)
btail->next = systm;
else
brack = systm;
/* This is a bit tricky.
First we drop dupes from the quote-include list.
Then we drop dupes from the bracket-include list.
Finally, if qtail and brack are the same directory,
we cut out qtail.
We can't just merge the lists and then uniquify them because
then we may lose directories from the <> search path that should
be there; consider -Ifoo -Ibar -I- -Ifoo -Iquux. It is however
safe to treat -Ibar -Ifoo -I- -Ifoo -Iquux as if written
-Ibar -I- -Ifoo -Iquux.
Note that this algorithm is quadratic in the number of -I switches,
which is acceptable since there aren't usually that many of them. */
for (cur = quote, prev = NULL; cur; cur = cur->next)
{
for (other = quote; other != cur; other = other->next)
if (INO_T_EQ (cur->ino, other->ino)
&& cur->dev == other->dev)
{
if (opts->verbose)
cpp_notice ("ignoring duplicate directory `%s'\n", cur->name);
prev->next = cur->next;
free (cur->name);
free (cur);
cur = prev;
break;
}
prev = cur;
}
qtail = prev;
for (cur = brack; cur; cur = cur->next)
{
for (other = brack; other != cur; other = other->next)
if (INO_T_EQ (cur->ino, other->ino)
&& cur->dev == other->dev)
{
if (opts->verbose)
cpp_notice ("ignoring duplicate directory `%s'\n", cur->name);
prev->next = cur->next;
free (cur->name);
free (cur);
cur = prev;
break;
}
prev = cur;
}
if (quote)
{
if (INO_T_EQ (qtail->ino, brack->ino) && qtail->dev == brack->dev)
{
if (quote == qtail)
{
if (opts->verbose)
cpp_notice ("ignoring duplicate directory `%s'\n",
quote->name);
free (quote->name);
free (quote);
quote = brack;
}
else
{
cur = quote;
while (cur->next != qtail)
cur = cur->next;
cur->next = brack;
if (opts->verbose)
cpp_notice ("ignoring duplicate directory `%s'\n",
qtail->name);
free (qtail->name);
free (qtail);
}
}
else
qtail->next = brack;
}
else
quote = brack;
opts->quote_include = quote;
opts->bracket_include = brack;
}
/* Look up or add an entry to the table of all includes. This table
is indexed by the name as it appears in the #include line. The
->next_this_file chain stores all different files with the same
#include name (there are at least three ways this can happen). The
hash function could probably be improved a bit. */
struct include_hash *
include_hash (pfile, fname, add)
cpp_reader *pfile;
char *fname;
int add;
{
unsigned int hash = 0;
struct include_hash *l, *m;
char *f = fname;
while (*f)
hash += *f++;
l = pfile->all_include_files[hash % ALL_INCLUDE_HASHSIZE];
m = 0;
for (; l; m = l, l = l->next)
if (!strcmp (l->nshort, fname))
return l;
if (!add)
return 0;
l = (struct include_hash *) xmalloc (sizeof (struct include_hash));
l->next = NULL;
l->next_this_file = NULL;
l->foundhere = NULL;
l->buf = NULL;
l->limit = NULL;
if (m)
m->next = l;
else
pfile->all_include_files[hash % ALL_INCLUDE_HASHSIZE] = l;
return l;
}
/* Return 0 if the file pointed to by IHASH has never been included before,
-1 if it has been included before and need not be again,
or a pointer to an IHASH entry which is the file to be reread.
"Never before" is with respect to the position in ILIST.
This will not detect redundancies involving odd uses of the
`current directory' rule for "" includes. They aren't quite
pathological, but I think they are rare enough not to worry about.
The simplest example is:
top.c:
#include "a/a.h"
#include "b/b.h"
a/a.h:
#include "../b/b.h"
and the problem is that for `current directory' includes,
ihash->foundhere is not on any of the global include chains,
so the test below (i->foundhere == l) may be false even when
the directories are in fact the same. */
static struct include_hash *
redundant_include_p (pfile, ihash, ilist)
cpp_reader *pfile;
struct include_hash *ihash;
struct file_name_list *ilist;
{
struct file_name_list *l;
struct include_hash *i;
if (! ihash->foundhere)
return 0;
for (i = ihash; i; i = i->next_this_file)
for (l = ilist; l; l = l->next)
if (i->foundhere == l)
/* The control_macro works like this: If it's NULL, the file
is to be included again. If it's "", the file is never to
be included again. If it's a string, the file is not to be
included again if the string is the name of a defined macro. */
return (i->control_macro
&& (i->control_macro[0] == '\0'
|| cpp_lookup (pfile, i->control_macro, -1, -1)))
? (struct include_hash *)-1 : i;
return 0;
}
static int
file_cleanup (pbuf, pfile)
cpp_buffer *pbuf;
cpp_reader *pfile;
{
if (pbuf->buf)
{
free (pbuf->buf);
pbuf->buf = 0;
}
if (pfile->system_include_depth)
pfile->system_include_depth--;
return 0;
}
/* Search for include file FNAME in the include chain starting at
SEARCH_START. Return -2 if this file doesn't need to be included
(because it was included already and it's marked idempotent),
-1 if an error occurred, or a file descriptor open on the file.
*IHASH is set to point to the include hash entry for this file, and
*BEFORE is 1 if the file was included before (but needs to be read
again). */
int
find_include_file (pfile, fname, search_start, ihash, before)
cpp_reader *pfile;
char *fname;
struct file_name_list *search_start;
struct include_hash **ihash;
int *before;
{
struct file_name_list *l;
struct include_hash *ih, *jh;
int f, len;
char *name;
ih = include_hash (pfile, fname, 1);
jh = redundant_include_p (pfile, ih,
fname[0] == '/' ? ABSOLUTE_PATH : search_start);
if (jh != 0)
{
*before = 1;
*ihash = jh;
if (jh == (struct include_hash *)-1)
return -2;
else
return open (jh->name, O_RDONLY, 0666);
}
if (ih->foundhere)
/* A file is already known by this name, but it's not the same file.
Allocate another include_hash block and add it to the next_this_file
chain. */
{
jh = (struct include_hash *)xmalloc (sizeof (struct include_hash));
while (ih->next_this_file) ih = ih->next_this_file;
ih->next_this_file = jh;
jh = ih;
ih = ih->next_this_file;
ih->next = NULL;
ih->next_this_file = NULL;
ih->buf = NULL;
ih->limit = NULL;
}
*before = 0;
*ihash = ih;
ih->nshort = xstrdup (fname);
ih->control_macro = NULL;
/* If the pathname is absolute, just open it. */
if (fname[0] == '/')
{
ih->foundhere = ABSOLUTE_PATH;
ih->name = ih->nshort;
return open (ih->name, O_RDONLY, 0666);
}
/* Search directory path, trying to open the file. */
len = strlen (fname);
name = xmalloc (len + pfile->max_include_len + 2 + INCLUDE_LEN_FUDGE);
for (l = search_start; l; l = l->next)
{
bcopy (l->name, name, l->nlen);
name[l->nlen] = '/';
strcpy (&name[l->nlen+1], fname);
simplify_pathname (name);
if (CPP_OPTIONS (pfile)->remap)
name = remap_filename (pfile, name, l);
f = open (name, O_RDONLY|O_NONBLOCK|O_NOCTTY, 0666);
#ifdef EACCES
if (f == -1 && errno == EACCES)
{
cpp_error(pfile, "included file `%s' exists but is not readable",
name);
return -1;
}
#endif
if (f >= 0)
{
ih->foundhere = l;
ih->name = xrealloc (name, strlen (name)+1);
return f;
}
}
if (jh)
{
jh->next_this_file = NULL;
free (ih);
}
free (name);
*ihash = (struct include_hash *)-1;
return -1;
}
/* The file_name_map structure holds a mapping of file names for a
particular directory. This mapping is read from the file named
FILE_NAME_MAP_FILE in that directory. Such a file can be used to
map filenames on a file system with severe filename restrictions,
such as DOS. The format of the file name map file is just a series
of lines with two tokens on each line. The first token is the name
to map, and the second token is the actual name to use. */
struct file_name_map
{
struct file_name_map *map_next;
char *map_from;
char *map_to;
};
#define FILE_NAME_MAP_FILE "header.gcc"
/* Read a space delimited string of unlimited length from a stdio
file. */
static char *
read_filename_string (ch, f)
int ch;
FILE *f;
{
char *alloc, *set;
int len;
len = 20;
set = alloc = xmalloc (len + 1);
if (! is_space[ch])
{
*set++ = ch;
while ((ch = getc (f)) != EOF && ! is_space[ch])
{
if (set - alloc == len)
{
len *= 2;
alloc = xrealloc (alloc, len + 1);
set = alloc + len / 2;
}
*set++ = ch;
}
}
*set = '\0';
ungetc (ch, f);
return alloc;
}
/* This structure holds a linked list of file name maps, one per directory. */
struct file_name_map_list
{
struct file_name_map_list *map_list_next;
char *map_list_name;
struct file_name_map *map_list_map;
};
/* Read the file name map file for DIRNAME. */
static struct file_name_map *
read_name_map (pfile, dirname)
cpp_reader *pfile;
const char *dirname;
{
register struct file_name_map_list *map_list_ptr;
char *name;
FILE *f;
for (map_list_ptr = CPP_OPTIONS (pfile)->map_list; map_list_ptr;
map_list_ptr = map_list_ptr->map_list_next)
if (! strcmp (map_list_ptr->map_list_name, dirname))
return map_list_ptr->map_list_map;
map_list_ptr = ((struct file_name_map_list *)
xmalloc (sizeof (struct file_name_map_list)));
map_list_ptr->map_list_name = xstrdup (dirname);
name = (char *) alloca (strlen (dirname) + strlen (FILE_NAME_MAP_FILE) + 2);
strcpy (name, dirname);
if (*dirname)
strcat (name, "/");
strcat (name, FILE_NAME_MAP_FILE);
f = fopen (name, "r");
if (!f)
map_list_ptr->map_list_map = (struct file_name_map *)-1;
else
{
int ch;
int dirlen = strlen (dirname);
while ((ch = getc (f)) != EOF)
{
char *from, *to;
struct file_name_map *ptr;
if (is_space[ch])
continue;
from = read_filename_string (ch, f);
while ((ch = getc (f)) != EOF && is_hor_space[ch])
;
to = read_filename_string (ch, f);
ptr = ((struct file_name_map *)
xmalloc (sizeof (struct file_name_map)));
ptr->map_from = from;
/* Make the real filename absolute. */
if (*to == '/')
ptr->map_to = to;
else
{
ptr->map_to = xmalloc (dirlen + strlen (to) + 2);
strcpy (ptr->map_to, dirname);
ptr->map_to[dirlen] = '/';
strcpy (ptr->map_to + dirlen + 1, to);
free (to);
}
ptr->map_next = map_list_ptr->map_list_map;
map_list_ptr->map_list_map = ptr;
while ((ch = getc (f)) != '\n')
if (ch == EOF)
break;
}
fclose (f);
}
map_list_ptr->map_list_next = CPP_OPTIONS (pfile)->map_list;
CPP_OPTIONS (pfile)->map_list = map_list_ptr;
return map_list_ptr->map_list_map;
}
/* Remap NAME based on the file_name_map (if any) for LOC. */
static char *
remap_filename (pfile, name, loc)
cpp_reader *pfile;
char *name;
struct file_name_list *loc;
{
struct file_name_map *map;
const char *from, *p, *dir;
if (! loc->name_map)
loc->name_map = read_name_map (pfile,
loc->name
? loc->name : ".");
if (loc->name_map == (struct file_name_map *)-1)
return name;
from = name + strlen (loc->name) + 1;
for (map = loc->name_map; map; map = map->map_next)
if (!strcmp (map->map_from, from))
return map->map_to;
/* Try to find a mapping file for the particular directory we are
looking in. Thus #include <sys/types.h> will look up sys/types.h
in /usr/include/header.gcc and look up types.h in
/usr/include/sys/header.gcc. */
p = rindex (name, '/');
if (!p)
p = name;
if (loc && loc->name
&& strlen (loc->name) == (size_t) (p - name)
&& !strncmp (loc->name, name, p - name))
/* FILENAME is in SEARCHPTR, which we've already checked. */
return name;
if (p == name)
{
dir = ".";
from = name;
}
else
{
char * newdir = (char *) alloca (p - name + 1);
bcopy (name, newdir, p - name);
newdir[p - name] = '\0';
dir = newdir;
from = p + 1;
}
for (map = read_name_map (pfile, dir); map; map = map->map_next)
if (! strcmp (map->map_from, name))
return map->map_to;
return name;
}
/* Read the contents of FD into the buffer on the top of PFILE's stack.
IHASH points to the include hash entry for the file associated with
FD.
The caller is responsible for the cpp_push_buffer. */
int
finclude (pfile, fd, ihash)
cpp_reader *pfile;
int fd;
struct include_hash *ihash;
{
struct stat st;
size_t st_size;
long length;
cpp_buffer *fp;
if (fstat (fd, &st) < 0)
goto perror_fail;
if (fcntl (fd, F_SETFL, 0) == -1) /* turn off nonblocking mode */
goto perror_fail;
fp = CPP_BUFFER (pfile);
/* If fd points to a plain file, we know how big it is, so we can
allocate the buffer all at once. If fd is a pipe or terminal, we
can't. Most C source files are 4k or less, so we guess that. If
fd is something weird, like a block device or a directory, we
don't want to read it at all.
Unfortunately, different systems use different st.st_mode values
for pipes: some have S_ISFIFO, some S_ISSOCK, some are buggy and
zero the entire struct stat except a couple fields. Hence the
mess below.
In all cases, read_and_prescan will resize the buffer if it
turns out there's more data than we thought. */
if (S_ISREG (st.st_mode))
{
/* off_t might have a wider range than size_t - in other words,
the max size of a file might be bigger than the address
space. We can't handle a file that large. (Anyone with
a single source file bigger than 4GB needs to rethink
their coding style.) */
st_size = (size_t) st.st_size;
if ((unsigned HOST_WIDEST_INT) st_size
!= (unsigned HOST_WIDEST_INT) st.st_size)
{
cpp_error (pfile, "file `%s' is too large", ihash->name);
goto fail;
}
}
else if (S_ISFIFO (st.st_mode) || S_ISSOCK (st.st_mode)
/* Some 4.x (x<4) derivatives have a bug that makes fstat() of a
socket or pipe return a stat struct with most fields zeroed. */
|| (st.st_mode == 0 && st.st_nlink == 0 && st.st_size == 0)
|| (S_ISCHR (st.st_mode) && isatty (fd)))
{
/* Cannot get its file size before reading. 4k is a decent
first guess. */
st_size = 4096;
}
else
{
cpp_error (pfile, "`%s' is not a file, pipe, or tty", ihash->name);
goto fail;
}
/* Read the file, converting end-of-line characters and trigraphs
(if enabled). */
fp->ihash = ihash;
fp->nominal_fname = fp->fname = ihash->name;
length = read_and_prescan (pfile, fp, fd, st_size);
if (length < 0)
goto fail;
if (length == 0)
ihash->control_macro = ""; /* never re-include */
close (fd);
fp->rlimit = fp->alimit = fp->buf + length;
fp->cur = fp->buf;
if (ihash->foundhere != ABSOLUTE_PATH)
fp->system_header_p = ihash->foundhere->sysp;
fp->lineno = 1;
fp->colno = 1;
fp->line_base = fp->buf;
fp->cleanup = file_cleanup;
/* The ->actual_dir field is only used when ignore_srcdir is not in effect;
see do_include */
if (!CPP_OPTIONS (pfile)->ignore_srcdir)
fp->actual_dir = actual_directory (pfile, fp->fname);
pfile->input_stack_listing_current = 0;
return 1;
perror_fail:
cpp_error_from_errno (pfile, ihash->name);
fail:
cpp_pop_buffer (pfile);
close (fd);
return 0;
}
/* Given a path FNAME, extract the directory component and place it
onto the actual_dirs list. Return a pointer to the allocated
file_name_list structure. These structures are used to implement
current-directory "" include searching. */
static struct file_name_list *
actual_directory (pfile, fname)
cpp_reader *pfile;
char *fname;
{
char *last_slash, *dir;
size_t dlen;
struct file_name_list *x;
dir = xstrdup (fname);
last_slash = rindex (dir, '/');
if (last_slash)
{
if (last_slash == dir)
{
dlen = 1;
last_slash[1] = '\0';
}
else
{
dlen = last_slash - dir;
*last_slash = '\0';
}
}
else
{
dir[0] = '.';
dir[1] = '\0';
dlen = 1;
}
if (dlen > pfile->max_include_len)
pfile->max_include_len = dlen;
for (x = pfile->actual_dirs; x; x = x->alloc)
if (!strcmp (x->name, dir))
{
free (dir);
return x;
}
/* Not found, make a new one. */
x = (struct file_name_list *) xmalloc (sizeof (struct file_name_list));
x->name = dir;
x->nlen = dlen;
x->next = CPP_OPTIONS (pfile)->quote_include;
x->alloc = pfile->actual_dirs;
x->sysp = CPP_BUFFER (pfile)->system_header_p;
x->name_map = NULL;
pfile->actual_dirs = x;
return x;
}
/* Almost but not quite the same as adjust_position in cpplib.c.
Used only by read_and_prescan. */
static void
find_position (start, limit, linep, colp)
U_CHAR *start;
U_CHAR *limit;
long *linep;
long *colp;
{
long line = *linep, col = 0;
while (start < limit)
{
U_CHAR ch = *start++;
if (ch == '\n' || ch == '\r')
line++, col = 1;
else
col++;
}
*linep = line, *colp = col;
}
/* Read the entire contents of file DESC into buffer BUF. LEN is how
much memory to allocate initially; more will be allocated if
necessary. Convert end-of-line markers (\n, \r, \r\n, \n\r) to
canonical form (\n). If enabled, convert and/or warn about
trigraphs. Convert backslash-newline to a one-character escape
(\r) and remove it from "embarrassing" places (i.e. the middle of a
token). If there is no newline at the end of the file, add one and
warn. Returns -1 on failure, or the actual length of the data to
be scanned.
This function does a lot of work, and can be a serious performance
bottleneck. It has been tuned heavily; make sure you understand it
before hacking. The common case - no trigraphs, Unix style line
breaks, backslash-newline set off by whitespace, newline at EOF -
has been optimized at the expense of the others. The performance
penalty for DOS style line breaks (\r\n) is about 15%.
Warnings lose particularly heavily since we have to determine the
line number, which involves scanning from the beginning of the file
or from the last warning. The penalty for the absence of a newline
at the end of reload1.c is about 60%. (reload1.c is 329k.)
If your file has more than one kind of end-of-line marker, you
will get messed-up line numbering. */
#ifndef PIPE_BUF
#define PIPE_BUF 4096
#endif
static long
read_and_prescan (pfile, fp, desc, len)
cpp_reader *pfile;
cpp_buffer *fp;
int desc;
size_t len;
{
U_CHAR *buf = (U_CHAR *) xmalloc (len);
U_CHAR *ip, *op, *line_base;
U_CHAR *ibase;
unsigned int line, deferred_newlines;
int count;
size_t offset;
/* PIPE_BUF bytes of buffer proper, 2 to detect running off the end
without address arithmetic all the time, and 2 for pushback in
the case there's a potential trigraph or end-of-line digraph at
the end of a block. */
U_CHAR intermed[PIPE_BUF + 2 + 2];
/* Table of characters that can't be handled in the inner loop.
Keep these contiguous to optimize the performance of the code generated
for the switch that uses them. */
#define SPECCASE_EMPTY 0
#define SPECCASE_NUL 1
#define SPECCASE_CR 2
#define SPECCASE_BACKSLASH 3
#define SPECCASE_QUESTION 4
U_CHAR speccase[256];
offset = 0;
op = buf;
line_base = buf;
line = 1;
ibase = intermed + 2;
deferred_newlines = 0;
memset (speccase, SPECCASE_EMPTY, sizeof (speccase));
speccase['\0'] = SPECCASE_NUL;
speccase['\r'] = SPECCASE_CR;
speccase['\\'] = SPECCASE_BACKSLASH;
if (CPP_OPTIONS (pfile)->trigraphs || CPP_OPTIONS (pfile)->warn_trigraphs)
speccase['?'] = SPECCASE_QUESTION;
for (;;)
{
read_next:
count = read (desc, intermed + 2, PIPE_BUF);
if (count < 0)
goto error;
else if (count == 0)
break;
offset += count;
ip = ibase;
ibase = intermed + 2;
ibase[count] = ibase[count+1] = '\0';
if (offset > len)
{
size_t delta_op;
size_t delta_line_base;
len *= 2;
if (offset > len)
/* len overflowed.
This could happen if the file is larger than half the
maximum address space of the machine. */
goto too_big;
delta_op = op - buf;
delta_line_base = line_base - buf;
buf = (U_CHAR *) xrealloc (buf, len);
op = buf + delta_op;
line_base = buf + delta_line_base;
}
for (;;)
{
unsigned int span = 0;
/* Deal with \-newline in the middle of a token. */
if (deferred_newlines)
{
while (speccase[ip[span]] == SPECCASE_EMPTY
&& ip[span] != '\n'
&& ip[span] != '\t'
&& ip[span] != ' ')
span++;
memcpy (op, ip, span);
op += span;
ip += span;
if (*ip == '\n' || *ip == '\t'
|| *ip == ' ' || *ip == ' ')
while (deferred_newlines)
deferred_newlines--, *op++ = '\r';
span = 0;
}
/* Copy as much as we can without special treatment. */
while (speccase[ip[span]] == SPECCASE_EMPTY) span++;
memcpy (op, ip, span);
op += span;
ip += span;
switch (speccase[*ip++])
{
case SPECCASE_NUL: /* \0 */
ibase[-1] = op[-1];
goto read_next;
case SPECCASE_CR: /* \r */
if (*ip == '\n')
ip++;
else if (*ip == '\0')
{
--ibase;
intermed[1] = '\r';
goto read_next;
}
else if (ip[-2] == '\n')
continue;
*op++ = '\n';
break;
case SPECCASE_BACKSLASH: /* \ */
backslash:
{
/* If we're at the end of the intermediate buffer,
we have to shift the backslash down to the start
and come back next pass. */
if (*ip == '\0')
{
--ibase;
intermed[1] = '\\';
goto read_next;
}
else if (*ip == '\n')
{
ip++;
if (*ip == '\r') ip++;
if (*ip == '\n' || *ip == '\t' || *ip == ' ')
*op++ = '\r';
else if (op[-1] == '\t' || op[-1] == ' '
|| op[-1] == '\r' || op[-1] == '\n')
*op++ = '\r';
else
deferred_newlines++;
line++;
line_base = op;
}
else if (*ip == '\r')
{
ip++;
if (*ip == '\n') ip++;
else if (*ip == '\0')
{
ibase -= 2;
intermed[0] = '\\';
intermed[1] = '\r';
goto read_next;
}
else if (*ip == '\r' || *ip == '\t' || *ip == ' ')
*op++ = '\r';
else
deferred_newlines++;
line++;
line_base = op;
}
else
*op++ = '\\';
}
break;
case SPECCASE_QUESTION: /* ? */
{
unsigned int d;
/* If we're at the end of the intermediate buffer,
we have to shift the ?'s down to the start and
come back next pass. */
d = ip[0];
if (d == '\0')
{
--ibase;
intermed[1] = '?';
goto read_next;
}
if (d != '?')
{
*op++ = '?';
break;
}
d = ip[1];
if (d == '\0')
{
ibase -= 2;
intermed[0] = intermed[1] = '?';
goto read_next;
}
if (!trigraph_table[d])
{
*op++ = '?';
break;
}
if (CPP_OPTIONS (pfile)->warn_trigraphs)
{
long col;
find_position (line_base, op, &line, &col);
line_base = op - col;
cpp_warning_with_line (pfile, line, col,
"trigraph ??%c encountered", d);
}
if (CPP_OPTIONS (pfile)->trigraphs)
{
if (trigraph_table[d] == '\\')
goto backslash;
else
*op++ = trigraph_table[d];
}
else
{
*op++ = '?';
*op++ = '?';
*op++ = d;
}
ip += 2;
}
}
}
}
if (offset == 0)
return 0;
/* Deal with pushed-back chars at true EOF.
This may be any of: ?? ? \ \r \n \\r \\n.
\r must become \n, \\r or \\n must become \r.
We know we have space already. */
if (ibase == intermed)
{
if (*ibase == '?')
{
*op++ = '?';
*op++ = '?';
}
else
*op++ = '\r';
}
else if (ibase == intermed + 1)
{
if (*ibase == '\r')
*op++ = '\n';
else
*op++ = *ibase;
}
if (op[-1] != '\n')
{
long col;
find_position (line_base, op, &line, &col);
cpp_warning_with_line (pfile, line, col, "no newline at end of file\n");
if (offset + 1 > len)
{
len += 1;
if (offset + 1 > len)
goto too_big;
buf = (U_CHAR *) xrealloc (buf, len);
op = buf + offset;
}
*op++ = '\n';
}
fp->buf = ((len - offset < 20) ? buf : (U_CHAR *)xrealloc (buf, op - buf));
return op - buf;
too_big:
cpp_error (pfile, "file is too large (>%lu bytes)\n", (unsigned long)offset);
free (buf);
return -1;
error:
cpp_error_from_errno (pfile, fp->fname);
free (buf);
return -1;
}
/* Add output to `deps_buffer' for the -M switch.
STRING points to the text to be output.
SPACER is ':' for targets, ' ' for dependencies, zero for text
to be inserted literally. */
void
deps_output (pfile, string, spacer)
cpp_reader *pfile;
char *string;
int spacer;
{
int size;
int cr = 0;
if (!*string)
return;
size = strlen (string);
#ifndef MAX_OUTPUT_COLUMNS
#define MAX_OUTPUT_COLUMNS 72
#endif
if (pfile->deps_column > 0
&& (pfile->deps_column + size) > MAX_OUTPUT_COLUMNS)
{
cr = 5;
pfile->deps_column = 0;
}
if (pfile->deps_size + size + cr + 8 > pfile->deps_allocated_size)
{
pfile->deps_allocated_size = (pfile->deps_size + size + 50) * 2;
pfile->deps_buffer = (char *) xrealloc (pfile->deps_buffer,
pfile->deps_allocated_size);
}
if (cr)
{
bcopy (" \\\n ", &pfile->deps_buffer[pfile->deps_size], 5);
pfile->deps_size += 5;
}
if (spacer == ' ' && pfile->deps_column > 0)
pfile->deps_buffer[pfile->deps_size++] = ' ';
bcopy (string, &pfile->deps_buffer[pfile->deps_size], size);
pfile->deps_size += size;
pfile->deps_column += size;
if (spacer == ':')
pfile->deps_buffer[pfile->deps_size++] = ':';
pfile->deps_buffer[pfile->deps_size] = 0;
}
/* Simplify a path name in place, deleting redundant components. This
reduces OS overhead and guarantees that equivalent paths compare
the same (modulo symlinks).
Transforms made:
foo/bar/../quux foo/quux
foo/./bar foo/bar
foo//bar foo/bar
/../quux /quux
//quux //quux (POSIX allows leading // as a namespace escape)
Guarantees no trailing slashes. All transforms reduce the length
of the string.
*/
void
simplify_pathname (path)
char *path;
{
char *from, *to;
char *base;
int absolute = 0;
#if defined _WIN32 || defined __MSDOS__
/* Convert all backslashes to slashes. */
for (from = path; *from; from++)
if (*from == '\\') *from = '/';
/* Skip over leading drive letter if present. */
if (ISALPHA (path[0]) && path[1] == ':')
from = to = &path[2];
else
from = to = path;
#else
from = to = path;
#endif
/* Remove redundant initial /s. */
if (*from == '/')
{
absolute = 1;
to++;
from++;
if (*from == '/')
{
if (*++from == '/')
/* 3 or more initial /s are equivalent to 1 /. */
while (*++from == '/');
else
/* On some hosts // differs from /; Posix allows this. */
to++;
}
}
base = to;
for (;;)
{
while (*from == '/')
from++;
if (from[0] == '.' && from[1] == '/')
from += 2;
else if (from[0] == '.' && from[1] == '\0')
goto done;
else if (from[0] == '.' && from[1] == '.' && from[2] == '/')
{
if (base == to)
{
if (absolute)
from += 3;
else
{
*to++ = *from++;
*to++ = *from++;
*to++ = *from++;
base = to;
}
}
else
{
to -= 2;
while (to > base && *to != '/') to--;
if (*to == '/')
to++;
from += 3;
}
}
else if (from[0] == '.' && from[1] == '.' && from[2] == '\0')
{
if (base == to)
{
if (!absolute)
{
*to++ = *from++;
*to++ = *from++;
}
}
else
{
to -= 2;
while (to > base && *to != '/') to--;
if (*to == '/')
to++;
}
goto done;
}
else
/* Copy this component and trailing /, if any. */
while ((*to++ = *from++) != '/')
{
if (!to[-1])
{
to--;
goto done;
}
}
}
done:
/* Trim trailing slash */
if (to[0] == '/' && (!absolute || to > path+1))
to--;
/* Change the empty string to "." so that stat() on the result
will always work. */
if (to == path)
*to++ = '.';
*to = '\0';
return;
}
/* It is not clear when this should be used if at all, so I've
disabled it until someone who understands VMS can look at it. */
#if 0
/* Under VMS we need to fix up the "include" specification filename.
Rules for possible conversions
fullname tried paths
name name
./dir/name [.dir]name
/dir/name dir:name
/name [000000]name, name
dir/name dir:[000000]name, dir:name, dir/name
dir1/dir2/name dir1:[dir2]name, dir1:[000000.dir2]name
path:/name path:[000000]name, path:name
path:/dir/name path:[000000.dir]name, path:[dir]name
path:dir/name path:[dir]name
[path]:[dir]name [path.dir]name
path/[dir]name [path.dir]name
The path:/name input is constructed when expanding <> includes. */
static void
hack_vms_include_specification (fullname)
char *fullname;
{
register char *basename, *unixname, *local_ptr, *first_slash;
int f, check_filename_before_returning, must_revert;
char Local[512];
check_filename_before_returning = 0;
must_revert = 0;
/* See if we can find a 1st slash. If not, there's no path information. */
first_slash = index (fullname, '/');
if (first_slash == 0)
return 0; /* Nothing to do!!! */
/* construct device spec if none given. */
if (index (fullname, ':') == 0)
{
/* If fullname has a slash, take it as device spec. */
if (first_slash == fullname)
{
first_slash = index (fullname+1, '/'); /* 2nd slash ? */
if (first_slash)
*first_slash = ':'; /* make device spec */
for (basename = fullname; *basename != 0; basename++)
*basename = *(basename+1); /* remove leading slash */
}
else if ((first_slash[-1] != '.') /* keep ':/', './' */
&& (first_slash[-1] != ':')
&& (first_slash[-1] != ']')) /* or a vms path */
{
*first_slash = ':';
}
else if ((first_slash[1] == '[') /* skip './' in './[dir' */
&& (first_slash[-1] == '.'))
fullname += 2;
}
/* Get part after first ':' (basename[-1] == ':')
or last '/' (basename[-1] == '/'). */
basename = base_name (fullname);
local_ptr = Local; /* initialize */
/* We are trying to do a number of things here. First of all, we are
trying to hammer the filenames into a standard format, such that later
processing can handle them.
If the file name contains something like [dir.], then it recognizes this
as a root, and strips the ".]". Later processing will add whatever is
needed to get things working properly.
If no device is specified, then the first directory name is taken to be
a device name (or a rooted logical). */
/* Point to the UNIX filename part (which needs to be fixed!)
but skip vms path information.
[basename != fullname since first_slash != 0]. */
if ((basename[-1] == ':') /* vms path spec. */
|| (basename[-1] == ']')
|| (basename[-1] == '>'))
unixname = basename;
else
unixname = fullname;
if (*unixname == '/')
unixname++;
/* If the directory spec is not rooted, we can just copy
the UNIX filename part and we are done. */
if (((basename - fullname) > 1)
&& ( (basename[-1] == ']')
|| (basename[-1] == '>')))
{
if (basename[-2] != '.')
{
/* The VMS part ends in a `]', and the preceding character is not a `.'.
-> PATH]:/name (basename = '/name', unixname = 'name')
We strip the `]', and then splice the two parts of the name in the
usual way. Given the default locations for include files in cccp.c,
we will only use this code if the user specifies alternate locations
with the /include (-I) switch on the command line. */
basename -= 1; /* Strip "]" */
unixname--; /* backspace */
}
else
{
/* The VMS part has a ".]" at the end, and this will not do. Later
processing will add a second directory spec, and this would be a syntax
error. Thus we strip the ".]", and thus merge the directory specs.
We also backspace unixname, so that it points to a '/'. This inhibits the
generation of the 000000 root directory spec (which does not belong here
in this case). */
basename -= 2; /* Strip ".]" */
unixname--; /* backspace */
}
}
else
{
/* We drop in here if there is no VMS style directory specification yet.
If there is no device specification either, we make the first dir a
device and try that. If we do not do this, then we will be essentially
searching the users default directory (as if they did a #include "asdf.h").
Then all we need to do is to push a '[' into the output string. Later
processing will fill this in, and close the bracket. */
if ((unixname != fullname) /* vms path spec found. */
&& (basename[-1] != ':'))
*local_ptr++ = ':'; /* dev not in spec. take first dir */
*local_ptr++ = '['; /* Open the directory specification */
}
if (unixname == fullname) /* no vms dir spec. */
{
must_revert = 1;
if ((first_slash != 0) /* unix dir spec. */
&& (*unixname != '/') /* not beginning with '/' */
&& (*unixname != '.')) /* or './' or '../' */
*local_ptr++ = '.'; /* dir is local ! */
}
/* at this point we assume that we have the device spec, and (at least
the opening "[" for a directory specification. We may have directories
specified already.
If there are no other slashes then the filename will be
in the "root" directory. Otherwise, we need to add
directory specifications. */
if (index (unixname, '/') == 0)
{
/* if no directories specified yet and none are following. */
if (local_ptr[-1] == '[')
{
/* Just add "000000]" as the directory string */
strcpy (local_ptr, "000000]");
local_ptr += strlen (local_ptr);
check_filename_before_returning = 1; /* we might need to fool with this later */
}
}
else
{
/* As long as there are still subdirectories to add, do them. */
while (index (unixname, '/') != 0)
{
/* If this token is "." we can ignore it
if it's not at the beginning of a path. */
if ((unixname[0] == '.') && (unixname[1] == '/'))
{
/* remove it at beginning of path. */
if ( ((unixname == fullname) /* no device spec */
&& (fullname+2 != basename)) /* starts with ./ */
/* or */
|| ((basename[-1] == ':') /* device spec */
&& (unixname-1 == basename))) /* and ./ afterwards */
*local_ptr++ = '.'; /* make '[.' start of path. */
unixname += 2;
continue;
}
/* Add a subdirectory spec. Do not duplicate "." */
if ( local_ptr[-1] != '.'
&& local_ptr[-1] != '['
&& local_ptr[-1] != '<')
*local_ptr++ = '.';
/* If this is ".." then the spec becomes "-" */
if ( (unixname[0] == '.')
&& (unixname[1] == '.')
&& (unixname[2] == '/'))
{
/* Add "-" and skip the ".." */
if ((local_ptr[-1] == '.')
&& (local_ptr[-2] == '['))
local_ptr--; /* prevent [.- */
*local_ptr++ = '-';
unixname += 3;
continue;
}
/* Copy the subdirectory */
while (*unixname != '/')
*local_ptr++= *unixname++;
unixname++; /* Skip the "/" */
}
/* Close the directory specification */
if (local_ptr[-1] == '.') /* no trailing periods */
local_ptr--;
if (local_ptr[-1] == '[') /* no dir needed */
local_ptr--;
else
*local_ptr++ = ']';
}
/* Now add the filename. */
while (*unixname)
*local_ptr++ = *unixname++;
*local_ptr = 0;
/* Now append it to the original VMS spec. */
strcpy ((must_revert==1)?fullname:basename, Local);
/* If we put a [000000] in the filename, try to open it first. If this fails,
remove the [000000], and return that name. This provides flexibility
to the user in that they can use both rooted and non-rooted logical names
to point to the location of the file. */
if (check_filename_before_returning)
{
f = open (fullname, O_RDONLY, 0666);
if (f >= 0)
{
/* The file name is OK as it is, so return it as is. */
close (f);
return 1;
}
/* The filename did not work. Try to remove the [000000] from the name,
and return it. */
basename = index (fullname, '[');
local_ptr = index (fullname, ']') + 1;
strcpy (basename, local_ptr); /* this gets rid of it */
}
return 1;
}
#endif /* VMS */