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485 lines
14 KiB
C
485 lines
14 KiB
C
/* Implementation of pattern-matching file search paths for GNU Make.
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Copyright (C) 1988, 1989, 1991, 1992, 1993, 1994 Free Software Foundation, Inc.
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This file is part of GNU Make.
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GNU Make is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2, or (at your option)
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any later version.
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GNU Make is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with GNU Make; see the file COPYING. If not, write to
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the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
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#include "make.h"
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#include "file.h"
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#include "variable.h"
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/* Structure used to represent a selective VPATH searchpath. */
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struct vpath
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{
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struct vpath *next; /* Pointer to next struct in the linked list. */
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char *pattern; /* The pattern to match. */
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char *percent; /* Pointer into `pattern' where the `%' is. */
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unsigned int patlen;/* Length of the pattern. */
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char **searchpath; /* Null-terminated list of directories. */
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unsigned int maxlen;/* Maximum length of any entry in the list. */
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};
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/* Linked-list of all selective VPATHs. */
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static struct vpath *vpaths;
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/* Structure for the general VPATH given in the variable. */
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static struct vpath *general_vpath;
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static int selective_vpath_search ();
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/* Reverse the chain of selective VPATH lists so they
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will be searched in the order given in the makefiles
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and construct the list from the VPATH variable. */
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void
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build_vpath_lists ()
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{
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register struct vpath *new = 0;
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register struct vpath *old, *nexto;
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register char *p;
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/* Reverse the chain. */
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for (old = vpaths; old != 0; old = nexto)
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{
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nexto = old->next;
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old->next = new;
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new = old;
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}
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vpaths = new;
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/* If there is a VPATH variable with a nonnull value, construct the
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general VPATH list from it. We use variable_expand rather than just
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calling lookup_variable so that it will be recursively expanded. */
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{
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/* Turn off --warn-undefined-variables while we expand SHELL and IFS. */
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int save = warn_undefined_variables_flag;
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warn_undefined_variables_flag = 0;
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p = variable_expand ("$(strip $(VPATH))");
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warn_undefined_variables_flag = save;
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}
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if (*p != '\0')
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{
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/* Save the list of vpaths. */
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struct vpath *save_vpaths = vpaths;
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/* Empty `vpaths' so the new one will have no next, and `vpaths'
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will still be nil if P contains no existing directories. */
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vpaths = 0;
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/* Parse P. */
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construct_vpath_list ("%", p);
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/* Store the created path as the general path,
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and restore the old list of vpaths. */
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general_vpath = vpaths;
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vpaths = save_vpaths;
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}
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}
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/* Construct the VPATH listing for the pattern and searchpath given.
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This function is called to generate selective VPATH lists and also for
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the general VPATH list (which is in fact just a selective VPATH that
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is applied to everything). The returned pointer is either put in the
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linked list of all selective VPATH lists or in the GENERAL_VPATH
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variable.
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If SEARCHPATH is nil, remove all previous listings with the same
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pattern. If PATTERN is nil, remove all VPATH listings.
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Existing and readable directories that are not "." given in the
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searchpath separated by colons are loaded into the directory hash
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table if they are not there already and put in the VPATH searchpath
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for the given pattern with trailing slashes stripped off if present
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(and if the directory is not the root, "/").
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The length of the longest entry in the list is put in the structure as well.
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The new entry will be at the head of the VPATHS chain. */
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void
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construct_vpath_list (pattern, dirpath)
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char *pattern, *dirpath;
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{
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register unsigned int elem;
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register char *p;
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register char **vpath;
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register unsigned int maxvpath;
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unsigned int maxelem;
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char *percent;
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if (pattern != 0)
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{
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pattern = savestring (pattern, strlen (pattern));
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percent = find_percent (pattern);
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}
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if (dirpath == 0)
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{
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/* Remove matching listings. */
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register struct vpath *path, *lastpath;
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lastpath = 0;
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path = vpaths;
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while (path != 0)
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{
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struct vpath *next = path->next;
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if (pattern == 0
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|| (((percent == 0 && path->percent == 0)
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|| (percent - pattern == path->percent - path->pattern))
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&& streq (pattern, path->pattern)))
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{
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/* Remove it from the linked list. */
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if (lastpath == 0)
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vpaths = path->next;
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else
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lastpath->next = next;
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/* Free its unused storage. */
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free (path->pattern);
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free ((char *) path->searchpath);
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free ((char *) path);
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}
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else
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lastpath = path;
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path = next;
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}
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if (pattern != 0)
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free (pattern);
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return;
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}
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/* Figure out the maximum number of VPATH entries and
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put it in MAXELEM. We start with 2, one before the
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first colon and one nil, the list terminator and
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increment our estimated number for each colon or blank we find. */
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maxelem = 2;
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p = dirpath;
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while (*p != '\0')
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if (*p++ == PATH_SEPARATOR_CHAR || isblank (*p))
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++maxelem;
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vpath = (char **) xmalloc (maxelem * sizeof (char *));
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maxvpath = 0;
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/* Skip over any initial colons and blanks. */
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p = dirpath;
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while (*p == PATH_SEPARATOR_CHAR || isblank (*p))
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++p;
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elem = 0;
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while (*p != '\0')
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{
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char *v;
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unsigned int len;
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/* Find the end of this entry. */
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v = p;
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while (*p != '\0' && *p != PATH_SEPARATOR_CHAR && !isblank (*p))
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++p;
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len = p - v;
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/* Make sure there's no trailing slash,
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but still allow "/" as a directory. */
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if (len > 1 && p[-1] == '/')
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--len;
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if (len > 1 || *v != '.')
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{
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v = savestring (v, len);
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/* Verify that the directory actually exists. */
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if (dir_file_exists_p (v, ""))
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{
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/* It does. Put it in the list. */
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vpath[elem++] = dir_name (v);
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free (v);
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if (len > maxvpath)
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maxvpath = len;
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}
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else
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/* The directory does not exist. Omit from the list. */
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free (v);
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}
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/* Skip over colons and blanks between entries. */
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while (*p == PATH_SEPARATOR_CHAR || isblank (*p))
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++p;
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}
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if (elem > 0)
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{
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struct vpath *path;
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/* ELEM is now incremented one element past the last
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entry, to where the nil-pointer terminator goes.
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Usually this is maxelem - 1. If not, shrink down. */
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if (elem < (maxelem - 1))
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vpath = (char **) xrealloc ((char *) vpath,
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(elem + 1) * sizeof (char *));
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/* Put the nil-pointer terminator on the end of the VPATH list. */
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vpath[elem] = 0;
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/* Construct the vpath structure and put it into the linked list. */
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path = (struct vpath *) xmalloc (sizeof (struct vpath));
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path->searchpath = vpath;
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path->maxlen = maxvpath;
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path->next = vpaths;
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vpaths = path;
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/* Set up the members. */
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path->pattern = pattern;
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path->percent = percent;
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path->patlen = strlen (pattern);
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}
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else
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{
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/* There were no entries, so free whatever space we allocated. */
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free ((char *) vpath);
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if (pattern != 0)
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free (pattern);
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}
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}
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/* Search the VPATH list whose pattern matches *FILE for a directory
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where the name pointed to by FILE exists. If it is found, we set *FILE to
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the newly malloc'd name of the existing file, *MTIME_PTR (if MTIME_PTR is
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not NULL) to its modtime (or zero if no stat call was done), and return 1.
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Otherwise we return 0. */
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int
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vpath_search (file, mtime_ptr)
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char **file;
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time_t *mtime_ptr;
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{
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register struct vpath *v;
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/* If there are no VPATH entries or FILENAME starts at the root,
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there is nothing we can do. */
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if (**file == '/' || (vpaths == 0 && general_vpath == 0))
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return 0;
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for (v = vpaths; v != 0; v = v->next)
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if (pattern_matches (v->pattern, v->percent, *file))
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if (selective_vpath_search (v, file, mtime_ptr))
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return 1;
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if (general_vpath != 0
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&& selective_vpath_search (general_vpath, file, mtime_ptr))
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return 1;
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return 0;
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}
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/* Search the given VPATH list for a directory where the name pointed
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to by FILE exists. If it is found, we set *FILE to the newly malloc'd
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name of the existing file, *MTIME_PTR (if MTIME_PTR is not NULL) to
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its modtime (or zero if no stat call was done), and we return 1.
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Otherwise we return 0. */
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static int
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selective_vpath_search (path, file, mtime_ptr)
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struct vpath *path;
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char **file;
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time_t *mtime_ptr;
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{
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int not_target;
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char *name, *n;
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char *filename;
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register char **vpath = path->searchpath;
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unsigned int maxvpath = path->maxlen;
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register unsigned int i;
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unsigned int flen, vlen, name_dplen;
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int exists = 0;
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/* Find out if *FILE is a target.
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If and only if it is NOT a target, we will accept prospective
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files that don't exist but are mentioned in a makefile. */
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{
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struct file *f = lookup_file (*file);
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not_target = f == 0 || !f->is_target;
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}
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flen = strlen (*file);
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/* Split *FILE into a directory prefix and a name-within-directory.
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NAME_DPLEN gets the length of the prefix; FILENAME gets the
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pointer to the name-within-directory and FLEN is its length. */
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n = rindex (*file, '/');
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name_dplen = n != 0 ? n - *file : 0;
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filename = name_dplen > 0 ? n + 1 : *file;
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if (name_dplen > 0)
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flen -= name_dplen + 1;
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/* Allocate enough space for the biggest VPATH entry,
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a slash, the directory prefix that came with *FILE,
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another slash (although this one may not always be
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necessary), the filename, and a null terminator. */
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name = (char *) alloca (maxvpath + 1 + name_dplen + 1 + flen + 1);
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/* Try each VPATH entry. */
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for (i = 0; vpath[i] != 0; ++i)
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{
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int exists_in_cache = 0;
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n = name;
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/* Put the next VPATH entry into NAME at N and increment N past it. */
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vlen = strlen (vpath[i]);
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bcopy (vpath[i], n, vlen);
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n += vlen;
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/* Add the directory prefix already in *FILE. */
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if (name_dplen > 0)
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{
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*n++ = '/';
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bcopy (*file, n, name_dplen);
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n += name_dplen;
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}
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/* Now add the name-within-directory at the end of NAME. */
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if (n != name && n[-1] != '/')
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{
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*n = '/';
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bcopy (filename, n + 1, flen + 1);
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}
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else
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bcopy (filename, n, flen + 1);
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/* Check if the file is mentioned in a makefile. If *FILE is not
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a target, that is enough for us to decide this file exists.
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If *FILE is a target, then the file must be mentioned in the
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makefile also as a target to be chosen.
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The restriction that *FILE must not be a target for a
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makefile-mentioned file to be chosen was added by an
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inadequately commented change in July 1990; I am not sure off
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hand what problem it fixes.
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In December 1993 I loosened of this restriction to allow a file
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to be chosen if it is mentioned as a target in a makefile. This
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seem logical. */
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{
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struct file *f = lookup_file (name);
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if (f != 0)
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exists = not_target || f->is_target;
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}
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if (!exists)
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{
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/* That file wasn't mentioned in the makefile.
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See if it actually exists. */
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/* Clobber a null into the name at the last slash.
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Now NAME is the name of the directory to look in. */
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*n = '\0';
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/* We know the directory is in the hash table now because either
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construct_vpath_list or the code just above put it there.
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Does the file we seek exist in it? */
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exists_in_cache = exists = dir_file_exists_p (name, filename);
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}
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if (exists)
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{
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/* The file is in the directory cache.
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Now check that it actually exists in the filesystem.
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The cache may be out of date. When vpath thinks a file
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exists, but stat fails for it, confusion results in the
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higher levels. */
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struct stat st;
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/* Put the slash back in NAME. */
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*n = '/';
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if (!exists_in_cache /* Makefile-mentioned file need not exist. */
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|| safe_stat (name, &st) == 0) /* Does it really exist? */
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{
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/* We have found a file.
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Store the name we found into *FILE for the caller. */
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*file = savestring (name, (n + 1 - name) + flen);
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if (mtime_ptr != 0)
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/* Store the modtime into *MTIME_PTR for the caller.
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If we have had no need to stat the file here,
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we record a zero modtime to indicate this. */
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*mtime_ptr = exists_in_cache ? st.st_mtime : (time_t) 0;
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return 1;
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}
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}
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}
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return 0;
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}
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/* Print the data base of VPATH search paths. */
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void
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print_vpath_data_base ()
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{
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register unsigned int nvpaths;
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register struct vpath *v;
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puts ("\n# VPATH Search Paths\n");
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nvpaths = 0;
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for (v = vpaths; v != 0; v = v->next)
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{
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register unsigned int i;
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++nvpaths;
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printf ("vpath %s ", v->pattern);
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for (i = 0; v->searchpath[i] != 0; ++i)
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printf ("%s%c", v->searchpath[i],
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v->searchpath[i + 1] == 0 ? '\n' : PATH_SEPARATOR_CHAR);
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}
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if (vpaths == 0)
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puts ("# No `vpath' search paths.");
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else
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printf ("\n# %u `vpath' search paths.\n", nvpaths);
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if (general_vpath == 0)
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puts ("\n# No general (`VPATH' variable) search path.");
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else
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{
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register char **path = general_vpath->searchpath;
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register unsigned int i;
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fputs ("\n# General (`VPATH' variable) search path:\n# ", stdout);
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for (i = 0; path[i] != 0; ++i)
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printf ("%s%c", path[i],
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path[i + 1] == 0 ? '\n' : PATH_SEPARATOR_CHAR);
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}
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}
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