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dir.c
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C/C++ Source or Header
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1989-12-05
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/* Read, sort and compare two directories. Used for GNU DIFF.
Copyright (C) 1988, 1989 Free Software Foundation, Inc.
This file is part of GNU DIFF.
GNU DIFF 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 1, or (at your option)
any later version.
GNU DIFF 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 GNU DIFF; see the file COPYING. If not, write to
the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
#include "diff.h"
static int compare_names ();
/* Read the directory named DIRNAME and return a sorted vector
of filenames for its contents. NONEX nonzero means this directory is
known to be nonexistent, so return zero files. */
struct dirdata
{
int length; /* # elements in `files' */
char **files; /* Sorted names of files in the dir */
};
static struct dirdata
dir_sort (dirname, nonex)
char *dirname;
int nonex;
{
register DIR *reading;
register struct direct *next;
struct dirdata dirdata;
int compare_names ();
/* Address of block containing the files that are described. */
char **files;
/* Length of block that `files' points to, measured in files. */
int nfiles;
/* Index of first unused in `files'. */
int files_index;
if (nonex)
{
dirdata.length = 0;
dirdata.files = 0;
return dirdata;
}
/* Open the directory and check for errors. */
reading = opendir (dirname);
if (!reading)
{
perror_with_name (dirname);
dirdata.length = -1;
return dirdata;
}
/* Initialize the table of filenames. */
nfiles = 100;
files = (char **) xmalloc (nfiles * sizeof (char *));
files_index = 0;
/* Read the directory entries, and insert the subfiles
into the `files' table. */
while (next = readdir (reading))
{
/* Ignore the files `.' and `..' */
if (next->d_name[0] == '.'
&& (next->d_name[1] == 0
|| (next->d_name[1] == '.'
&& next->d_name[2] == 0)))
continue;
if (files_index == nfiles)
{
nfiles *= 2;
files
= (char **) xrealloc (files, sizeof (char *) * nfiles);
}
files[files_index++] = concat (next->d_name, "", "");
}
closedir (reading);
/* Sort the table. */
qsort (files, files_index, sizeof (char *), compare_names);
/* Return a description of location and length of the table. */
dirdata.files = files;
dirdata.length = files_index;
return dirdata;
}
/* Sort the files now in the table. */
static int
compare_names (file1, file2)
char **file1, **file2;
{
return strcmp (*file1, *file2);
}
/* Compare the contents of two directories named NAME1 and NAME2.
This is a top-level routine; it does everything necessary for diff
on two directories.
NONEX1 nonzero says directory NAME1 doesn't exist, but pretend it is
empty. Likewise NONEX2.
HANDLE_FILE is a caller-provided subroutine called to handle each file.
It gets five operands: dir and name (rel to original working dir) of file
in dir 1, dir and name pathname of file in dir 2, and the recursion depth.
For a file that appears in only one of the dirs, one of the name-args
to HANDLE_FILE is zero.
DEPTH is the current depth in recursion.
Returns the maximum of all the values returned by HANDLE_FILE,
or 2 if trouble is encountered in opening files. */
int
diff_dirs (name1, name2, handle_file, depth, nonex1, nonex2)
char *name1, *name2;
int (*handle_file) ();
int nonex1, nonex2;
{
struct dirdata data1, data2;
register int i1, i2;
int val = 0;
int v1;
/* Get sorted contents of both dirs. */
data1 = dir_sort (name1, nonex1);
data2 = dir_sort (name2, nonex2);
if (data1.length == -1 || data2.length == -1)
{
if (data1.length >= 0)
free (data1.files);
if (data2.length >= 0)
free (data2.files);
return 2;
}
i1 = 0;
i2 = 0;
/* If -Sname was specified, and this is the topmost level of comparison,
ignore all file names less than the specified starting name. */
if (dir_start_file && depth == 0)
{
while (i1 < data1.length && strcmp (data1.files[i1], dir_start_file) < 0)
i1++;
while (i2 < data2.length && strcmp (data2.files[i2], dir_start_file) < 0)
i2++;
}
/* Loop while files remain in one or both dirs. */
while (i1 < data1.length || i2 < data2.length)
{
int nameorder;
/* Compare next name in dir 1 with next name in dir 2.
At the end of a dir,
pretend the "next name" in that dir is very large. */
if (i1 == data1.length)
nameorder = 1;
else if (i2 == data2.length)
nameorder = -1;
else
nameorder = strcmp (data1.files[i1], data2.files[i2]);
if (nameorder == 0)
{
/* We have found a file (or subdir) in common between both dirs.
Compare the two files. */
v1 = (*handle_file) (name1, data1.files[i1], name2, data2.files[i2],
depth + 1);
i1++, i2++;
}
if (nameorder < 0)
{
/* Next filename in dir 1 is less; that is a file in dir 1 only. */
v1 = (*handle_file) (name1, data1.files[i1], name2, 0, depth + 1);
i1++;
}
if (nameorder > 0)
{
/* Next filename in dir 2 is less; that is a file in dir 2 only. */
v1 = (*handle_file) (name1, 0, name2, data2.files[i2], depth + 1);
i2++;
}
if (v1 > val)
val = v1;
}
free (data1.files);
free (data2.files);
return val;
}