Testing Accessibility
These functions test for permission to access a file for reading, writing, or execution. Unless explicitly stated otherwise, they follow symbolic links. See Kinds of Files.
On some operating systems, more complex sets of access permissions can be specified, via mechanisms such as Access Control Lists (ACLs). See Extended Attributes, for how to query and set those permissions.
- Function: file-exists-p filename
-
This function returns
t
if a file named filename appears to exist. This does not mean you can necessarily read the file, only that you can probably find out its attributes. (On GNU and other POSIX-like systems, this is true if the file exists and you have execute permission on the containing directories, regardless of the permissions of the file itself.)If the file does not exist, or if there was trouble determining whether the file exists, this function returns
nil
.Directories are files, so
file-exists-p
can returnt
when given a directory. However, becausefile-exists-p
follows symbolic links, it returnst
for a symbolic link name only if the target file exists.
- Function: file-readable-p filename
This function returns
t
if a file named filename exists and you can read it. It returnsnil
otherwise.
- Function: file-executable-p filename
This function returns
t
if a file named filename exists and you can execute it. It returnsnil
otherwise. On GNU and other POSIX-like systems, if the file is a directory, execute permission means you can check the existence and attributes of files inside the directory, and open those files if their modes permit.
- Function: file-writable-p filename
-
This function returns
t
if the file filename can be written or created by you, andnil
otherwise. A file is writable if the file exists and you can write it. It is creatable if it does not exist, but its parent directory does exist and you can write in that directory.In the example below, foo is not writable because the parent directory does not exist, even though the user could create such a directory.
(file-writable-p "~/no-such-dir/foo") ⇒ nil
- Function: file-accessible-directory-p dirname
-
This function returns
t
if you have permission to open existing files in the directory whose name as a file is dirname; otherwise (e.g., if there is no such directory), it returnsnil
. The value of dirname may be either a directory name (such as /foo/) or the file name of a file which is a directory (such as /foo, without the final slash).For example, from the following we deduce that any attempt to read a file in /foo/ will give an error:
(file-accessible-directory-p "/foo") ⇒ nil
- Function: access-file filename string
If you can read filename this function returns
nil
; otherwise it signals an error using string as the error message text.
- Function: file-ownership-preserved-p filename &optional group
-
This function returns
t
if deleting the file filename and then creating it anew would keep the file’s owner unchanged. It also returnst
for nonexistent files.If the optional argument group is non-
nil
, this function also checks that the file’s group would be unchanged.This function does not follow symbolic links.
- Function: file-modes filename
-
This function returns the mode bits of filename—an integer summarizing its read, write, and execution permissions. This function follows symbolic links. If the file does not exist, the return value is
nil
.See File permissions in The GNU
Coreutils
Manual, for a description of mode bits. For example, if the low-order bit is 1, the file is executable by all users; if the second-lowest-order bit is 1, the file is writable by all users; etc. The highest possible value is 4095 (7777 octal), meaning that everyone has read, write, and execute permission, the SUID bit is set for both others and group, and the sticky bit is set.See Changing Files, for the
set-file-modes
function, which can be used to set these permissions.(file-modes "~/junk/diffs") ⇒ 492 ; Decimal integer.
(format "%o" 492) ⇒ "754" ; Convert to octal.
(set-file-modes "~/junk/diffs" #o666) ⇒ nil
$ ls -l diffs -rw-rw-rw- 1 lewis lewis 3063 Oct 30 16:00 diffs
MS-DOS note: On MS-DOS, there is no such thing as an executable file mode bit. So
file-modes
considers a file executable if its name ends in one of the standard executable extensions, such as .com, .bat, .exe, and some others. Files that begin with the POSIX-standard ‘#!’ signature, such as shell and Perl scripts, are also considered executable. Directories are also reported as executable, for compatibility with POSIX. These conventions are also followed byfile-attributes
(see File Attributes).
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Licensed under the GNU GPL license.
https://www.gnu.org/software/emacs/manual/html_node/elisp/Testing-Accessibility.html