One of the tutorials I've been following briefly stated that cd . has no use. When trying to replicate issue shown by OP in Symbolic link recursion - what makes it “reset”?, I also tried cd ., which showed the same effect OP described (growing $PWD variable), which can be countered with cd -P.

This makes me wonder, is there any case where one does in fact would want to use cd . ?

  • 20
    I have a custom .zshrc that runs various checks on the directory when switching directory, for example one of the check is to automatically activate/deactivate a matching virtualenv when moving directories. Occasionally, I might start a new shell or whatever, and those checks don't run, and I usually use cd . to trigger those checks because it's short and simple. Though I think you intended the question to be for a vanilla environment.
    – Lie Ryan
    Jan 22, 2019 at 6:46
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    Besides the (obvious) effect on $PWD, cd . also changes $OLDPWD to the current directory. I have (currently) no idea why this might be useful, but for the sake of completeness… Jan 22, 2019 at 22:44
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    I don't think I've ever needed cd ., though seeing the answers below, I might in the future, but I have on occasion used pushd . when I wanted to be able to popd back to this directory later. e.g. when running a build script that does configure, cd output... and make, and when it's done I'll want to go back to the original directory. Rather than maintaining my own copy of the buildscript that's different than what everyone else expects, I just run it as pushd .; ./BuildScriptName.sh; popd, and this also gives me the freedom to not popd sometimes, and then popd later instead.
    – 3D1T0R
    Jan 23, 2019 at 0:47
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    Not to mention of course that '.' and '..' are not implemented in the cd command itself, so no-one set out to make that specific feature, it's just a combination of things that serves no real purpose.
    – David S
    Jan 23, 2019 at 14:48
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    @ruakh Nope, external programs should not affect shell execution environment. It's mostly for POSIX compliance which requires some of the utilities to exist outside of the shell, and evaluating exit status of external commands. You can read about the purpose of /bin/cd here unix.stackexchange.com/q/50058/85039 Jan 25, 2019 at 7:18

10 Answers 10


I think this is overthinking the problem. cd . may not be something that one would manually run in the usual course of things, but it definitely is something that can come up in programmatic execution (think of any situation where you might cd to the directory containing a file, whose path is supplied by the user). Therefore, it doesn't have to have some specific use: as long as it fulfills the usual semantics of cd <some-path>, it is useful.

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    Agreed, . should be treated as a valid path specified by cd syntax just fine. Jan 22, 2019 at 4:52
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    You can add the following example: Loops like while IFS= read Dir; do cd "$Dir"; do_something; done < <(find . -type d). During its course, find produces . as path, so that the command cd "$Dir" expands to cd .. So, in scripts, it is perfectly useful. Jan 22, 2019 at 9:43
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    For example, a script actually runs cd ${path_to_directory}, but at some point it turns out the directory is the current directory, and path_to_directory = . so you would need cd . to work just in case.
    – Demis
    Jan 23, 2019 at 7:46
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    In other words, its utility is in the fact that it makes extra code (if checks and else clauses, any kind of special casing) unnecessary.
    – jpmc26
    Jan 24, 2019 at 18:27
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    So it's useful in the sense that x+0 or x*1 are useful - the specific operation isn't useful per se, but it means that you can handle 0 and 1 the same as any other value, without having to treat them as a special case. Jan 27, 2019 at 23:29

The path of the directory could have changed since the last command was executed, and without cd . the bash and ksh93 shells will rely on the logical working directory described in the post linked in the question, so calling cd . which makes the shell issue the getcwd() syscall will ensure your current path is still valid.

Steps to reproduce in bash:

  1. In a terminal tab issue mkdir ./dir_no_1; cd ./dir_no_1
  2. In a different terminal tab issue mv dir_no_1 dir_no_2
  3. In the first terminal tab issue echo $PWD and pwd. Notice that the directory has been externally renamed; the shell's environment has not been updated.
  4. Issue cd .; pwd; echo $PWD. Notice the value has been updated.

ksh93, however, does not update the environment information, so cd . in ksh93 may in fact be useless. In /bin/dash on Ubuntu and other Debian-based systems, cd . returns dash: 3: cd: can't cd to . error, however cd -P . works (unlike in ksh93).

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    Good to know: I'll add that to my list of useless informations. ^^)
    – jayooin
    Jan 22, 2019 at 6:39
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    @jayooin Glad I could contribute to the list ;) Jan 22, 2019 at 7:53
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    I think you can do mv ../dir_no_1 ../dir_no_2 in the same terminal/bash. Jan 22, 2019 at 9:00
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    @ctrl-alt-delor Confirmed, works :) Jan 22, 2019 at 9:12
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    @ymbirtt In most shells, pwd is in fact a built in, however invoking /bin/pwd has no effect on shell's environment - external utilities in general don't affect the shell environment. The reason why /bin/cd and /bin/pwd exist is for POSIX conformance, among other things. There's a good discussion about external cd some of which probably applies to /bin/pwd as well Jan 22, 2019 at 9:52

Another use case of cd . would be when the directory you currently are in has been deleted and then made again. Consider trying the following -

  1. Create a directory temp
  2. cd temp and then do an ls
  3. Open another terminal and delete and then recreate that directory temp
  4. Back from the first terminal, try doing an ls. This would result in an error - ls: cannot open directory .: Stale file handle
  5. cd . and then doing an ls works fine
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    This doesn't always work. In dash, for example, you'll get: cd: can't cd to . Now that I look at it, this is already mentioned in Sergiy's answer (moving, deleting/recreating - essentially the same: the directory you're in is no longer what was in the original path)
    – Olorin
    Jan 22, 2019 at 7:16
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    I use this a lot testing remote deploys. The directory I'm in will be deleted then recreated by some automation and I'll need to issue cd . to move to the new directory with the same name. Jan 22, 2019 at 10:22
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    I use cd . all the time when I have a shell whose current working directory was mounted with sshfs but the ssh session has been closed and reopened.
    – jamesdlin
    Jan 22, 2019 at 21:52
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    In such a case I do "cd $PWD". Other variants might work, but this one clearly expresses the intent: extract what is supposed to be my current path (i.e. read content of PWD environment variable), then walk the filesystem hierarchy from the root, down to a directory that happens to be reachable via that path, whether it is actually the same directory or not. This fits exactly the use case in this answer. Jan 23, 2019 at 14:32
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    I'm really surprised, shocked even, that cd . works when the directory has been unlinked and a new, different directory is created at the same file-system path. The current working directory has been unlinked and presumably as part of that, it no longer has a . or .. entry, and even if it did, the . entry should continue to point to itself. It looks like the shell or the kernel is executing the cd command based on what the directory path name was rather than simply accessing the . entry. Can anyone confirm that behaviour? Jan 25, 2019 at 9:45

You can clear $OLDPWD with a quick cd ., if there should be a case where you don't want it to point anywhere "interesting". It'll also affect cd -.


Programmatically it's useful as a no-op. Consider a path provided from external input.

read -p "Path to file: " p
dirn=$(dirname "$p")
file=$(basename "$p")
echo "dirn=$dirn, file=$file"
cd "$dirn"
ls -ld "$file"

With a path such as "fred.txt" the directory will become ., leading to cd .

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    It's useful that it doesn't throw an error if you're already in the directory that you're navigating to, but I wouldn't say that it is useful as a no-op. Jan 22, 2019 at 14:05
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    @CaptainMan not throwing an error if you're already in the directory is (effectively) a no-op. The dirname command generates . where necessary to avoid breaking code that expects to be able to split a path. Jan 22, 2019 at 16:16

This is common if you had to work with a bad USB cable. After a device get disconnected and connected again, and automounted to the same directory, you have to use cd . to get it work again.

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    Won't that depend upon what sort of device, how it's being accessed, its filesystem, the OS, &c?
    – gidds
    Jan 24, 2019 at 10:09
  • OS, maybe. It's unlikely the filesystem is relevant, as long as the kernel can find its way unmounting it while it is being used. In any case, the command has its use in the exactly right situation.
    – user23013
    Jan 24, 2019 at 10:39

Note that "." is the proper way to specify the name of the file that is open as the current working directory of any process (including a shell process of course), and "." is always a valid name of a file in any and all directories, including the current working directory. The name . may not be a valid name for a file for a given instance of a process if, say, the underlying current working directory has been removed (or gone "bad", e.g. a stale NFS handle), but it is a valid name of a file that is guaranteed to exist in every valid directory.

So . must be a valid argument for any command that accepts the name of a directory, and thus in the standard shell cd . must be a valid command.

Whether cd . is useful or not depends on the shell implementation. As mentioned it can be useful if the shell resets its internal idea of the full pathname of the current working directory after calling the underlying chdir system call, say for example if the underlying directory (or some parent of it) has been renamed.

At least some shells I know (/bin/sh on FreeBSD and NetBSD) will convert cd "" into cd ., which can arguably be described a feature to support programmatic use in a shell script where a variable might be used as a parameter (i.e. converting an empty variable substitution into a "do nothing" result), though the FreeBSD commit history says the change was directly due to adding POSIX support to prevent a failure from chdir(""), which POSIX mandates must fail.

Some other shells will replace the . with whatever they have stored as the fully qualified pathname to their current working directory, and thus for them this may allow for the behaviour mentioned in Sahil Agarwal's answer.


I used this command just today when I rebased the branch I was working on in Git, from within a directory which had first been created on that same branch. The rebase went fine but afterwards, git status threw an error. After cd . everything was normal.

(I was working in MobaXterm on Windows, incidentally. Just in case you're trying to reproduce this. It may not happen on other systems.)

I also have used this command in directories that are refreshed by an automated process that moves aside the old directory and replaces it with a new one (so it is as close to atomic as possible). Not a common situation but cd . is exactly what's needed.

After reading this excellent answer from Stephane Chazelas:

I now understand that my use cases above only work because I am using bash, in which cd . is equivalent to cd "$PWD". I highly recommend reading the linked answer.


I use cd . to rerun the stuff I've overloaded cd with via a bash function.

From my ~/.bashrc:

# from the "xttitle(1)" man page - put info in window title
    [[ $TERM = xterm ]] || [[ $TERM = xterm-color ]]  && xttitle "[$$] ${USER}@${HOSTNAME}:$PWD"

    [[ -z "$*" ]] && builtin cd $HOME
    [[ -n "$*" ]] && builtin cd "$*"

EDIT: This has already been suggested by Sahil previously.

This is useful if you are inside a folder that got deleted and recreated by another process. For example, assuming the two terminal sessions $1 and $2:

$1 mkdir d
$1 cd d
$1 touch f

$2 rm -rf /path/to/d # delete the folder where $1 is in ...
$2 mkdir /path/to/d # ... and recreate it

$1 touch g # cannot create file g because current dir doesn't exist anymore
touch: cannot touch ‘g’: Stale file handle
$1 cd . # go to the newly created dir (same path)
$1 touch g # works fine now

I am not sure whether where exactly (OS, SHELL, ...?) the root cause of this behavior is.

  • This has already been mentioned by other answers.
    – Kusalananda
    Jan 29, 2019 at 10:04

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