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What is the purpose of a command that does nothing, being little more than a comment leader, but is actually a shell builtin in and of itself?

It's slower than inserting a comment into your scripts by about 40% per call, which probably varies greatly depending on the size of the comment. The only possible reasons I can see for it are these:

# poor man's delay function
for ((x=0;x<100000;++x)) ; do : ; done

# inserting comments into string of commands
command ; command ; : we need a comment in here for some reason ; command

# an alias for `true' (lazy programming)
while : ; do command ; done

I guess what I'm really looking for is what historical application it might have had.

share|improve this question
Same question on Unix & Linux: What purpose does the colon builtin serve? – Caleb Feb 14 '12 at 22:42
@Caleb - I asked this two years before that one. – amphetamachine Oct 31 '12 at 13:38
I wouldn't say a command that returns a specific value "does nothing." Unless functional programming consists of "doing nothing." :-) – LarsH Sep 1 '15 at 20:53

11 Answers 11

up vote 192 down vote accepted

Historically, Bourne shells didn't have true and false as built-in commands. true was instead simply aliased to :, and false to something like let 0.

: is slightly better than true for portability to ancient Bourne-derived shells. As a simple example, consider having neither the ! pipeline operator nor the || list operator (as was the case for some ancient Bourne shells). This leaves the else clause of the if statement as the only means for branching based on exit status:

if command; then :; else ...; fi

Since if requires a non-empty then clause and comments don't count as non-empty, : serves as a no-op.

Nowadays (that is: in a modern context) you can usually use either : or true. Both are specified by POSIX, and some find true easier to read. However there is one interesting difference: : is a so-called POSIX special built-in, whereas true is a regular built-in.

  • Special built-ins are required to be built into the shell; Regular built-ins are only "typically" built in, but it isn't strictly guaranteed. There usually shouldn't be a regular program named : with the function of true in PATH of most systems.

  • Probably the most crucial difference is that with special built-ins, any variable set by the built-in - even in the environment during simple command evaluation - persists after the command completes, as demonstrated here using ksh93:

    $ unset x; ( x=hi :; echo "$x" )
    $ ( x=hi true; echo "$x" )

    Note that Zsh ignores this requirement, as does GNU Bash except when operating in POSIX compatibility mode, but all other major "POSIX sh derived" shells observe this including dash, ksh93, and mksh.

  • Another difference is that regular built-ins must be compatible with exec - demonstrated here using Bash:

    $ ( exec : )
    -bash: exec: :: not found
    $ ( exec true )
  • POSIX also explicitly notes that : may be faster than true, though this is of course an implementation-specific detail.

share|improve this answer
Of course, but as I hinted at, there can be reasons to prefer the round-about variant. Typically, it's about portability. For example, ancient Korn shells (ksh88) have the : builtin, but no !. – earl Jul 12 '10 at 8:40
(Updated the answer to incorporate this historic perspective.) – earl Jul 12 '10 at 8:51
Wow, this covers a lot. Thanks for the history lesson! :-) – amphetamachine Jul 16 '10 at 12:24
@ormaaj Please do not rewrite the entire post when editing. Try posting a new answer instead. – Yi Jiang Apr 14 '12 at 11:57
+1 Excellent answer. I would still like to note the usage for initializing variables, like : ${var?not initialized} et al. – tripleee Jan 20 '14 at 7:28

I use it to easily enable/disable variable commands:

if [[ "$VERBOSE" == "" || "$VERBOSE" == "0" ]]; then
    vecho=":"     # no "verbose echo"
    vecho=echo    # enable "verbose echo"

$vecho "Verbose echo is ON"


$ ./vecho
$ VERBOSE=1 ./vecho
Verbose echo is ON

This makes for a clean script. This cannot be done with '#'.


: >afile

is one of the simplest ways to guarantee that 'afile' exists but is 0 length.

share|improve this answer
>afile is even simpler and achieves the same effect. – earl Jul 14 '10 at 15:57
@earl is right; I've edited my answer accordingly. – Kevin Little Jul 16 '10 at 4:21
Cool, I'll use that $vecho trick for simplifying the scripts I'm maintaining. – BarneySchmale Jan 30 '15 at 20:29

A useful application for : is if you're only interested in using parameter expansions for their side-effects rather than actually passing their result to a command. In that case you use the PE as an argument to either : or false depending upon whether you want an exit status of 0 or 1. An example might be : "${var:=$1}". Since : is a builtin it should be pretty fast.

share|improve this answer
You can also use it for side-effects of arithmetic expansion: : $((a += 1)) (++ and -- operators do not need to be implemented according to POSIX.). In bash, ksh and possible other shells you can do also: ((a += 1)) or ((a++)) but it is not specified by POSIX. – pabouk Jun 29 '15 at 23:06
@pabouk Yep that's all true, though (()) is specified as an optional feature. "If a character sequence beginning with "((" would be parsed by the shell as an arithmetic expansion if preceded by a '$', shells which implement an extension whereby "((expression))" is evaluated as an arithmetic expression may treat the "((" as introducing as an arithmetic evaluation instead of a grouping command." – ormaaj Jun 30 '15 at 23:35

It's similar to pass in Python.

One use would be to stub out a function until it gets written:

future_function () { :; }
share|improve this answer

If you'd like to truncate a file to zero bytes, useful for clearing logs, try this:

:> file.log
share|improve this answer
> file.log is simpler and achieves the same effect. – amphetamachine Jun 23 '11 at 17:44
Yah, but the happy face is what does it for me :> – Greg Miernicki Jul 26 '11 at 22:24
@amphetamachine: :> is more portable. Some shells (such as my zsh) auto-instantiate a cat in the current shell and listen for stdin when given a redirect with no command. Rather than cat /dev/null, : is much simpler. Often this behavior is different in interactive shells rather than scripts, but if you write the script in a way that also works interactive, debuging by copy-paste is much easier. – Caleb Feb 14 '12 at 22:42
How does : > file differ from true > file (aside from the character count and the happy face) in a modern shell (assuming : and true are equally fast)? – Adam Katz Nov 20 '15 at 23:47

Very interesting discussion! : can also be for block comment (similar to /* */ in C language). For example, if you want to skip a block of code in your script, you can do this:

: << 'SKIP'

your code block here

share|improve this answer
Bad idea. Any command substitutions inside the here document are still processed. – chepner Sep 4 '14 at 18:57
Not such a bad idea. You can avoid variable resolution/substitution in here docs by single-quoting the delimiter: :<<'SKIP' – Rondo Jan 28 '15 at 22:42

You could use it in conjunction with backticks (``) to execute a command without displaying its output, like this:

: `some_command`

Of course you could just do some_command > /dev/null, but the :-version is somewhat shorter.

That being said I wouldn't recommend actually doing that as it would just confuse people. It just came to mind as a possible use-case.

share|improve this answer
This is not safe if the command is going to dump a few megabytes of output, since the shell buffers the output and then passes it as command-line arguments (stack space) to ':'. – Juliano Jul 11 '10 at 23:39

Two more uses not mentioned in other answers:


Take this example script:

set -x
: Logging message here

The first line, set -x, makes the shell print out the command before running it. It's quite a useful construct. The downside is that the usual echo Log message type of statement now prints the message twice. The colon method gets round that. Note that you'll still have to escape special characters just like you would for echo.

Cron job titles

I've seen it being used in cron jobs, like this:

45 10 * * * : Backup for database ; /opt/

This is a cron job that runs the script /opt/ every day at 10:45. The advantage of this technique is that it makes for better looking email subjects when the /opt/ prints some output.

share|improve this answer

It's also useful for polyglot programs:

#!/usr/bin/env sh
':' //; exec "$(command -v node)" "$0" "$@"
~function(){ ... }

This is now both an executable shell-script and a JavaScript program: meaning ./filename.js, sh filename.js, and node filename.js all work.

(Definitely a little bit of a strange usage, but effective nonetheless.)

Some explication, as requested:

  • Shell-scripts are evaluated line-by-line; and the exec command, when run, terminates the shell and replaces it's process with the resultant command. This means that to the shell, the program looks like this:

    #!/usr/bin/env sh
    ':' //; exec "$(command -v node)" "$0" "$@"
  • As long as no parameter expansion or aliasing is occurring in the word, any word in a shell-script can be wrapped in quotes without changing its' meaning; this means that ':' is equivalent to : (we've only wrapped it in quotes here to achieve the JavaScript semantics described below)

  • ... and as described above, the first command on the first line is a no-op (it translates to : //, or if you prefer to quote the words, ':' '//'. Notice that the // carries no special meaning here, as it does in JavaScript; it's just a meaningless word that's being thrown away.)

  • Finally, the second command on the first line (after the semicolon), is the real meat of the program: it's the exec call which replaces the shell-script being invoked, with a Node.js process invoked to evaluate the rest of the script.

  • Meanwhile, the first line, in JavaScript, parses as a string-literal (':'), and then a comment, which is deleted; thus, to JavaScript, the program looks like this:

    ~function(){ ... }

    Since the string-literal is on a line by itself, it is a no-op statement, and is thus stripped from the program; that means that the entire line is removed, leaving only your program-code (in this example, the function(){ ... } body.)

share|improve this answer
Hello, can you explain what : //; and ~function(){}do ? Thank you :) – Stphane Feb 20 at 9:52
@Stphane Added a break-down! As for the ~function(){}, that's a little more complicated. There's a couple other answers on here that touch on it, although none of them really explain it to my satisfaction … if neither of those questions explains it well-enough for you, feel free to post it as a question here, I'll be happy to answer in-depth on a new question. – ELLIOTTCABLE Feb 21 at 3:38
I did not pay attention to node. So the function part is all about javascript ! I'm okey with unary operator in front of IIFE. I thought this was bash too in the first place and actually did not really get the meaning of your post. I'm okey now, thank you for your time spent adding «break-down» ! – Stphane Feb 21 at 18:07
~{ No problem. (= } – ELLIOTTCABLE Feb 21 at 18:07

I saw this usage in a script and thought it was a good substitute for invoking basename within a script.

for basetool in $0 ; do : ; done  

... this is a replacement for the code:
basetool=basename $0 # (backticks surround "basename $0")

share|improve this answer

Self-documenting functions

You can also use : to embed documentation in a function.

Assume you have a library script, providing a variety of functions. You could either source the library (. and call the functions directly after that (lib_function1 arg1 arg2), or avoid cluttering your namespace and invoke the library with a function argument ( lib_function1 arg1 arg2).

Wouldn't it be nice if you could also type --help and get a list of available functions and their usage, without having to manually maintain the function list in the help text?


# all "public" functions must start with this prefix

# "public" library functions
lib_function1() {
    : This function does something complicated with two arguments.
    : Parameters:
    : '   arg1 - first argument ($1)'
    : '   arg2 - second argument'
    : Result:
    : "   it's complicated"

    # actual function code starts here

lib_function2() {
    : Function documentation

    # function code here

# help function
--help() {
    echo MyLib v0.0.1
    echo Usage: [function_name [args]]
    echo Available functions:
    declare -f | sed -n -e '/^'$LIB_PREFIX'/,/^}$/{/\(^'$LIB_PREFIX'\)\|\(^[ \t]*:\)/{
        s/^\('$LIB_PREFIX'.*\) ()/\n=== \1 ===/;s/^[ \t]*: \?['\''"]\?/    /;s/['\''"]\?;\?$//;p}}'

# main code
if [ "${BASH_SOURCE[0]}" = "${0}" ]; then
    # the script was executed instead of sourced
    # invoke requested function or display help
    if [ "$(type -t - "$1" 2>/dev/null)" = function ]; then

A few comments about the code:

  1. All "public" functions have the same prefix. Only these are meant to be invoked by the user, and to be listed in the help text.
  2. The self-documenting feature relies on the previous point, and uses declare -f to enumerate all available functions, then filters them through sed to only display functions with the appropriate prefix.
  3. It is a good idea to enclose the documentation in single quotes, to prevent undesired expansion and whitespace removal. You'll also need to be careful when using apostrophes/quotes in the text.
  4. You could write code to internalize the library prefix, i.e. the user only has to type function1 and it gets translated internally to lib_function1. This is an exercise left to the reader.
  5. The help function is named "--help". This is a convenient (i.e. lazy) approach that uses the library invoke mechanism to display the help itself, without having to code an extra check for $1. At the same time, it will clutter your namespace if you source the library. If you don't like that, you can either change the name to something like lib_help or actually check the args for --help in the main code and invoke the help function manually.
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