Is it possible to store or capture stdout and stderr in different variables, without using a temp file? Right now I do this to get stdout in out and stderr in err when running some_command, but I'd like to avoid the temp file.

out=$(some_command 2>$error_file)
err=$(< error_file)
rm $error_file
  • This question includes my question, but does not answer it. – ntc2 Jun 14 '12 at 6:24
  • 3
    fwiw, it's possible in ksh93. ksh -c 'function f { echo out; echo err >&2; }; x=${ { y=$(f); } 2>&1;}; typeset -p x y' – ormaaj Jun 14 '12 at 12:01
  • 1
    @ormaaj: can you explain how the ksh93 technique works? You might need make it an answer. – Jonathan Leffler Jun 14 '12 at 14:30
  • possible duplicate of capture both stdout and stderr in bash – gniourf_gniourf Mar 1 '15 at 16:53
  • 3
    @gniourf_gniourf Well, that question is posterior to this one, so, if there is a duplicate, it should be that one: capture both stdout and stderr in bash:-D – user2350426 Mar 1 '15 at 23:29

13 Answers 13


Ok, it got a bit ugly, but here is a solution:

unset t_std t_err
eval "$( (echo std; echo err >&2) \
        2> >(readarray -t t_err; typeset -p t_err) \
         > >(readarray -t t_std; typeset -p t_std) )"

where (echo std; echo err >&2) needs to be replaced by the actual command. Output of stdout is saved into the array $t_std line by line omitting the newlines (the -t) and stderr into $t_err.

If you don't like arrays you can do

unset t_std t_err
eval "$( (echo std; echo err >&2 ) \
        2> >(t_err=$(cat); typeset -p t_err) \
         > >(t_std=$(cat); typeset -p t_std) )"

which pretty much mimics the behavior of var=$(cmd) except for the value of $? which takes us to the last modification:

unset t_std t_err t_ret
eval "$( (echo std; echo err >&2; exit 2 ) \
        2> >(t_err=$(cat); typeset -p t_err) \
         > >(t_std=$(cat); typeset -p t_std); t_ret=$?; typeset -p t_ret )"

Here $? is preserved into $t_ret

Tested on Debian wheezy using GNU bash, Version 4.2.37(1)-release (i486-pc-linux-gnu).

  • 2
    That is why I would handle return the same way. Try eval "$( eval "$@" 2> >(t_err=$(cat); typeset -p t_err) > >(t_std=$(cat); typeset -p t_std); t_ret=$?; typeset -p t_ret )"; exit $t_ret – TheConstructor Aug 9 '13 at 5:20
  • 1
    Thanks for the concept. I have expanded (distilled) it a bit in here: stackoverflow.com/a/28796214/2350426 – user2350426 Mar 1 '15 at 16:56
  • 1
    typeset -p t_out and typeset -p t_err might be mixed, rending the output useless. – 4ae1e1 Jul 14 '15 at 14:44
  • 1
    @4ae1e1 I thought about that possibility but could not confirm that this can happen. – TheConstructor Jul 14 '15 at 14:46
  • 1
    @TheConstructor Hmm, I think you are right. I was in Zsh and was using >>() instead of > >(). The former is a no-go in Bash; in Zsh it correctly parses out the process substitution part, but sometimes emits mangled output. Not sure why, but > >() seems to work reliably. I'm still not totally convinced though. typeset -p is definitely not atomic, is it? – 4ae1e1 Jul 14 '15 at 15:02

Jonathan has the answer. For reference, this is the ksh93 trick. (requires a non-ancient version).

function out {
    echo stdout
    echo stderr >&2

x=${ { y=$(out); } 2>&1; }
typeset -p x y # Show the values



The ${ cmds;} syntax is just a command substitution that doesn't create a subshell. The commands are executed in the current shell environment. The space at the beginning is important ({ is a reserved word).

Stderr of the inner command group is redirected to stdout (so that it applies to the inner substitution). Next, the stdout of out is assigned to y, and the redirected stderr is captured by x, without the usual loss of y to a command substitution's subshell.

It isn't possible in other shells, because all constructs which capture output require putting the producer into a subshell, which in this case, would include the assignment.

update: Now also supported by mksh.

  • 2
    Thanks. The key point is that ${ ... } is not a sub-shell, which leaves the rest readily explicable. Neat trick, as long as you've got a ksh to use. – Jonathan Leffler Jun 23 '12 at 20:17
  • 7
    This is not an answer to the question. The question is about the bash, whereas your answer is valid on ksh. – mshamma Jul 21 '12 at 1:11
  • 1
    @mshamma Obviously. Read the last paragraph. – ormaaj Jul 21 '12 at 1:24

This command sets both stdout (stdval) and stderr (errval) values in the present running shell:

eval "$( execcommand 2> >(setval errval) > >(setval stdval); )"

provided this function has been defined:

function setval { printf -v "$1" "%s" "$(cat)"; declare -p "$1"; }

Change execcommand to the captured command, be it "ls", "cp", "df", etc.

All this is based on the idea that we could convert all captured values to a text line with the help of the function setval, then setval is used to capture each value in this structure:

execcommand 2> CaptureErr > CaptureOut

Convert each capture value to a setval call:

execcommand 2> >(setval errval) > >(setval stdval)

Wrap everything inside an execute call and echo it:

echo "$( execcommand 2> >(setval errval) > >(setval stdval) )"

You will get the declare calls that each setval creates:

declare -- stdval="I'm std"
declare -- errval="I'm err"

To execute that code (and get the vars set) use eval:

eval "$( execcommand 2> >(setval errval) > >(setval stdval) )"

and finally echo the set vars:

echo "std out is : |$stdval| std err is : |$errval|

It is also possible to include the return (exit) value.
A complete bash script example looks like this:

#!/bin/bash --

# The only function to declare:
function setval { printf -v "$1" "%s" "$(cat)"; declare -p "$1"; }

# a dummy function with some example values:
function dummy { echo "I'm std"; echo "I'm err" >&2; return 34; }

# Running a command to capture all values
#      change execcommand to dummy or any other command to test.
eval "$( dummy 2> >(setval errval) > >(setval stdval); <<<"$?" setval retval; )"

echo "std out is : |$stdval| std err is : |$errval| return val is : |$retval|"
  • 1
    There is a race condition because declare does no atomic writes when the whole output is longer than 1008 bytes (Ubuntu 16.04, bash 4.3.46(1)). There is an implicite synchronization between the two setval calls for stdout and stderr (the cat in the setval for stderr cannot finish before the setval for stdout has closed stderr). However there is no synchronization of the setval retval, hence it can come anywhere between. In this case, retval is swallowed in one of the two other variables. So the retval case does not run reliably. – Tino Jan 14 '17 at 18:39
  • I think I like this approach.. kinda. Is there a way to move that eval to a separate function and pass the command to it? When I try that, it doesn't declare the errval or stdval. – Justin Oct 30 '17 at 18:02
  • I made capturable(){...} (setval as written) and capture(){ eval "$( $@ 2> >(capturable stderr) > >(capturable stdout); )"; test -z "$stderr" }. capture make ... && echo "$stdout" || less <<<"$stderr" pages stderr or prints stdout if there is none. Does this work for you, or help you if it does? – John P Jan 12 at 7:11

This is for catching stdout and stderr in different variables. If you only want to catch stderr, leaving stdout as-is, there is a better and shorter solution.

To sum everything up for the benefit of the reader, here is an

Easy Reusable bash Solution

This version does use subshells and runs without tempfiles. (For a tempfile version which runs without subshells, see my other answer.)

: catch STDOUT STDERR cmd args..
eval "$({
  { __1="$("${@:3}")"; } 2>&1;
  printf '%q=%q\n' "$1" "$__1" >&2;
  exit $ret
printf '%s=%q\n' "$2" "$__2" >&2;
printf '( exit %q )' "$ret" >&2;
} 2>&1 )";

Example use:

echo "$3" >&2
echo "$2" >&1
return "$1"

catch stdout stderr dummy 3 $'\ndiffcult\n data \n\n\n' $'\nother\n difficult \n  data  \n\n'

printf 'ret=%q\n' "$?"
printf 'stdout=%q\n' "$stdout"
printf 'stderr=%q\n' "$stderr"

this prints

stdout=$'\ndiffcult\n data '
stderr=$'\nother\n difficult \n  data  '

So it can be used without deeper thinking about it. Just put catch VAR1 VAR2 in front of any command args.. and you are done.

Some if cmd args..; then will become if catch VAR1 VAR2 cmd args..; then. Really nothing complex.


Q: How does it work?

It just wraps ideas from the other answers here into a function, such that it can easily be resused.

catch() basically uses eval to set the two variables. This is similar to https://stackoverflow.com/a/18086548

Consider a call of catch out err dummy 1 2a 3b:

  • let's skip the eval "$({ and the __2="$( for now. I will come to this later.

  • __1="$("$("${@:3}")"; } 2>&1; executes dummy 1 2 3 and stores it's stdout into __1 for later use. So __1 becomes 2a. It also redirects stderr of dummy to stdout, such that the outer catch can gather stdout

  • ret=$?; catches the exit code, which is 1

  • printf '%q=%q\n' "$1" "$__1" >&2; then outputs out=2a to stderr. stderr is used here, as the current stdout already has taken over the role of stderr of the dummy command.

  • exit $ret then forwards the exit code (1) to the next stage.

Now to the outer __2="$( ... )":

  • This catches stdout of the above, which is the stderr of the dummy call, into variable __2. (We could re-use __1 here, but I used __2 to make it less confusing.). So __2 becomes 3b

  • ret="$?"; catches the (returned) return code 1 (from dummy) again

  • printf '%s=%q\n' "$2" "$__2" >&2; then outputs err=3a to stderr. stderr is used again, as it already was used to output the other variable out=2a.

  • printf '( exit %q )' "$ret" >&2; then outputs the code to set the proper return value. I did not find a better way, as assignig it to a variable needs a variable name, which then cannot be used as first oder second argument tocatch`.

Please note that, as an optimization, we could have written those 2 printf as a single one like printf '%s=%q\n( exit %q ) "$__2" "$ret"` as well.

So what do we have so far?

We have following written to stderr:

( exit 1 )

where out is from $1, 2a is from stdout of dummy, err is from $2, 3b is from stderr of dummy, and the 1 is from the return code from dummy.

Please note that %q in the format of printf takes care for quoting, such that the shell sees proper (single) arguments when it comes to eval. 2a and 3b are so simple, that they are copied literally.

Now to the outer eval "$({ ... } 2>&1 )";:

This executes all of above which output the 2 variables and the exit, catches it (therefor the 2>&1) and parses it into the current shell using eval.

This way the 2 variables get set and the return code as well.

Q: It uses eval which is evil. So is it safe?

  • As long as printf %q has no bugs, it should be safe. But you always have to be very careful, just think about ShellShock.

Q: Bugs?

  • No obvious bugs are known, except following:

    • Catching big output needs big memory and CPU, as everything goes into variables and needs to be back-parsed by the shell. So use it wisely.
    • As usual $(echo $'\n\n\n\n') swallows all linefeeds, not only the last one. This is a POSIX requirement. If you need to get the LFs unharmed, just add some trailing character to the output and remove it afterwards like in following recipe (look at the trailing x which allows to read a softlink pointing to a file which ends on a $'\n'):

      target="$(readlink -e "$file")x"
    • Shell-variables cannot carry the byte NUL ($'\0'). They are simply ignores if they happen to occur in stdout or stderr.

  • The given command runs in a sub-subshell. So it has no access to $PPID, nor can it alter shell variables. You can catch a shell function, even builtins, but those will not be able to alter shell variables (as everything running within $( .. ) cannot do this). So if you need to run a function in current shell and catch it's stderr/stdout, you need to do this the usual way with tempfiles. (There are ways to do this such, that interrupting the shell normally does not leave debris behind, but this is complex and deserves it's own answer.)

Q: Bash version?

  • I think you need Bash 4 and above (due to printf %q)

Q: This still looks so awkward.

  • Right. Another answer here shows how it can be done in ksh much more cleanly. However I am not used to ksh, so I leave it to others to create a similar easy to reuse recipe for ksh.

Q: Why not use ksh then?

  • Because this is a bash solution

Q: The script can be improved

  • Of course you can squeeze out some bytes and create smaller or more incomprehensible solution. Just go for it ;)

Q: There is a typo. : catch STDOUT STDERR cmd args.. shall read # catch STDOUT STDERR cmd args..

  • Actually this is intended. : shows up in bash -x while comments are silently swallowed. So you can see where the parser is if you happen to have a typo in the function definition. It's an old debugging trick. But beware a bit, you can easily create some neat sideffects within the arguments of :.

Edit: Added a couple more ; to make it more easy to create a single-liner out of catch(). And added section how it works.

  • This is a very interesting solution considering that it makes such usage much more easier to use. You should however provide a little more details on how it works, considering that it does not follow the general pattern of other proposed solutions. – jwatkins Dec 23 '16 at 17:08
  • 1
    @jwatkins done ;) – Tino Jan 14 '17 at 15:17
  • How about doing this catch for commands that redirect one of the streams or are piping? It might seem questionable to try to capture both outputs is one of them is empty (since the command itself redirects it anyway). But it makes it easier to use same pattern over and over again with any command (especially if the command is externally provided and you don't know whether it redirects) even if in some cases one of the variables is doomed to be empty. – Adam Badura Feb 10 '17 at 14:54
  • So far I found a simple workaround. Just define a simple function like function echo_to_file { echo -n "$1" >"$2" ; } and then use catch with that function. Works as expected. But still it would be nice to have it in catch itself. (Similar "trick" can be done to have pipes in the command.) – Adam Badura Feb 10 '17 at 15:08
  • @AdamBadura the question was to catch 2 different variables in parallel. If you only want to capture one single variable, you do not need this catch here! Single variable capturing is built right into the shell: stdout+stderr: var="$(command 2>&1)"; echo "command gives $? and outputs '$var'"; catch stderr and redirect stdout: var="$(command 2>&1 >FILE)" (not >FILE 2>&1, this would redirect stderr to FILE!); stdout-only: var="$(command)"; echo "command gives $? and has stdout '$var'", and for stderr or other FDs see another answer – Tino Jun 13 at 10:05

Technically, named pipes aren't temporary files and nobody here mentions them. They store nothing in the filesystem and you can delete them as soon as you connect them (so you won't ever see them):

#!/bin/bash -e

foo () {
    echo stdout1
    echo stderr1 >&2
    sleep 1
    echo stdout2
    echo stderr2 >&2

rm -f stdout stderr
mkfifo stdout stderr
foo >stdout 2>stderr &             # blocks until reader is connected
exec {fdout}<stdout {fderr}<stderr # unblocks `foo &`
rm stdout stderr                   # filesystem objects are no longer needed

stdout=$(cat <&$fdout)
stderr=$(cat <&$fderr)

echo $stdout
echo $stderr

exec {fdout}<&- {fderr}<&- # free file descriptors, optional

You can have multiple background processes this way and asynchronously collect their stdouts and stderrs at a convenient time, etc.

If you need this for one process only, you may just as well use hardcoded fd numbers like 3 and 4, instead of the {fdout}/{fderr} syntax (which finds a free fd for you).


Did not like the eval, so here is a solution that uses some redirection tricks to capture program output to a variable and then parses that variable to extract the different components. The -w flag sets the chunk size and influences the ordering of std-out/err messages in the intermediate format. 1 gives potentially high resolution at the cost of overhead.

# runs "$@" and outputs both stdout and stderr on stdin, both in a prefixed format allowing both std in and out to be separately stored in variables later.                                                                  
# limitations: Bash does not allow null to be returned from subshells, limiting the usefullness of applying this function to commands with null in the output.                                                                   
# example:                                                                                                                                                                                                                       
#  var=$(keepBoth ls . notHere)                                                                                                                                                                                                  
#  echo ls had the exit code "$(extractOne r "$var")"                                                                                                                                                                            
#  echo ls had the stdErr of "$(extractOne e "$var")"                                                                                                                                                                            
#  echo ls had the stdOut of "$(extractOne o "$var")"                                                                                                                                                                            
keepBoth() {                                                                                                                                                                                                                     
      ( set -o pipefail                                                                                                                                                                                                          
        base64 -w 1 - | (                                                                                                                                                                                                                                                                                                                                                                                                                                                                              
          while read c                                                                                                                                                                                                                                                                                                                                                                                                                                                                                  
          do echo -E "$1" "$c"                                                                                                                                                                                                                                                                                                                                                                                                                                                                          
    ( (                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                 
        "$@" | prefix o >&3                                                                                                                                                                                                                                                                                                                                                                                                                                                                             
        echo  ${PIPESTATUS[0]} | prefix r >&3                                                                                                                                                                                                                                                                                                                                                                                                                                                           
      ) 2>&1 | prefix e >&1                                                                                                                                                                                                                                                                                                                                                                                                                                                                             
    ) 3>&1                                                                                                                                                                                                                                                                                                                                                                                                                                                                                              

extractOne() { # extract                                                                                                                                                                                                                                                                                                                                                                                                                                                                                
  echo "$2" | grep "^$1" | cut --delimiter=' ' --fields=2 | base64 --decode -                                                                                                                                                                                                                                                                                                                                                                                                                           

Succinctly, I believe the answer is 'No'. The capturing $( ... ) only captures standard output to the variable; there isn't a way to get the standard error captured into a separate variable. So, what you have is about as neat as it gets.

  • 1
    @ormaaj: By the look of the answers based on eval, it seems that it is actually possible, but, as you point out, it basically boils down to ‘use a better shell or language’. It's not directly an answer to the question, but I came here with the same question and I think that, long-term, I'm going to switch to a shell based on a functional language such as Haskell. – James Haigh Apr 29 '15 at 9:07

What about... =D

get_stderr_stdout() {
    unset t_std t_err
    eval "$( (eval $1) 2> >(t_err=$(cat); typeset -p t_err) > >(t_std=$(cat); typeset -p t_std) )"

get_stderr_stdout "command"
echo "$GET_STDERR"
echo "$GET_STDOUT"
  • 2
    This appears to be a wrapper around the first answer that doesn't add any new functionality. How is this different / more useful? – ntc2 Dec 10 '15 at 20:46

For the benefit of the reader here is a solution using tempfiles.

The question was not to use tempfiles. However this might be due to the unwanted pollution of /tmp/ with tempfile in case the shell dies. In case of kill -9 some trap 'rm "$tmpfile1" "$tmpfile2"' 0 does not fire.

If you are in a situation where you can use tempfile, but want to never leave debris behind, here is a recipe.

Again it is called catch() (as my other answer) and has the same calling syntax:

catch stdout stderr command args..

# Wrappers to avoid polluting the current shell's environment with variables

: catch_read returncode FD variable
eval "$3=\"\`cat <&$2\`\"";
# You can use read instead to skip some fork()s.
# However read stops at the first NUL byte,
# also does no \n removal and needs bash 3 or above:
#IFS='' read -ru$2 -d '' "$3";
return $1;
: catch_1 tempfile variable comand args..
rm -f "$1";
"${@:3}" 66<&-;
catch_read $? 66 "$2";
} 2>&1 >"$1" 66<"$1";

: catch stdout stderr command args..
catch_1 "`tempfile`" "${2:-stderr}" catch_1 "`tempfile`" "${1:-stdout}" "${@:3}";

What it does:

  • It creates two tempfiles for stdout and stderr. However it nearly immediately removes these, such that they are only around for a very short time.

  • catch_1() catches stdout (FD 1) into a variable and moves stderr to stdout, such that the next ("left") catch_1 can catch that.

  • Processing in catch is done from right to left, so the left catch_1 is executed last and catches stderr.

The worst which can happen is, that some temporary files show up on /tmp/, but they are always empty in that case. (They are removed before they get filled.). Usually this should not be a problem, as under Linux tmpfs supports roughly 128K files per GB of main memory.

  • The given command can access and alter all local shell variables as well. So you can call a shell function which has sideffects!

  • This only forks twice for the tempfile call.


  • Missing good error handling in case tempfile fails.

  • This does the usual \n removal of the shell. See comment in catch_read().

  • You cannot use file descriptor 66 to pipe data to your command. If you need that, use another descriptor for the redirection, like 42 (note that very old shells only offer FDs up to 9).

  • This cannot handle NUL bytes ($'\0') in stdout and stderr. (NUL is just ignored. For the read variant everything behind a NUL is ignored.)


  • Unix allows us to access deleted files, as long as you keep some reference to them around (such as an open filehandle). This way we can open and then remove them.

If the command 1) no stateful side effects and 2) is computationally cheap, the easiest solution is to just run it twice. I've mainly used this for code that runs during the boot sequence when you don't yet know if the disk is going to be working. In my case it was a tiny some_command so there was no performance hit for running twice, and the command had no side effects.

The main benefit is that this is clean and easy to read. The solutions here are quite clever, but I would hate to be the one that has to maintain a script containing the more complicated solutions. I'd recommend the simple run-it-twice approach if your scenario works with that, as it's much cleaner and easier to maintain.


output=$(getopt -o '' -l test: -- "$@")
errout=$(getopt -o '' -l test: -- "$@" 2>&1 >/dev/null)
if [[ -n "$errout" ]]; then
        echo "Option Error: $errout"

Again, this is only ok to do because getopt has no side effects. I know it's performance-safe because my parent code calls this less than 100 times during the entire program, and the user will never notice 100 getopt calls vs 200 getopt calls.

  • Could you give an example? I'm guessing something like out=$(some_command) and err=$(some_command 2>&1 1>/dev/null)? – ntc2 Jun 19 '14 at 2:51
  • Done! Good thought... – Hamy Jun 19 '14 at 6:14
  • 1
    If some command changes something like trigger email alert ? – zb' Mar 2 '15 at 2:29
  • @eicto - then you'll have to use one of the solutions above - this is only a good solution if your command has no side effects and is computationally cheap – Hamy Mar 2 '15 at 2:33
  • 1
    I doubt that there are many use-cases that require separate handling of stdout and stderr that are free of side-effects – even if a command is deterministic under normal circumstances, errors are not normal circumstances. This approach will also likely be prone to race conditions. – James Haigh Apr 29 '15 at 8:53

Here's a simpler variation that isn't quite what the OP wanted, but is unlike any of the other options. You can get whatever you want by rearranging the file descriptors.

Test command:

%> cat xx.sh  
echo stdout
>&2 echo stderr

which by itself does:

%> ./xx.sh

Now, print stdout, capture stderr to a variable, & log stdout to a file

%> export err=$(./xx.sh 3>&1 1>&2 2>&3 >"out")
%> cat out    
%> echo

Or log stdout & capture stderr to a variable:

export err=$(./xx.sh 3>&1 1>out 2>&3 )
%> cat out
%> echo $err

You get the idea.


One workaround, which is hacky but perhaps more intuitive than some of the suggestions on this page, is to tag the output streams, merge them, and split afterwards based on the tags. For example, we might tag stdout with a "STDOUT" prefix:

function someCmd {
    echo "I am stdout"
    echo "I am stderr" 1>&2

ALL=$({ someCmd | sed -e 's/^/STDOUT/g'; } 2>&1)
OUT=$(echo "$ALL" | grep    "^STDOUT" | sed -e 's/^STDOUT//g')
ERR=$(echo "$ALL" | grep -v "^STDOUT")


If you know that stdout and/or stderr are of a restricted form, you can come up with a tag which does not conflict with their allowed content.

  • Did a more general way to do this that works for all outputs, see my answer to this question. – mncl Apr 5 '18 at 9:29


The following seems a possible lead to get it working without creating any temp files and also on POSIX sh only; it requires base64 however and due to the encoding/decoding may not be that efficient and use also "larger" memory.

  • Even in the simple case, it would already fail, when the last stderr line has no newline. This can be fixed at least in some cases with replacing exe with "{ exe ; echo >&2 ; }", i.e. adding a newline.
  • The main problem is however that everything seems racy. Try using an exe like:

    exe() { cat /usr/share/hunspell/de_DE.dic cat /usr/share/hunspell/en_GB.dic >&2 }

and you'll see that e.g. parts of the base64 encoded line is on the top of the file, parts at the end, and the non-decoded stderr stuff in the middle.

Well, even if the idea below cannot be made working (which I assume), it may serve as an anti-example for people who may falsely believe it could be made working like this.

Idea (or anti-example):


        echo out1
        echo err1 >&2
        echo out2
        echo out3
        echo err2 >&2
        echo out4
        echo err3 >&2
        echo -n err4 >&2

r="$(  { exe  |  base64 -w 0 ; }  2>&1 )"

echo RAW
printf '%s' "$r"
echo RAW

o="$( printf '%s' "$r" | tail -n 1 | base64 -d )"
e="$( printf '%s' "$r" | head -n -1  )"
unset r    

echo OUT
printf '%s' "$o"
echo OUT
echo ERR
printf '%s' "$e"
echo ERR

gives (with the stderr-newline fix):

$ ./ggg 




(At least on Debian's dash and bash)

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