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| A pipe can only carry stdout of a program. To pipe stderr through it, you need to redirect stderr to the same destination as stdout. Optionally you can close stdout or redirect it to /dev/null to only get stderr. Some sample code: |
A pipe can only carry standard output (stdout) of a program. To pipe standard error (stderr) through it, you need to redirect stderr to the same destination as stdout. Optionally you can close stdout or redirect it to {{{/dev/null}}} to only get stderr. Some sample code: |
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| # - 'myprog' is an example for a program that outputs both, stdout and # stderr # - after the pipe I will just use a 'cat', of course you can put there # what you want |
# Bourne # Assume 'myprog' is a program that writes to both stdout and stderr. |
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| # version 1: redirect stderr towards the pipe while stdout survives (both come | # version 1: redirect stderr to the pipe while stdout survives (both come |
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| myprog 2>&1 | cat # version 2: redirect stderr towards the pipe without getting stdout (it's |
myprog 2>&1 | grep ... # version 2: redirect stderr to the pipe without getting stdout (it's |
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| myprog 2>&1 >/dev/null | cat #Note that '>/dev/null' comes after '2>&1', otherwise the stderr will also be directed to /dev/null # version 3: redirect stderr towards the pipe while the "original" stdout gets |
myprog 2>&1 >/dev/null | grep ... # version 3: redirect stderr to the pipe while the "original" stdout gets |
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| myprog 2>&1 >&- | cat | myprog 2>&1 >&- | grep ... |
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| One may also pipe stderr only but keep stdout intact (without ''a priori'' knowledge of where the script's output is going). This is a bit trickier. This has an obvious application with eg. dialog, which draws (using ncurses) windows onto the screen to stdout, and returns output to stderr. This may be a little inconvenient, because it may lead to a necessary temporary file which we may like to evade. (Although this is not necessary -- see [#faq40 FAQ #40] for more examples of using dialog specifically!) On [http://www.tldp.org/LDP/abs/html/io-redirection.html TLDP], I've found following trick: |
Another simple example of redirection stdout and stderr: |
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| # Redirecting only stderr to a pipe. exec 3>&1 # Save current "value" of stdout. ls -l /dev/fd/ 2>&1 >&3 3>&- | grep bad 3>&- # Close fd 3 for 'grep' and 'ls'. # ^^^^ ^^^^ exec 3>&- # Now close it for the remainder of the script. # Thanks, S.C. |
# Bourne { command | stdout_reader; } 2>&1 | stderr_reader |
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| The output of the ls command shows where each file descriptor points to. | For further explanation of how redirections and pipes interact, see [[BashFAQ/055|FAQ #55]]. |
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| The same can be done without exec: | This has an obvious application with programs like {{{dialog}}}, which draws (using ncurses) windows onto the screen (stdout), and returns results on stderr. One way to deal with this would be to redirect stderr to a temporary file. But this is not necessary -- see [[BashFAQ/040|FAQ #40]] for examples of using dialog specifically! In the examples above (as well as [[BashFAQ/040|FAQ #40]]), we either discarded stdout altogether, or sent it to a known device ({{{/dev/tty}}} for the user's terminal). One may also pipe stderr only but keep stdout intact (without ''a priori'' knowledge of where the script's output is going). This is a bit trickier. |
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| { ls -l /dev/fd/ 2>&1 1>&3 3>&- | grep bad 3>&-; } 3>&1 | # Bourne # Redirect stderr to a pipe, keeping stdout unaffected. exec 3>&1 # Save current "value" of stdout. myprog 2>&1 >&3 | grep ... # Send stdout to FD 3. exec 3>&- # Now close it for the remainder of the script. # Thanks to http://www.tldp.org/LDP/abs/html/io-redirection.html |
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| To show it as a dialog one-liner: | The same can be done without {{{exec}}}: |
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| # POSIX $ myfunc () { echo "I'm stdout"; echo "I'm stderr" >&2; } $ { myfunc 2>&1 1>&3- | cat > stderr.file 3>&-; } 3>&1 I'm stdout $ cat stderr.file I'm stderr }}} The fd 3 is closed (1>&3- and 3>&-) so that the commands do not inherit it. You can check the difference on linux trying the following: {{{ # Bash { bash <<< 'lsof -a -p $$ -d1,2,3' ;} 3>&1 { bash <<< 'lsof -a -p $$ -d1,2,3' 3>&- ;} 3>&1 }}} To show a {{{dialog}}} one-liner: {{{ # Bourne |
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| dialog --menu Title 0 0 0 FirstItem FirstDescription 2>&1 >&3 3>&- | sed 's/First/Only/' | dialog --menu Title 0 0 0 FirstItem FirstDescription 2>&1 >&3 | sed 's/First/Only/' |
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| This will have the dialog window working properly, yet it will be the output of dialog (returned to stderr) being altered by the sed. Cheers. | This will have the {{{dialog}}} window working properly, yet it will be the output of {{{dialog}}} (returned to stderr) being altered by the {{{sed}}}. |
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| A similar effect can be achieved with process substitution: | A similar effect can be achieved with ProcessSubstitution: |
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| perl -e 'print "stdout\n"; warn "stderr\n"' 2> >(tr a-z A-Z) | # Bash perl -e 'print "stdout\n"; warn "stderr\n"' 2> >(tr '[:lower:]' '[:upper:]') |
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| This will pipe standard error through the tr command. | This will pipe standard error through the {{{tr}}} command. See this [[http://bash-hackers.org/wiki/doku.php?id=howto:redirection_tutorial|redirection tutorial]] (with an example that redirects stdout to one pipe and stderr to another pipe). |
How can I redirect stderr to a pipe?
A pipe can only carry standard output (stdout) of a program. To pipe standard error (stderr) through it, you need to redirect stderr to the same destination as stdout. Optionally you can close stdout or redirect it to /dev/null to only get stderr. Some sample code:
# Bourne # Assume 'myprog' is a program that writes to both stdout and stderr. # version 1: redirect stderr to the pipe while stdout survives (both come # mixed) myprog 2>&1 | grep ... # version 2: redirect stderr to the pipe without getting stdout (it's # redirected to /dev/null) myprog 2>&1 >/dev/null | grep ... # version 3: redirect stderr to the pipe while the "original" stdout gets # closed myprog 2>&1 >&- | grep ...
Another simple example of redirection stdout and stderr:
# Bourne
{ command | stdout_reader; } 2>&1 | stderr_readerFor further explanation of how redirections and pipes interact, see FAQ #55.
This has an obvious application with programs like dialog, which draws (using ncurses) windows onto the screen (stdout), and returns results on stderr. One way to deal with this would be to redirect stderr to a temporary file. But this is not necessary -- see FAQ #40 for examples of using dialog specifically!
In the examples above (as well as FAQ #40), we either discarded stdout altogether, or sent it to a known device (/dev/tty for the user's terminal). One may also pipe stderr only but keep stdout intact (without a priori knowledge of where the script's output is going). This is a bit trickier.
# Bourne # Redirect stderr to a pipe, keeping stdout unaffected. exec 3>&1 # Save current "value" of stdout. myprog 2>&1 >&3 | grep ... # Send stdout to FD 3. exec 3>&- # Now close it for the remainder of the script. # Thanks to http://www.tldp.org/LDP/abs/html/io-redirection.html
The same can be done without exec:
# POSIX
$ myfunc () { echo "I'm stdout"; echo "I'm stderr" >&2; }
$ { myfunc 2>&1 1>&3- | cat > stderr.file 3>&-; } 3>&1
I'm stdout
$ cat stderr.file
I'm stderrThe fd 3 is closed (1>&3- and 3>&-) so that the commands do not inherit it. You can check the difference on linux trying the following:
# Bash
{ bash <<< 'lsof -a -p $$ -d1,2,3' ;} 3>&1
{ bash <<< 'lsof -a -p $$ -d1,2,3' 3>&- ;} 3>&1To show a dialog one-liner:
# Bourne exec 3>&1 dialog --menu Title 0 0 0 FirstItem FirstDescription 2>&1 >&3 | sed 's/First/Only/' exec 3>&-
This will have the dialog window working properly, yet it will be the output of dialog (returned to stderr) being altered by the sed.
A similar effect can be achieved with ProcessSubstitution:
# Bash perl -e 'print "stdout\n"; warn "stderr\n"' 2> >(tr '[:lower:]' '[:upper:]')
This will pipe standard error through the tr command.
See this redirection tutorial (with an example that redirects stdout to one pipe and stderr to another pipe).