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271 lines
8.8 KiB
Markdown
271 lines
8.8 KiB
Markdown
# The coproc keyword
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## Synopsis
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coproc [NAME] command [redirections]
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## Description
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Bash 4.0 introduced *coprocesses*, a feature certainly familiar to ksh
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users. The `coproc` keyword starts a command as a background job,
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setting up pipes connected to both its stdin and stdout so that you can
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interact with it bidirectionally. Optionally, the co-process can have a
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name `NAME`. If `NAME` is given, the command that follows **must be a
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compound command**. If no `NAME` is given, then the command can be
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either simple or compound.
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The process ID of the shell spawned to execute the coprocess is
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available through the value of the variable named by `NAME` followed by
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a `_PID` suffix. For example, the variable name used to store the PID of
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a coproc started with no `NAME` given would be `COPROC_PID` (because
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`COPROC` is the default `NAME`). [wait](../../commands/builtin/wait.md) may be
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used to wait for the coprocess to terminate. Additionally, coprocesses
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may be manipulated through their `jobspec`.
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### Return status
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The return status of a coprocess is the exit status of its command.
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### Redirections
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The optional redirections are applied after the pipes have been set up.
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Some examples:
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``` bash
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# redirecting stderr in the pipe
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$ coproc { ls thisfiledoesntexist; read; } 2>&1
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[2] 23084
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$ IFS= read -ru ${COPROC[0]} x; printf '%s\n' "$x"
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ls: cannot access thisfiledoesntexist: No such file or directory
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```
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``` bash
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#let the output of the coprocess go to stdout
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$ { coproc mycoproc { awk '{print "foo" $0;fflush()}'; } >&3; } 3>&1
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[2] 23092
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$ echo bar >&${mycoproc[1]}
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$ foobar
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```
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Here we need to save the previous file descriptor of stdout, because by
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the time we redirect the fds of the coprocess, stdout has already been
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redirected to the pipe.
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### Pitfalls
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#### Avoid the final pipeline subshell
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The traditional Ksh workaround to avoid the subshell when doing
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`command | while read` is to use a coprocess. Unfortunately, Bash's
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behavior differs.
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In Ksh you would do:
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``` bash
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# ksh93 or mksh/pdksh derivatives
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ls |& # start a coprocess
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while IFS= read -rp file; do print -r -- "$file"; done # read its output
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```
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In bash:
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``` bash
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#DOESN'T WORK
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$ coproc ls
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[1] 23232
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$ while IFS= read -ru ${COPROC[0]} line; do printf '%s\n' "$line"; done
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bash: read: line: invalid file descriptor specification
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[1]+ Done coproc COPROC ls
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```
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By the time we start reading from the output of the coprocess, the file
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descriptor has been closed.
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See [this FAQ entry on Greg's
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wiki](http://mywiki.wooledge.org/BashFAQ/024) for other pipeline
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subshell workarounds.
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#### Buffering
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In the first example, we GNU awk's `fflush()` command. As always, when
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you use pipes the I/O operations are buffered. Let's see what happens
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with `sed`:
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``` bash
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$ coproc sed s/^/foo/
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[1] 22981
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$ echo bar >&${COPROC[1]}
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$ read -t 3 -ru ${COPROC[0]} _; (( $? > 127 )) && echo "nothing read"
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nothing read
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```
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Even though this example is the same as the first `awk` example, the
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`read` doesn't return because the output is waiting in a buffer.
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See [this faq entry on Greg's
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wiki](http://mywiki.wooledge.org/BashFAQ/009) for some workarounds and
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more information on buffering issues.
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#### background processes
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A coprocess\' file descriptors are accessible only to the process from
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which the `coproc` was started. They are not inherited by subshells.
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Here is a not-so-meaningful illustration. Suppose we want to
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continuously read the output of a coprocess and `echo` the result:
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``` bash
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#NOT WORKING
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$ coproc awk '{print "foo" $0;fflush()}'
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[2] 23100
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$ while IFS= read -ru ${COPROC[0]} x; do printf '%s\n' "$x"; done &
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[3] 23104
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bash: line 243: read: 61: invalid file descriptor: Bad file descriptor
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```
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This fails because the file descriptors created by the parent are not
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available to the subshell created by &.
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A possible workaround:
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``` bash
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#WARNING: for illustration purpose ONLY
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# this is not the way to make the coprocess print its output
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# to stdout, see the redirections above.
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$ coproc awk '{print "foo" $0;fflush()}'
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[2] 23109
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$ exec 3<&${COPROC[0]}
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$ while IFS= read -ru 3 x; do printf '%s\n' "$x"; done &
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[3] 23110
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$ echo bar >&${COPROC[1]}
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$ foobar
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```
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Here, fd 3 is inherited.
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## Examples
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### Anonymous Coprocess
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Unlike ksh, Bash doesn't have true anonymous coprocesses. Instead, Bash
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assigns FDs to a default array named `COPROC` if no `NAME` is supplied.
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Here's an example:
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``` bash
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$ coproc awk '{print "foo" $0;fflush()}'
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[1] 22978
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```
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This command starts in the background, and `coproc` returns immediately.
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Two new file descriptors are now available via the `COPROC` array. We
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can send data to our command:
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``` bash
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$ echo bar >&${COPROC[1]}
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```
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And then read its output:
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``` bash
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$ IFS= read -ru ${COPROC[0]} x; printf '%s\n' "$x"
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foobar
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```
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When we don't need our command anymore, we can kill it via its pid:
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$ kill $COPROC_PID
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$
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[1]+ Terminated coproc COPROC awk '{print "foo" $0;fflush()}'
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### Named Coprocess
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Using a named coprocess is simple. We just need a compound command (like
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when defining a function), and the resulting FDs will be assigned to the
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indexed array `NAME` we supply instead.
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``` bash
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$ coproc mycoproc { awk '{print "foo" $0;fflush()}' ;}
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[1] 23058
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$ echo bar >&${mycoproc[1]}
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$ IFS= read -ru ${mycoproc[0]} x; printf '%s\n' "$x"
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foobar
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$ kill $mycoproc_PID
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$
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[1]+ Terminated coproc mycoproc { awk '{print "foo" $0;fflush()}'; }
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```
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### Redirecting the output of a script to a file and to the screen
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``` bash
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#!/bin/bash
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# we start tee in the background
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# redirecting its output to the stdout of the script
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{ coproc tee { tee logfile ;} >&3 ;} 3>&1
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# we redirect stding and stdout of the script to our coprocess
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exec >&${tee[1]} 2>&1
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```
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## Portability considerations
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- The `coproc` keyword is not specified by POSIX(R)
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- The `coproc` keyword appeared in Bash version 4.0-alpha
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- The `-p` option to Bash's `print` loadable is a NOOP and not
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connected to Bash coprocesses in any way. It is only recognized as
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an option for ksh compatibility, and has no effect.
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- The `-p` option to Bash's `read` builtin conflicts with that of all
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kshes and zsh. The equivalent in those shells is to add a `\?prompt`
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suffix to the first variable name argument to `read`. i.e., if the
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first variable name given contains a `?` character, the remainder of
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the argument is used as the prompt string. Since this feature is
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pointless and redundant, I suggest not using it in either shell.
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Simply precede the `read` command with a `printf %s prompt >&2`.
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### Other shells
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ksh93, mksh, zsh, and Bash all support something called \"coprocesses\"
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which all do approximately the same thing. ksh93 and mksh have virtually
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identical syntax and semantics for coprocs. A *list* operator: `|&` is
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added to the language which runs the preceding *pipeline* as a coprocess
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(This is another reason not to use the special `|&` pipe operator in
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Bash \-- its syntax is conflicting). The `-p` option to the `read` and
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`print` builtins can then be used to read and write to the pipe of the
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coprocess (whose FD isn't yet known). Special redirects are added to
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move the last spawned coprocess to a different FD: `<&p` and `>&p`, at
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which point it can be accessed at the new FD using ordinary redirection,
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and another coprocess may then be started, again using `|&`.
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zsh coprocesses are very similar to ksh except in the way they are
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started. zsh adds the shell reserved word `coproc` to the pipeline
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syntax (similar to the way Bash's `time` keyword works), so that the
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pipeline that follows is started as a coproc. The coproc's input and
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output FDs can then be accessed and moved using the same `read`/`print`
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`-p` and redirects used by the ksh shells.
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It is unfortunate that Bash chose to go against existing practice in
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their coproc implementation, especially considering it was the last of
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the major shells to incorporate this feature. However, Bash's method
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accomplishes the same without requiring nearly as much additional
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syntax. The `coproc` keyword is easy enough to wrap in a function such
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that it takes Bash code as an ordinary argument and/or stdin like
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`eval`. Coprocess functionality in other shells can be similarly wrapped
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to create a `COPROC` array automatically.
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### Only one coprocess at a time
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The title says it all, complain to the bug-bash mailing list if you want
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more. See
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<http://lists.gnu.org/archive/html/bug-bash/2011-04/msg00056.html> for
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more details
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The ability to use multiple coprocesses in Bash is considered
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\"experimental\". Bash will throw an error if you attempt to start more
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than one. This may be overridden at compile-time with the
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`MULTIPLE_COPROCS` option. However, at this time there are still issues
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\-- see the above mailing list discussion.
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## See also
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- [Anthony Thyssen's Coprocess
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Hints](http://www.ict.griffith.edu.au/anthony/info/shell/co-processes.hints) -
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excellent summary of everything around the topic
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