Piping the stdout of a command into the stdin of another is a powerful technique. But, what if you need to pipe the stdout of multiple commands? This is where process substitution comes in.
Process substitution feeds the output of a process (or processes) into the stdin of another process.
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<(command_list)
Process substitution uses /dev/fd/<n> files to send the results of the process(es) within parentheses to another process. [1]
There is no space between the the "<" or ">" and the parentheses. Space there would give an error message. |
bash$ echo >(true) /dev/fd/63 bash$ echo <(true) /dev/fd/63 |
Process substitution can compare the output of two different commands, or even the output of different options to the same command.
bash$ comm <(ls -l) <(ls -al) total 12 -rw-rw-r-- 1 bozo bozo 78 Mar 10 12:58 File0 -rw-rw-r-- 1 bozo bozo 42 Mar 10 12:58 File2 -rw-rw-r-- 1 bozo bozo 103 Mar 10 12:58 t2.sh total 20 drwxrwxrwx 2 bozo bozo 4096 Mar 10 18:10 . drwx------ 72 bozo bozo 4096 Mar 10 17:58 .. -rw-rw-r-- 1 bozo bozo 78 Mar 10 12:58 File0 -rw-rw-r-- 1 bozo bozo 42 Mar 10 12:58 File2 -rw-rw-r-- 1 bozo bozo 103 Mar 10 12:58 t2.sh |
Using process substitution to compare the contents of two directories (to see which filenames are in one, but not the other):
diff <(ls $first_directory) <(ls $second_directory) |
Some other usages and uses of process substitution:
read -a list < <( od -Ad -w24 -t u2 /dev/urandom ) # Read a list of random numbers from /dev/urandom, #+ process with "od" #+ and feed into stdin of "read" . . . # From "insertion-sort.bash" example script. # Courtesy of JuanJo Ciarlante. |
cat <(ls -l) # Same as ls -l | cat sort -k 9 <(ls -l /bin) <(ls -l /usr/bin) <(ls -l /usr/X11R6/bin) # Lists all the files in the 3 main 'bin' directories, and sorts by filename. # Note that three (count 'em) distinct commands are fed to 'sort'. diff <(command1) <(command2) # Gives difference in command output. tar cf >(bzip2 -c > file.tar.bz2) $directory_name # Calls "tar cf /dev/fd/?? $directory_name", and "bzip2 -c > file.tar.bz2". # # Because of the /dev/fd/<n> system feature, # the pipe between both commands does not need to be named. # # This can be emulated. # bzip2 -c < pipe > file.tar.bz2& tar cf pipe $directory_name rm pipe # or exec 3>&1 tar cf /dev/fd/4 $directory_name 4>&1 >&3 3>&- | bzip2 -c > file.tar.bz2 3>&- exec 3>&- # Thanks, Stéphane Chazelas |
Here is a method of circumventing the problem of an echo piped to a while-read loop running in a subshell.
Example 22-1. Code block redirection without forking
#!/bin/bash # wr-ps.bash: while-read loop with process substitution. # This example contributed by Tomas Pospisek. # (Heavily edited by the ABS Guide author.) echo echo "random input" | while read i do global=3D": Not available outside the loop." # ... because it runs in a subshell. done echo "\$global (from outside the subprocess) = $global" # $global (from outside the subprocess) = echo; echo "--"; echo while read i do echo $i global=3D": Available outside the loop." # ... because it does *not* run in a subshell. done < <( echo "random input" ) # ^ ^ echo "\$global (using process substitution) = $global" # random input # $global (using process substitution) = 3D: Available outside the loop. echo; echo "##########"; echo # And likewise . . . declare -a inloop index=0 cat $0 | while read line do inloop[$index]="$line" ((index++)) # It runs in a subshell, so ... done echo "OUTPUT = " echo ${inloop[*]} # ... nothing echoes. echo; echo "--"; echo declare -a outloop index=0 while read line do outloop[$index]="$line" ((index++)) # It does *not* run in a subshell, so ... done < <( cat $0 ) echo "OUTPUT = " echo ${outloop[*]} # ... the entire script echoes. exit $? |
A reader sent in the following interesting example of process substitution.
# Script fragment taken from SuSE distribution: # --------------------------------------------------------------# while read des what mask iface; do # Some commands ... done < <(route -n) # ^ ^ First < is redirection, second is process substitution. # To test it, let's make it do something. while read des what mask iface; do echo $des $what $mask $iface done < <(route -n) # Output: # Kernel IP routing table # Destination Gateway Genmask Flags Metric Ref Use Iface # 127.0.0.0 0.0.0.0 255.0.0.0 U 0 0 0 lo # --------------------------------------------------------------# # As Stéphane Chazelas points out, #+ an easier-to-understand equivalent is: route -n | while read des what mask iface; do # Variables set from output of pipe. echo $des $what $mask $iface done # This yields the same output as above. # However, as Ulrich Gayer points out . . . #+ this simplified equivalent uses a subshell for the while loop, #+ and therefore the variables disappear when the pipe terminates. # --------------------------------------------------------------# # However, Filip Moritz comments that there is a subtle difference #+ between the above two examples, as the following shows. ( route -n | while read x; do ((y++)); done echo $y # $y is still unset while read x; do ((y++)); done < <(route -n) echo $y # $y has the number of lines of output of route -n ) More generally spoken ( : | x=x # seems to start a subshell like : | ( x=x ) # while x=x < <(:) # does not ) # This is useful, when parsing csv and the like. # That is, in effect, what the original SuSE code fragment does. |
[1] | This has the same effect as a named pipe (temp file), and, in fact, named pipes were at one time used in process substitution. |
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