Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I often use pipes in BASH, e.g.:

dmesg | less

Although I know what this outputs, it takes dmesg and lets me scroll through it with less, I do not understand what the | is doing. Is it simply the opposite of >?

  • Is there a simple, or metaphorical explanation for what | does?
  • What goes on when several pipes are used in a single line?
  • Is the behavior of pipes consistent everywhere it appears in a BASH script?
share|improve this question

8 Answers 8

A Unix pipe connects the STDOUT (standard output) file descriptor of the first process to the STDIN (standard input) of the second. What happens then is that when the first process writes to its STDOUT, that output can be immediately read (from STDIN) by the second process.

Using multiple pipes is no different than using a single pipe. Each pipe is independent, and simply links the STDOUT and STDIN of the adjacent processes.

Your third question is a little bit ambiguous. Yes, pipes, as such, are consistent everywhere in a bash script. However, the pipe character | can represent different things. Double pipe (||), represents the "or" operator, for example.

share|improve this answer
2  
Note the word "immediately"! I point this out because we who use Bash for casual scripting tend to think of our commands as synchronous, our scripts as completely sequential. We expect pipes to execute the left command, and pass it's output into the following command. But pipes use forking, and the commands are actually executed in parallel. For many commands this fact is functionally inconsequential, but sometimes it matters. For example, check out the output of: ps | cat. –  smhmic Jan 17 at 22:37

Every standard process in Unix has at least three file descriptors, which are sort of like interfaces:

  • Standard output, which is the place where the process prints its data (most of the time the console, that is, your screen or terminal).
  • Standard input, which is the place it gets its data from (most of the time it may be something akin to your keyboard).
  • Standard error, which is the place where errors and sometimes other out-of-band data goes. It's not interesting right now because pipes don't normally deal with it.

The pipe connects the standard output of the process to the left to the standard input of the process of the right. You can think of it as a dedicated program that takes care of copying everything that one program prints, and feeding it to the next program (the one after the pipe symbol). It's not exactly that, but it's an adequate enough analogy.

Each pipe operates on exactly two things: the standard output coming from its left and the input stream expected at its right. Each of those could be attached to a single process or another bit of the pipeline, which is the case in a multi-pipe command line. But that's not relevant to the actual operation of the pipe; each pipe does its own.

The redirection operator (>) does something related, but simpler: by default it sends the standard output of a process directly to a file. As you can see it's not the opposite of a pipe, but actually complementary. The opposite of > is unsurprisingly <, which takes the content of a file and sends it to the standard input of a process (think of it as a program that reads a file byte by byte and types it in a process for you).

share|improve this answer

A pipe takes the output of a process, by output I mean the standard output (stdout on UNIX) and passes it on the standard input (stdin) of another process. It is not the opposite of the simple right redirection > which purpose is to redirect an output to another output.

For example, take the echo command on Linux which is simply printing a string passed in parameter on the standard output. If you use a simple redirect like :

echo "Hello world" > helloworld.txt

the shell will redirect the normal output initially intended to be on stdout and print it directly into the file helloworld.txt.

Now, take this example which involves the pipe :

ls -l | grep helloworld.txt

The standard output of the ls command will be outputed at the entry of grep, so how does this work?

Programs such as grep when they're being used without any arguments are simply reading and waiting for something to be passed on their standard input (stdin). When they catch something, like the ouput of the ls command, grep acts normally by finding an occurence of what you're searching for.

share|improve this answer

The pipe operator takes the output of the first command, and 'pipes' it to the second one by connecting stdin and stdout. In your example, instead of the output of dmesg command going to stdout (and throwing it out on the console), it is going right into your next command.

share|improve this answer
    
Pipes don't pass the output as a parameter. Pipes connect STDOUT to STDIN. Some commands have to be specifically instructed to look at STDIN (usually by giving a hyphen instead of a file name) before they can be used in pipes. –  quanticle Mar 23 '12 at 4:21
    
Alright, thank you for the correction! I updated my answer. –  franka Mar 23 '12 at 4:33
    
It's very important to note that it streams it too. The process on the right doesn't need to wait for the process on the left to finish before it can start working. So things like yes | rm -r * as an alternative to rm -rf * work evn though yes never finishes executing –  Paulpro Mar 23 '12 at 4:35
    
Interesting, I didn't know that. –  franka Mar 23 '12 at 4:36

When I finally found this brilliant tutorial, I stopped scrashing my hair with redirections.

share|improve this answer
    
absolutely perfect! –  Gabriel Oct 31 at 10:25
  • | puts the STDOUT of the command at left side to the STDIN of the command of right side.

  • If you use multiple pipes, it's just a chain of pipes. First commands output is set to second commands input. Second commands output is set to next commands input. An so on.

  • It's available in all Linux/widows based command interpreter.

share|improve this answer

If you treat each unix command as a standalone module,
but you need them to talk to each other using text as a consistent interface,
how can it be done?

cmd                       input                    output

echo "foobar"             string                   "foobar" 
cat "somefile.txt"        file                     *string inside the file*
grep "pattern" "a.txt"    pattern, input file      *matched string*

You can say | is a metaphor for passing the baton in a relay marathon.
Its even shaped like one!
cat -> echo -> less -> awk -> perl is analogous to cat | echo | less | awk | perl.

cat "somefile.txt" | echo
cat pass its output for echo to use.

What happens when there is more than one input?
cat "somefile.txt" | grep "pattern"
There is an implicit rule that says "pass it as input file rather than pattern" for grep.
You will slowly develop the eye for knowing which parameter is which by experience.

share|improve this answer

Pipes are very simple like this.

You have the output of one command. You can provide this output as the input into another command using pipe. You can pipe as many commands as you want.

ex: ls | grep my | grep files

This first lists the files in the working directory. This output is checked by the grep command for the word "my". The output of this is now into the second grep command which finally searches for the word "files". Thats it.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.