Pipe, standard input and command line arguments in Bash

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轻奢々
轻奢々 2020-12-01 15:06

Consider:

command1 | command2

Is the output of command1 used as standard input of command2 or as command line arguments to command2?

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  • 2020-12-01 15:36

    Another form of redirection is process substitution.

    grep "hehe" <(cat test.sh)
    

    is equivalent to:

    grep "hehe" test.sh
    

    which both look at the contents of test.sh itself.

    While, as it has been noted, this command:

    grep "hehe" $(cat test.sh)
    

    looks for filenames in test.sh and uses them as arguments for grep. So if test.sh consists of:

    scriptone
    scripttwo
    

    then grep is going to look for "hehe" in the contents of each of those files.

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  • 2020-12-01 15:37

    What is the equivalent of a bash pipe using command line arguments?

    Pipes and command line arguments are different forms of input that are not interchangeable. If a program allows you to have equivalent forms of both, that is the choice of that program alone. (In source code, command line arguments appear as text in a variable, while pipes appear as open files, including stdin and stdout. Bash I/O redirection syntax, as used here lateron, technically does not belong to command line arguments, even though written right next to them on the command line …)

    But let's be pedantic and also answer this:

    What is the equivalent of a bash pipe without using a bash pipe character?

    Answer: cat test.sh | grep "hehe" is equivalent to

    grep "hehe" < <(cat test.sh)
    

    Explanation:

    • Pipes redirect stdout of one command to stdin of another. To set the source of stdin, we can use input redirection (< …) instead of using the pipe character.
    • However, just using input redirection (grep "hehe" < test.sh) is not the equivalent to pipes because it uses a file as the source for stdin, while pipes use the output a command (cat test.sh). So in addition, we add process substitution <(…) to replace input from a file with input from a command.
    • Of course, the example is confusing because the two variants have the same effects:

      grep "hehe" < test.sh
      grep "hehe" < <(cat test.sh)
      

      But technically, input from a file is still a different mechanism than input from the output of a command that gets its input from a file.

    Source: Advanced Bash Scripting Manual, section on process substitution (start reading at "Some other usages").

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  • 2020-12-01 15:42

    It's used as the stdin.

    Try:

    grep "hehe" - $(cat test.sh)
    

    That might be wrong; I can't test it out on this computer. If you do it without the pipe like you tried, grep treats the last argument as a filename, ie, looks for a file called [contents of test.sh]. If you pass it a - (or don't put a last argument), you tell it to use stdin as the file.

    You can also just pass grep a file to scan through:

    grep "hehe" test.sh
    

    ...but you seem to be asking more of a generalized bash question, not really a grep usage question, so that's probably not too helpful.

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  • 2020-12-01 15:52
    grep "hehe" < test.sh
    

    Input redirection - works for a single file only, of course, whereas cat works for any number of input files.


    Consider the notations:

    grep "hehe" $(cat test.sh)
    grep "hehe" `cat test.sh`
    

    These are equivalent in this context; it is much easier to use the '$(cmd)' notation in nested uses, such as:

    x=$(dirname $(dirname $(which gcc)))
    x=`dirname \`dirname \\\`which gcc\\\`\``
    

    (This gives you the base directory in which GCC is installed, in case you are wondering.)

    In the grep example, what happens is that the contents of test.sh is read and split into white-space separated words, and each such word is provided as an argument to grep. Since grep treats the words after "hehe" (where grep, of course, does not see the double quotes - and they are not needed in this case; as a general rule, use single quotes rather than double quotes, especially around complex strings like regular expressions which often use shell metacharacters)... As I was saying, grep treats the words after "hehe" as file names, and tries to open each file, usually failing dismally because the files do not exist. This is why the notation is not appropriate in this context.


    After revisiting the question, there is more that could be said - that hasn't already been said.

    First off, many Unix commands are designed to work as 'filters'; they read input from some files, transform it in some way, and write the result onto standard output. Such commands are designed for use within command pipelines. Examples include:

    • cat
    • grep
    • troff and relatives
    • awk (with caveats)
    • sed
    • sort

    All these filters have the same general behaviour: they take command line options to control their behaviour, and then they either read the files specified as command line arguments or, if there are no such arguments, they read their standard input. Some (like sort) can have options to control where their output goes instead of standard output, but that is relatively uncommon.

    There are a few pure filters - tr is one such - that strictly read standard input and write to standard output.

    Other commands have different behaviours. Eric Raymond provides a taxonomy for command types in "The Art of UNIX Programming".

    Some commands generate lists of file names on standard output - the two classics are ls and find.

    Sometimes, you want to apply the output from a file name generator as command line arguments for a filter. There's a program that does that automatically - it is xargs.

    Classically, you would use:

    find . -name '*.[chyl]' | xargs grep -n magic_name /dev/null
    

    This would generate a complete list of files with the extensions '.c', '.h', '.y' and '.l' (C source, headers, Yacc and Lex files). As the list is read by xargs, it would create command lines with grep -n magic_name /dev/null at the start and each word (separated by white space) as an argument.

    In the old days, Unix file names didn't include spaces. Under the influence of Mac and Windows, such spaces are now common-place. The GNU versions of find and xargs have complementary options to deal with this problem:

    find . -name '*.[chyl]' -print0 | xargs -0 grep -n magic_name /dev/null
    

    The '-print0' option means "print file names terminated by a NUL '\0'" (because the only characters that cannot appear in a (simple) file name are '/' and NUL, and obviously, '/' can appear in path names). The corresponding '-0' tells xargs to look for names terminated by NUL instead of space separated names.

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