So i want to make a "program" that facilitates commands like the yum commands and anothers... when the program is finished i want put it in /usr/bin with the name "dafs"

i tested with this example which the filename is dafs


$1 $2 $3

function yum {
    function maintenance {
        yum -y update
        yum -y upgrade
        yum clean all

    function download {
        yum -y install --downloadonly $3


but when i run ./dafs yum maintenance or ./dafs yum download http it don't work i guess because the syntax is incorrect..

So, how can i pass arguments to functions or sub functions, like the example above?

  • 2
    Where did you get the idea that "sub functions" are a thing that exist? May 16, 2016 at 15:29
  • @CharlesDuffy So functions inside other functions doesn't exists? May 16, 2016 at 15:30
  • Please take a look: shellcheck.net
    – Cyrus
    May 16, 2016 at 15:31
  • @DiogoSaraiva, you can define functions from within other functions, but they're still just regular functions, not "sub functions", and they live inside the main namespace (they aren't scoped to within the function that defines them). There's no special subcommand magic built in to automatically invoke them the way you're doing it here; you need to write that magic yourself if you want it. May 16, 2016 at 15:31
  • 2
    Also, the function keyword is a bashism -- it makes your functions incompatible with more strictly POSIX-compliant shells, but has no other value. May 16, 2016 at 15:34

2 Answers 2


A best-practice way to define subcommands is with a prefixed namespace, and a "launcher" function. This is how git does it, for instance (using git-foo and git-bar commands for git foo and git bar).

Here, I'm using double-underscores rather than a single dash as the separator, as underscores (unlike dashes) are defined as valid within function names by the POSIX sh standard.

yum__maintenance() {
  command yum -y update
  command yum -y upgrade
  command yum clean all

yum__download() {
  command yum -y install --downloadonly "$@"

yum() {
  local cmdname=$1; shift
  if type "yum__$cmdname" >/dev/null 2>&1; then
    "yum__$cmdname" "$@"
    command yum "$cmdname" "$@" # call the **real** yum command

# if the functions above are sourced into an interactive interpreter, the user can
# just call "yum download" or "yum maintenance" with no further code needed.

# if invoked as a script rather than sourced, call function named on argv via the below;
# note that this must be the first operation other than a function definition
# for $_ to successfully distinguish between sourcing and invocation:
[[ $_ != $0 ]] && return

# make sure we actually *did* get passed a valid function name
if declare -f "$1" >/dev/null 2>&1; then
  # invoke that function, passing arguments through
  "$@" # same as "$1" "$2" "$3" ... for full argument list
  echo "Function $1 not recognized" >&2
  exit 1

Items of note:

  • "$@" expands to the full list of arguments passed to the current item in scope, preserving argument boundaries and avoiding glob expansion (unlike $* and unquoted $@).
  • shift pops the first argument ($1) off the front of the list, leaving the new value of "$@" one shorter than the old list.
  • The command builtin causes the real yum command to be called, rather than simply recursing into the yum function again, when no subcommand exists.
  • declare -f funcname returns true (and prints that function's definition) if really passed a function. type, by contrast, returns true if passed any kind of runnable command. Thus, using type "yum__$cmdname" allows yum__foo to be defined as an external script or any other type of command, not just a function, whereas the declare -f "$1" done later allows only functions to be run.

A final thing to consider, if you don't intend to support being sourced, would be leaving out the yum function, but expanding your launcher to recognize subcommands itself:

if declare -f "${1}__$2" >/dev/null; then
  shift; shift    # pop $1 and $2 off the argument list
  "$func" "$@"    # invoke our named function w/ all remaining arguments
elif declare -f "$1" >/dev/null 2>&1; then
  echo "Neither function $1 nor subcommand ${1}__$2 recognized" >&2
  exit 1

In this case, a subcommand named by the first two arguments is always searched for, followed by a function named by the first argument only.

  • 2
    @DiogoSaraiva, I don't follow pastebin.com links. Try looking at the site without an adblocker, and you'll understand why -- anyone who tries that hard to monetize isn't to be trusted not to host malware if they get paid the right amount. Consider gist.github.com, or ix.io. May 16, 2016 at 15:48
  • 1
    @DiogoSaraiva, ...because nothing actually is invoking those functions, if that's all the code you define. And, for that matter, until it's called, yum is the only function that's defined at all; it only defines download and install functions when it's invoked (and, again, they're functions named download or install, not "subfunctions" yum download or yum install; as I said in a comment on the question; there is no such thing as a subfunction). May 16, 2016 at 15:52
  • 1
    @DiogoSaraiva, ...so, your yum function defines two more functions, but it doesn't actually call them. If you wanted to be sloppy, after the definitions you could put "$@" inside the yum function, but that would be very, very sloppy (as in, full of security bugs; it would make giving someone permission to run sudo dafs be equivalent to full unrestricted sudo). The extra code in my answer is a bunch of extra code, but it serves a useful purpose. May 16, 2016 at 16:07

You can also do something like this:

yum() {
    if [ "$1" = "maintenance" ]; then
        command yum -y update
        command yum -y upgrade
        command yum clean all
    elif [ "$1" = "download" ]; then
        command yum -y install --downloadonly "$2"
       echo "Invalid arg..."


if [ "$1" = "yum" ];then
    yum "$@"

Now you can do ./dafs yum maintenance or ./dafs yum download http with it.

  • 1
    The x$1 idiom is ancient -- that hasn't been needed since Bourne shell (not 1990s POSIX sh, but 1970s Bourne), so long as you don't use more than three-argument tests. May 16, 2016 at 15:53
  • 1
    That said, this does do what it says; I prefer the more flexible approach since that way subcommands can be written in non-shell languages if one prefers (as is done with git, for instance). May 16, 2016 at 15:55
  • @CharlesDuffy : I use that idiom to remind me that I am using sh, and also it guards against unintentional unquoted (single word) strings that might be empty for some reason.
    – Jahid
    May 16, 2016 at 16:02
  • (In the >3-argument test case, ie. when using -o or -a to combine tests, grouping operators become valid in arbitrary positions, and the total length of the command line is no longer sufficient to distinguish whether a unary or binary operator is in use -- but for [ "$foo" = "$bar" ], the parsing is unambiguous). May 16, 2016 at 16:02
  • If you have unquoted expansions, you have bigger problems. May 16, 2016 at 16:02

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