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sub: a delicious way to organize programs

Sub is a model for setting up shell programs that use subcommands, like git or rbenv using bash. Making a sub does not require you to write shell scripts in bash, you can write subcommands in any scripting language you prefer.

A sub program is run at the command line using this style:

$ [name of program] [subcommand] [(args)]

Here's some quick examples:

$ rbenv                    # prints out usage and subcommands
$ rbenv versions           # runs the "versions" subcommand
$ rbenv shell 1.9.3-p194   # runs the "shell" subcommand, passing "1.9.3-p194" as an argument

Each subcommand maps to a separate, standalone executable program. Sub programs are laid out like so:

.
├── bin               # contains the main executable for your program
├── completions       # (optional) bash/zsh completions
├── libexec           # where the subcommand executables are
└── share             # static data storage

Subcommands

Each subcommand executable does not necessarily need to be in bash. It can be any program, shell script, or even a symlink. It just needs to run.

Here's an example of adding a new subcommand. Let's say your sub is named rush. Run:

touch libexec/rush-who
chmod a+x libexec/rush-who

Now open up your editor, and dump in:

#!/usr/bin/env bash
set -e

who

Of course, this is a simple example... but now rush who should work!

$ rush who
qrush     console  Sep 14 17:15 

You can run any executable in the libexec directly, as long as it follows the NAME-SUBCOMMAND convention. Try out a Ruby script or your favorite language!

What's on your sub

You get a few commands that come with your sub:

  • commands: Prints out every subcommand available.
  • completions: Helps kick off subcommand autocompletion.
  • help: Document how to use each subcommand.
  • init: Shows how to load your sub with autocompletions, based on your shell.
  • require: Can be used in subcommands to ensure an executable dependency exists (e.g. aws or jq).
  • setup: Guides the user through setting up the CLI, including customising secrets.sh.

If you ever need to reference files inside of your sub's installation, say to access a file in the share directory, your sub exposes the directory path in the environment, based on your sub name. For a sub named rush, the variable name will be _RUSH_ROOT.

Here's an example subcommand you could drop into your libexec directory to show this in action: (make sure to correct the name!)

#!/usr/bin/env bash
set -e

echo $_RUSH_ROOT

You can also use this environment variable to call other commands inside of your libexec directly. Composition of this type very much encourages reuse of small scripts, and keeps scripts doing one thing simply.

Self-documenting subcommands

Each subcommand can opt into self-documentation, which allows the subcommand to provide information when sub and sub help [SUBCOMMAND] is run.

This is all done by adding a few magic comments. Here's an example from rush who (also see sub commands for another example):

#!/usr/bin/env bash
# Usage: sub who
# Summary: Check who's logged in
# Help: This will print out when you run `sub help who`.
# You can have multiple lines even!
#
#    Show off an example indented
#
# And maybe start off another one?

set -e

who

Now, when you run sub, the "Summary" magic comment will now show up:

usage: sub <command> [<args>]

Some useful sub commands are:
   commands               List all sub commands
   who                    Check who's logged in

And running sub help who will show the "Usage" magic comment, and then the "Help" comment block:

Usage: sub who

This will print out when you run `sub help who`.
You can have multiple lines even!

   Show off an example indented

And maybe start off another one?

That's not all you get by convention with sub...

Autocompletion

Your sub loves autocompletion. It's the mustard, mayo, or whatever topping you'd like that day for your commands. Just like real toppings, you have to opt into them! Sub provides two kinds of autocompletion:

  1. Automatic autocompletion to find subcommands (What can this sub do?)
  2. Opt-in autocompletion of potential arguments for your subcommands (What can this subcommand do?)

Opting into autocompletion of subcommands requires that you add a magic comment of (make sure to replace with your sub's name!):

# Provide YOUR_SUB_NAME completions

and then your script must support parsing of a flag: --complete. Here's an example from rbenv, namely rbenv whence:

#!/usr/bin/env bash
set -e
[ -n "$RBENV_DEBUG" ] && set -x

# Provide rbenv completions
if [ "$1" = "--complete" ]; then
  echo --path
  exec rbenv shims --short
fi

# lots more bash...

Passing the --complete flag to this subcommand short circuits the real command, and then runs another subcommand instead. The output from your subcommand's --complete run is sent to your shell's autocompletion handler for you, and you don't ever have to once worry about how any of that works!

Run the init subcommand after you've prepared your sub to get your sub loading automatically in your shell.

Support for script generated help

In some cases a command might be complex enough to require the use of an option parser library, e.g. Ruby's OptionParser. These libraries often provide a nice help output generated from the options and their descriptions. To help prevent duplication sub supports querying the command for the help output instead of reading from the top of the file.

Opting into custom help requires that you add a magic comment of # Provide custom help, and then your script must support parsing of a flag: --help.

Nested commands

Organise related commands using nested commands.

To create nested commands you need to create a sub-* directory under libexec which will contain the subcommands. Nested commands don't have the sub- prefix in the filename but otherwise follow the same conventions.

$ tree libexec
libexec
├── sub
├── sub-commands
├── ...
├── sub-param
│   ├── check
│   ├── get
│   ├── set
│   └── unset
└── ...
$ sub param             # lists subcommands of `param`
$ sub help param set    # displays help on the `set` subcommand
$ sub param set ...     # invokes the `set` subcommand

Shortcuts

Creating shortcuts for commands is easy, just symlink the shorter version you'd like to run inside of your libexec directory.

Let's say we want to shorten up our rush who to rush w. Just make a symlink!

cd libexec
ln -s rush-who rush-w

Now, rush w should run libexec/rush-who, and save you mere milliseconds of typing every day!

Prepare your sub

Clone this repo:

git clone git@github.com:qrush/sub.git [name of your sub]
cd [name of your sub]
./prepare.sh [name of your sub]

The prepare script will run you through the steps for making your own sub. Also, don't call it sub, by the way! Give it a better name.

Install your sub

So you've prepared your own sub, now how do you use it? Here's one way you could install your sub in your $HOME directory:

cd
git clone [YOUR GIT HOST URL]/sub.git .sub

For bash users:

echo 'eval "$($HOME/.sub/bin/sub init -)"' >> ~/.bash_profile
exec bash

For zsh users:

echo 'eval "$($HOME/.sub/bin/sub init -)"' >> ~/.zshenv
source ~/.zshenv

You could also install your sub in a different directory, say /usr/local. This is just one way you could provide a way to install your sub.

Finally, there is a setup subcommand which automates generating a secrets.sh file using secrets.sh.example as a template. You can customize the example file to list the environment variables your sub needs. You may also customize the setup command itself if you need something more to happen for each new user.

License

MIT. See LICENSE.

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