= Cri = link:http://rubygems.org/gems/cri[image:http://img.shields.io/gem/v/cri.svg[]] link:https://travis-ci.org/ddfreyne/cri[image:http://img.shields.io/travis/ddfreyne/cri.svg[]] link:https://coveralls.io/r/ddfreyne/cri[image:http://img.shields.io/coveralls/ddfreyne/cri.svg[]] link:https://codeclimate.com/github/ddfreyne/cri[image:http://img.shields.io/codeclimate/github/ddfreyne/cri.svg[]] link:http://inch-pages.github.io/github/ddfreyne/cri/[image:http://inch-pages.github.io/github/ddfreyne/cri.svg[]] Cri is a library for building easy-to-use commandline tools with support for nested commands. == Usage == The central concept in Cri is the _command_, which has option definitions as well as code for actually executing itself. In Cri, the commandline tool itself is a command as well. Here’s a sample command definition: [source,ruby] -------------------------------------------------------------------------------- command = Cri::Command.define do name 'dostuff' usage 'dostuff [options]' aliases :ds, :stuff summary 'does stuff' description 'This command does a lot of stuff. I really mean a lot.' flag :h, :help, 'show help for this command' do |value, cmd| puts cmd.help exit 0 end flag nil, :more, 'do even more stuff' option :s, :stuff, 'specify stuff to do', argument: :required run do |opts, args, cmd| stuff = opts.fetch(:stuff, 'generic stuff') puts "Doing #{stuff}!" if opts[:more] puts 'Doing it even more!' end end end -------------------------------------------------------------------------------- To run this command, invoke the `#run` method with the raw arguments. For example, for a root command (the commandline tool itself), the command could be called like this: [source,ruby] -------------------------------------------------------------------------------- command.run(ARGV) -------------------------------------------------------------------------------- Each command has automatically generated help. This help can be printed using `Cri::Command#help`; something like this will be shown: -------------------------------------------------------------------------------- usage: dostuff [options] does stuff This command does a lot of stuff. I really mean a lot. options: -h --help show help for this command --more do even more stuff -s --stuff specify stuff to do -------------------------------------------------------------------------------- === General command metadata === Let’s disect the command definition and start with the first five lines: [source,ruby] -------------------------------------------------------------------------------- name 'dostuff' usage 'dostuff [options]' aliases :ds, :stuff summary 'does stuff' description 'This command does a lot of stuff. I really mean a lot.' -------------------------------------------------------------------------------- These lines of the command definition specify the name of the command (or the commandline tool, if the command is the root command), the usage, a list of aliases that can be used to call this command, a one-line summary and a (long) description. The usage should not include a “usage:” prefix nor the name of the supercommand, because the latter will be automatically prepended. Aliases don’t make sense for root commands, but for subcommands they do. === Command-line options === The next few lines contain the command’s option definitions: [source,ruby] -------------------------------------------------------------------------------- flag :h, :help, 'show help for this command' do |value, cmd| puts cmd.help exit 0 end flag nil, :more, 'do even more stuff' option :s, :stuff, 'specify stuff to do', argument: :required -------------------------------------------------------------------------------- Options can be defined using the following methods: * `Cri::CommandDSL#option` or `Cri::CommandDSL#opt` * `Cri::CommandDSL#flag` (implies no arguments passed to option) * `Cri::CommandDSL#required` (implies required argument) * `Cri::CommandDSL#optional` (implies optional argument) All these methods take the short option form as their first argument, and a long option form as their second argument. Either the short or the long form can be nil, but not both (because that would not make any sense). In the example above, the `--more` option has no short form. Each of the above methods also take a block, which will be executed when the option is found. The argument to the block are the option value (`true` in case the option does not have an argument) and the command. ==== Multivalued options ==== Each of these four methods take a `:multiple` option. When set to true, multiple option valus are accepted, and the option values will be stored in an array. For example, to parse the command line options string `-o foo.txt -o bar.txt` into an array, so that `options[:output]` contains `[ 'foo.txt', 'bar.txt' ]`, you can use an option definition like this: [source,ruby] -------------------------------------------------------------------------------- option :o, :output, 'specify output paths', argument: :required, multiple: true -------------------------------------------------------------------------------- This can also be used for flags (options without arguments). In this case, the length of the options array is relevant. For example, you can allow setting the verbosity level using `-v -v -v`. The value of `options[:verbose].size` would then be the verbosity level (three in this example). The option definition would then look like this: [source,ruby] -------------------------------------------------------------------------------- flag :v, :verbose, 'be verbose (use up to three times)', multiple: true -------------------------------------------------------------------------------- === The run block === The last part of the command defines the execution itself: [source,ruby] -------------------------------------------------------------------------------- run do |opts, args, cmd| stuff = opts.fetch(:stuff, 'generic stuff') puts "Doing #{stuff}!" if opts[:more] puts 'Doing it even more!' end end -------------------------------------------------------------------------------- The +Cri::CommandDSL#run+ method takes a block with the actual code to execute. This block takes three arguments: the options, any arguments passed to the command, and the command itself. Instead of defining a run block, it is possible to declare a class, the _command runner_ class (`Cri::CommandRunner`) that will perform the actual execution of the command. This makes it easier to break up large run blocks into manageable pieces. === Subcommands === Commands can have subcommands. For example, the `git` commandline tool would be represented by a command that has subcommands named `commit`, `add`, and so on. Commands with subcommands do not use a run block; execution will always be dispatched to a subcommand (or none, if no subcommand is found). To add a command as a subcommand to another command, use the `Cri::Command#add_command` method, like this: [source,ruby] -------------------------------------------------------------------------------- root_cmd.add_command(cmd_add) root_cmd.add_command(cmd_commit) root.cmd.add_command(cmd_init) -------------------------------------------------------------------------------- == Contributors == * Toon Willems * Ken Coar Thanks for Lee “injekt” Jarvis for link:https://github.com/injekt/slop[Slop], which has inspired the design of Cri 2.0.