Argument Processing

cmd2 makes it easy to add sophisticated argument processing to your commands using the argparse python module. cmd2 handles the following for you:

  1. Parsing input and quoted strings like the Unix shell
  2. Parse the resulting argument list using an instance of argparse.ArgumentParser that you provide
  3. Passes the resulting argparse.Namespace object to your command function
  4. Adds the usage message from the argument parser to your command.
  5. Checks if the -h/--help option is present, and if so, display the help message for the command

These features are all provided by the @with_argparser decorator which is importable from cmd2.

See the either the argprint or argparse example to learn more about how to use the various cmd2 argument processing decorators in your cmd2 applications.

Using the argument parser decorator

For each command in the cmd2 subclass which requires argument parsing, create an instance of argparse.ArgumentParser() which can parse the input appropriately for the command. Then decorate the command method with the @with_argparser decorator, passing the argument parser as the first parameter to the decorator. This changes the second argumen to the command method, which will contain the results of ArgumentParser.parse_args().

Here’s what it looks like:

import argparse
from cmd2 import with_argparser

argparser = argparse.ArgumentParser()
argparser.add_argument('-p', '--piglatin', action='store_true', help='atinLay')
argparser.add_argument('-s', '--shout', action='store_true', help='N00B EMULATION MODE')
argparser.add_argument('-r', '--repeat', type=int, help='output [n] times')
argparser.add_argument('word', nargs='?', help='word to say')

@with_argparser(argparser)
def do_speak(self, opts)
   """Repeats what you tell me to."""
   arg = opts.word
   if opts.piglatin:
      arg = '%s%say' % (arg[1:], arg[0])
   if opts.shout:
      arg = arg.upper()
   repetitions = opts.repeat or 1
   for i in range(min(repetitions, self.maxrepeats)):
      self.poutput(arg)

Note

The @with_argparser decorator sets the prog variable in the argument parser based on the name of the method it is decorating. This will override anything you specify in prog variable when creating the argument parser.

Help Messages

By default, cmd2 uses the docstring of the command method when a user asks for help on the command. When you use the @with_argparser decorator, the docstring for the do_* method is used to set the description for the argparse.ArgumentParser is With this code:

import argparse
from cmd2 import with_argparser

argparser = argparse.ArgumentParser()
argparser.add_argument('tag', help='tag')
argparser.add_argument('content', nargs='+', help='content to surround with tag')
@with_argparser(argparser)
def do_tag(self, args):
   """create a html tag"""
   self.stdout.write('<{0}>{1}</{0}>'.format(args.tag, ' '.join(args.content)))
   self.stdout.write('\n')

The help tag command displays:

usage: tag [-h] tag content [content ...]

create a html tag

positional arguments:
  tag         tag
  content     content to surround with tag

optional arguments:
  -h, --help  show this help message and exit

If you would prefer you can set the description while instantiating the argparse.ArgumentParser and leave the docstring on your method empty:

import argparse
from cmd2 import with_argparser

argparser = argparse.ArgumentParser(description='create an html tag')
argparser.add_argument('tag', help='tag')
argparser.add_argument('content', nargs='+', help='content to surround with tag')
@with_argparser(argparser)
def do_tag(self, args):
   self.stdout.write('<{0}>{1}</{0}>'.format(args.tag, ' '.join(args.content)))
   self.stdout.write('\n')

Now when the user enters help tag they see:

usage: tag [-h] tag content [content ...]

create an html tag

positional arguments:
  tag         tag
  content     content to surround with tag

optional arguments:
  -h, --help  show this help message and exit

To add additional text to the end of the generated help message, use the epilog variable:

import argparse
from cmd2 import with_argparser

argparser = argparse.ArgumentParser(description='create an html tag',
                                    epilog='This command can not generate tags with no content, like <br/>.')
argparser.add_argument('tag', help='tag')
argparser.add_argument('content', nargs='+', help='content to surround with tag')
@with_argparser(argparser)
def do_tag(self, args):
   self.stdout.write('<{0}>{1}</{0}>'.format(args.tag, ' '.join(args.content)))
   self.stdout.write('\n')

Which yields:

usage: tag [-h] tag content [content ...]

create an html tag

positional arguments:
  tag         tag
  content     content to surround with tag

optional arguments:
  -h, --help  show this help message and exit

This command can not generate tags with no content, like <br/>

Receiving an argument list

The default behavior of cmd2 is to pass the user input directly to your do_* methods as a string. If you don’t want to use the full argument parser support outlined above, you can still have cmd2 apply shell parsing rules to the user input and pass you a list of arguments instead of a string. Apply the @with_argument_list decorator to those methods that should receive an argument list instead of a string:

from cmd2 import with_argument_list

class CmdLineApp(cmd2.Cmd):
    """ Example cmd2 application. """

    def do_say(self, cmdline):
        # cmdline contains a string
        pass

    @with_argument_list
    def do_speak(self, arglist):
        # arglist contains a list of arguments
        pass

Using the argument parser decorator and also receiving a a list of unknown positional arguments

If you want all unknown arguments to be passed to your command as a list of strings, then decorate the command method with the @with_argparser_and_unknown_args decorator.

Here’s what it looks like:

import argparse
from cmd2 import with_argparser_and_unknown_args

dir_parser = argparse.ArgumentParser()
dir_parser.add_argument('-l', '--long', action='store_true', help="display in long format with one item per line")

@with_argparser_and_unknown_args(dir_parser)
def do_dir(self, args, unknown):
    """List contents of current directory."""
    # No arguments for this command
    if unknown:
        self.perror("dir does not take any positional arguments:", traceback_war=False)
        self.do_help('dir')
        self._last_result = CmdResult('', 'Bad arguments')
        return

    # Get the contents as a list
    contents = os.listdir(self.cwd)

    ...

Sub-commands

Sub-commands are supported for commands using either the @with_argparser or @with_argparser_and_unknown_args decorator. The syntax for supporting them is based on argparse sub-parsers.

Also, a convenience function called cmd_with_subs_completer is available to easily add tab completion to functions that implement subcommands. By setting this as the completer of the base command function, the correct completer for the chosen subcommand will be called.

See the subcommands example to learn more about how to use sub-commands in your cmd2 application. This example also demonstrates usage of cmd_with_subs_completer. In addition, the docstring for cmd_with_subs_completer offers more details.

Deprecated optparse support

The optparse library has been deprecated since Python 2.7 (released on July 3rd 2010) and Python 3.2 (released on February 20th, 2011). optparse is still included in the python standard library, but the documentation recommends using argparse instead.

cmd2 includes a decorator which can parse arguments using optparse. This decorator is deprecated just like the optparse library.

Here’s an example:

from optparse import make_option
from cmd2 import options

opts = [make_option('-p', '--piglatin', action="store_true", help="atinLay"),
        make_option('-s', '--shout', action="store_true", help="N00B EMULATION MODE"),
        make_option('-r', '--repeat', type="int", help="output [n] times")]

@options(opts, arg_desc='(text to say)')
def do_speak(self, arg, opts=None):
  """Repeats what you tell me to."""
  arg = ''.join(arg)
  if opts.piglatin:
      arg = '%s%say' % (arg[1:], arg[0])
  if opts.shout:
      arg = arg.upper()
  repetitions = opts.repeat or 1
  for i in range(min(repetitions, self.maxrepeats)):
      self.poutput(arg)

The optparse decorator performs the following key functions for you:

  1. Use shlex to split the arguments entered by the user.
  2. Parse the arguments using the given optparse options.
  3. Replace the __doc__ string of the decorated function (i.e. do_speak) with the help string generated by optparse.
  4. Call the decorated function (i.e. do_speak) passing an additional parameter which contains the parsed options.