Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Is there any way to kick off optparse several times in one Ruby program, each with different sets of options?


$ myscript.rb --subsys1opt a --subsys2opt b

here, myscript.rb would use subsys1 and subsys2, delegating their options handling logic to them, possibly in a sequence where 'a' is processed first, followed by 'b' in separate OptParser object; each time picking options only relevant for that context.. A final phase could check that there is nothing unknown left after each part processed theirs.

Use cases:

  1. in a loosely coupled -frontend- program , where various components have different arguments, I don't want 'main' to know about everything, just to delegate sets of arguments/options to each part

  2. Embedding some larger system like RSpec into my application, and I'd to simply pass command line through their options without my wrapper knowing those.

I'd be OK with some delimiter option as well, like '--' or '--vmargs' in some Java apps.

There are lots of real world examples for similar things in the Unix world (startx/X, git plumbing and porcelain), where one layer handles some options but propagates the rest to the lower layer.

Out of the box, this doesn't seem to work: each OptionParse.parse! calls will do an exhaustive processing, failing on anything it doesn't know about. I guess i'd happy to skip unknown options. Any hints, perhaps alternative approaches are welcome.

share|improve this question
In your example above, myscript.rb will receive all options as ARGV. If I understand you, you say that some of those options need to be passed to "sub layers". Does myscript.rb call those sub layers? If yes, your question becomes simply how to retrieve some elements from the ARGV array, passing the rest to another program. If myscript.rb doesn't call the sub layers, what does? –  Alkaline Sep 4 '10 at 13:18
Yes, myscript.rb uses those sublayers (updated the description to make that clearer). So your rephrased question is almost correct "how to retrieve some elements from the ARGV array, passing the rest to another program", except it's not necessary another program (that's why I used the more generic subsystem/component term), and I specifically asked about 'optparse'. Hence "Can optparse skip unknown options, to be processed later in a ruby program?" –  inger Sep 4 '10 at 13:41

6 Answers 6

up vote 3 down vote accepted

Assuming the order in which the parsers will run is well defined, you can just stored the extra options in a temporary global variable and run OptionParser#parse! each set of options. The easiest way to do this is to use a delimiter like you alluded to. Suppose the second set of arguments is separated from the first by the delimiter --. Then this will do what you want:

opts = OptionParser.new do |opts|
    # set up one OptionParser here

both_args = $*.join(" ").split(" -- ")
$extra_args = both_args[1].split(/\s+/)

Then, in the second code/context, you could do

other_opts = OptionParser.new do |opts|
    # set up the other OptionParser here


Alternatively (and this is probably the "more proper" way to do this), you could simply use OptionParser#parse (no exclamation point), which doesn't remove the command-line switches from the $* array, and make sure that there aren't options defined the same in both sets. I would advise against modifying the $* array by hand, since it makes your code harder to understand if you are only looking at the second part, but you could do that. You would have to ignore invalid options in this case:

rescue OptionParser::InvalidOption
    puts "Warning: Invalid option"

Hope this helps.


The second method doesn't actually work, as was pointed out in a comment. However, if you have to modify the $* array anyway, you can do this instead:

tmp = Array.new

while($*.size > 0)
    rescue OptionParser::InvalidOption => e
        tmp.push(e.to_s.sub(/invalid option:\s+/,''))

tmp.each { |a| $*.push(a) }

It's more than a little bit hack-y, but it should do what you want.

share|improve this answer
Yes, the delimiter approach seems a viable way, I just hoped it to be nicer than tweaking arrays, with join and split; perhaps directly supported by OptionParser. The problem with your alternative solution is, when that exception is raised, the whole processing is aborted, so subsequent good arguments would be skipped too. Check this: ruby -roptparse -e 'begin OptionParser.new {|o|o.on("--ok"){puts "OK"}}.parse *ARGV;rescue OptionParser::InvalidOption;warn "BAD";end' -- --bad --ok # this says BAD although should say OK as well. –  inger Sep 4 '10 at 15:12
Also, one of my usecases above is to wrap existing frameworks/systems like RSpec with minimal effort, something like calling Spec::Runner.run_examples, which does optparsing internally. So, unfortunately this means I do have rewrite ARGV (even though it's constant and agree with you to avoid it if possible) –  inger Sep 4 '10 at 15:27
Is seems noone came up with a nicer solution - so maybe a hack is required indeed:( Anyhow, accepting this answer for now :). Thank you –  inger Feb 10 '11 at 14:29

Another solution which relies on parse! having a side effect on the argument list even if an error is thrown.

Let's define a method which tries to scan some argument list using a user defined parser and calls itself recursively when an InvalidOption error is thrown, saving the invalid option for later with eventual parameters:

def parse_known_to(parser, initial_args=ARGV.dup)
    other_args = []                                         # this contains the unknown options
    rec_parse = Proc.new { |arg_list|                       # in_method defined proc 
            parser.parse! arg_list                          # try to parse the arg list
        rescue OptionParser::InvalidOption => e
            other_args += e.args                            # save the unknown arg
            while arg_list[0] && arg_list[0][0] != "-"      # certainly not perfect but
                other_args << arg_list.shift                # quick hack to save any parameters
            rec_parse.call arg_list                         # call itself recursively
    rec_parse.call initial_args                             # start the rec call
    other_args                                              # return the invalid arguments

my_parser = OptionParser.new do

other_options = parse_known_to my_parser
share|improve this answer

I've got the same problem, and I found the following solution:

options = ARGV.dup
remaining = []
while !options.empty?
    head = options.shift
  rescue OptionParser::InvalidOption
    remaining << head

share|improve this answer
another nice hack, thanks :) how does this handle parameterised options? you seem to be looking at one argument at a time, but it should be OptParser's knowledge to know which ones need how many parameters? –  inger May 4 '11 at 21:23
That is definitely a good point :) Won't work with options that have arguments unless the user uses the --option=value syntax. –  sylvain.joyeux Aug 14 '12 at 16:03

For posterity, you can do this with the order! method:

option_parser.order!(args) do |unrecognized_option|

At this point, args has been modified - all known options were consumed and handled by option_parser - and can be passed to a different option parser:

some_other_option_parser.order!(args) do |unrecognized_option|

Obviously, this solution is order-dependent, but what you are trying to do is somewhat complex and unusual.

One thing that might be a good compromise is to just use -- on the command line to stop processing. Doing that would leave args with whatever followed --, be that more options or just regular arguments.

share|improve this answer

I've just moved from Python. Python's ArgumentParser has great method parse_known_args(). But it still doesn't accept second argument, such as:

$ your-app -x 0 -x 1

First -x 0 is your app's argument. Second -x 1 can belong to the target app that you need to forward to. ArgumentParser will raise error in this case.

Now come back to Ruby, you can use #order. Fortunately it accepts unlimited duplicate arguments. For example you need -a and -b. Your target app needs another -a and a mandatory argument some (note that there is no prefix -/--). Normally #parse will ignore mandatory arguments. But with #order, you will get the rest -- great. Note that you have to pass your own app's arguments first, then the target app's arguments.

$ your-app -a 0 -b 1 -a 2 some

And the code should be:

require 'optparse'
require 'ostruct'

# Build default arguments
options = OpenStruct.new
options.a = -1
options.b = -1

# Now parse arguments
target_app_argv = OptionParser.new do |opts|
    # Handle your own arguments here
    # ...

puts ' > Options         = %s' % [options]
puts ' > Target app argv = %s' % [target_app_argv]

Tada :-)

share|improve this answer

I ran into a similar problem when I was writing a script that wrapped a ruby gem, which needed its own options with arguments passed to it.

I came up with the following solution in which it supports options with arguments for the wrapped tool. It works by parsing it through the first optparser, and separates what it can't use into a seperate array (which can be re-parsed again with another optparse).

optparse = OptionParser.new do |opts|
    # OptionParser settings here

arguments = ARGV.dup
secondary_arguments = []

first_run = true
errors = false
while errors || first_run
  errors = false
  first_run = false
    optparse.order!(arguments) do |unrecognized_option|
  rescue OptionParser::InvalidOption => e
    errors = true
    e.args.each { |arg| secondary_arguments.push(arg) }

primary_arguments = ARGV.dup
secondary_arguments.each do |cuke_arg|

puts "Primary Args: #{primary_arguments}"
puts "Secondary Args: #{secondary_args}"

# Can parse the second list here, if needed
# optparse_2.parse(secondary_args)

Probably not the greatest or most efficient way of doing it, but it worked for me.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.