How do you write the following using the Symbol#to_proc syntax?

[[a,1],[b,2],[c,3]].map { |r| r[0] }

This gives an error that the number of arguments is wrong. But I do not know where to give the index argument.

[[a,1],[b,2],[c,3]].map &:[]  # Where to put the index 0 ?

I prefer the first form, and I just want to know how to do it using &:.


You can't. You can pass only methods without parameters that way. In your case you need to suply 0 as a parameter, which you can only using block syntax.

On the other hand, you can achieve the same using first method:



Both Joerg's and tokland's answers inspired me to experiment a little bit. You can actually do something like this:

arr = [[:a, 1], [:b, 2], [:c, 3]]
#=> [:a, :b, :c]
#=> [1, 2, 3]

Symbol#to_proc takes the first argument to be the receiver and passes on any extra arguments it receives to the method, but in this case it gets passed only one argument, because Enumerable#map only passes the element as the only argument.

However, if that only argument happens to be an Array, then we can use the destructuring bind feature of block argument binding! So, we can simply use Enumerable#zip to zip together our elements with an infinite list of 0s! This, of course, requires that we use something which has block argument binding semantics, i.e. either a block proper:

[[a,1],[b,2],[c,3]].zip([0].cycle).map {|el, i| el[i]}

or a non-lambda Proc

f = proc {|a, i| a[i] }


It does, however, not work with Methods or lambdas, because those don't have block argument binding semantics, they have method argument binding semantics, thus they don't perform automatic destructuring. Symbol#to_proc, of course, does a message send, thus ending up invoking a method and not a non-lambda Proc or a block. That's why this won't work with Symbol#to_proc.

  • örg, can you please take a look at the added part of my answer and try to explain why each_with_object(0) combined with map(&:[]) works, and zip([0].cycle) doesn't? I see that the former returns Enumerator, and the latter Array, but I can't see why that matters later when map calls []? Thanks! Apr 18 '11 at 13:37

Short answer: you can't.

Long answer:

  1. Write your own smart Array#to_proc: array.map(&[:[], 0]). Pretty ugly in this particular case.

  2. Use Facets map_send:

array.map_send(:[], 0)

(and 3: as Mladen pointed out: array.map(&:first), but if you want another index you can't)

  • 2
    Well, ActiveSupport also has Array#second, Array#third, Array#fourth, Array#fifth and Array#fourty_two, but since there's an infinite number of possible indices, this might get unwieldy after a while :-) Apr 18 '11 at 11:35

Most likely overkill, but for the sake of completeness: you could write your own method like

class Array
  def to_proc
    ->(x) { x[first] }

and use it like so:


You can read more about this in my blog post "Array#to_proc for hash access".

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