How can I generate all possible combinations of elements of an array with a length within a given range? E.g.:

('a'..'f').to_a.all_possibilities(3, 5)

should produce an array like:

['abc', 'abd', 'abe', 'abf', ..., 'abcde', 'abcdf', 'abcda', ...]

including from "abc" (three characters) up to the last possible combination of ('a'..'f').to_a with five characters length. I have no idea how to do this. Any help?

  • To clarify, is 'abcda' an error? Are repeats allowed? Is 'aaa' something you want in the results? Also, how does this differ from your previous question?
    – Amadan
    Commented Jan 21, 2013 at 2:11
  • @Amadan Combination does not include repetitions.
    – sawa
    Commented Jan 21, 2013 at 2:22
  • @Amadan I want repetitions. I need to generate all possibilities. And my previous question I dont ask for a minimum length, so the minium length will be always de array.size.
    – fschuindt
    Commented Jan 21, 2013 at 2:30
  • 1
    @sawa Ok, sorry then, I understand it now.
    – fschuindt
    Commented Jan 21, 2013 at 3:01

4 Answers 4


Array#combination is stdlib:

[1] pry(main)> a = ('a'..'f').to_a
=> ["a", "b", "c", "d", "e", "f"]
[2] pry(main)> a.combination(3).to_a
=> [["a", "b", "c"],
 ["a", "b", "d"],
 ["a", "b", "e"],
 ["a", "b", "f"],
 ["a", "c", "d"],
 ["a", "c", "e"],
 ["a", "c", "f"],
 ["a", "d", "e"],
 ["a", "d", "f"],
 ["a", "e", "f"],
 ["b", "c", "d"],
 ["b", "c", "e"],
 ["b", "c", "f"],
 ["b", "d", "e"],
 ["b", "d", "f"],
 ["b", "e", "f"],
 ["c", "d", "e"],
 ["c", "d", "f"],
 ["c", "e", "f"],
 ["d", "e", "f"]]

if you want all combinations of size min to max:

(min..max).flat_map{|size| a.combination(size).to_a }

If you want them converted to strings, just replace .to_a with .map(&:join).

  • +1 to you.Could you bit explain the line (min..max).flat_map{|size| a.combination(size) } ? Commented Jan 21, 2013 at 8:26
  • 3
    a.combination(size) produces an array of arrays, each of which is a unique combination that can be made from a. (min..max) is an inclusive range starting with min, ending at max. flat_map enumerates over the values of the range yielding each one to the block and producing a result that concatenates all the block results.
    – dbenhur
    Commented Jan 21, 2013 at 16:18
  • How would you get all the combinations, including repeated use of the same element? Like ["a","a","a"], ["a","b","a"] would also be okay, and ["a","b","a"] would be different to ["b","a","a"]. Commented Mar 11, 2015 at 3:44
  • Nevermind. I worked out how to do it using the .repeated_permutation() method :) Commented Mar 11, 2015 at 4:10
(3..5).flat_map{|n| ('a'..'f').to_a.combination(n).map(&:join)}

Edit: to meet OP's clarified intention, use repeated_permutation.

(3..5).flat_map{|n| ('a'..'f').to_a.repeated_permutation(n).map(&:join)}
  • Its not generate all possible combinations. I mean, my name is "Fernando". 8 characters length but the letter 'n' repeats twice, so 7 letters in total. And I do this: 'array = ["F", "E", "R", "N", "A", "D", "O"] puts (3..8).flat_map{|n| array.combination(n).map(&:join)}' But its don't generate my name. And this code outputs few combinations, all possibilities should return a really large output.
    – fschuindt
    Commented Jan 21, 2013 at 2:25
  • @user1986332 the answers you have only works if your data array length is superior or equal to your range max int.
    – oldergod
    Commented Jan 21, 2013 at 2:31
  • @user1986332 If so, then your question is badly worded. Usually when you say combination, it does not include repetition.
    – sawa
    Commented Jan 21, 2013 at 2:32
  • I use my name's example again and still not generating it.
    – fschuindt
    Commented Jan 21, 2013 at 3:02
  • 2
    The length of the resulting array with 3..8 and %[F E R N A D O] would be 7^3 + 7^4 + 7^5 + 7^6 + 7^7 + 7^8 = 6725544. It is running on my computer for several minutes, and it now reached around 1580000: one fourth of the way through. I doubt you really want this.
    – sawa
    Commented Jan 21, 2013 at 3:15

You could modify my response to your previous question this way to get what you want.

class Array
  def all_possibilities(from, to)
    (from..to).flat_map do |i|
      if i < size
        permutation(to - i).flat_map do |e|
          (self + e).permutation.to_a

array = ["F", "E", "R", "N", "A", "D", "O"]
array.all_possibilities(3, 8)


D = length of array
N = number of possible values. i.e a-z = 26
possible combinations = N ^ D
array = [possible values]

map26 = '0123456789abcdefghijklmnop'
map10 = 'abcdefghijklmnopqrstuvwxyz'

combo = '' 
for 0...N ** D do |i|
  i.to_s(D).split(//).each do |v|  
    combo += map10[map26.index(v)].chr
  puts combo
  combo = ''


EDIT: Excuse the brevity of above, hacked it out on an iPad while browsing for another answer. And I was so wrong.

Lets say you want all combinations from a-z for up to 3 columns.

All combinations are 26 * 26 * 26 = 26 ** 3 = 17576

Lets subtract 1 for 0 starting points of arrays = 17575

Also we need a mapping variables, map26 is a base 26 lookup for one column

map26 = '0123456789abcdefghijklmnop'
map10 = 'abcdefghijklmnopqrstuvwxyz'

Back to our maximum combo

=> "ppp"

Extract the index of 'p' from map26 and put it in map10:

map10[map26.index('p')]   (add .chr for ruby ~ 1.8)
=> "z"

So if you slice and dice the "ppp" above you will get a maximum combo of "zzz"

You can also see from the mapping variables that "000" will map to "aaa"

I have modified the original code to include these changes.

With respect to the original question, you can use D to control the maximum length of the string and play with the starting value of the for loop to control the minimum length.


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