# Combine sequence with itself recursively, without duplicates

This is hard to explain but easy to show. Not sure why I haven't figured it out myself, so I must be missing something in clojure that is obvious.

I need to combine a vector with itself, into a vector, and I need to combine the first element with all the remaining elements, then the 2nd element, with all the remaining elements (3rd and after).

As a short example: [1 2 3 4 5]

I need a function to get: [[1 2] [1 3] [1 4] [1 5] [2 3] [2 4] [2 5] [3 4] [3 5]]

If this looks like getting half the pairs for a large matrix, you are right. I only want to solve half the matrix minus the middle diagonal. This is the only part I need to be sequential(so I only solve half) and the rest I want to use the reducers library to parallelize the heavier math in the background.

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Did you deliberately miss `[4 5]` from the results? –  Andrew Feb 27 '13 at 22:08
I must have, sorry about that! I think using numbers in the example was a mistake since the sequences I am working with are vectors of numbers and I think things got confused. I meant for it to be a more abstract example than what it ended up being. –  Joseph G Feb 28 '13 at 17:16

What you want is built into clojure/math.combinatorics: https://github.com/clojure/math.combinatorics

The basic example you are looking for is on the readme, but for completeness to this answer, I'll repeat it here:

``````(ns example.core
(:require [clojure.math.combinatorics :as combo]))

(combo/combinations [1 2 3] 2)
;;=> ((1 2) (1 3) (2 3))
``````
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Thanks, I had tried that library before but got an error. I thought it was because my sequence was non-numeric but apparently it does work with sequences that are not-numeric, and I was just missing the 2 as the second argument. –  Joseph G Feb 28 '13 at 14:56
Why do we need a combinatorics library for such a simple task ? –  Blacksad Feb 28 '13 at 15:26

I'd just use a `for` :

``````(for [ i (range 1 6) j (range 6) :when (< i j)] [i j])
; => ([1 2] [1 3] [1 4] [1 5] [2 3] [2 4] [2 5] [3 4] [3 5] [4 5])
``````
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``````(def v [1 2 3 4 5])

(for [i (range (count v))
:let [vv (drop i v)]
r (rest vv)]
[(first vv) r])

=> ([1 2] [1 3] [1 4] [1 5] [2 3] [2 4] [2 5] [3 4] [3 5] [4 5])
``````
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