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Given a collection I want to iterate through all pairs in a collection. Example

(all-pairs seq)

(all-pairs '(a b c d)) => ([a b] [a c] [a d] [b c] [b d] [c d]))

Here is my idea

(defn all-pairs [coll]
  (for [ [idx elmt] (indexed coll)
         other-elmt (subvec coll (inc idx))]
     (vector elmt other-elm)))

But it doesn't feel idiomatic

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up vote 14 down vote accepted

How about:

(use 'clojure.contrib.combinatorics)
(vec (map vec (combinations '(a b c d) 2)))
share|improve this answer
sorry, don't recognized, that the outer container is a list. So the correct version is (map vec (combinations '(a b c d) 2)) – Thomas Oct 29 '10 at 21:01
+1 for actually using what's available. – Rob Lachlan Oct 30 '10 at 3:08

Lazy, and relatively fast.

(defn all-pairs [coll]
  (when-let [s (next coll)]
    (lazy-cat (for [y s] [(first coll) y])
              (all-pairs s))))

(defn all-pairs [coll]
  (let [x (first coll) xs (next coll)]
    (when xs
       (map (fn [y] [x y]) xs) 
       (all-pairs xs)))))

(all-pairs [1 2 3 4]) ;; => ([1 2] [1 3] [1 4] [2 3] [2 4] [3 4])

(all-pairs '(a b c d)) ;; => ([a b] [a c] [a d] [b c] [b d] [c d])

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May I suggest:

(defn all-pairs [sq] (for [i sq j sq] [i j]))

EDIT: Clearly I misread the question; since you only want distinct unduplicated pairs, we can still use this approach if a natural ordering exists on whatever domain you're calling this function on.

(defn all-pairs [sq] (filter #(< (first %) (second %)) (for [i sq j sq] [i j])))



(defn all-pairs [sq]
    (partition 2 (flatten (map (fn [sqi] (map #(vector %1 %2) sq sqi))
                   (take-while not-empty (iterate rest (rest sq)))))))
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One problem is that this includes terms like [b a] and [a a], which from the description should not be included. – Ross Goddard Oct 29 '10 at 18:36
Yeah, this was my initial idea, but it includes [b a] and [a b]. I only want one. – Frank Oct 29 '10 at 18:53
(defn all-pairs [coll]
  (loop [[x & xs] coll
         result []]
    (if (nil? xs)
      (recur xs (concat result (map #(vector x %) xs))))))
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+1: This answer is my favourite. – Rob Lachlan Nov 2 '10 at 19:21

A simple recursive version that should do what you want:

(defn all-pairs [coll]
  (let [x (first coll)
        xs (rest coll)]
    (if (empty? xs) 
        (map (fn [y] [x y]) xs) 
        (all-pairs xs)))))
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I think that you want to make your recursive call with (recur xs) rather than (all-pairs xs). – Rob Lachlan Oct 29 '10 at 19:23
Well, it doesn't have to be, but the stack will blow up. – Rob Lachlan Oct 29 '10 at 19:59
Cleaned up a bit: gist.github.com/ae0d9ebf85e9ba6e2cb3 – MayDaniel Oct 29 '10 at 20:17
@Rob - surely recur won't work here as that isn't a tail recursive position? – mikera Oct 29 '10 at 21:59
You're right. I'm clearly not having a good day at this reading comprehension thing. I don't see an easy way to make it tail recursive either. – Rob Lachlan Oct 29 '10 at 23:33

Not the fastest solution, but:

; handy helper function
(defn tails [v]
  "Given a sequence ( a b c ), returns all tails:  ( a b c ) ( b c ) ( c )"
  (when (seq v) 
    (lazy-cat (list v) (tails (rest v)))))

(defn pair* [v]
  "Match the first item in the list with all others in pairs."
  (when (> (count v) 1)
    (for [y v] [(first v) y])))

(defn all-pairs [v]
  (apply concat (map pair* (tails v))))
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How about this?

(defn all-pairs [coll]
(when coll
  (concat (map vector (repeat (first coll)) (rest coll))
          (all-pairs (next coll)))))

Or, if you seek a lazy seq:

(defn all-pairs [coll]
  (when coll
    (concat (map vector (repeat (first coll)) (rest coll))
            (all-pairs (next coll))))))
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What about this?

(defn seq->pairs 
  (loop [res [] s s]
     (let [[head next] (split-at 2 s)
           res (conj res head)]
        (if (empty? next) res (recur res next)))))
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Just another possible solution:

(defn all-pairs
        (mapcat #(drop % %2)
                 (range 1 (count c))
                 (partition (count c) (for [a c b c] [a b]))))

(all-pairs '(a b c d)) => ([a b] [a c] [a d] [b c] [b d] [c d]))
(all-pairs [5 4 3 2 1]) => ([5 4] [5 3] [5 2] [5 1] [4 3] [4 2] [4 1] [3 2] [3 1] [2 1])
(all-pairs "pairs") => ([\p \a] [\p \i] [\p \r] [\p \s] [\a \i] [\a \r] [\a \s] [\i \r] [\i \s] [\r \s])
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