# clojure map over sequence of pairs

`````` (def tmp = [ 1 2 3 9 4 8])
``````

I'm trying to create pairs of 2, then for each pair, subtract the second number from the first. desired result: (1 6 4)

Here is what I was trying:

``````(map #(apply - %2 %1) (partition 2 tmp))
``````

how can I do this?

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From the example it looks like you subtract the first number from the second, not the other way around, right? –  Rafał Dowgird Oct 9 '12 at 20:30

Partition produces a sequence of sequences so the function you map over them needs to expect a sequence of two items. There are several ways to express this:

``````(def tmp  [ 1 2 3 9 4 8])

user> (map #(- (second %) (first %)) (partition-all 2 tmp ))
(1 6 4)

user> (map #(apply - (reverse %)) (partition-all 2 tmp ))
(1 6 4)

user> (map (fn [[small large]] (- large small)) (partition-all 2 tmp ))
(1 6 4)
``````

The version using apply is different because it will still "work" on odd length lists:

``````user> (map #(apply - (reverse %)) (partition-all 2 [1 2 3 4 5 6 7] ))
(1 1 1 -7)
``````

The others will crash on invalid input, which you may prefer.

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+1 on the solution using destructuring –  noahlz Oct 9 '12 at 19:59

Here's a solution using `reduce`

``````(reduce #(conj %1 (apply - (reverse %2)))  [] (partition-all 2 [1 2 3 9 4 8]))
=> [1 6 4]
``````
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(reduce (conj ...)) ia a cool way to express a non-lazy version of map. Check out the new reducers library for a bunch more on this topic: clojure.com/blog/2012/05/08/… if you are interested –  Arthur Ulfeldt Oct 9 '12 at 20:46

I wonder why this solution was overlooked...

Since switching the order of subtraction is simply the negative of the original subtraction, (a-b=-(b-a)), the solution becomes more efficient (only in this particular case!!)

``````(map #(- (apply - %)) (partition-all 2 [1 2 3 9 4 8]))
``````

Pedagogically, Arthur's solution is correct. This is just a solution that is more suited the specfic question.

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