# Order a list of 2-tuple (x,y) into a sorted-map of sets in Clojure

I am trying to create a `sorted-map` of `sorted-set` with the function `list-of-xy->sorted-map-of-sets`:

``````(def in
'([1 9] [1 8] [1 7]
[2 1] [2 2] [2 3]
[2 1] [2 2] [2 3]
[2 1] [2 2] [2 3]))

(def out
(into (sorted-map)
{1 (sorted-set 9 8 7)
2 (sorted-set 1 2 3)}))

(defn list-of-xy->sorted-map-of-sorted-sets [list-of-xy]
"Take a list (or lazy-seq) of 2-tuple and return a sorted-map of sorted-sets"
(reduce ????? list-of-xy))

; should return true
(= (list-of-xy->sorted-map-of-sorted-sets in) out)
``````

So far I tried creating `out` in two steps:

``````(def int1
(group-by #(first %) in))
;=> { 1 [[1 9] [1 8] [1 7]],
;     2 [[2 1] [2 2] [2 3] [2 1] [2 2] [2 3] [2 1] [2 2] [2 3]]}

(def int2
(flatten
(map
#(let [[x xys] %]
(list x (sorted-set (map last xys))))
int1)))
;=> (1 #{7 8 9} 2 #{1 2 3}) ; <-- this is not a sorted-map (yet!)
``````

What could be a better approach to transform `in --> out` having performance as a priority?

BTW

@Ankur answer accepted. It is the faster solution so far.

For my actual problem the `(update-in acc [x] conj y)` from the @amalloy solution (+1) opened the way to `reduced` via `get-in`. The reducing function I am using is:

``````(fn [a [x y]]
(if-not (get-in a [x y])
(update-in a [x] conj y)
(reduced a)))
``````
-

``````(= out (into (sorted-map)
(map (fn [[k v]]
[k (apply sorted-set (map second v))])
(group-by first in))))
``````

Let me know if this pass your performance test :).

-
Eheh @Ankur, perf test passed! BTW I tried also changing `(map second v)` to `(map last v)` but your version is faster :D –  Filippo Apr 16 '13 at 22:56
``````(defn list-of-xy->sorted-map-of-sorted-sets [list-of-xy]
Sure, if you could somehow know that all the remaining list items are already in the set, you could stop early with `reduced`. Hard to imagine how you could know, though. –  amalloy Apr 17 '13 at 3:00