I'm new to Clojure. I was wondering how I could optimize an algorithm to count the number of inversions in a list. From what I understand, Clojure doesn't do tail call optimization unless specifically asked to? How do you get it to do this?

This first attempt with a mutated variable has a runtime of about 3.5s. But my second attempt was a functional version and it takes about 1m15s! and both require growing the stack size quite a bit (like -Xss12m).

How would I go about getting better performance?

I'd prefer to not have mutable variables (like the functional one) if possible. You can create the array file by typing something like seq 100000 | sort -R > IntArray.txt.

The first attempt w/ mutable variable:

(use 'clojure.java.io)

(def inversions 0)

(defn merge_and_count' [left right left_len]
  (if (empty? right) left
      (if (empty? left) right
          (if (<= (first left) (first right)) 
              (cons (first left)  (merge_and_count' (rest left) right (- left_len 1)))
              (let [_ (def inversions (+ inversions left_len))]
               (cons (first right) (merge_and_count' left (rest right) left_len)))

(defn inversion_count [list]
  (if (or (empty? list) (nil? (next list))) list
      (let [mid (quot (count list) 2)]
           (merge_and_count' (inversion_count (take mid list)) 
                             (inversion_count (drop mid list)) mid)

(defn parse-int [s]
   (Integer. (re-find  #"\d+" s )))

(defn get-lines [fname]
  (with-open [r (reader fname)]
    (doall (map parse-int (line-seq r)))))

(let [list (get-lines "IntArray.txt")
      _ (inversion_count list)]
  (print inversions))

My second attempt to be purely functional (no mutability):

(use 'clojure.java.io)

(defn merge_and_count' [left right inversions]
  (if (empty? right) (list left inversions)
      (if (empty? left) (list right inversions)
          (if (<= (first left) (first right)) 
              (let [result (merge_and_count' (rest left) right inversions)]
                   (list (cons (first left) (first result)) (second result)))
              (let [result (merge_and_count' left (rest right) (+ inversions (count left)))]
                   (list (cons (first right) (first result)) (second result)))

(defn inversion_count [list' list_len]
  (if (or (empty? list') (nil? (next list'))) (list list' 0)
      (let [mid (quot list_len 2)
            left (inversion_count (take mid list') mid)
            right (inversion_count (drop mid list') (- list_len mid))]
           (merge_and_count' (first left) (first right) (+ (second left) (second right)))

(defn parse-int [s]
   (Integer. (re-find  #"\d+" s )))

(defn get-lines [fname]
  (with-open [r (reader fname)]
    (doall (map parse-int (line-seq r)))))

(let [list (get-lines "IntArray.txt")
      result (inversion_count list 100000)]
  (print (second result)))
  • What is this algorithm supposed to do? All I see is a giant pile of first, rest, and second. – amalloy May 11 '14 at 8:33
  • 1
    @amalloy See here, for example – Thumbnail May 11 '14 at 8:57
  • 1
    @pete23 his recursive calls are not in tail position, so replacing them with recur will replace the bad performance with a compiler error. – amalloy May 11 '14 at 8:59
  • 1
    I'm assuming we're looking to solve this problem? stackoverflow.com/questions/337664/… i.e. sum for each item in the list the # of successor entries that are < than it. The n^2 solution should be trivial. – pete23 May 11 '14 at 9:04
  • 2
    Loop/recur isn't exactly "how you enable tail call optimisation in Clojure" - there is no tail call optimisation in Clojure. But loop/recur is an alternative that provides similar capabilities. The documentation is here: clojure.org/special_forms#Special%20Forms--(recur%20exprs*) – Paul Butcher May 11 '14 at 10:27
up vote 3 down vote accepted

The stack overflows due to the recursion in merge-and-count. I tried this approach, and for 100000 items, it came back instantly.

(defn merge_and_count [left right inversions]
  (loop [l left r right inv inversions result []]
    (cond (and (empty? r) (empty? l)) [result inv]
          (empty? r) [(apply conj result l) inv]
          (empty? l) [(apply conj result r) inv]
          (<= (first l) (first r)) (recur (rest l) r inv (conj result (first l)))
          :else (recur l (rest r) (+ inv (count l))  (conj result (first r))))))

You need to replace this code with code from your second approach.

  • Thanks. So is loop/recur the de-facto way for Clojure to optimize recursion/tail recursion? Do you know why recursive calls aren't implicitly optimized in Clojure? It seems like a pretty fundamental aspect of functional programming. Does it have something to do with the JVM? – antimatter May 12 '14 at 11:58
  • 1
    There is some discussion here: stackoverflow.com/questions/19462314/…. Also, look at Rich Hickey's comment: groups.google.com/forum/#!msg/clojure/4bSdsbperNE/tXdcmbiv4g0J Usually, recur lets you perform any operation that is possible in loops, but with the functional construct. This helps in thinking functionally and recursively. – Guru Devanla May 12 '14 at 12:03

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