I'm attempting the following problem on hackerrank:


but unfortunately my following clojure code is timing out on many test cases, and I don't know what makes it so inefficient. Please be lenient. I only have in total 2 hours of total clojure experience.

(require '[clojure.string :as str])

; Complete the countingValleys function below.
(defn countingValleys [n s]
    (def running 0)
    (defn counter [elem]
        (= elem "D") (def running (+ running 1))
        (= elem "U")(def running (- running 1))


    (def valley-num 0)

    (defn valley-count [a b]
        (if (and (= a "U") (= b 0))
        (def valley-num (+ valley-num 1)))

    (def heights (for [elem s] (counter elem)))
    (doseq [[i j] (map vector s heights)]
    (valley-count i j))


(def fptr (get (System/getenv) "OUTPUT_PATH"))

(def n (Integer/parseInt (clojure.string/trim (read-line))))

(def s (read-line))

(def result (countingValleys n (str/split s #"")))

(spit fptr (str result "\n") :append true)

Dead easy python implementation of the same logic that took 5 minutes and passes all test cases:

def countingValleys(n, s):
    list = []
    for i in range(len(s)):
        d = 0
        if s[i] == "D":
            d = 1
        elif s[i] == "U":
            d = -1
        if len(list) == 0:
            list.append(list[-1] + d)
    num = 0
    for i in range(len(s)):
        if s[i] == "U" and list[i] == 0:
            num += 1
    return num
  • What have you tried so far? What do you think could be responsible for this slow time? – bfontaine Jul 9 at 11:40
  • I'm not sure. I basically implemented the same logic in python, and it passed all tests. Perhaps I'm doing something very specific to Clojure that's inefficient. – zengod Jul 9 at 11:50
  • 4
    You should follow a Clojure tutorial to understand the basics of functional programming, that’ll help you a lot in writing more idiomatic (and so performant) code. In particular, use let instead of def and defn. – bfontaine Jul 9 at 12:03
  • This question belongs on CodeReview – Thumbnail Jul 10 at 13:22

So I figured it out. The inefficiency was in this line:

(doseq [[i j] (map vector s heights)]
    (valley-count i j))

Which can be replaced with:

(doall (map valley-count s heights))

and then all tests pass.


The slowness of your code is the least of its problems. The tools you ought to be employing are

  • pure functions,
  • the sequence library,
  • and, for speed, the prospect of transducers.

I like your underlying algorithm: count the cases where an up movement takes you to sea level.

We can express it idiomatically thus:

 (defn countingValleys [n s]
  (let [counter {\D 1, \U -1}
        heights (reductions + (map counter s))
        s-heights (map vector s heights)
        valley-num (count (filter #{[\U 0]} s-heights))]

... or, using the ->> threading macro ...

(defn countingValleys [_ s]
  (->> s
       (map {\D 1, \U -1})
       (reductions +)
       (map vector s)
       (filter #{[\U 0]})

These are clearer and faster than yours.

It seems that you and HackerRank are actually using ClojureScript. Your use of "U" as an element of a string won't work in Clojure proper: you have to use the character \U.

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