0

I'm attempting the following problem on hackerrank:

https://www.hackerrank.com/challenges/counting-valleys

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]
    (do 
    (def running 0)
    (defn counter [elem]
    (do
        (cond 
        (= elem "D") (def running (+ running 1))
        (= elem "U")(def running (- running 1))
        )
        running
    )

    )

    (def valley-num 0)

    (defn valley-count [a b]
    (do
        (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))
    valley-num
    )


)

(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(d)
        else:
            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
3

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.

0

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))]
    valley-num))

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

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

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.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.