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] (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