I have no problem in implementing this algorithm in any imperative language, but I am struggling implementing it in Clojure or any other functional language. A lot of algorithms are described in terms of working with mutable data structures and imperative loops and it is hard for me to translate all of those to a functional domain.
Here is my incomplete attempt (a draft, not a working implementation) at implementing it in Clojure using adjacency lists as graph representation:
(ns karger.core (:require [clojure.string :as string])) (defn load-data  (zipmap (range 1 1000) (map rest (map read-string (string/split (slurp "data.txt") #"\n"))))) (defn min-cut [graph] (let [start (rand-int (count graph)) end (rand-int (graph start)) start-list (nth graph start)] (for [x (graph end) :when (not= x start)] (assoc graph start (conj start-list x))) )) (count (load-data))
Can anyone give me a reference implementation of this algorithm (preferably written in Clojure)? Also I would like if someone gave me a general advice of translating an algorithm described in imperative terms to a functional domain.
Thanks in advance!
Here is a link to algorithm implementation written in Python: http://pastebin.com/WwWCtxpu