I'm a newcomer to clojure who wanted to see what all the fuss is about. Figuring the best way to get a feel for it is to write some simple code, I thought I'd start with a Fibonacci function.
My first effort was:
(defn fib [x, n] (if (< (count x) n) (fib (conj x (+ (last x) (nth x (- (count x) 2)))) n) x))
To use this I need to seed x with [0 1] when calling the function. My question is, without wrapping it in a separate function, is it possible to write a single function that only takes the number of elements to return?
Doing some reading around led me to some better ways of achieving the same funcionality:
(defn fib2 [n] (loop [ x [0 1]] (if (< (count x) n) (recur (conj x (+ (last x) (nth x (- (count x) 2))))) x)))
(defn fib3 [n] (take n (map first (iterate (fn [[a b]] [b (+ a b)]) [0 1]))))
Anyway, more for the sake of the exercise than anything else, can anyone help me with a better version of a purely recursive Fibonacci function? Or perhaps share a better/different function?