How can I do exponentiation in clojure? For now I'm only needing integer exponentiation, but the question goes for fractions too.
classic recursion (watch this, it blows stack)
(defn exp [x n] (if (zero? n) 1 (* x (exp x (dec n)))))
(defn exp [x n] (loop [acc 1 n n] (if (zero? n) acc (recur (* x acc) (dec n)))))
(defn exp [x n] (reduce * (repeat n x)))
sneaky (also blows stack, but not so easily)
(defn exp-s [x n] (let [square (fn[x] (* x x))] (cond (zero? n) 1 (even? n) (square (exp-s x (/ n 2))) :else (* x (exp-s x (dec n))))))
Clojure has a power function that works well: I'd recommend using this rather than going via Java interop since it handles all the Clojure arbitrary-precision number types correctly.
expt for exponentiation rather than
pow which maybe explains why it's a bit hard to find ... anyway here's a small example:
(use 'clojure.math.numeric-tower) ; as of Clojure 1.3 ;; (use 'clojure.contrib.math) ; before Clojure 1.3 (expt 2 200) => 1606938044258990275541962092341162602522202993782792835301376
You can use java's
(Math/pow base exponent) (.pow (bigint base) exponent)
user=> (.pow (BigInteger. "2") 10) 1024 user=> (.pow (BigInteger. "2") 100) 1267650600228229401496703205376
If you really need a function and not a method you can simply wrap it:
(defn pow [b e] (Math/pow b e))
And in this function you can cast it to
int or similar. Functions are often more useful that methods because you can pass them as parameters to another functions - in this case
map comes to my mind.
If you really need to avoid Java interop, you can write your own power function. For example, this is a simple function:
(defn pow [n p] (let [result (apply * (take (abs p) (cycle [n])))] (if (neg? p) (/ 1 result) result)))
That calculates power for integer exponent (i.e. no roots).
Also, if you are dealing with large numbers, you may want to use
BigInteger instead of
And if you are dealing with very large numbers, you may want to express them as lists of digits, and write your own arithmetic functions to stream over them as they calculate the result and output the result to some other stream.
I think this would work too:
(defn expt [x pow] (apply * (repeat pow x)))
SICP inspired full iterative fast version of 'sneaky' implementation above.
(defn fast-expt-iter [b n] (let [inner (fn [a b n] (cond (= n 0) a (even? n) (recur a (* b b) (/ n 2)) :else (recur (* a b) b (- n 1)))) ] (inner 1 b n)))
Implementation of "sneaky" method with tail recursion and supporting negative exponent:
(defn exp "exponent of x^n (int n only), with tail recursion and O(logn)" [x n] (if (< n 0) (/ 1 (exp x (- n))) (loop [acc 1 base x pow n] (if (= pow 0) acc (if (even? pow) (recur acc (* base base) (/ pow 2)) (recur (* acc base) base (dec pow)))))))
A simple one-liner using reduce:
(defn pow [a b] (reduce * 1 (repeat b a)))
(defn pow [x n] (loop [x x n n r 1] (cond (= n 0) r (even? n) (recur (* x x) (/ n 2) r) :else (recur x (dec n) (* r x)))))
for a tail-recursive O(log n) solution, if you want to implement it yourself (only supports positive integers). Obviously, the better solution is to use the library functions that others have pointed out.
How about clojure.contrib.genric.math-functions
There is a pow function in the clojure.contrib.generic.math-functions library. It is just a macro to Math.pow and is more of a "clojureish" way of calling the Java math function.