Hello Clojure experts,
I am trying to do some timing tests in Clojure 1.3 and I thought I'd ask a question based on an existing piece of code that solves a differential equation that is adapted from this blog post.
;; the differential equation is ;; dy/dt = f(y,t) = t - y (defn f [t y] (- t y)) ;; solve using Euler's method (defn solveEuler [t0 y0 h iter] (if (> iter 0) (let [t1 (+ t0 h) y1 (+ y0 (* h (f t0 y0)))] (recur t1 y1 h (dec iter))) [t0 y0 h iter])) (defn multipleSolveEuler  (let [steps '(1 10 100 1000 10000 100000) results (map #(second (solveEuler 0.0 0.0 (/ 1.0 %) %)) steps) errors (map #(- (Math/exp -1) %) results)] (partition 3 (interleave steps results errors)))) (def *cpuspeed* 2.0) (defmacro cyclesperit [expr its] `(let [start# (. System (nanoTime)) ret# ( ~@expr (/ 1.0 ~its) ~its ) finish# (. System (nanoTime))] (int (/ (* *cpuspeed* (- finish# start#)) ~its)))) (defn solveEuler-2 [t0 y0 h its] (let [zero (int 0)] (loop [t0 (double t0), y0 (double y0), h (double h), its (int its)] (if (> its zero) (let [t1 (+ t0 h) y1 (+ y0 (* h (- t0 y0)))] (recur t1 y1 h (dec its))) [t0 y0 h its]))))
So when I say
(time solveItEuler-2 0.0 1.0 (/ 1.0 1000000000) 1000000000))
I get a time 6004.184 msecs on a 6 month old Macbook pro. I issue the command again, and I get around the same time. But when I run it 3 other times I get times in the range of 3500 msec. I have noticed this before for other code snippets, and was wondering why this is so. I suppose I would expect a roughly similar execution time across successive runs.
Is it my lack of understanding how "time" works, something I am missing, or some kind of caching happening under the hood?