We have two functions that compute the factorial of a given number. The first one,
!, uses an accumulator style. The second,
fact, uses natural recursion.
(define (! n0) (local (;; accumulator is the product of all natural numbers in [n0, n) (define (!-a n accumulator) (cond [(zero? n) accumulator] [else (!-a (sub1 n) (* n accumulator))]))) (!-a n0 1)))
(define (fact n) (cond [(= 0 n) 1] [else (* n (fact (- n 1)))]))
At the bottom of Section 31, HtDP states that the naturally recursive version is often as fast if not faster than the accumulator version, but does not state the reasons why. I did some reading on this and it seems that the answer is 'tail call optimization/elimination', but the Wikipedia article seems to be at odds with what HtDP says, at least with respect to performance. Why is this so?
At work, the recursive style is faster. At home, the accumulator style is faster. Is there no general heuristic to guide a choice as to which style is generally preferred? I understand that the accumulator-style is more memory-efficient, but if we restrict the discussion to performance alone, it is unclear, at least to me, which is the better choice.
I've thought about this a little further, and would have to side with the Wikipedia article on the superiority of the accumulator-style recursion in the general case. Not only does it reduce usage of stack/heap space, memory access is always going to be behind register access and can only be made more evident now that multicore is here. Still, HtDP proves that actual testing is required in all cases.