# SICP 1.31: Approximating Pi

I'm working through SICP on my own, so I don't have an instructor to ask about this. This code is supposed to approximate pi but always returns zero instead.

``````(define (approx-pi acc)
(define (factors a)
(define basic-num
(if (= (mod a 2) 0)
(/ a 2)
(/ (- a 1) 2)))
(if (= (mod basic-num 2) 0)
basic-num
(/ 1 basic-num)))
(* 4 (product factors 5 (* 2 acc))))
``````

Here are the mod and product procedures that are referenced in this code. These don't seem to be the problem but I'll include them just in case.

``````(define (product func lo hi)
(define (product-iter i result)
(if (> i hi)
result
(product-iter (+ 1 i) (* result (func i)))))
(product-iter 1 1))

(define (mod a b)
(if (< (- a b) 0)
a
(mod (- a b) b)))
``````

The whole thing is an implementation of the formula:

pi / 4 = (2 * 4 * 4 * 6 ...) / (3 * 3 * 5 * 5 ... )

My mistake is obviously something pretty stupid, but I'm new to Scheme so I can't find it. If anyone has any stylistic tips, I'd really appreciate that, too. Thanks!

-

Your product function has a subtle flaw:

``````(product + 4 5)
``````

returns 120 when the correct answer is 20. The reason is

``````(product-iter 1 1) should be (product-iter lo 1)
``````
-
Ah, that was the problem exactly. I should have known that it's a bad sign when I don't use all of my formal parameters. Now everything works, thanks! –  gregsabo Nov 8 '09 at 5:50

In the call to `product-iter` in the function `product`, it will do `(* 1 (factor 1))` right in the first iteration, which will evaluate to 0 because `(factor 1)` is 0. Therefore, the total product will be 0 as well.

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You're right- I really just forgot to implement the lower starting range in the product function. –  gregsabo Nov 8 '09 at 5:52