The problem can be found at http://mitpress.mit.edu/sicp/full-text/book/book-Z-H-12.html#%_thm_1.37
The problem is to expand a continuing fraction in order to approximate phi. It suggests that your procedure should be able to calculate phi by evaluating:
(cont-frac (lambda (i) 1.0) (lambda (i) 1.0) k)
My solution is as follows:
(define (cont-frac n d k) (if (= k 1) d (/ n (+ d (cont-frac n d (- k 1))))))
This solution works when calling (cont-frac 1 1 k), but not when using the lambda expressions as the problem suggests. I get what looks like a type error
;ERROR: "ex-1.37.scm": +: Wrong type in arg1 #<CLOSURE <anon> (x) 1.0> ; in expression: (#@+ #@d (#@cont-frac #@n #@d (#@- #@k 1))) ; in scope: ; (n d k) procedure cont-frac ; defined by load: "ex-1.37.scm" ;STACK TRACE 1; ((#@if (#@= #@k 1) #@d (#@/ #@n (#@+ #@d (#@cont-frac #@n #@d ...
My question is two-part:
Question 1. Why am I getting this error when using the lambda arguments? I (mistakenly, for sure) thought that (lambda (x) 1) should evaluate to 1. It clearly does not. I'm not sure I understand what it DOES evaluate to: I presume that it doesn't evaluate to anything (i.e., "return a value" -- maybe the wrong term for it) without being passed an argument for x.
It still leaves unanswered why you would have a lambda that returns a constant. If I understand correctly, (lambda (x) 1.0) will always evaluate to 1.0, regardless of what the x is. So why not just put 1.0? This leads to:
Question 2. Why should I use them? I suspect that this will be useful in ex-1.38, which I've glanced at, but I can't understand why using (lambda (x) 1.0) is any different that using 1.0.