Assignment 3 ------------ Once again, the lambda evaluator will make working through this assignment much faster and more secure. *Writing recursive functions on version 1 style lists* Recall that version 1 style lists are constructed like this:
; booleans let true = \x y. x in let false = \x y. y in let and = \l r. l (r true false) false in ; version 1 lists let makePair = \f s g. g f s in let fst = true in let snd = false in let nil = makePair true meh in let isNil = \x. x fst in let makeList = \h t. makePair false (makePair h t) in let head = \l. isNil l err (l snd fst) in let tail = \l. isNil l err (l snd snd) in ; a list of numbers to experiment on let mylist = makeList 1 (makeList 2 (makeList 3 nil)) in ; a fixed-point combinator for defining recursive functions let Y = \f. (\h. f (h h)) (\h. f (h h)) in ; church numerals let isZero = \n. n (\x. false) true in let succ = \n s z. s (n s z) in let mult = \m n s. m (n s) in let length = Y (\length l. isNil l 0 (succ (length (tail l)))) in let predecessor = \n. length (tail (n (\p. makeList meh p) nil)) in let leq = ; (leq m n) will be true iff m is less than or equal to n Y (\leq m n. isZero m true (isZero n false (leq (predecessor m)(predecessor n)))) in let eq = \m n. and (leq m n)(leq n m) in eq 3 3Then `length mylist` evaluates to 3. 1. What does `head (tail (tail mylist))` evaluate to? 2. Using the `length` function as a model, and using the predecessor function, write a function that computes factorials. (Recall that n!, the factorial of n, is n times the factorial of n-1.) Warning: my browser isn't able to compute factorials of numbers greater than 2 (it does't provide enough resources for the JavaScript interpreter; web pages are not supposed to be that computationally intensive). 3. Write a function `listLenEq` that returns true just in case two lists have the same length. That is, listLenEq mylist (makeList meh (makeList meh (makeList meh nil))) ~~> true listLenEq mylist (makeList meh (makeList meh nil))) ~~> false 4. Now write the same function, but don't use the length function (hint: use `leq` as a model). [The following should be correct, but won't run in my browser: let factorial = Y (\fac n. isZero n 1 (mult n (fac (predecessor n)))) in
let reverse = Y (\rev l. isNil l nil (isNil (tail l) l (makeList (head (rev (tail l))) (rev (makeList (head l) (rev (tail (rev (tail l))))))))) in reverse (makeList 1 (makeList 2 (makeList 3 nil)))It may require more resources than my browser is willing to devote to JavaScript.]