# Scheme Function to reverse elements of list of 2-list

This is an exercise from EOPL. Procedure (invert lst) takes lst which is a list of 2-lists and returns a list with each 2-list reversed.

``````(define invert
(lambda (lst)
(cond((null? lst )
'())
((= 2 (rtn-len (car lst)))
( cons(swap-elem (car lst))
(invert (cdr lst))))
("List is not a 2-List"))))

;; Auxiliry Procedure swap-elements of 2 element list

(define swap-elem
(lambda (lst)
(cons (car (cdr lst))
(car lst))))

;; returns lengh of the list by calling
(define rtn-len
(lambda (lst)
(calc-len lst 0)))

;; calculate length of the list
(define calc-len
(lambda (lst n)
(if (null? lst)
n
(calc-len (cdr lst) (+ n 1)))))
``````

This seems to work however looks very verbose. Can this be shortened or written in more elegant way ? How I can halt the processing in any of the individual element is not a 2-list? At the moment execution proceed to next member and replacing current member with "List is not a 2-List" if current member is not a 2-list.

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The EOPL language provides the `eopl:error` procedure to exit early with an error message. It is introduced on page 15 of the book (3rd ed.).

The EOPL language does also include the `map` procedure from standard Scheme. Though it may not be used in the book, you can still use it to get a much shorter solution than one with explicit recursion. Also you can use Scheme's standard `length` procedure.

``````#lang eopl

(define invert
(lambda (lst)
(map swap-elem lst)))

;; Auxiliary Procedure swap-elements of 2 element list

(define swap-elem
(lambda (lst)
(if (= 2 (length lst))
(car lst))
(eopl:error 'swap-elem
"List ~s is not a 2-List~%" lst))))
``````
-

So it seems that your version of invert actually returns a list of different topology. If you execute `(invert ...)` on `'((1 2) (3 4))`, you'll get back `'((2 . 1) (4 . 3))`, which is a list of conses, not of lists.

I wrote a version of invert that maintains list topology, but it is not tail-recursive so it will end up maintaining a call stack while it's recursing.

``````(define (invert lst)
(if (null? lst)
lst
(cons (list (cadar lst) (caar lst))
(invert (cdr lst)))))
``````

If you want a version that mimics your invert behavior, replace `list` with `cons` in second to last line.

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Thanks a ton. How do I handle list and exit the procedure of individual element is not a 2-list. Your procedure simply skips extra elements. – sudhirc Feb 18 '11 at 15:59

If you want it to exit early on failure, try call/cc.

``````(call-with-current-continuation
(lambda (exit)
(for-each (lambda (x)
(if (negative? x)
(exit x)))
'(54 0 37 -3 245 19))
#t))
===>  -3
``````

What `call-with-current-continuation` (or `call/cc`, for short) does is pass the point where the function was called in into the function, which provides a way to have something analogous to a return statement in C. It can also do much more, as you can store continuations, or pass more than one into a function, with a different one being called for success and for failure.

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thanks a lot. Although this is beyond my comprehension level at the moment.:) – sudhirc Feb 18 '11 at 16:16