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I'm having a little trouble with an assignment. I have to create a procedure that requests a list of lists and an element and proceeds to add the element to the first position in every sublist. I managed to do that and it looks like this:

(define (add-element lst elem)
   (foldr cons lst (list elem)))

(define (insert-first lst1 x)
  (cond
   [(empty? lst1) empty]
   [else (local [(define insert (add-element(first lst1) x))]
        (cons insert (insert-first (rest lst1) x)))]))

So if you were to type (insert-first '((a b) (c d)) you'd end up with (list (list 'x 'a 'b) (list 'x 'c 'd))

Only problem is that I'm required to code the procedure using map and local. The latter one I think I accomplished but I can't for the life of me figure out a way to use map.

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Have you made any progress on this problem? –  Joshua Taylor Nov 21 '13 at 17:29

3 Answers 3

up vote 4 down vote accepted
(define (insert-first elt lst)
  (map (lambda (x)
         (cons elt x))
       lst))

then

(insert-first 'x '((a b) (c d)))
=> '((x a b) (x c d))
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(define (insert-first lst elem)
   (foldr (lambda (x y) (cons (cons elem x) y)) '() lst))

Close to your solution, but map is more naturally suited to the problem than a fold, since you want to want to do something to each element of a list. Use fold when you want to accumulate a value by successively applying a function to elements of that list.

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foldr embodies a certain recursion pattern,

(foldr g init [a,b,c,...,z]) 
= (g a (foldr g init [b,c,...,z]))
....
= (g a (g b (g c ... (g z init) ...)))

if we manually expand the foldr call in your add-element function definition, we get

  (add-element lst elem)
  = (foldr cons lst (list elem)) 
  = (cons elem (foldr cons lst '()))
  = (cons elem lst)

then, looking at your insert-first function, we see it is too following the foldr recursion pattern,

(insert-first lst1 x) 
= (foldr (lambda(a r)(cons (add-element a x) r)) empty lst1) 
= (foldr (lambda(a r)(cons (cons x a) r)) empty lst1)

But (foldr (lambda(a r) (cons (g a) r)) empty lst) === (map g lst), because to combine sub-terms with cons is to build a list, which is what map does; and so we get

(insert-first lst1 x) = (map (lambda(a)(cons x a)) lst1)

and so we can write

(define (insert-first lst1 x)
  (local [(define (prepend-x a) (cons ... ...))]
    (map ... ...)))
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