# homework on scheme

how to design a function content which inputs a single list of atoms lat and which returns the content of lat.Thus the content of '(a b c a b c d d) is '(a b c d).

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which language are you talking about? –  Sarfraz Feb 16 '10 at 3:55
@Sarfraz, the title of the post is "homework on scheme"... –  Carl Norum Feb 16 '10 at 3:56
@ki, what have you tried so far? You're unlikely to get any help without showing us what you've already tried. –  Carl Norum Feb 16 '10 at 3:56
You might like to define what "lat" stands for. –  Oddthinking Feb 16 '10 at 3:57
took off the recursion tag as the solution doesn't need to be recursive. –  chollida Feb 16 '10 at 19:09

The procedure `content` below should get you what you need.

``````(define (work x y)
(if (null? (cdr x))
(if (in? (car x) y)
y
(cons (car x) y))
(if (in? (car x) y)
(work (cdr x) y)
(work (cdr x) (cons (car x) y)))))

(define (in? x y)
(if (null? y)
#f
(if (equal? x (car y))
#t
(in? x (cdr y)))))

(define (content x) (work x (list)))
``````

The procedure `content` accepts a list as a parameter. It sends the list to another procedure called `work`. This procedure processes the list and adds the items in the list to a new list (if they are not already in the new list). The `work` procedure makes use of yet another procedure called `in`, which checks to see if an item is a member of a list.

My solution essentially divides your problem into two sub-problems and makes use of procedures which operate at a lower level of abstraction than your original problem.

Hope that helps.

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@Eric - honestly, that code formatting is the most unlike Lisp you can get without adding begin/end keywords. See stackoverflow.com/questions/541407/lisp-code-formatting, for instance –  dsm Feb 16 '10 at 18:20
I imagine that the reason he seemed so hostile was because you were providing this code to a person asking for homework. I suppose his teacher probably expects proper formatting. –  Rayne Jul 7 '10 at 20:07
that's the point ... "proper" to you may not be "proper" to me –  ecounysis Jul 8 '10 at 0:23

It is PLT Scheme solution:

``````(define (is_exists list element)
(cond
[(empty? list) false]
[else
(cond
[(= (first list) element) true]
[else (is_exists (rest list) element)])]))

(define (unique list target)
(cond
[(empty? list) target]
[else
(cond
[(is_exists target (first list)) (unique (rest list) target)]
[else (unique (rest list) (cons (first list) target))])]))

(define (create_unique list)
(unique list empty))
``````

Check it:

``````> (define my_list (cons '1 (cons '2 (cons '3 (cons '2 (cons '1 empty))))))
> my_list
(list 1 2 3 2 1)
> (create_unique my_list)
(list 3 2 1)
``````
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Isn't the whole point of `cond` that you don't need to chain else-clauses? :-) –  Ken Feb 17 '10 at 0:12

``````(define (rember-all a lat)
(cond
((null? lat) '())
((eq? a (car lat)) (rember-all a (cdr lat)))
(else (cons (car lat) (rember-all a (cdr lat))))))

(define (content lat)
(cond
((null? lat) '())
(else (cons (car lat)
(content (rember-all (car lat) (cdr lat)))))))
``````
-

Start from a procedure that simply creates a copy of the passed-in list (very easy to do):

```(define (unique-elements seq)
(define (loop ans rest)
(cond ((null? rest) ans)
(else
(loop (cons (car rest) ans)
(cdr rest)))))
(loop '() seq))
```

To ensure that the output list's elements are unique, we should skip the CONS if the head of REST is already a member of ANS. So we add another condition to do just that:

```;;; Create list containing elements of SEQ, discarding duplicates.
(define (unique-elements seq)
(define (loop ans rest)
(cond ((null? rest) ans)
((member (car rest) ans)  ; *new*
(loop ans (cdr rest)))   ; *new*
(else
(loop (cons (car rest) ans)
(cdr rest)))))
(loop '() seq))
```
-

The following function takes in a list and returns a new list with only the unique inputs of it's argument using recursion:

``````(defun uniq (list)
(labels ((next (lst new)
(if (null lst)
new
(if (member (car lst) new)
(next   (cdr lst) new)
(next   (cdr lst) (cons (car lst) new))))))
(next list ())))
``````

As was mentioned in the comments, common lisp already has this function:

``````(defun uniq (list)
(remove-duplicates list))
``````
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(defun uniq (list) (remove-duplicates list)) –  Rainer Joswig Feb 16 '10 at 12:38
But where is the fun in that? ;-) –  dsm Feb 16 '10 at 13:15
why the -1 vote? –  dsm Feb 16 '10 at 23:58
```(define (remove-duplicates aloc)
(cond
((empty? aloc) '())
(else (cons (first aloc)
(remove-duplicates
(filter (lambda (x)
(cond
((eq? x (first aloc)) #f)
(else #t)))
(rest aloc)))))))
```
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