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I want to make a function that checks if an element is a member of a list. The list can contain other lists. This is what I came with so far:

(defun subl(l)
  (if (numberp l)
      (if (= l 10)
          (princ "Found"))
      (mapcar 'subl l)))

Now the number I am searching for is hard-coded and it is 10. I would like to write it somehow so the function takes another parameter(the number I am searching for) and returns true or 1 when it finds it. The main problem is that I can't see a way to control mapcar. mapcar executes subl on each element of l, if l si a list. But how can I controll the returned values of each call?

I would like to check the return value of each subl call and if one of it is true or 1 to return true or 1 till the last recursive call. So in the end subl returns true or one if the element is contained in the list or nil otherwise.

Any idea?

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up vote 1 down vote accepted

This procedure below should process as you have described;

    (defun member-nested (el l)"whether el is a member of l, el can be atom or cons,
l can be list of atoms or not"
      (cond
       ((null l) nil)
       ((equal el (car l)) t)
       ((consp (car l)) (or (member-nested el (car l))
                            (member-nested el (cdr l))))
       (t (member-nested el (cdr l)))))
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a main issue in solving problems that requires such thinking and writing of algorithms is exhaustion of the recurring in the car of the first encountered nested element's first nested element's ..., and so on. the control digs into it and you end up with the nil terminator of the first nested element of the first nested element ..., and so on. nil the terminator-I. to overcome this i've applied an or. similar is done and comes into mind more quickly as cons since it is more natural function, in algorithms of writing say encounters of equal elements or specific sublists of original one. – Işık Dec 13 '13 at 6:58

mapcar is a very generic primitive to map a function over a list. You can use one of the built-in combinators which are much more closely suited with what you're trying to do. Look into the member function.

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Thank you for your answer! +1 I really was searching for something like this and couldn't found. This is a really useful function but unfortunately I am forced to use map for didactic reasons :( – Jacob Krieg Dec 11 '13 at 21:48
    
If you must use mapcar, consider mapping a predicate that transforms the list into another list with the results of that predicate and then it should be trivial to create your own version of reduce (if you can't use the built in version) to test if any of the predicates returned true. – yan Dec 11 '13 at 21:56
    
Good point, i'll give it a try. Any ideas how can i get rid of the hard-coded 10 considering the fact that functions that need to be passed to mapcar are forced to have only 1 parameter? – Jacob Krieg Dec 11 '13 at 21:58
    
Have you guys covered lambdas? If you can use one, it'd make the exercise trivial. (Just pass it to the outer function and use it inside the lambda) – yan Dec 11 '13 at 23:22

Your function seems to play the role of main function and helper at the same time. That makes your code a lot more difficult to understand than it has to be..

So imagine you split the two:

;; a predicate to check if an element is 10
(defun number10p (l)
    (and (numberp l)
         (= l 10)))

;; the utility function to search for 10 amongst elements
(defun sublistp (haystack)
    (mapcar #'number10p haystack)))

But here when you do (sublistp '(5 10 15 20)) you'll get (nil t nil nil) back. Thats because mapcar makes a list of every result. For me it seems you are describing some since it stops at the first true value.

(defun sublistp (haystack)
    (some #'number10p haystack)))

(sublistp '(5 10 15 20)) ; ==> t

Now to make it work for any data type we change the predicate and make it as a local function where we have the argument we are searching for:

(defun sublistp (needle haystack)
  (flet ((needlep (x)
            (equal x needle)))
    (some #'needlep haystack)))

(sublistp '(a b) '(a b c (a b) d e f)) ; ==> t

You can also do this with an anonymous predicate like this:

(defun sublistp (needle haystack)
  (some #'(lambda (x)
            (equal x needle))
        haystack))

An implementation of this is the member function, except it returns the match as truth value. That's ok since anything but nil is true in CL:

(member 10 '(5 10 15 20)) ; ==> (10 15 20) 

EDIT You commented on a different answer that you are required to use mapcar in that case use it together with append to get a list of all matches and check if the list has greater than 0 elements:

(defun sublistp (needle haystack)
  (flet ((needle-check (x)
            (if (equal x needle) '(t) nil)))
    (< 0 (length 
          (apply #'append 
                 (mapcar #'needle-check haystack))))))

How it works is that for each match you get a list of one element and for every non match you get an empty list. When appending the lists you'll get the empty list when there is not match. For all other results you have a match. This is not a very efficient implementation.

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