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My task is to write function in lisp which finds maximum of a list given as argument of the function, by using recursion.I've tried but i have some errors.I'm new in Lisp and i am using cusp plugin for eclipse.This is my code:

(defun maximum (l)
  (if (eq((length l) 1)) (car l)  
   (if (> (car l) (max(cdr l)))
    (car l) 
     (max (cdr l))
share|improve this question
I see no recursion in the above :-) max != maximum. Also, the function should be written to be tail-call optimized to avoid exploding the stack. Do this by passing all the information up (e.g. max-to-date). – user166390 Aug 12 '11 at 23:39
where is the recursion? what does the builtin max do? :) – Karoly Horvath Aug 12 '11 at 23:39

A proper tail-recursive solution

(defun maximum (lst)
    (if (null lst)
        (maximum-aux (car lst) (cdr lst))))

(defun maximum-aux (m lst)
        ((null lst) m)
        ((>= m (car lst)) (maximum-aux m (cdr lst)))
        (t (maximum-aux (car lst) (cdr lst)))))
share|improve this answer

I made this, hope it helps and it is recursive.

(defun compara ( n lista)
   (if(endp lista)
       (if(< n (first lista))
          (compara n (rest lista)))))

(defun max_lista(lista)
    (if (endp lista)
        (if(compara (first lista) (rest lista))
             (first lista)
             (max_lista(rest lista)))))
share|improve this answer

if i need to do the max code in iteration not recursive how the code will be ?? i first did an array

(do do-array (d l)
          setf b (make-array (length d))
          (do (((i=0)(temp d)) 
               ((> i (- l 1)) (return))
               (setf (aref b i) (car temp))
               (setq i (+ i  1))
               (setq temp (cdr temp))))
share|improve this answer

I see no answers truly recursive and I've written one just to practice Common-Lisp (currently learning). The previous answer that included a recursive version was inefficient, as it calls twice maximum recursively. You can write something like this:

(defun my-max (lst)
  (labels ((rec-max (lst actual-max)
             (if (null lst)
                 (let ((new-max (if (> (car lst) actual-max) (car lst) actual-max)))
                   (rec-max (cdr lst) new-max)))))
    (when lst (rec-max (cdr lst) (car lst)))))

This is (tail) recursive and O(n).

share|improve this answer
I think noone gave this solution, because it's likely that this is a homework question. Your code looks ok, but since you're learning Lisp: Names like max_, maxx, ll, m or lst are really not idiomatic. Most lispers strongly prefer hyphenated, self-explaining names. Also, since CL is a Lisp-2, you can bind variables to names like list without problems. Finally, although implementations will usually optimize tail calls (with the right settings), this is not required by the standard. I know this was just an exercise, but iterative/applicative style is often preferred in CL. – danlei Aug 15 '11 at 19:38
danlei, you're right about the name of the variables. I also agree that the more functional style is in order (this is why I upvoted your answer), but the question was about doing it recursively, and I tend to answer what's asked :) – Diego Sevilla Aug 15 '11 at 22:26
Fair enough. It IS the direct answer, and that's why I voted it up. :) – danlei Aug 15 '11 at 23:52
Yeah, you know, learning more Common-Lisp makes me change the names of the variables. I edited it. – Diego Sevilla Aug 18 '11 at 8:01
Yes, it looks much better now, IMO. I would have named lst list, but that's really just nitpicking. Maybe note that (when (not (null lst)) ...) is just (when lst ...) in CL. (In fact, you could even use (and lst (rec-max (cdr lst) (car lst))), but I think I'd prefer when in this case. Seems clearer to me.) – danlei Aug 18 '11 at 23:27

If this isn't a homework question, you should prefer something like this:

(defun maximum (list)
  (loop for element in list maximizing element))

Or even:

(defun maximum (list)
  (reduce #'max list))

(Both behave differently for empty lists, though)

If you really need a recursive solution, you should try to make your function more efficient, and/or tail recursive. Take a look at Diego's and Vatine's answers for a much more idiomatic and efficient recursive implementation.

Now, about your code:

It's pretty wrong on the "Lisp side", even though you seem to have an idea as to how to solve the problem at hand. I doubt that you spent much time trying to learn lisp fundamentals. The parentheses are messed up -- There is a closing parenthesis missing, and in ((length l) 1), you should note that the first element in an evaluated list will be used as an operator. Also, you do not really recurse, because you're trying to call max (not maximize). Finally, don't use #'eq for numeric comparison. Also, your code will be much more readable (not only for others), if you format and indent it in the conventional way.

You really should consider spending some time with a basic Lisp tutorial, since your question clearly shows lack of understanding even the most basic things about Lisp, like the evaluation rules.

share|improve this answer
If this answer sounds too harsh: There are two situations, why you would want to solve this recursively in a Lisp. It's either homework, or you're trying to learn the language out of interest. Now, if you're interested, I would expect you to try and get the basics right. Every beginner book or tutorial will cover the evaluation rules and have proper indentation/formatting. If it's homework, those things should also be explained to you in one of the first lessons. You had the logic right, but you'll also want to learn the language you're coding in. Also, make sure your editor matches parens. – danlei Aug 13 '11 at 0:15

As written, that code implies some interesting inefficiencies (it doesn't have them, because you're calling cl:max instead of recursively calling your own function).

Function calls in Common Lisp are typically not memoized, so if you're calling your maximum on a long list, you'll end up with exponential run-time.

There are a few things you can do, to improve the performance.

The first thing is to carry the maximum with you, down the recursion, relying on having it returned to you.

The second is to never use the idiom (= (length list) 1). That is O(n) in list-length, but equivalent to (null (cdr list)) in the case of true lists and the latter is O(1).

The third is to use local variables. In Common Lisp, they're typically introduced by let. If you'd done something like:

(let ((tail-max (maximum (cdr l))))
   (if (> (car l) tail-max)
     (car l)

You would've had instantly gone from exponential to, I believe, quadratic. If in combination had done the (null (cdr l)) thing, you would've dropped to O(n). If you also had carried the max-seen-so-far down the list, you would have dropped to O(n) time and O(1) space.

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Yes. I just came back to add these efficiency tips, and how to make the solution more idiomatic, to my answer -- Now, I just had to add a pointer to your answer. :) – danlei Aug 13 '11 at 10:59

I think your problem lies in the fact that you refer to max instead of maximum, which is the actual function name.

This code behaves correctly:

(defun maximum (l)
  (if (= (length l) 1)
      (car l)
      (if (> (car l) (maximum (cdr l)))
          (car l)
          (maximum (cdr l)))))
share|improve this answer
This calls maximum twice, which is highly inefficient. – Diego Sevilla Aug 15 '11 at 16:37

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