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I learn lisp a few days ago, and I want to do is like following

1 `(1 2 3 4 1 5) ==> ( 2 3 4 1 5)

What I cand do is to remove all the occurence, I cannot figure out how to preserve the last symbol.

here is my code

(defun test (X L)
  (cond ((null L) nil)
        ((equal X (last L)) (test X (butlast L)))    
        (t (cons (test X (butlast L)) (last L)))))

Thx for your reading my question !

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3 Answers 3

up vote 1 down vote accepted

Here you go, recursive, but not very efficient solution:

(defun remove-all-but-last (X L)
    (cond ((null L) nil)
           ((equal X (car L)) 
               (if (member X (cdr L)) 
                   (remove-all-but-last X (cdr L)) 
           (t (cons (car L) (remove-all-but-last X (cdr L))))))
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Thx you so much! The member function is so useful! I have solved other problems with it!!! –  Liang-Yu Pan Oct 11 '12 at 6:47
Cool. I'm happy I could come up with a working solution after 15 years of not writing anything in Lisp, but you should study the other solutions, they are much better! –  piokuc Oct 11 '12 at 6:58
endp is better than null in this case –  thodg Oct 17 '12 at 23:47

If this is not just an exercise or homework in recursion:

(defun remove-all-but-last (element list)
  (remove element list :count (1- (count element list))))


(defun remove-all-but-last (element list)
  (remove element list :end (position element list :from-end t)))
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They are some optional challenging exercise problems! –  Liang-Yu Pan Oct 11 '12 at 6:47
And thx for your reply! –  Liang-Yu Pan Oct 11 '12 at 6:55
Excellent stuff! Easy to see you know CL really well. +1 –  piokuc Oct 11 '12 at 7:00
Way to go, Liang-Yu! Always nice to see motivated learners, and you're welcome. Thanks for the kind words, piokuc! –  danlei Oct 11 '12 at 20:33

The same, but in linear time :)

(defun remove-all-but-last (list element)
    ((lambda (x)
       #'(lambda (y)
           (when (equal y element)
             (if x t (not (setf x t)))))) nil)
    (reverse list))))

And, as the name suggests, a contrived solution, but (!) does it in a single pass.

(defun remove-all-but-last-contrieved
    (list element &optional (test #'equal))
  (do ((c list (cdr c))
       ((null c) back-ref)
    (if back-ref
        (setf last constructed
              (cdr constructed) (list (car c))
              constructed (cdr constructed))
        (setf constructed (list (car c))
              back-ref constructed))
    (when (funcall test (car c) element)
      (if (or last-seen last)
          (when last-seen
            (rplacd last-seen (cddr last-seen)))
          (setf back-ref nil constructed nil))
      (setf last-seen last))))
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Perhaps it is still too difficult for me, but I appreciate your help! Thx you! –  Liang-Yu Pan Oct 11 '12 at 6:48
Nice, very nice... –  piokuc Oct 11 '12 at 7:01
Is there a reason you're using lambda rather than let in the first solution ? I took some time counting parens, nil should be on its own line. Also is #' really needed before (lambda ..) ? Second solution looks quite fast ! –  thodg Oct 18 '12 at 0:06
Assuming you wrote remove-all-but-last-contrieved for performance reasons: Did you actually compare its performance with my one-line solutions? For example, on my machine, CCL, optimizing speed, there was no significant difference for lists of 100k, 1 million, and 50 million random integer elements. –  danlei Oct 21 '12 at 5:02
Interesting. I don't see anything near such speedups with a hardcoded equality operation. (Adding a :test optional parameter to my version doesn't make much of a difference either, btw.) I tried with different ranges of random numbers (3-10k), and – as you said – it didn't make much of a difference. You're also right as far as ideal computers are concerned. Always wanted to get one of those. :) –  danlei Oct 21 '12 at 6:19

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