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I'm working on some problems for my upcoming exam and I need some help with this Lisp function. I'm working in CLISP. I have to find the longest decreasing sequence comprised only of odd numbers in a list. Example:

(longest '(13 9 3 7 4 7 5 3 2 8 15 11 9 7 3))

Should return:

(15 11 9 7 3)

The only mandatory requirement is that that the function has to be implemented recursively :)

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Why should it not return (13 9 7 5 3)? Should it be a contiguous subsequence? – Daniel Fischer Dec 21 '11 at 23:11
By sequence it means a sequence of successive numbers (next to each other). EDIT: Yes, exactly :) – alabroski Dec 21 '11 at 23:13
There is no Lisp dialect called CLISP. There is a Lisp dialect Common Lisp. There is also a Common Lisp implementation called GNU CLISP. – Rainer Joswig Dec 21 '11 at 23:31
FYI, if you're looking for details about other problems like this, you may want to note that what you're talking about (a contiguous sequence) is usually called a "substring." "Subsequence" usually means non-contiguous. See en.wikipedia.org/wiki/Substring. – mquander Dec 21 '11 at 23:34
Sorry about that, my mistake Also, I was referring to GNU CLISP or Common Lisp as Rainer said there. Thanks anyhow :) – alabroski Dec 21 '11 at 23:49
up vote 1 down vote accepted

With contiguous subsequences, it's easy. Except I don't lisp, so I have to explain it in words.

  1. Call a recursive helper, with additional arguments a) longest found so far b) length of that c) current subsequence d) length thereof. Initially these are () 0 () 0.
  2. While head of list is even, recur on tail.
  3. Start current with the first odd encountered, recur on tail.
  4. If head is even, or head is not smaller than the previous element, the current sequence stops. Compare its length to the previously found longest sequence. If current is longer, it becomes the new longest, else forget current. Go to 2.

When the end of the list is reached, the longer of the two remembered lists is the answer.

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I'll try to implement this, but fyi CLISP keeps giving me errors when I try to call a function using '(), dunno why. Thanks though :) – alabroski Dec 21 '11 at 23:53
Ah, methinks the empty list was nil and not (). – Daniel Fischer Dec 22 '11 at 0:09
@DanielFischer: In Common Lisp, nil and () are two ways of writing the same value. – Vatine Dec 22 '11 at 7:08
your algo in Lisp, with few tweaks: hpaste.org/80731 . I've also added an answer here. – Will Ness Jan 14 '13 at 10:42

You could do this in one stage using recursion (which would be faster & more efficient than the method I'm about to suggest), but it may be more readable, modular, and simpler to code if you generate all of the possible solutions first, filter by the ones that are valid, and then return the best of those solutions.

To do it this way, you'll need a generator & mapping function (I'd suggest two nested maplist's for this problem), a filter function (write this one; decreasing odd; then look at lisp's 'remove-if-not funciton), and a reducing function (return the best solution (longest list) from the filtered ones).

There's a section in SICP that discusses this style of approach: http://mitpress.mit.edu/sicp/full-text/book/book-Z-H-15.html#%_sec_2.2

A signal-processing engineer would find it natural to conceptualize these processes in terms of signals flowing through a cascade of stages...

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The algorithm as in Daniel's answer translated into Haskell, with some tweaks:

longest_sub xs = g2 xs [] 0 
    g2 [] a _ = a
    g2 (x:t) a i  
         | even x    = g2 t a i 
         | otherwise = g4 t [x] 1
        g4 [] b j = if j>i then reverse b else reverse a
        g4 xs@(x:t) b j            
             | even x || x >= head b
                         = if j>i then g2 xs b j 
                                  else g2 xs a i 
             | otherwise = g4 t (x:b) (j+1)

In Common Lisp:

(defun longest (xs)
  (prog  ((a nil) (i 0) b j x)                  ; var decls
      G2  (if (null xs) (return (reverse a)))   ; code
          (setf x (car xs) xs (cdr xs))
          (if (evenp x)
              (go G2))
      G3  (setf b (list x) j 1)
      G4  (if (null xs)
              (if (> j i)
                  (return (reverse b))
                  (return (reverse a))))
          (setf x (car xs) xs (cdr xs))
          (when (evenp x)
              (if (> j i) (setf a b i j))
              (go G2))
          (when (>= x (car b))
              (if (> j i) (setf a b i j))
              (go G3))
          (setf b (cons x b) j (+ j 1))
          (go G4)))

Function call is a glorified GOTO after all, isn't it?

see also: prog doc page.

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