I am trying to write a Lisp function ordered that returns True if the list it is given is sorted either in ascending or descending order.

So far I have 3 helper functions to sort either way, then one to compare them and then finally the function to determine if they are sorted.

I am having trouble when I call compare in my ordered (L) function. It seems to be destroying the list each time. Maybe my whole implementation is wrong. Thanks for looking!

(defun ascending (L)
   (sort L #'<)

(defun descending (L)
    (sort L #'>)

(defun compare (original sorted)
        ; I made this return the opposite for 
        ; easier usage in the condition of ordered
        ((equal original sorted) T) 

(defun ordered (L) 
    (print L)
    (setq temp1 L)

    (compare L (ascending temp1))
    (print temp1)

    (print L)
  • 2
    tip: you don't have to create a sorted version of the list. – Nick Dandoulakis Apr 10 '11 at 18:49

sort is a destructive operation. You probably want something like this, for ascending:

(defun ascending (L)
  (sort (copy-list L) #'<))

And something similar for descending, of course. Note the last sentence in this tutorial page: http://www.n-a-n-o.com/lisp/cmucl-tutorials/LISP-tutorial-22.html

  • OK that worked perfect, now I am having trouble in my condition statement. I know it's wrong, just not how to fix it. If the list is ascending it returns true, but if its descending it returns false. How can I make it return true for both ascending and descending? 'code'(defun ascending (L) (sort (copy-list L) #'<) ) (defun descending (L) (sort (copy-list L) #'>) ) (defun ordered (L) (cond (T (equal L (ascending L))) (T (equal L (descending L))) ) )'code' – snivek Apr 10 '11 at 19:28
  • Also... I'm using the 'code' tags like it says... what am I doing wrong that it's not formatting it? – snivek Apr 10 '11 at 19:29
  • (defun ordered (L) (or (equal L (ascending L)) (equal L (descending L)))) (use the backtick `) – trptcolin Apr 10 '11 at 19:52
  • Thanks trptcolin, that did it! – snivek Apr 10 '11 at 20:11

You do not need to sort the list.

You just need to look at each pair of consecutive elements and see if they are either all ascending or descending.

For a simple three-liner, you need the operators or, every, >=, <=, and rest. Remember that a list is just a chain of cons cells, rest just provides a reference to the second cell, and that every can take several lists as arguments. You can then translate the problem description quite directly into Lisp code.

  • Bordering on being a spoiler, but Svante's hint is right on: That's all you need to implement the desired functionality. – Terje Norderhaug Apr 11 '11 at 6:28
  • With the standard <, <=, => and > comparisons, it's enough to do something like (defun sorted (list predicate) (apply predicate list)). – Vatine Apr 11 '11 at 8:27
  • @Vatine: apply is subject to call-arguments-limit. You should not rely on apply working with arbitrarily long lists as spreadable argument list. – Svante Apr 11 '11 at 9:47
  • True. It'd probably be possible to cook something up that intelligently splits the list or something that cleevrly abuses REDUCE (probably with a small application of LABELS and RETURN-FROM). – Vatine Apr 11 '11 at 12:21
  • @Vatine: all you need for your sortedp is every and rest. :) – Svante Apr 11 '11 at 12:50

How about:

(defun ordered (list)
  (apply #'< list))

You can make it more generic by adding a key parameter:

(defun ordered (list &key (test #'<))
  (apply test list))
  • why do you need COMPARE, when all it does is calling EQUAL with the same arguments?

  • TEMP1 is a undeclared variable. Where does it come from?

  • SORT is destructive. You need to copy the list first.

Use a Lisp reference like the Hyperspec and/or the Common Lisp Quick Reference. Also there are some basic introductory books for Lisp, like Common Lisp: A Gentle Introduction to Symbolic Computation.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.