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

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

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

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

4 Answers 4

up vote 1 down vote accepted

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

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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.

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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))
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  • 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.

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