1

I'm new to racket and trying to write a function that checks if a list is in strictly ascending order.

'( 1 2 3) would return true '(1 1 2) would return false (repeats) '(3 2 4) would return false

My code so far is: Image of code

(define (ascending? 'list)
   (if (or (empty? list) (= (length 'list) 1)) true
      (if (> first (first (rest list))) false
          (ascending? (rest list)))))

I'm trying to call ascending? recursively where my base case is that the list is empty or has only 1 element (then trivially ascending).

I keep getting an error message when I use check-expect that says "application: not a procedure."

  • Please don’t post images of code; put your code in the actual question. – Alexis King Mar 29 '17 at 2:30
  • Okay, just posted it above!! – Vic Mar 29 '17 at 2:55
3

I guess you want to implement a procedure from scratch, and Alexander's answer is spot-on. But in true functional programming style, you should try to reuse existing procedures to write the solution. This is what I mean:

(define (ascending? lst)
  (apply < lst))

It's shorter, simpler and easier to understand. And it works as expected!

(ascending? '(1 2 3))
=> #t

(ascending? '(1 1 2))
=> #f
  • 2
    looks beautiful :) – AsheKetchum Mar 29 '17 at 17:55
  • 1
    Awesome, thank you very much!! – Vic Mar 29 '17 at 23:44
2

Some things to consider when writing functions:

  • Avoid using built in functions as variable names. For example, list is a built in procedure that returns a newly allocated list, so don't use it as an argument to your function, or as a variable. A common convention/alternative is to use lst as a variable name for lists, so you could have (define (ascending? lst) ...).
  • Don't quote your variable names. For example, you would have (define lst '(1 2 3 ...)) and not (define 'lst '(1 2 3 ...)).
  • If you have multiple conditions to test (ie. more than 2), it may be cleaner to use cond rather than nesting multiple if statements.

To fix your implementation of ascending? (after replacing 'list), note on line 3 where you have (> first (first (rest list))). Here you are comparing first with (first (rest list)), but what you really want is to compare (first lst) with (first (rest lst)), so it should be (>= (first lst) (first (rest lst))).

Here is a sample implementation:

(define (ascending? lst)
  (cond
    [(null? lst) #t]
    [(null? (cdr lst)) #t]
    [(>= (car lst) (cadr lst)) #f]
    [else
     (ascending? (cdr lst))]))

or if you want to use first/rest and true/false you can do:

(define (ascending? lst)
  (cond
    [(empty? lst) true]
    [(empty? (rest lst)) true]
    [(>= (first lst) (first (rest lst))) false]
    [else
     (ascending? (rest lst))]))

For example,

> (ascending? '(1 2 3))
#t
> (ascending? '(1 1 2))
#f
> (ascending? '(3 2 4))
#f
  • Great, the cond makes a lot more sense than the nested ifs. And thanks for the other tips as well!! – Vic Mar 29 '17 at 23:44
0

If you write down the properties of an ascending list in bullet form;

An ascending list is either

  • the empty list, or
  • a one-element list, or
  • a list where
    • the first element is smaller than the second element, and
    • the tail of the list is ascending

you can wind up with a pretty straight translation:

(define (ascending? ls)
  (or (null? ls)
      (null? (rest ls))
      (and (< (first ls) (first (rest ls)))
           (ascending? (rest ls)))))
0

This Scheme solution uses an explicitly recursive named let and memoization:

(define (ascending? xs)
   (if (null? xs) #t                    ; Edge case: empty list
      (let asc? ((x (car xs))           ; Named `let`
                 (xs' (cdr xs)) )
         (if (null? xs') #t
            (let ((x' (car xs')))       ; Memoization of `(car xs)`
               (if (< x x')
                  (asc? x' (cdr xs'))   ; Tail recursion
                  #f))))))              ; Short-circuit termination

(display
   (ascending?
      (list 1 1 2) ))                   ; `#f`

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.