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I wrote two different functions in racket to determine whether a list of numbers is ascending:

(define (ascending list)
  (if (<= (length list) 1)
      (and (< (car list) (car (cdr list))) (ascending (cdr list)))))

(define (ascending-tail list)
  (ascending-tail-helper #t list))

(define (ascending-tail-helper prevBool rest)
  (if (<= (length rest) 1)
      (ascending-tail-helper (and prevBool (< (car rest) (car (cdr rest)))) (cdr rest))))

I had the hardest time determining whether or not the first ascending was tail recursive, so I rewrote it using what I believe to be tail recursion.

The reason why I retrospectively believe the first one to not be tail recursive is that I believe at each level of recursion, the function will be waiting for the second argument in the "and" statement to return before it can evaluate the boolean expression. Conversely, for ascending-tail-helper, I am able to evaluate the lesser than expression before I do my recursive call.

Is this correct, or did I make myself even more confused than before?

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3 Answers 3

up vote 4 down vote accepted

You are correct, in the first version the recursive call returns to and, whereas in the second version the recursive call is a tail call.

However, and is a macro, and is generally expanded using if

(define (ascending list)
  (if (<= (length list) 1)
      (if (< (car list) (car (cdr list)))
          (ascending (cdr list))

which is tail recursive.

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Oh wow, I had no idea! That certainly explains why the function acted tail recursive in the debugger. –  L.Neil Oct 17 '12 at 0:44
Thanks for keeping me on my toes, Doug ;) –  itsbruce Oct 17 '12 at 0:49

DrRacket can help you determine whether a call is in tail position or not. Click the "Syntax Check" button. Then move the mouse pointer to the left parenthesis of the expression in question. In your example I get this:

enter image description here

The purple arrow shows that the expression is in tail-position.

From the manual:

Tail Calls: Any sub-expression that is (syntactically) in tail-position with respect to its enclosing context is annotated by drawing a light purple arrow from the tail expression to its surrounding expression.

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One of the requirements for a function to be in tail position is that it's return value be usable as the return value of the parent function without modification or inspection. That is, the parent function should be able to return immediately, having evaluated the tail position statement.

On first appearance, your first function,inspects the return value of ascending. It seems that doesn't return ascending's value but, instead, a value derived from it. However, according to the relevant section of the R5RS spec, the final expression in an and statement is in tail position. (When I'm properly awake, I know this)

So you are wrong.


(Note: edited to correct my initial hasty answer).

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Thanks. What was really throwing me off was the fact that when I was debugging the non-tail recursive function in DrRacket, it didn't properly hold onto the call stack in the "stack" pane; and at the base case the debugger didn't follow the "and" evaluations; but instead returned instantly, just like a tail recursive function would! Truly confusing. –  L.Neil Oct 17 '12 at 0:33
Not true, @itsbruce, and is a macro that does not inspect it's second value, just returning it when the first argument is true; see my answer for the usual expansion. –  Doug Currie Oct 17 '12 at 0:38
Ah, point, Doug. Now that I recall, and is implemented via a macro, unlike not. The r5rs spec, which I was re-reading just the other day, explicitly describes this. –  itsbruce Oct 17 '12 at 0:39

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