# Is this tail recursive?

Per my understanding of tail recursion, the following function is not a tail recursive function.

``````(define (map f L)
(if (null? L)
'()
(cons (f (car L)) (map f (cdr L)))))
``````

`cons` will have to wait until `(map f (cdr L))` returns to finish its job. That prevents it from being tail recursive.

Am I right?

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## 3 Answers

Yes, it's not tail recursive.

Tail recursion is when the recursive call is in the tail position. The call to generate the return should be the original function or a mutually tail recursive function like so

``````(define (even? int)
(if (= 0 int) #t (odd? (- int 1))))

(define (odd? int)
(if (= 1 int) #t
(if (= 0 int)
#f
(even? (- int 1)))))
``````
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I believe you meant the second function to be `odd`. Thanks. –  R Sahu Mar 14 at 16:53
`(or (= 0 int) (odd? …))` –  GoZoner Mar 14 at 19:47

Yes!

That answer apparently wasn't long enough for Stack Exchange.

Yes, with a cherry on top!

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That's a correct answer but a little explanation would be needed to make it a really good answer... –  piokuc Mar 14 at 15:58
@John, I was hesitant about my conclusion after I saw that function in [the lecture notes from a CS class] (pages.cs.wisc.edu/~fischer/cs538.s08/lectures/Lecture16.4up.pdf). –  R Sahu Mar 14 at 16:28

It is safe to assume that it is not tail recursive since the standard (RNRS, including the latest R7RS) doesn't require tail recursion modulo cons optimization.

That of course doesn't deny anyone from actually implementing TRMCO in their Scheme implementation so that your definition of `map`, which is almost tail recursive (except for that `cons`), really would become tail recursive. Such an implementation could achieve this by transforming your code to something similar to the code below:

``````#!r6rs
(import (except (rnrs) map)
(rnrs mutable-pairs))

(define (map fun lst)
(define result (cons 'head '()))
(let loop ((tail result) (lst lst))
(cond ((null? lst) (cdr result))
(else (set-cdr! tail (cons (fun (car lst)) '()))
(loop (cdr tail) (cdr lst))))))
``````

The transformation is pretty straightforward so I really don't see why Scheme implementations don't do it automatically, when Prolog does. It's less complex than what an implementation needs to do to support `syntax-rules` or `call-with-current-continuation`.

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I wasn't trying to implement my own `map`. It was just an example to seek clarification on what is a tail recursive function and what is not. Thanks for the answer anyway. –  R Sahu Mar 14 at 17:13
@RSahu You did get that I'm talking about Scheme doing the transformation right? eg. you write what you have in your question and it rewrites it to something similar to mine? It's perfectly doable as Prolog has it. –  Sylwester Mar 14 at 19:16
no I think I am failing to understand the crux of your answer. –  R Sahu Mar 14 at 20:21
any mention of TRMC gets automatic up-vote from me! ;) –  Will Ness Mar 14 at 20:38
@RSahu it means that in the presence of TRMC optimization your code would be automatically transformed by a compiler into the code as shown, which is tail-recursive. So you could just write such code without worries. :) –  Will Ness Mar 14 at 20:45