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I want to know if this represents a tail-recursion. And if it isn't how can I do it.

 countP :: [a] -> (a->Bool) -> Int
 countP [] _ = 0
 countP (x:xs) p = countP_aux (x:xs) p 0

 countP_aux [] _ _ = 0
 countP_aux (x:xs) p acumul
                        |p x==True = (countP_aux xs p (acumul))+1
                        |otherwise = (countP_aux xs p (acumul))

  countP [1,2,3] (>0)
  (72 reductions, 95 cells)

This exercise show how many values in a list are verified by p condition. Thanks

share|improve this question
I'm having trouble with double-negations - "if it isn't a non-tail recursion" means what? BTW. I would think that "countP [] f" should always return 0. Your code fails instead. – Chris Jan 16 '13 at 11:18
I want to know if it represents a tail-recursion. Post edited – tomss Jan 16 '13 at 11:28
Why does it matter if it's a tail recursion? – Waleed Khan Jan 16 '13 at 11:33
Tail recursion has a better performance than non-tail recursion – tomss Jan 16 '13 at 11:36
@tomss Not in the presence of lazy evaluation. (Tail recursion is faster in strict languages, but Haskell is non-strict.) You should read this question about tail recursive optimization. – AndrewC Jan 16 '13 at 12:45
up vote 4 down vote accepted

This is not tail recursive because of

(countP_aux xs p (acumul))+1

Tail calls should return the result of the recursive call, rather than doing calculation with the result of the recursive call.

You can convert a non-tail recursive function to be tail-recursive by using an accumulator where you perform the additional work, i.e.

Say you have a simple counting function

f a
  | a < 1 = 0 
  | otherwise = f (a-1) + 1

You can make it tail recursive like so:

f' acc a = 
  | a < 1 = acc 
  | otherwise = f' (acc + 1) (a-1)
f = f' 0
share|improve this answer
And how can I do it? Thanks. – tomss Jan 16 '13 at 11:32
edited with an example. – yiding Jan 16 '13 at 11:33
might be nice to refactor to f' acc a and then let f = f' 0 – Robert Mason Jan 16 '13 at 12:11
Also might be nice to seq the accumulator. – Thomas M. DuBuisson Jan 16 '13 at 12:18
..because then you don't build up a big stack of unevaluated thunks. – AndrewC Jan 16 '13 at 12:47

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