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The following program blows the stack:

__find_first_occurrence :: (Eq b) => b -> [b] -> Int -> Int
__find_first_occurrence e [] i = -1
__find_first_occurrence e (x:xs) i
    | e == x = i
    | otherwise = __find_first_occurrence e xs (i + 1)

find_first_occurrence :: (Eq a) => a -> [a] -> Int
find_first_occurrence elem list =   
    __find_first_occurrence elem list 0

main = do
    let n = 1000000
    let idx = find_first_occurrence n [1..n]
    putStrLn (show idx)

Fails with

Stack space overflow: current size 8388608 bytes. Use `+RTS -Ksize -RTS' to increase it.

However, as far as I understand it, the possible recursive call to __find_first_occurrence is the last thing evaluated by __find_first_occurrence, hence tail call optimization should be possible to do.

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TCO isn't all that useful in Haskell. Laziness usually takes care of that so you rarely need it. In this case, I think the problem is huge unevaulated thunk on i. Try to force i before doing recursive call. – Vitus Mar 14 '12 at 17:08
I was wondering about the definition of the first pattern match in __find_first_occurrence, namely __find_first_occurrence e l i =. Is it possible that the problem is not reduced in that expression? (By the way, if you are looking for the first occurrence of something in a list, there's a built in function in Data.List:… , but I suppose that's not the point of the question:) ) – Christoffer Mar 14 '12 at 17:09
@Christoffer: That case shouldn't be there at all. Oh, I just checked and indeed, i `seq` __find_first_occurrence e xs (i + 1) solves it. – Vitus Mar 14 '12 at 17:12
@vitus - writing in the tail recursive style so you get TCO would be very useful for the function in question though, as it's answer doesn't want laziness. – stephen tetley Mar 14 '12 at 17:47
Note that by having the first clause return -1, the strictness analyser sees that the accumulator is not necessarily needed, so it can't make GHC evaluate the i+1 in each step. If you used i also in the failure case, say with __find_first_occurrence e [] i = -(i+1), the strictness analyser would cause it to be evaluated in each step (when compiling with optimisations, of course). – Daniel Fischer Mar 14 '12 at 18:42

1 Answer 1

up vote 15 down vote accepted

The tail call optimization is used, but the (i+1) expressions get thunked, and evaluating them at the end causes the stack to overflow.

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Can you please explain a bit more on why the (i+i) expression would get evaluated at the end. Is it because of lazy evaluation? Thank you. – Gangadhar Mar 14 '12 at 17:27

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