I have this fairly simple function to compute the mean of elements of a big list, using two accumulators to hold the sum so far and the count so far:
mean = go 0 0 where go s l  = s / fromIntegral l go s l (x:xs) = go (s+x) (l+1) xs main = do putStrLn (show (mean [0..10000000]))
Now, in a strict language, this would be tail-recursive, and there would be no problem. However, as Haskell is lazy, my googling has led me to understand that (s+x) and (l+1) will be passed down the recursion as thunks. So this whole thing crashes and burns:
Stack space overflow: current size 8388608 bytes.
After further googling, I found
$!. Which it seems I don't understand because all my attempts at using them in this context proved futile, with error messages saying something about infinite types.
Finally I found
-XBangPatterns, which solves it all by changing the recursive call:
go !s !l (x:xs) = go (s+x) (l+1) xs
But I'm not happy with this, as
-XBangPatterns is currently an extension. I would like to know how to make the evaluation strict without the use of
-XBangPatterns. (And maybe learn something too!)
Just so you understand my lack of understanding, here's what I tried (the only try that compiled, that is):
go s l (x:xs) = go (seq s (s+x)) (seq l (l+1)) xs
From what I could understand, seq should here force the evaluation of the s and l argument, thus avoiding the problem caused by thunks. But I still get a stack overflow.