# Why are these functions differently evaluated

I was experimenting with haskell, and while trying to improve the readability of my code I suddenly changed the behaviour of it. I would have thought these two variants would be equivalent.

Original:

f :: Eq c => c -> c -> [[c]] -> [[c]]
f d c acc
| c == d    = [] : acc
| otherwise = ([c] ++ (head acc)) : tail acc

split :: Eq a => a -> [a] -> [[a]]
split delim = foldr (f delim) [[]]


Here is the second one:

f' :: Eq c => c -> c -> [[c]] -> [[c]]
f' d c (currentWord:wordsSoFar)
| c == d    = [] : currentWord : wordsSoFar
| otherwise = (c : currentWord) : wordsSoFar

split' :: Eq a => a -> [a] -> [[a]]
split' delim = foldr (f' delim) [[]]


Here are the results of running the two:

*Main> take 1 (split 5 [1..])
[[1,2,3,4]]
*Main> take 1 (split' 5 [1..])
*** Exception: stack overflow

• in your second code try changing split' to split – maioman Dec 19 '14 at 15:22
• @maioman That doesn't answer anything. – jub0bs Dec 19 '14 at 15:38
• foldr is a kind of "magic" thing that generates very deep recursion, but then gets optimized (or not) by compiler. I would suggest trying to rewrite your code in terms of foldl', which works at linear recursion depth. The big difference in two examples is that first f doesn't examine it's acc upon application. – Kostiantyn Rybnikov Dec 19 '14 at 15:42
• @KonstantineRybnikov How do you expect foldl' to work on an infinite list? – sepp2k Dec 19 '14 at 15:47
• @sepp2k good catch, thanks :) Every time I get into this topic I forget about many details. – Kostiantyn Rybnikov Dec 19 '14 at 16:04

Your first version only needs to evaluate acc when you call head and tail on it, so no evaluation takes place when c == d.

The second version needs to know whether acc is empty or not before it does anything else as none of the other code must execute if the pattern does not match. This means that acc has to be evaluated even if c == d. This leads to an infinite loop.

You can make the second version work by using an irrefutable pattern like this:

f' d c ~(currentWord:wordsSoFar) =


By making the pattern irrefutable, you're saying that you know that the pattern will match, so no check is necessary. If acc were empty, this would cause an error to happen when (and if) you used currentWord and wordsSoFar instead of a non-exhaustive pattern error happening right away (and regardless of whether currentWord and wordsSoFar are actually used).

• this is incorrect in one respect: even when c /= d, acc is still not forced if only head of head of f's result is requested. – Will Ness Dec 19 '14 at 15:58
• @sepp2k Why does acc has to be fully evaluated in the second case ? Why not just evaluate it to WHNF ? – Sibi Dec 19 '14 at 17:52
• I assumed you meant head and tail instead of hd and tl, so I edited the answer accordingly. Feel free to change it back if this was a mistake. – Shoe Dec 19 '14 at 17:55
• @Sibi It only has to be evaluated to WHNF, but that's already enough to cause the infinite loop because acc = foldr (f' delim) [[]] restOfTheList and that in turn needs to evaluate its own acc to WHNF first thing, which is foldr (f' delim) [[]] restOfTheRestOfTheList and so on ad infinitum. – sepp2k Dec 19 '14 at 19:25
• Ok, let me see if I get it. The value of acc will be a recursive call to foldr itself. And, therefore we must evaluate it before we know if it will be an empty list that would not match the pattern? – morten Dec 22 '14 at 17:24

I think this should be equivalent:

f d c acc | c == d = [] : acc
f d c (currentWord:wordsSoFar) = (c : currentWord) : wordsSoFar


Notice that if c == d then we don't attempt to determine whether acc is empty or not. (All versions of your code will actually fail if c == d and acc == []; I presume this never happens.)

• I think that acc@(currentWord:wordsSoFar) should work as well – d12frosted Dec 19 '14 at 17:13