# What causes “Error C stack overflow” in haskell usually

What are the usual causes of "Error C stack overflow" in the Hugs Haskell implementation.

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Which implementation? HUGS? NHC? GHC? –  JUST MY correct OPINION Mar 17 '10 at 14:02
All the answers seem to be talking about overflowing the Haskell runtime's stack. The C stack is different, at least in GHC. Is this a confusing error message, or is the problem actually FFI-related. (I have done a lot of FFI work and have never seen this. But I use GHC.) –  jrockway Mar 18 '10 at 1:17

This can come up if you are used to functional languages in which it is common to do tail-recursion factorization. Say you have a function:

``````sum = go 0
where
go accum [] = accum
go accum (x:xs) = go (accum+x) xs
``````

Which, incidentally, is the same as

``````sum = foldl (+) 0
``````

If we evaluate the function we can see the problem:

``````sum [1,2,3,4]
go 0 [1,2,3,4]
go (0+1) [2,3,4]
go ((0+1)+2) [3,4]
go (((0+1)+2)+3) [4]
go ((((0+1)+2)+3)+4) []
(((0+1)+2)+3)+4
``````

Now to evaluate that expression Haskell uses a stack:

``````EXPR            | STACK
(((0+1)+2)+3)+4 |
((0+1)+2)+3     | +4
(0+1)+2         | +3 +4
(0+1)           | +2 +3 +4
1               | +2 +3 +4
3               | +3 +4
6               | +4
10              |
``````

And this is where an overflow can occur. If you evaluated sum [1..10^6], that stack would be a million entries deep.

But note the pathology here. You recurse over a list only to build up a huge fscking expression ("thunk"), and then use a stack to evaluate it. We would rather evaluate it as we are recursing, by making the tail recursion strict:

``````sum = go 0
where
go accum [] = accum
go accum (x:xs) = accum `seq` go (accum+x) xs
``````

That says to evaluate accum before trying to evaluate the recursive call, so we get (this may take a some patience to understand):

``````sum [1,2,3,4]
go 0 [1,2,3,4]
let accum = 0 in accum `seq` go (accum+1) [2,3,4]
go (0+1) [2,3,4]
let accum = 0+1 in accum `seq` go (accum+2) [3,4]
go (1+2) [3,4]
let accum = 1+2 in accum `seq` go (accum+3) [4]
go (3+3) [4]
let accum = 3+3 in accum `seq` go (accum+4) []
go (6+4) []
6+4
10
``````

So as we are traversing the list, we are computing the sum so we don't have to use a deep stack to evaluate the result. This modified tail recursion pattern is encapsulated in Data.List.foldl', so:

``````sum = foldl' (+) 0
``````

A good rule of thumb is to never use foldl, because it always builds up giant thunks. Use foldl' instead. If the output type has lazy structure (eg. a list or a function), use foldr. But there is no silver bullet for avoiding a stack overflow in general, you just have to understand the evaluation behavior of your program. This can be hard sometimes.

But, if I understand correctly, a stack overflow always comes from trying to evaluate a gigantic thunk, though. So look for places where those could be created, and force evaluation to happen earlier.

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+1 really good explanation of how foldl works –  karoberts Mar 17 '10 at 20:57

A runaway recursion is the most likely candidate... You need to give more info though for a more precise answer.

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Here's some code that could cause a runaway recursion:

``````main =
let x = x :: Int
in print x
``````

What happens here is that when `x` is evaluated in `print x` it starts, then finds out that to complete its evaluation it needs to evaluate `x`.

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That probably won't cause a stack overflow though, because of TCO (note that x is a tail call in x). This would be an infinite loop. –  luqui Mar 17 '10 at 14:42
Hmmm... So it is, luqui. I was sure that kind of code generated stack faults last time I tried it (admittedly a few years ago). –  JUST MY correct OPINION Mar 17 '10 at 15:23
Oops. I was right, but different situation. If I run that code in GHCi it just loops forever. If I compile it and run it I get the error: a.out: <<loop>> –  JUST MY correct OPINION Mar 17 '10 at 15:24
ttmrichter, that's not stack overflow. GHC's RTS detects that you're evaluating the same thunk and "solves" the halting problem magically :) –  Wei Hu Mar 17 '10 at 17:48