The page Foldr Foldl Foldl' discusses `foldl'`

, and defines it like:

```
foldl' f z [] = z
foldl' f z (x:xs) = let z' = z `f` x
in seq z' $ foldl' f z' xs
```

This is done to avoid space leaks, i.e. so `fold'`

that produces a constant size result only uses constant space.

However, this doesn't necessarily work, as pointed out here:

The involved

`seq`

function does only evaluate the top-most constructor. If the accumulator is a more complex object, then`fold'`

will still build up unevaluated thunks.

The obvious solution is to change `seq`

to `deepseq`

as shown (assuming you're working with `NFData`

):

```
foldl_strict f z [] = z
foldl_strict f z (x:xs) = let z' = z `f` x
in deepseq z' $ foldl_strict f z' xs
```

But I have a feeling this can be horribly inefficient, as the entire structure will need to be traversed by `deepseq`

each pass through the loop (unless the compiler can statically prove this is not necessary).

I then tried this:

```
foldl_stricter f z l = deepseq z $ foldl_stricter' f z l
foldl_stricter' f z [] = z
foldl_stricter' f z (x:xs) = let z' = deepseq x $ z `f` x
in seq z' $ foldl_stricter' f z' xs
```

But found it had this issue. The below fails when it should return 3.

```
foldl_stricter (\x y -> x + head y) 0 [[1..],[2..]]
```

So `fold_stricter`

is too strict. The list need not be strict, what is important to prevent a space leak is that the accumulator is strict. `fold_stricter`

goes too far and also makes the list strict also, which causes the above to fail.

Which takes us back to `fold_strict`

. Does repeatedly running `deepseq`

on a data structure of size `n`

take `O(n)`

time, or only `O(n)`

time the first time and `O(1)`

thereafter? (As dbaupp suggests in his comment below)

`deepseq`

only traverses the structure of its first argument, and doesn't need to re-evaluate expressions. E.g. let`x = 1 + 2`

and`y = 3 + x`

, then if`x`

has been`deepseq`

'd, evaluating`deepseq y ..`

will only need to traverse to`(+) 3 x`

: it won't need to look inside`x`

(other than to get the value`3`

out of it) because the thunk has already been forced. (Or is that incorrect?) – huon Jun 19 '12 at 3:34`x`

is a large tree of`Int`

s. We`deepseq`

it, which evaluates all the`Int`

s, but we still have a tree of (now evaluated) Ints. When we`deepseq`

again, do we have to go through the entire tree again to check these Ints are evalutated, or do we somehow know at the top level that the tree has been`deepseq`

ed already? – Clinton Jun 19 '12 at 5:29