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:
seqfunction does only evaluate the top-most constructor. If the accumulator is a more complex object, then
fold'will still build up unevaluated thunks.
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..]]
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
O(n) time, or only
O(n) time the first time and
O(1) thereafter? (As dbaupp suggests in his comment below)