I wanted to make a generic function that folds over a wide range of inputs (see Making a single function work on lists, ByteStrings and Texts (and perhaps other similar representations)). As one answer suggested, the ListLike is just for that. Its FoldableLL class defines an abstraction for anything that is foldable. However, I need a monadic fold. So I need to define `foldM`

in terms of `foldl`

/`foldr`

.

So far, my attempts failed. I tried to define

```
foldM'' :: (Monad m, LL.FoldableLL full a) => (b -> a -> m b) -> b -> full -> m b
foldM'' f z = LL.foldl (\acc x -> acc >>= (`f` x)) (return z)
```

but it runs out of memory on large inputs - it builds a large unevaluated tree of computations. For example, if I pass a large text file to

```
main :: IO ()
main = getContents >>= foldM'' idx 0 >> return ()
where
-- print the current index if 'a' is found
idx !i 'a' = print i >> return (i + 1)
idx !i _ = return (i + 1)
```

it eats up all memory and fails.

I have a feeling that the problem is that the monadic computations are composed in a wrong order - like `((... >>= ...) >>= ...)`

instead of `(... >>= (... >>= ...))`

but so far I didn't find out how to fix it.

**Workaround:** Since `ListLike`

exposes `mapM_`

, I constructed `foldM`

on `ListLike`

s by wrapping the accumulator into the state monad:

```
modifyT :: (Monad m) => (s -> m s) -> StateT s m ()
modifyT f = get >>= \x -> lift (f x) >>= put
foldLLM :: (LL.ListLike full a, Monad m) => (b -> a -> m b) -> b -> full -> m b
foldLLM f z c = execStateT (LL.mapM_ (\x -> modifyT (\b -> f b x)) c) z
```

While this works fine on large data sets, it's not very nice. And it doesn't answer the original question, if it's possible to define it on data that are just `FoldableLL`

(without `mapM_`

).

`foldM`

from`Control.Monad`

? Also use the strict version`foldl'`

instead of`foldl`

. – Satvik Oct 14 '12 at 9:49`foldr`

instead of`foldl`

. – dave4420 Oct 14 '12 at 9:59