I have an algorithm that operates on an IntMap that I feel would best be expressed imperatively. That is, I'd like to say things like:

- Look for value X in the map.
- If it matches a criteria, remove this value from the map.
- Loop until no more values exist in the map.

This would be fairly trivial to express as a two-line recursion, but the actual algorithm is a little more complex, involving several lookups and deletions, so I'd like to be able to express it in `do`

notation.

Is there a standard "State"-like monad where the state is represented by `Data.Map`

or `Data.IntMap`

, where I can do something like:

```
do
insert 5 20
(ma, mv) <- lookup 4
case mv of
Just v -> delete (fromJust ma)
Nothing -> return ()
```

Honestly I'm not sure how to best express this.. due to `lookup`

it would seem to benefit from some kind of `MaybeT IntMap m`

stack or something.

I did do a bit of work trying to define my own state monad based on `Data.IntMap`

, even got as far as making `insert`

and `delete`

work, but got a little stuck with how to deal with `lookup`

. Mostly i feel like this is probably something someone has already solved, but I can't find it on Hackage.