The type `IO a -> Arrow a`

doesn't make sense; `Arrow`

is a type class, not a specific type, much like `Monad`

or `Num`

. Specifically, an instance of `Arrow`

is a type constructor taking two parameters that describes things that can be composed like functions, matching types end-to-end. So, converting `IO a`

to an arrow could perhaps be called a conceptual type error.

I'm not sure exactly what you're trying to do, but if you really want to be using `IO`

operations as part of an `Arrow`

, you need your `Arrow`

instance to include that. The simplest form of that is to observe that functions with types like `a -> m b`

for any `Monad`

instance can be composed in the obvious way. The `hxt`

package seems to provide a more complicated type:

```
newtype IOSLA s a b = IOSLA { runIOSLA :: s -> a -> IO (s, [b]) }
```

This is some mixture of the `IO`

, `State`

, and `[]`

monads, attached to a function as above such that you can compose them going through all three `Monad`

s at each step. I haven't really used `hxt`

much, but if these are the `Arrow`

s you're working with, it's pretty simple to lift an arbitrary `IO`

function to serve as one--just pass the state value `s`

through unchanged, and turn the output of the function into a singleton list. There may already be a function to do this for you, but I didn't see one at a brief glance.

Basically, you'd want something like this:

```
liftArrIO :: (a -> IO b) -> IOSLA s a b
liftArrIO f = IOSLA $ \s x -> fmap (\y -> (s, [y])) (f x)
```