I don't think you can lift this in general for any `MonadBaseControl IO m`

. There are some `m`

s for which we can.

### In General

`UnWebT m`

is isomorphic to `WebT m`

which has a `MonadTransControl`

instance. You can convert to and from `WebT`

with `mkWebT :: UnWebT m a -> WebT m a`

and `ununWebT :: WebT m a -> UnWebT m a`

.

`MonadBaseControl`

is a fancy wrapper around a stack of `MonadTransControl`

transformers that flattens the stack so that running and restoring state happens all the way down the stack and all the way back up it again. You can understand `MonadBaseControl`

by understanding `MonadTransControl`

, which I'll repeat briefly here:

```
class MonadTrans t => MonadTransControl t where
data StT t :: * -> *
liftWith :: Monad m => (Run t -> m a) -> t m a
restoreT :: Monad m => m (StT t a) -> t m a
type Run t = forall n b. Monad n => t n b -> n (StT t b)
```

The class says with `liftWith`

, "I'll provide a temporary way to run `t m`

s in `m`

, which you can use to build actions in `m`

, which I will in turn run." The `StT`

type of the result says, "the results of the `t m`

things I run in `m`

for you aren't going to be generally available in `t m`

; I need to save my state somewhere, and you have to give me a chance to restore my state if you want the results."

Another way of saying approximately the same thing is, "I can temporarily unwrap the base monad". The question of implementing `fixTypes`

is reduced to "Given that we can temporarily unwrap a `WebT`

from an `m`

and can temporarily unwrap an `m`

from `IO`

, can we permanently unwrap an `m`

from an `IO`

?" for which the answer, barring the capabilities of `IO`

, is almost certainly "no".

### IO Tricks

I suspect that there exist `m`

s such that the "ugly" `fixTypes`

will do horrible things like never call `writeIORef`

and thus return `undefined`

or execute code asynchronously and therefore call `writeIORef`

after `readIORef`

. I'm not sure. This is made complicated to reason about due to the possibility that the action created by `liftBaseWith`

is never used in such degenerate cases.

### For Comonads

There should be a way to lift `simpleHttp`

without `IO`

tricks precisely when the state of the monad `m`

is a `Comonad`

and therefore has a function `extract :: StM m a -> a`

. For example, this would be the case for `StateT s m`

which essentially has `StM s a ~ (s, a)`

.

```
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE ScopedTypeVariables #-}
import Happstack.Server.SimpleHTTP
import Control.Comonad
import Control.Monad.Base
import Control.Monad.Trans.Control
simpleHTTPLifted :: forall m a. (MonadBaseControl IO m, Comonad (StM m), ToMessage a)
=> Conf -> ServerPartT m a -> m ()
simpleHTTPLifted conf action =
liftBaseWith (\runInBase ->
let
fixTypes :: UnWebT m b -> UnWebT IO b
fixTypes = fmap extract . runInBase
in simpleHTTP conf (mapServerPartT fixTypes action)
)
```

In practice this isn't very useful because the `newtype`

s defined in the older versions of monad-control don't have `Comonad`

instances and the type synonymns in the newer versions of monad-control make no effort to have the result as the last type argument. For example, in the newest version of monad-control `type StT (StateT s) a = (a, s)`

.