I'd like to write the function

```
fixProxy :: (Monad m, Proxy p) => (b -> m b) -> b -> () -> p a' a () b m r
fixProxy f a () = runIdentityP $ do
v <- respond a
a' <- lift (f a)
fixProxy f a' v
```

which works just like you'd think until I try to run the proxy

```
>>> :t \g -> runRVarT . runWriterT . runProxy $ fixProxy g 0 >-> toListD
(Num a, RandomSource m s, MonadRandom (WriterT [a] (RVarT n)),
Data.Random.Lift.Lift n m) =>
(a -> WriterT [a] (RVarT n) a) -> s -> m (a, [a])
```

where I use `RVarT`

intentionally to highlight the existence of the `Lift`

class in `RVar`

. `Lift`

represents the existence of a natural transformation `n :~> m`

which ought to encapsulate what I'm looking for, a function like:

```
fixProxy :: (Monad m, Monad n, Lift m n, Proxy p)
=> (b -> m b) -> b -> () -> p a' a () b n r
```

Is `Lift`

the right answer (which would require many orphan instances) or is there a more standard natural transformation MPTC to use?

Note the practical solution, as described in comments below, is something like

```
runRVarT . runWriterT . runProxy
$ hoistK lift (fixProxy (const $ sample StdUniform) 0) >-> toListD
```

`runTVarWith`

acceptable? Also, have you tried giving it an explicit type signature? – Gabriel Gonzalez Apr 20 '13 at 4:06`fixProxy`

as is and then`hoistK lift`

ing it before the`(>->)`

. I just encountered the`Lift`

type on accident and wondered if it was possible to get a more general type. – J. Abrahamson Apr 20 '13 at 4:24`MonadBase`

type class from`transformers-base`

, which I think is the one that most people use. – Gabriel Gonzalez Apr 20 '13 at 5:15