This question already has an answer here:

Let's say I have the following monad transformer stack (`r`

and `s`

left as `()`

for simplicity),

```
newtype MyMonad m a = MM (ReaderT () (StateT () m a)
```

If I want to use this as a base monad for haskeline's `InputT`

, I need a `System.Console.Haskeline.MonadException`

instance. Given the apparent complexity of these instances, I'd prefer to let the compiler derive this for me with `GeneralizedNewtypeDeriving`

. Specifically, I would expect the following to typecheck,

```
{-# LANGUAGE GeneralizedNewtypeDeriving, StandaloneDeriving, FlexibleContexts #-}
import Control.Monad.State
import Control.Monad.Reader
import Control.Monad.IO.Class
import Control.Applicative
import System.Console.Haskeline.MonadException
newtype MyMonad m a = MM (ReaderT () (StateT () m) a)
deriving (Functor, Applicative, Monad, MonadIO)
deriving instance (MonadException m) => MonadException (MyMonad m)
```

Yet sadly, this gives me,

```
/home/bgamari/hi.hs:11:1:
Could not deduce (MonadException (StateT () m))
arising from the superclasses of an instance declaration
from the context (MonadIO (MyMonad m), MonadException m)
bound by the instance declaration at /home/bgamari/hi.hs:11:1-66
Possible fix:
add an instance declaration for (MonadException (StateT () m))
In the instance declaration for `MonadException (MyMonad m)'
```

Looking at the provided instances for `StateT`

and `ReaderT`

,

```
instance MonadException m => MonadException (ReaderT r m)
instance MonadException m => MonadException (StateT s m)
```

it seems perfectly reasonable to expect the compiler to deduce the `StateT`

instance. Am I expecting too much of cunning `GeneralizedNewtypeDeriving`

? How is one to implement this instance short of open-coding it?