Can there be mtl-like mechanism for monad transformers created by FreeT / ProgramT ?

My understanding of the history is as follows. Once upon a time monad transformer was invented. Then people started to stack monad transformers one on other, then found it annoying to insert `lift`

everywhere. Then a couple of people invented monad classes, so that we can e.g. `ask :: m r`

in any monad `m`

such that `MonadReader r m`

. This was possible by making every monad class *penetrate* every monad transformer, like

`(Monoid w, MonadState s m) => MonadState s (WriterT w m)`

MonadWriter w m => MonadWriter w (StateT s m)

you need such pair of instance declarations for every pair of monad transformers, so when there's *n* monad transformers there's *n*^2 costs. This was not a large problem, however, because people will mostly use predefined monads and rarely create their own. The story so far I understand, and also is detailed e.g. in the following Q&A:

Avoiding lift with Monad Transformers

Then my problem is with the new Free monads http://hackage.haskell.org/package/free and Operational monads http://hackage.haskell.org/package/operational . They allow us to write our own DSL and use it as monads, just by defining the language as some algebraic `data`

type (Operational doesn't even need `Functor`

instances). Good news is that we can have monads and monad transformers for free; then how about monad classes? Bad news is that the assumption "we rarely define our own monad transformers" no longer holds.

As an attempt to understand this problem, I made two `ProgramT`

s and made them penetrate each other;

https://github.com/nushio3/practice/blob/master/operational/exe-src/test-05.hs

The `operational`

package does not support monad classes so I took another implementation `minioperational`

and modified it to work as I need; https://github.com/nushio3/minioperational

Still, I needed the specialized instance declaration

`instance (Monad m, Operational ILang m) => Operational ILang (ProgramT SLang m) where`

because the general declaration of the following form leads to undecidable instances.

`instance (Monad m, Operational f m) => Operational f (ProgramT g m) where`

My question is that how can we make it easier to let our Operational monads penetrate each other. Or, is my wish to have penetration for any Operational monad ill-posed.

I'd also like to know the correct technical term for *penetration* :)