You suggested the following:

```
class Monad (t m) => MonadTrans t m where
lift :: Monad m => m a -> t m a
```

...but does that really mean what you want? It seems you want to express something like "a type `t`

may be an instance of `MonadTrans`

if, for all `m :: * -> *`

where `m`

is an instance of `Monad`

, `t m`

is also an instance of `Monad`

".

What the class definition above *actually* says is more like "types `t`

and `m`

may constitute an instance of `MonadTrans`

if, for those specific types, `t m`

is an instance of `Monad`

". Consider carefully the difference, and the implied potential for instances that may not be what you'd want.

In the general case, every parameter of a type class is an independent "argument", a fact which has been a bountiful source of both headaches and GHC extensions as people have attempted to use MPTCs.

Which isn't to say that such a definition couldn't be used anyway--as you point out, the current definition is not ideal either. The age-old problem "Why `Data.Set`

Is Not a `Functor`

" is related, and such issues helped motivate the recent `ConstraintKinds`

tomfoolery.

The ultimate answer to "why not" here is almost certainly the one given by Daniel Fischer in the comments--because `MonadTrans`

is pretty core functionality, it would be undesirable to make it depend on some terrifying cascade of increasingly arcane GHC extensions.

`t`

is a monad, its kind must be`* -> *`

, whereas kind of`t m a`

is`* -> * -> *`

, I think (maybe I'm wrong). – EarlGray Dec 3 '12 at 15:52`t m`

? Are there values of`t m`

at all? – EarlGray Dec 3 '12 at 15:58`t m`

has kind`* -> *`

, and types (i.e. the types of values) have kind`*`

. But it similarly does not make sense to apply monad operations to "values" of`Maybe`

, because there are none. – luqui Dec 3 '12 at 16:18`transformers`

package, portability. MPTCs are a language extension, so using them isn't portable. – Daniel Fischer Dec 3 '12 at 16:22