Luqui linked to my blog post on the subject. Basically, `GeneralizedNewtypeDeriving`

as implemented in GHC assumes that a certain kind of isomorphism (namely the operationally irrelevant isomorphism implied by `newtype`

) implies leibniz equality. This was true in Haskell 98 sort of--but is *not at all* true in Haskell plus extensions.

That is, a newtype provides a pair of functions

```
a -> b
b -> a
```

that don't do anything in the core, but it is not okay to conclude

```
forall f. f a -> f b
```

because `f`

might be a type function or a GADT. This is the form of equality needed for `GeneralizedNewtypeDeriving`

Even in Haskell 98 it breaks module boundries. You can have things like

```
class FromIntMap a where
fromIntMap :: Map Int b -> Map a b
instance FromIntMap Int where
fromIntMap = id
newtype WrapInt = WrapInt Int deriving FromIntMap
instance Ord WrapInt where
WrapInt a <= WrapInt b = b <= a
```

which will do bad things...

My blog post shows how to implement `unsafeCoerce`

several ways using other extensions (all safe) and `GeneralizedNewtypeDeriving.`

I have a better understanding of why this is now, and am much more confident that `GeneralizedNewtypeDeriving`

is unable to produce `unsafeCoerce`

without the "System FC" style extensions (type familes, GADTs). Sill, it is unsafe, and should be used with care if at all. My understanding is that Lennart Augustsson (user augustss) implemented it very differently in hbc, and this implementation was safe. A safe implementation would be more limited, and more complicated.

UPDATE: With new enough versions of GHC (all problems should be gone as of 7.8.1) `GeneralizedNewtypeDeriving`

is safe because of the new roles system

`unsafeCoerce`

. – luqui Jun 16 '13 at 20:02`Functor`

instance work, but nothing more. Still, this is enough to derive all the regular type classes like`Eq`

,`Ord`

,`Num`

, etc. – augustss Jun 17 '13 at 9:55