GHC has a few language flags, such as `DeriveFunctor`

, `DeriveDataTypeable`

etc., which enable compiler generation of derived instances for type classes other than those allowed in Haskell 98. This especially makes sense for something like `Functor`

, where the laws of that class dictate an obvious, "natural" derived instance.

So why not for `Monoid`

? It seems like for any data type with a single data constructor:

```
data T = MkT a b c ...
```

one could mechanically produce a `Monoid`

instance (excuse the pseudocode):

```
instance (Monoid a, Monoid b, Monoid c, ...) => Monoid T where
mempty =
MkT mempty mempty mempty ...
mappend (MkT a1 b1 c1 ...) (MkT a2 b2 c2 ...) =
MkT (mappend a1 a2) (mappend b1 b2) (mappend c1 c2) ...
```

I'm aware that the derive package provides this, but my question specifically is whether there's a reason why GHC does not.

`Functor`

instance. The same is not true about`Monoid`

. – augustss Jun 23 '12 at 9:53