Here's a pretty useful class:

```
class Foo f a where
foo :: f a
```

It let's me make default values for lots of types. In fact, I might not even need to know what `a`

is.

```
instance Foo Maybe a where
foo = Nothing
```

Now I have a `Maybe a`

for all `a`

, and I can specialize it later.

```
specialize :: (forall a. f a) -> f Int
specialize x = x
fooMaybe :: Maybe Int
fooMaybe = specialize foo
```

Hmmm....that `fooMaybe`

sure seems pretty specific. Let's see if I can use a context to generalize it:

```
fooAll :: (Foo f a) => f Int
fooAll = specialize foo
```

Oops! Guess not.

```
Foo.hs:18:21:
Could not deduce (Foo * f a1) arising from a use of `foo'
from the context (Foo * f a)
bound by the type signature for fooAll :: Foo * f a => f Int
at Foo.hs:17:11-28
```

So, my question is, how can I write `fooAll`

, the generalized version of `fooMaybe`

? Or, more generally, **how can I universally-generalize a typeclass constraint**?

`fooAll`

if you make an`instance Foo f a where foo = undefined`

. But that's not useful. You can not universally-quantify the constraint, you can't write`fooAll :: (forall a. Foo f a) => f Int`

. – Daniel Fischer May 9 '13 at 10:15