Yes. This is the generated core using GHC 7.4.2:

```
Foo.showInt :: GHC.Types.Int -> GHC.Base.String
[... attributes omitted ...]
Foo.showInt = GHC.Show.$fShowInt_$cshow
```

As you can see, it's just a direct reference to `GHC.Show.$fShowInt_$cshow`

.

Compare with what happens if we remove the type signature so that the inferred type `Show a => a -> String`

is used instead:

```
Foo.showInt
:: forall a_aop. GHC.Show.Show a_aop => a_aop -> GHC.Base.String
[... attributes omitted ...]
Foo.showInt =
\ (@ a_aot) ($dShow_aou :: GHC.Show.Show a_aot) (x_a9Z :: a_aot) ->
GHC.Show.show @ a_aot $dShow_aou x_a9Z
```

Here, it takes a dictionary argument `$dShow_aou`

and it uses the accessor function `GHC.Show.show`

to look
up the appropriate function from this dictionary before applying the resulting function to the argument `x_a9Z`

.

What happens in the first case, at least conceptually, is that since the concrete type is known, GHC inserts a direct reference to the appropriate instance dictionary rather than taking it as an argument. Then, the accessor, which is basically just a record label, can be inlined and you're left
with a direct reference to the appropriate function.