I'm trying to grasp `GADTs`

, and I have looked at the GADTs example in GHC's manual. As far as I can tell, it is possible to do the same thing with `MultiParamTypeClasses`

:

```
{-# LANGUAGE MultiParamTypeClasses, FunctionalDependencies,
FlexibleInstances, UndecidableInstances #-}
class IsTerm a b | a -> b where
eval :: a -> b
data IntTerm = Lit Int
| Succ IntTerm
data BoolTerm = IsZero IntTerm
data If p a = If p a a
data Pair a b = Pair a b
instance IsTerm IntTerm Int where
eval (Lit i) = i
eval (Succ t) = 1 + eval t
instance IsTerm BoolTerm Bool where
eval (IsZero t) = eval t == 0
instance (IsTerm p Bool, IsTerm a r) => IsTerm (If p a) r where
eval (If b e1 e2) = if eval b then eval e1 else eval e2
instance (IsTerm a c, IsTerm b d) => IsTerm (Pair a b) (c, d) where
eval (Pair e1 e2) = (eval e1, eval e2)
```

Note, that we have the exact same constructors and the exact same code for `eval`

(spread cross the instance definitions) as in GHC's `GADTs`

example.

So what's all the fuzz about `GADTs`

? Is there anything that I can do with `GADTs`

that I can't do with `MultiParamTypeClasses`

? Or do they just provide a more concise way of doing things that I could do with `MultiParamTypeClasses`

instead?

`If (Lit 3) (IntTerm 1) (IntTerm 2)`

. Consider using of`data If a = If BoolTerm a a`

. – ony Jun 12 '12 at 12:28