Since ghc-8.0 we have a very nice extension called `TypeApplications`

. Which allows us instead of:

```
λ> show (5 :: Int)
"5"
```

do so something like that:

```
λ> :set -XTypeApplications
λ> show @Int 5
"5"
```

Which is really cool. It becomes a bit more involved when we add more type variables, but there are rules that can be used to determine the exact order, and they are very well documented:

```
showFooBar :: (Show a, Show b) => a -> b -> String
showFooBar a b = show a ++ " and " ++ show b
```

So in the function above we would first supply `a`

and then `b`

:

```
λ> showFooBar @Int @Double 3 4
"3 and 4.0"
```

That's great, but what if I'd like to change the order? No problem there, we can use `ExplicitForAll`

extension (or some other that imply it) to specify it:

```
{-# LANGUAGE ExplicitForAll #-}
showFooBar :: forall b a . (Show a, Show b) => a -> b -> String
showFooBar a b = show a ++ " and " ++ show b
```

And now we reversed the order of types that we are going to apply:

```
λ> showFooBar @Int @Double 3 4
"3.0 and 4"
```

The problem is that I can't seem to figure out how to achieve the same affect for functions that are part of a type class. Consider this example:

```
{-# LANGUAGE MultiParamTypeClasses #-}
class (Show a, Show b) => FooBar a b where
fooBarClassFunc :: a -> b -> String
```

I can't put `forall`

on a function now (eg. `fooBarClassFunc :: forall a b . a -> b -> ..`

, cause that changes the meaning of the function and obviously does not compile.

So, the question is, how do you change the order of type variables for the purpose of `TypeApplication`

inside the type class methods?

*Edit*

Just in case, I have tried `InstanceSigs`

extension, and it completely ignores the order of `forall`

type variables as far as `TypeApplications`

are concerned, which is a good thing, otherwise we would end up with behavior that is determined by the instance, rather than the class.

`fooBarClassFunc'`

the method, and then define`fooBarClassFunc :: forall b a. ...`

as a regular function. Same effect for users, a little strange for instantiators... – luqui Feb 14 '19 at 22:35`QuantifiedConstraints`

would allow to specify this as well, but it does not seem to allow anything like`class forall b a . (C a, C b) => K a b where`

. Further, one might want the order to vary from method to method, for maximum generality. – chi Feb 14 '19 at 23:28`class X t where { func :: forall a b. t a -> t b -> t (a, b) }`

. You just can't do it with`t`

, which is the type on which the typeclass is defined. Not that that helps very much... – bradrn Feb 15 '19 at 2:41