OK, this one's been nagging at me. given the wide variety of instances,
let's go the whole hog and get rid of any relationship between the
source and target type other than the presence of an instance:

```
{-# LANGUAGE OverlappingInstances, FlexibleInstances,TypeSynonymInstances,MultiParamTypeClasses #-}
class Foo a b where f :: a -> b
```

Now we can match up pairs of types with an `f`

between them however we like, for example:

```
instance Foo Int Int where f = (+1)
instance Foo Int Integer where f = toInteger.((7::Int) -)
instance Foo Integer Int where f = fromInteger.(^ (2::Integer))
instance Foo Integer Integer where f = (*100)
instance Foo Char Char where f = id
instance Foo Char String where f = (:[]) -- requires TypeSynonymInstances
instance (Foo a b,Functor f) => Foo (f a) (f b) where f = fmap f -- requires FlexibleInstances
instance Foo Float Int where f = round
instance Foo Integer Char where f n = head $ show n
```

This does mean a lot of explicit type annotation to avoid `No instance for...`

and `Ambiguous type`

error messages.
For example, you can't do `main = print (f 6)`

, but you can do `main = print (f (6::Int)::Int)`

You could list *all* of the instances with the standard types that you want,
which could lead to an awful lot of repetition, our you could light the blue touchpaper and do:

```
instance Integral i => Foo Double i where f = round -- requires FlexibleInstances
instance Real r => Foo Integer r where f = fromInteger -- requires FlexibleInstances
```

Beware: this does **not** mean "Hey, if you've got an integral type `i`

,
you can have an instance `Foo Double i`

for free using this handy round function",
it means: "**every** time you have *any* type `i`

, it's definitely an instance
`Foo Double i`

. By the way, I'm using `round`

for this, so unless your type `i`

is `Integral`

,
we're going to fall out." That's a big issue for the `Foo Integer Char`

instance, for example.

This can easily break your other instances, so if you now type `f (5::Integer) :: Integer`

you get

```
Overlapping instances for Foo Integer Integer
arising from a use of `f'
Matching instances:
instance Foo Integer Integer
instance Real r => Foo Integer r
```

You can change your pragmas to include OverlappingInstances:

```
{-# LANGUAGE OverlappingInstances, FlexibleInstances,TypeSynonymInstances,MultiParamTypeClasses #-}
```

So now `f (5::Integer) :: Integer`

returns 500, so clearly it's using the more specific `Foo Integer Integer`

instance.

I think this sort of approach might work for you, defining many instances by hand, carefully considering when to go completely wild
making instances out of standard type classes. (Alternatively, there aren't all that many standard types, and as we all know, `notMany choose 2 = notIntractablyMany`

, so you could just list them all.)

`class AllowedParamType a c | a -> c`

, you say that given any type`a`

as the first parameter, there is at most one type`c`

that can be used as the second parameter. But then you say when the first type is an`Integral`

type,any`Real`

type can be used as the second parameter. Ideally GHC would give you an error message pointing this out. – dave4420 Sep 13 '12 at 8:25shouldn'tbe what's making the code not compile. However, dave4420 is also has the right idea: the fundep isn't going to work in the long run because I don't want to restrict the parameter type of Int to one type of Real for the whole program. – Eric Sep 13 '12 at 13:01actuallysaying "when the first type isany type at all, the second type is also any type, and oh by the way make sure they have`Integral`

and`Real`

instances, respectively". The`Integral`

constraint is ignored when selecting an instance. – C. A. McCann Sep 13 '12 at 14:03