I'm developing a specialized numerical data processing library, and I've come across an error that I can't figure out how to fix. I think it'll be easier to show an example first and then explain my problem. I also apologize for the strange names, I'm having to obfuscate for legal purposes.

```
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE FlexibleInstances #-}
data MyError = MyError String deriving (Eq, Show)
data MyList = MyList [Double] deriving (Eq, Show)
data NamedList = NamedList String MyList deriving (Eq, Show)
class MyNum a b ret where
myAdd :: a -> b -> Either MyError ret
myLessThan :: a -> b -> Either MyError Bool
instance MyNum MyList Double MyList where
myAdd (MyList xs) x = Right $ MyList $ map (+x) xs
myLessThan (MyList xs) x = Right $ all (< x) xs
instance MyNum NamedList Double NamedList where
myAdd (NamedList n l) x = fmap (NamedList n) $ myAdd l x
myLessThan (NamedList n l) x = myLessThan l x
```

If I try to compile this, I get the error

```
No instance for (MyNum MyList Double ret0)
arising from a use of `myLessThan'
The type variable `ret0' is ambiguous
Possible fix: add a type signature that fixes these type variable(s)
Note: there is a potential instance available:
instance MyNum MyList Double MyList
-- Defined at testing_instances.hs:13:10
Possible fix:
add an instance declaration for (MyNum MyList Double ret0)
In the expression: myLessThan l x
In an equation for `myLessThan':
myLessThan (NamedList n l) x = myLessThan l x
In the instance declaration for `MyNum NamedList Double NamedList'
```

Because the compiler can't figure out which specific instance of `MyNum`

to use for `MyList`

. It works for `myAdd`

because the return type for `MyNum`

is easily derived, but it can't figure it out for `myLessThan`

. I want to use this typeclass so that I can easily add fine-grained error handling throughout, and because my actual code has the equivalent of +, -, *, /, <, <=, >, and >=, and I want to make an instance for `MyNum Double MyList MyList`

, `MyNum MyList MyList MyList`

, and similar ones for `NamedList`

. Unless there's an easier way to do this, it's so that I can have polymorphic commutative operators.

However, I can't figure out what type signature to add to `myLessThan`

for the second instance so that it can know which instance to use. I know one solution would be to split the arithmetic and comparison operators into two separate type classes, but I would like to avoid doing so if at all possible.