While trying to define some mathematical objects using the Numeric prelude I've run into a problem. The Additive typeclass defines an instance

```
instance Additive.C v => Additive.C [v]
```

Which I read "if v is Additive, [v] is too" (apparently I was wrong here). It's implemented something like

```
(+) x y = map (\(a,b) -> a + b) $ zip x y
```

So that [1,2,3] + [4,5,6] = [5,7,9] which is useless for what I want to do. I assumed I wouldn't have a problem as my v type isn't Additive. Unfortunately I still got an overlapping instances error which I found very confusing. I've did a little reading and I now understand that for some reason, Haskell ignores everything before the "=>" bit so I should have read the default instance as "any list is potentially additive in the sense of the default instance". I've tried using OverlappingInstances despite the fact that this extension has the reputation of being "dangerous", but even that doesn't seem to help.

Here is my testcase.

```
{-# LANGUAGE NoImplicitPrelude #-}
{-# LANGUAGE MultiParamTypeClasses,FlexibleInstances #-}
{-# LANGUAGE OverlappingInstances #-} --This doesn't seem to help
import NumericPrelude
import qualified Algebra.Additive as Additive
data Test = Red | Green | Blue deriving Show
instance Additive.C [Test] where
zero = undefined
(+) = undefined
negate = undefined
test = [Red] + [Green] + [Blue]
```

Produces the error (Update: this appears to only happen in older versions of GHC. version 7.2.2 seems to accept it):

```
Overlapping instances for Additive.C [Test]
arising from a use of `+'
Matching instances:
instance Additive.C v => Additive.C [v]
-- Defined in Algebra.Additive
instance [overlap ok] Additive.C [Test]
-- Defined at Testcase.hs:10:10-26
In the first argument of `(+)', namely `[Red] + [Green]'
In the expression: [Red] + [Green] + [Blue]
In an equation for `test': test = [Red] + [Green] + [Blue]
```

Does this mean I can't use lists because I don't want to default instance of Additive? What I really want to do is tell ghc to just forget that default instance, it that possible? If not, I'm not sure where to go from here other than dropping lists.

`list1 + list2`

? – huon Aug 26 '12 at 17:40`zipWith (+) x y`

is a nicer way to write`map (\(a,b) -> a + b) $ zip x y`

) – huon Aug 26 '12 at 17:44