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If I have:

data Container a = Node a | End a | Container a

if I wanted to write a function which could look at a list of Container a elements and perform a list difference, how would I do this so that I can explicitly tell the compiler that this abstract data type allows equality?

I thought it would be:

compare::Eq (Container a) => Container a -> Container a -> Bool
compare a b
           | a == b = True
           | a /= b = False

but it complains about the Eq statement not being correct because it could not deduce (Eq (Container a)) arising from use of '=='

EDIT it seems deriving (Eq) in my abstract data type is the only way to allow this. Can somebody please confirm?

EDIT2 after including deriving (Eq):

test:: [Container a] -> Container a -> Bool
test list element = elem element list

"No instance for (Eq a)"

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2 Answers 2

The easiest way to inform the compiler of instances like these is to use a deriving clause. In this case,

data Container a = Node a | End a | Container a deriving (Eq)

One can also give an Eq instance by hand, e.g. the following says that if a Container contains elements that can be tested for equality, then the Container can also be tested for equality.

instance Eq a => Eq (Container a) where
    (Node a)      == (Node b)      = a == b
    (End a)       == (End b)       = a == b
    (Container a) == (Container b) = a == b
    _             == _             = False

This is the same definition as the one deriving gives, so it isn't necessary to type out definitions like that ever, but if one wants a more complicated definition of Eq then one must do something like that.

Once you have an Eq instance for container, you can just write:

compare :: Eq a => Container a -> Container a -> Bool
compare a b | a == b = True
            | a /= b = False

(Two things about this function: it is actually entirely pointless, since it is the same as (==), and one should use otherwise as the last alternative in guards.)

Those are basically the only two options. Although there is a third method, which is essentially a combination of the two: using the GHC extension StandaloneDeriving.

deriving instance Eq a => Eq (Container a)
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I have added deriving (Eq) to my abstract data type. I then create the function which checks whether an element is within the container, using elem. So I have a list of Container a elements and one Container a element. When I use elem list element, it says "No instance for (Container a) – Lethi Sep 8 '12 at 13:53
I have added my second function to the original post under Edit2 – Lethi Sep 8 '12 at 13:56
Your list is of a, not Container a in that function. – huon Sep 8 '12 at 13:57
Sorry, just updated it. Yet I still get an error message relating to "a" – Lethi Sep 8 '12 at 14:04
@Dan, yes, you will have to make that declaration. – huon Sep 8 '12 at 15:12

As for "No instance for (Eq a)" - your type is wrong.

test:: [Container a] -> Container a -> Bool

The type says that you can compare any containers which is wrong. Your current instance is only available for containers having comparable elements. So you should write

test:: Eq a => [Container a] -> Container a -> Bool
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