Edit:After re-reading your question, I think the best option is to make
Foo an instance of
Ord. I do not think there is any way to do this automatically that will act the way you want (just using
deriving will create different behavior).
Foo is an instance of
Ord, you can just use
In your exact example, you can do something like this:
data Foo = A String Int | B Int deriving (Eq)
instance Ord Foo where
(A _ _) <= (B _) = True
(A s _) <= (A s' _) = s <= s'
(B _) <= (B _) = True
When something is an instance of
Ord, it means the data type has some ordering. Once we know how to order something, we can use a bunch of existing functions (like
sort) on it and it will behave how you want. Anything in
Ord has to be part of
Eq, which is what the
deriving (Eq) bit does automatically.
You can also derive
Ord. However, the behavior will not be exactly what you want--it will order by all of the fields if it has to (e.g. it will put
As with the same string in order by their integers).
Further edit: I was thinking about it some more and realized my solution is probably semantically wrong.
Ord instance is a statement about your whole data type. For example, I'm saying that
Bs are always equal with each other when the derived
Eq instance says otherwise.
If the data your representing always behaves like this (that is,
Bs are all equal and
As with the same string are all equal) then an
Ord instance makes sense. Otherwise, you should not actually do this.
However, you can do something almost exactly like this: write your own special
compare function (
Foo -> Foo -> Ordering) that encapsulates exactly what you want to do then use
sortBy. This properly codifies that your particular sorting is special rather than the natural ordering of the data type.