Let's say I have three value constructors:
A { a :: Int }
B { b :: Char }
C { c :: Bool }
I would like to create two types X
and Y
such that a value of type X
can be an A
, B
or C
, something like this:
data X = A {...} | B {...} | C {...}
and a value of type Y
can be only an A
or B
, something like this:
data Y = A {...} | B {...}
so that I can code something like this:
foo :: X -> Int -- can pattern match
foo (A _) = 1
foo (B _) = 2
foo (C _) = 3
bar :: Y -> Bool -- also can pattern match with the same constructors
bar (A _) = true
bar (B _) = false
baz = A 1 -- baz is inferred to be a type that can fit in both X and Y
I know that I can wrap the constructors in the definitions of X
and Y
like this:
data X = XA A | XB B | XC C
data Y = YA A | YB B
but this seems untidy (having to type XA A
etc. all the time). I could expand the contents of A
, B
, and C
into the definitions of X
and Y
, but A
etc. are quite complicated and I would prefer not to duplicate the definition.
Is this possible with Haskell, including any GHC extensions?
Edit
It seems that GADTs can answer my question as asked (so I marked heatsink's answer as correct), but still aren't flexible enough for what I need. For example, as far as I know, you can't do something like:
func1 :: [XY Y_] -- returns a list of items that can only be A or B
func1 = ...
func2 = func1 ++ [C True] -- adding a C item to the list
func2
should be typed as [XY X_]
, but that isn't possible in Haskell (unless my experiment was wrong).
After more web searching, what I really want is OCaml's polymorphic variants which (as far as I know) exist only in OCaml (looking at the more "practical" as opposed to "academic" languages).
Edit 2
See comonad's answer. It seems that it really can be done, but I think I'd better not rewrite this question too many times. :-)
foo
andbar
won't type check, becauseA _
is by definition a value of typeA
, notX
orY
. You cannot have another type (X
) with the same constructor.A
have? It can only have one, so it can't beInt -> X
andInt -> Y
simultaneously.foo
andbar
won't typecheck, but I was hoping that something similar would be valid Haskell. For example, with typeclasses,read x
(wherex
is aString
) can have (in a sense) more than one type.