I am not aware of any language that does this... sadly, I'd love to play around with it (but first, they should adopt type inference and parametric polymorphism ;) ).

Although it is alreapossible: Relatively elegantly in a structural type system (type a is a subtype of type b if a has everything b has), simply by specifying a type for value that is a structural subtype of `BigInteger`

and of `Double`

and of `Nil`

and slightly less elegantly in a nominative type system (type a is a subtype of type b if and only if it inherits from it, directly or indirectly) by specifying a common ancestor of all three (if all else fails, `object`

). Of course we'd need to go recursive - what is the type of toString? And what's the typ of `(Integer | Double | BigInteger).+`

?!? This is far from trivial (in fact, looking for a solution made my head hurt a bit). I can't say if it is impossible, but no mainly-OO-language's type system is anywhere sophisticated enough for a possible solution.

The bottom line is: It'd be really cool *if* some whizz came along and sorted out the issues it raises. Propably not worth the effort...

Edit: Do you know algebraic data types? They are similar to your idea (but much older ;) ) in that an algebraic data type is composed of several types and can therefore contain e.g. a BigInteger, a Double and Nil - the actual value is one of these and a tag (as in tagged union) says which. But to use the value stored in an algebraic data type, you have to use pattern matching to extract it safely. *This* concept is very powerful, and still "simple" enough to be understood tools - e.g. type inference and static typechecking work.