It depends on which type of generic map you use, and you have to make a distinction between the two parameters (the type of keys, and the type of values). If you use the Map.Make functor of the default library, you can be generic on the type of values, but the type of keys will be fixed (by the functor instantiation): for a given key module
Key, the maps generated by
module MyMap = Map.Make(Key) have only one parameter,
'v MyMap.t, so you can have
f : 'v MyMap.t -> bool.
There are other libraries that provide so-called "polymorphic" maps with a type of the form
('k, 'v) pmap that allow to be polymorphic over both the key and the value type. However, this generally comes at the cost of lesser static guarantees: if you were to change
'k in a way that does not preserve the ordering on keys, you would get inconsistent results in a way that cannot be detected at compilation time.
Of course, you can implement additional function that work for any key type by enhancing the
Map.Make functor itself (code untested):
module MyMake(K : Map.OrderedType) = struct
(* after the "include", all the functions provided by `Map.Make`
are available in the module *)
let is_not_empty m = not (is_empty m)
module MyMap = MyMake(String)
let foo = MyMap.is_not_empty (...)
(Remark: If you don't need a persistent collection (no copy/sharing/backtracking of values) and you don't care about the worst-case complexity (no use exposed to deny of service attacks by an user), you may also use hashtables, with the Hashtbl module that provides a
('k, 'v) Hashtbl.t type. But the polymorphism on
'k is not really present: you don't get any function that can make this parameter vary).