# Heterogeneous sets in OCaml

suppose I have a type defined as

``````type value =
None
| Int of int
| Float of float
| Complex of Complex.t
| String of string
| Char of char
| Bool of bool
``````

and I want to be able to work with `Sets` of these values. From what I understood I have to use the functor to concretize the `Set` module with a concrete type and its associated ordering.

How should I do it in this example? Since `value` cannot be used directly inside the `Set.Make` functor?

Then of course I need to be able to give a full ordering of these values so I should invent something like giving a predefined order to different types, and then ordering them by their effective value.. am I right?

So for example I can decide to have `Int of int < Float of int` and `Int x < Int y` if `x < y`. Is it a practical approach to what I'm trying to achieve?

-
Do you mean that you want to compare: Int of int < Float of float? –  aneccodeal Jul 9 '10 at 20:50
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## 1 Answer

Set.Make functor takes the module with signature Set.OrderedType :

``````module type OrderedType = sig type t val compare : t -> t -> int end
``````

For comparison you can use `Pervasives.compare` if you don't have any requirements on the order and results returned by `min_elt`/`max_elt`. So the parameter to the functor can be as simple as :

``````module T = struct type t = value let compare = compare end
``````
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But will this allow a comparison between Int of int and Float of float (I think that's what the OP is asking, though he writes: Int of int < Float of int ... but I wonder if that's a type as his type specifies Float of float) –  aneccodeal Jul 9 '10 at 20:49
The problem is that I need to provide a way to order different kinds of datatype to be able to use the `Set`, that's why I was wondering if forcing a specific hierarchy (eg `None < Int < Float < Complex ..`) is an acceptable way to do it or if I have to find another way.. –  Jack Jul 10 '10 at 0:26
@Jack `Pervasives.compare` will automatically do a sensible comparison; I believe it will implement the hierarchy you propose on its own. No need to define your own comparison function unless you have particular needs. –  Michael Ekstrand Jul 10 '10 at 2:34
As Michael E said - `compare` is a generic polymorphic structural comparison function - it will define a total ordering on any values (by magic) - use it unless you have a specific requirement on ordering (in case of `Set` this only influences the `min_elt` and `max_elt` functions). NB exception to the above : `compare` cannot compare functions and will raise exception at runtime. –  ygrek Jul 12 '10 at 7:15
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