## The problem

One problem I'm having is bringing the types and vals of two module into a new combined module. I'll give an example. Currently I have the following two type signatures

```
module type Ordered =
sig
type t (* the type of elements which have an order *)
val eq : t * t -> bool
val lt : t * t -> bool
val leq : t * t -> bool
end
module type Stack =
sig
exception Empty
type 'a t (* the type of polymorphic stacks *)
val empty : 'a t
val isEmpty : 'a t -> bool
val cons : 'a * 'a t -> 'a t
val head : 'a t -> 'a
val tail : 'a t -> 'a t
end
```

and I'd like to create a module of "stacks for which the basic elements are ordered", i.e.

```
module type OrderedStack =
sig
exception Empty
type elem (* the type of the elements in the stack *)
val eq : elem * elem -> bool
val lt : elem * elem -> bool
val leq : elem * elem -> bool
type t (* the type of monomorphic stacks *)
val empty : t
val isEmpty : t -> bool
val cons : elem * t -> t
val head : t -> elem
val tail : t -> t
end
```

Up to here, everything is nice and neat. But now, I'd like to write a functor which takes an Ordered module and a Stack module and produces an OrderedStack module. Something like

```
module My_functor (Elem : Ordered) (St : Stack): OrderedStack =
struct
exception Empty
type elem = Elem.t
let eq = Elem.eq
let lt = Elem.lt
let leq = Elem.leq
type t = elem St.t
let empty = St.empty
let isEmpty = St.isEmpty
let cons = St.cons
let head = St.head
let tail = St.tail
end
```

This is exactly what I want and is correct. But it looks like an awful waste of keyboard.

## My question

Is there a more compact way to write `My_functor`

above?

## What I found out but couldn't put to work

I've seen the `include`

directive in which I could write something like:

```
module my_functor (Elem : Ordered) (St : Stack): OrderedStack =
struct
include Elem
include St
end
```

but this has the problem that, for my particular two modules above, both Ordered and Stack have the same `type t`

(although they mean different things in each of them). I'd prefer not to change the original definition of `Ordered`

and `Stacks`

as they are already used in many parts in the code but if you find an alternative formulation for the original two modules that makes it work, that's fine.

I've also seen that the `with`

operator may be relevant here but I couldn't quite work out how it should be used to produce the desired effect. The problem I'm facing is that the types `t`

and `'a t`

of the two modules `Ordered`

and `Stacks`

and actually connected.

Any ideas?

`MonoStack`

and`Ordered`

, instead of having submodules. I tend however to prefer the submodules solution -- at least because I don't use 3.12 yet. One nice thing with submodules is that you can easily pass them to other functors: "oh, I need to build a Set of the elements of my stack". – gasche Jan 30 '11 at 1:18