**A clearer version of this question have been post here.**

I have defined a signature and two modules as follows. The reason to define 2 modules is that I may use `MatrixArray`

or `MatrixList`

according to the context...

```
module type MATRIX =
sig
type 'a t
...
end
module MatrixArray =
(struct
type 'a t = 'a array array
...
end: MATRIX)
module MatrixList =
(struct
type 'a t = 'a list list
...
end: MATRIX)
```

Then I define another signature and another 2 modules which are related to `MATRIX`

, `MatrixArray`

and `MatrixList`

:

```
module type PM =
sig
type 'a t
(* val of_matrix: 'a MatrixArray.t -> 'a t *)
val of_matrix: 'a MATRIX.t -> 'a t
...
end
module PmArray =
(struct
type 'a t = 'a array array
let of_matrix (m: 'a MatrixArray.t) : 'a t =
...
end: PM)
module PmList =
(struct
type 'a t = 'a list list
let of_matrix (m: 'a MatrixList.t) : 'a t =
...
end: PM)
```

In the signature `PM`

, I can define `val of_matrix: 'a MatrixArray.t -> 'a t`

, but I can't define `val of_matrix: 'a MATRIX.t -> 'a t`

(`Error: Unbound module MATRIX`

). So I guess `MATRIX.t`

is always illegal...

What i really want to realize is... on the level of signature, `of_matrix: 'a MATRIX.t -> 'a PM.t`

, but on the level of module `PmArray`

, `of_matrix: 'a MatrixArray.t -> 'a PmArray.t`

; on the level of module `PmList`

, `of_matrix: 'a MatrixList.t -> 'a PmList.t`

.

I don't know if I have to define extra modules or functors to realize this structure... Hope my concern is well described, could anyone help?

**Edit1:**

I just realize that the name of `of_matrix`

may be misleading, it would have been called just `f`

for instance. It represents just a function of type `'a MatrixArray.t -> 'a PmArray.t`

or `'a MatrixList.t -> 'a PmList.t`

, its implementation may be complicated inside. And I would like to make its type `'a MATRIX.t -> 'a PM.t`

, which is unfortunately not allowed.

**Edit2:**

I would have called `PM`

for instance `TRIANGLE`

, and called `PmArray`

`TriagleArray`

(meaning a triangle represented by array of array), and called `PmList`

`TriangleList`

(meaning a triangle represented by list of list). Given a matrix `m`

, the function `f (m: a MatrixArray.t) : 'a TriangleArray.t`

gets its left top half part separated by the diagonal line.

At the current stage, functions like `: 'a MatrixArray.t -> 'a TriangleList.t`

are not really necessary, though there is no reason to exclude them later... What I really need on the module level is `: a MatrixArray.t -> 'a TriangleArray.t`

and `: a MatrixList.t -> 'a TriangleList.t`

, and I just would like to have a common signature/constraint for them: `'a MATRIX.t -> 'a TRIANGLE.t`

somewhere.

`val of_matrix: 'a MATRIX.t -> 'a t`

is invalid. However I am not sure what you are trying to achieve so I am not sure what the correct solution to your problem would be. – LiKao Jan 29 '12 at 19:27`MatrixArray.t`

is abstract in`MatrixArray`

. Hence you will not be able to use it's internal implementation within`of_matrix`

. This can also be remedied by using a functor. – LiKao Jan 29 '12 at 19:30`MatrixArray`

to be of signature`MATRIX`

the type`'a MatrixArray.t`

will become abstract. Hence simple equalities such as`int array array = int MatrixArray.t`

will not hold any more outside of the module. This means you have to treat`'a PmArray.t`

and`'a MatrixArray`

as completely separate types. For example the implementation`let of_matrix (m: 'a MatrixArray.t) : 'a t = m`

will not work, because here`'a t`

and`a MatrixArray.t`

are refering to different types (although they have the same implementation). – LiKao Jan 29 '12 at 20:09