A well-known technique, that is for example at the heart of the Repa library of high-performance numeric arrays, is to define on top of the basic "2D array of integer" structure a higher-level data structure that *delays* the operations you want to perform, along with an intepretation/normalization function that will finally perform those operations, applying any optimization it deems profitable.

Concretely, in your example, and I think most current answers have missed this, you want `A * B + C`

to be rewritten not into

```
add(multiply(A,B), C)
```

or in OO styl
e

```
A.multiply(B).add(C)
```

but instead

```
multiply_and_add(A,B,C)
```

where `multiply_and_add`

is a specialez, lower-level operation that does both operations at once and is more optimized. Similarly, it is well-known that for arbitrary matrices `A, B, C, D`

, the product `A * B * C * D`

may be more efficiently computed as `A * ((B * C) * D)`

rather than `A * (B * (C * D)))`

, depending on the operand dimensions. So a purely local approach (expressing each operation on arrays of integers) does not work, you need expression-global rewrites for optimal efficiency -- as done by the hackish template libraries in C++.

The solution is to move from `int array array`

to a refined datatype, for example:

```
type matrix =
| Raw of int array array
| Add of matrix * matrix
| Mult of matrix * matrix
```

and then provide a `eval : matrix -> int array array`

function that "interprets" those matrix descriptions (in essence abstract syntax trees of matrix operations) by possibly applying domain-specific optimizations. For a naive example:

```
let rec eval = function
| Raw m -> m
| Add(Mult(a,b), c) | Add(c, Mult(a,b)) ->
multiply_and_add (eval a) (eval b) (eval c)
| Add (a, b) -> add (eval a) (eval b)
| Mult (a, b) -> mult (eval a) (eval b)
```

You can then define the syntactic sugar of your liking to make the `matrix`

constructors easier to read.

```
module Matrix = struct
let (!) m = Raw m
let (+) a b = Add (a, b)
let (*) a b = Mult (a, b)
end
let ... = eval Matrix.(!A * !B + !C)
```

`Matrix`

class yours? – Mike Perrenoud Dec 3 '13 at 23:45