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I would like to write this operation


in this mathematical style

target = Matrix * source + offsets;

However, I'm also concerned about performance. (In fact, the above operation will be run in a tight loop.) I don't want to create a new vector for each matrix-vector multiplication and another new vector for the vector addition.

How can I implement the above operation in C# or F# (or any functional language that you know) so that style and performance can be both achieved?

Sorry for this naive question. I'm sure this desire is so fundamental.

share|improve this question
Why do you need it in functional form? You could achieve your aim by dynamically creating Linq Expressions & compiling them, but this is HUGELY more complex. – Brendan Hill Dec 3 '13 at 23:41
Is the Matrix class yours? – Mike Perrenoud Dec 3 '13 at 23:45
Yes, Matrix can be anything I want. – zer0ne Dec 4 '13 at 0:38
@BrendanHill, the functional form is more readable and closer to the mathematical description. – zer0ne Dec 4 '13 at 0:46

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


but instead


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)

let ... = eval Matrix.(!A * !B + !C)
share|improve this answer

Making the assumption that the Matrix class is yours, you can overload the operators:

public static Matrix operator *(Matrix x, Matrix y)
    return Matrix.Multiply(x, y);

public static Matrix operator +(Matrix x, OffsetsType offsets)
    return x;

So, this expression (which is a modification of the one in your question because in your question you are multiplying Matrix by source and that doesn't make sense):

target = target * source + offsets;

broken out, would look like this:

var z = Matrix.Multiply(target, source);
target = z;
share|improve this answer
1) you need a return in your operator + 2) it's static so you need a Matrix x parameter, and use x.Add instead of this – p.s.w.g Dec 4 '13 at 5:09
@p.s.w.g, thanks so much! I apologize for missing that. – Mike Perrenoud Dec 4 '13 at 18:27

If performance is your largest concern, the fastest way to do this is to define Matrix as a struct if it isn't already, then use ref/out parameters instead of ones that create a lot of copies.

public void Multiply(ref Matrix left, ref Matrix right, out Matrix result)

This is the approach taken by a number of C# game/graphics frameworks.

There's also this very interesting article about optimizing OpenTK's matrix multiplication, which might give you ideas about how to further speed up matrix operations: Making OpenTK matrix multiplication faster

Of course, if you matrix class isn't of a fixed size, then this information is largely useless.

share|improve this answer

You can create custom operators for your classes:

This gives you the syntax you want, but still functional programming behind the scenes. Performance will be no different since .NET will just compile your operator-using code to be function-calling instead.

share|improve this answer
Why the downvote? No offense taken, just want to understand the reason. – Brendan Hill Dec 4 '13 at 22:03

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