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Suppose we have a Matrix class in F# and you overload the (+) operator. Then, we will have something like this:

type Matrix(n : int, m : int) = 
    ...
    static member (+) (A : Matrix, B : Matrix) = 
        let res = new Matrix(A.Dim1, A.Dim2) // suppose A and B have the same dimension
        ... // compute here the sum
        res

Comparing to C/C++, we would have something like this:

static const Matrix operator+(const Matrix& A, const Matrix& B)
{
    Matrix res(A.Dim1(), A.Dim2());
    ... // compute here the sum
    return res;
}

Now, observe that in F#, the matrix res is allocated in the heap memory, in contrast with the C++ version, that allocates res in the stack memory.

So far so good. Observe what happens when we want a "reference" to the result of the sum operation in both versions:

Matrix result = A + B; // deep copy in C++ (because res has to be destroyed after its return)

let result = A + B // shallow copy in F# (res was allocated in the heap memory)

Am I missing something here or the (+) operator in F# ends up being more efficient than its counterpart in C/C++, because of the shallow and deep copy behavior?

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3 Answers

Usually, it is faster to keep data on the stack. And commercial-grade C++ compilers will often use the "return value optimization".

But until you start to actually measure the performance, you will never know which is faster. There are too many factors involved.

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Thank you for the link. I never heard about return value optimization. Note that I could work with pointers in the C++ implementation, but this would be cumbersome and resulting in a very ugly and it would be not as straightforward as the one I provided. With return value optimization, it seems that the compiler does this low-level job for you. Very interesting. I would like to know if this is possible in C# and F#. –  Allan Sep 10 '10 at 13:38
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.NET has reference and value types, and value types are allocated on the stack (unless they're part of a reference type, but let's not get carried away). In C# you would declare them with the class and struct keywords, respectively.

While this is not really part of the F# type declaration semantics, you can tell the compiler to create a particular type as a value type, by using the [<Struct>] attribute.

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Thank you for pointing out the [<Struct>] attribute, one more thing I learn trying to answer at stackoverflow. :-) –  Edgar Sánchez Sep 10 '10 at 12:30
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Yep, F# (as C# and VB.NET) passes objects (class instances) by reference (so no copies created), if you use structs (in C#, not sure if you can create such a thing in F#) then they are passed by value (thus copies are created). Note that in C++ you can do it both ways too. But, yes, the way you propose your example, the F# solution is going to be more efficient.

Alas, somebody would probably point out that if you make Matrix a mutable object then you'll be even more performant (as no new Matrix objects need to be created), but then you loose all of the goodness of immutability.

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