(C++) Matrix multiplication in a templated Matrix class

I came across a problem with my matrix class and i can't find a solution.

``````Matrix = ROWSxCOLUMNS

Let A be a 3x4 matrix
Let B be a 4x5 matrix
``````

The operation `AxB` (which is defined only if the columns of A match the rows of B) leads to a `3x5 matrix`. I wanted to create a templated class that does just that.

``````Matrix<int,3,4> A;
Matrix<int,4,5> B;
Matrix<int,3,5> matrix = A*B;
``````

My code:

``````    template <class T, unsigned int ROWS, unsigned int COLUMNS>
class Matrix {
public:

/* blabla */

const Matrix<T, ROWS, /* ? */ >&
operator*(const Matrix<T, COLUMNS, /* ? */ >& matrix) const
{
/* multiplication */
}

/* blabla */
};
``````

I don't know what to insert in the `/* ? */` sections. Is there a way to let the compiler accept any unsigned integer value? Should i rewrite the code in a different way?

Note: I'm creating this class for academic purposes, i don't care if there are already libraries that do this.

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May i propose to Google for "matrix template C++"? - drdobbs.com/a-c-matrix-template-class/184403323?pgno=2 – SChepurin Dec 15 '12 at 16:55

Use a template member function with an integer template parameter:

``````template<class T, unsigned int ROWS, unsigned int COLUMNS>
class Matrix {
public:
...
template<unsigned int N>
Matrix<T, ROWS, N>
operator*(const Matrix<T, COLUMNS, N>& matrix) const
{
/* multiplication */
}
...
};
``````

Also, do not return the value by reference.

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How do i specify that template parameter in the multiplication? In my example, Matrix<int,3,5> matrix = A*B; will this work without specifying N? – gaudo Dec 15 '12 at 16:58
Yes, it will work without specifying N. The compiler figures out what N is by looking at the type of B. (It is called template argument deduction.) – user763305 Dec 15 '12 at 17:00
oh i didn't know this, thank you :) – gaudo Dec 15 '12 at 17:04
Have fun! Templates is a weird and wonderful world! – user763305 Dec 15 '12 at 17:05

You can take a look at this Example but instead of doing the triple loop (very inefficient) I delegate to Intel MKL `dgemm`.

Note also using the `operator*()` for a matrix type is a bad idea because you need to return the result by value, unless you are sure that you have a compiler with enabled Named Return Value Optimization (NRVO) and tested it works. Namely you don't want to return a matrix by value and incur into a very expensive matrix copying. This is why in my implementation I choose to define a method `multiply` instead of overloading the `operator*()`

An efficient alternative to the `operator*()` would be to define the `operator*=()` so you use it like this, and the result of the multiplication is stored into A directly:

``````A *= B; // or A = A*B
``````
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Very interesting! After reasoning a while i think i will do as you did. The multiply method seems a better option for me too. Thank you. – gaudo Dec 15 '12 at 17:24