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I created the following Matrix class:

template <typename T>
class Matrix
{
    static_assert(std::is_arithmetic<T>::value,"");

public:
    Matrix(size_t n_rows, size_t n_cols);
    Matrix(size_t n_rows, size_t n_cols, const T& value);

    void fill(const T& value);
    size_t n_rows() const;
    size_t n_cols() const;

    void print(std::ostream& out) const;

    T& operator()(size_t row_index, size_t col_index);
    T operator()(size_t row_index, size_t col_index) const;
    bool operator==(const Matrix<T>& matrix) const;
    bool operator!=(const Matrix<T>& matrix) const;
    Matrix<T>& operator+=(const Matrix<T>& matrix);
    Matrix<T>& operator-=(const Matrix<T>& matrix);
    Matrix<T> operator+(const Matrix<T>& matrix) const;
    Matrix<T> operator-(const Matrix<T>& matrix) const;
    Matrix<T>& operator*=(const T& value);
    Matrix<T>& operator*=(const Matrix<T>& matrix);
    Matrix<T> operator*(const Matrix<T>& matrix) const;

private:
    size_t rows;
    size_t cols;
    std::vector<T> data;
};

I tried to use a matrix of std::complex:

Matrix<std::complex<double>> m1(3,3);

The problem is that the compilation fails (static_assert fails):

$ make
g++-mp-4.7 -std=c++11   -c -o testMatrix.o testMatrix.cpp
In file included from testMatrix.cpp:1:0:
Matrix.h: In instantiation of 'class Matrix<std::complex<double> >':
testMatrix.cpp:11:33:   required from here
Matrix.h:12:2: error: static assertion failed: 
make: *** [testMatrix.o] Error 1

Why std::complex is not an arithmetic type? I want to enable the utilisation of unsigned int (N), int (Z), double (R), std::complex (C) and maybe some home made class (e.g. a class representing Q)... It is possible to obtain this behave?

EDIT 1: If I remove static_assert the class works normally.

Matrix<std::complex<double>> m1(3,3);
m1.fill(std::complex<double>(1.,1.));
cout << m1 << endl;
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Just out of curiosity: Can you instantiate and utilize an instance of Matrix<std::complex<double> > if you remove that static_assert? –  Marcus Riemer Aug 19 '12 at 9:19
    
@MarcusRiemer Yes. It works very well. –  user1434698 Aug 19 '12 at 9:22

2 Answers 2

up vote 11 down vote accepted

The arithmetic in is_arithmetic is a misnomer. Or rather, it's a C++-nomer. It doesn't mean the same thing as it means in English. It just means it's one of the built-in numeric types(int, float, etc...). std::complex is not a built-in, it is a class.

Do you really need that static_assert? Why not just let the user try it with any type? If the type doesn't support the needed operations, then tough luck.

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1  
+1 for tough luck. –  Mehrdad Aug 19 '12 at 9:23
    
Obviously the static_assert is not really needed. I used it to "clean" the code and let my matrix be used only for maths... –  user1434698 Aug 19 '12 at 9:27
2  
@R.M. Why would you want to impose such a restriction? –  Benjamin Lindley Aug 19 '12 at 9:29
2  
Anyone who wants to multiply a matrix of std::string deserves what they get. –  Jesus Ramos Aug 19 '12 at 9:32
1  
@BenjaminLindley: A pretty big part of the point of static_assert is to provide more readable and legitimate error messages for template substitution failures, rather than a giant template instantiation spew. –  Nicol Bolas Aug 19 '12 at 9:34

You could do interesting things with matrices of types that aren't normally considered "numeric". Matrices and vectors actually generalize from numbers to many kinds of "algebraic ring"- basically, any set of objects where the usual + and * operations are defined.

So, you could have matrices of vectors, other matrices, complex numbers, etc. Any classes or primitive types that support add, subtract, and multiply operators would then work correctly. If you define the operators correctly, the implicit compile bombs should catch most abuses like "matrix<std::string>".

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