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I've created a templated class, and it works fine:

( I'm using openCV library, so I have cv::Mat type of matrices)

template < class T, T V >
class MatFactory


    const T static VALUE = V;


    void create(/* some args */)
      cv::Mat M;

      // filling the matrice with values V of type T

      // loop i,j
      M.at<T>(i,j) = V;

      return M;

But later in code, I need to get an element of matrix M at some indexes (i,j). But how do I know the type T?

MatFactory<int, 1> MF;

// getting object
cv::Mat m = MF.create();

// then I need to get some value (with `.at<>` method)
int x = m.at<int>(2,3);

// But, it means I should every time explicitly declare INT type
// Can I somehow get the type, that was passed to template factory
// Than i'll write something like this:
T x = m.at<T>(2,3);

// How to get T from the deferred template?
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I don't understand the question. –  Crazy Eddie May 9 '12 at 22:31
@CrazyEddie, I've added more code example in my question –  Innuendo May 9 '12 at 22:39

2 Answers 2

up vote 1 down vote accepted

Just add a type member to your MatFactory:

template <typename T, T V>
class MatFactory {
    typedef T type;

Note that non-type template arguments are rather limited. In particular, floating point types are not allowed (thinking of it this may have been changed with C++2011).

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No, that hasn't changed in C++11. Non-type parameters can still only be of integral, enumeration, pointer, lvalue reference, or pointer-to-member type. –  Mike Seymour May 9 '12 at 22:58
So, If I add typedef T type member, I can write than: MF.type m.at<MF.type>(2,3) in my example above? –  Innuendo May 9 '12 at 23:05
Not quite but nearly: you would use MF::type if this is not in a template or if MF does not depend on a template parameter. Otherwise you'd need to use typename MF::type. –  Dietmar Kühl May 9 '12 at 23:09

If you know the array element type (which can be retrieved using the method Mat::type() ), you can access the element M_{ij} of a 2-dimensional array as:

M.at<double>(i,j) += 1.f;

assuming that M is a double-precision floating-point array. There are several variants of the method at for a different number of dimensions.


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