You just found yourself one of the many flaws of the OpenCV C++ API.

If you take a look at the source code of OpenCV, version 2.4.6.1, `cv::Mat::size`

is defined as being a member object of type `cv::Mat::MSize`

, an internal data type defined as follows

```
struct CV_EXPORTS MSize
{
MSize(int* _p);
Size operator()() const;
const int& operator[](int i) const;
int& operator[](int i);
operator const int*() const;
bool operator == (const MSize& sz) const;
bool operator != (const MSize& sz) const;
int* p;
};
```

When you call `cv::Mat::size()`

you are actually calling `cv::Mat::size::operator ()()`

, so far so good, but if you take a look at its return type, you'll verify it is of type `Size`

, which itself is defined as follows

```
typedef Size_<int> Size2i;
typedef Size2i Size;
```

This type, quoting from the OpenCV manual, is a

*"Template class for specifying the size of an image or rectangle. The class includes two members called width and height."*

In other words, `Size`

is only suitable for storing the size of 2D matrices, so it will naturally not work with multi-dimensional matrices.

Fortunately, there's method for returning the number of elements held in the matrix, `cv::Mat::total()`

, which, according to the official reference

*"*[...] *returns the number of array elements (a number of pixels if the
array represents an image)."*

Executing an adaptation of your example to call `cv::Mat::total()`

instead of `cv::Mat::size()`

```
const int sz[] = {10,10,9};
cv::Mat temp(3,sz,CV_64F);
std::cout << "temp.dims = " << temp.dims << " temp.size = " << temp.total() << " temp.channels = " << temp.channels() << std::endl;
```

the result is

temp.dims = 3 temp.size = 900 temp.channels = 1

which is in accordance with the expected size.

Unfortunately I'm not aware of any method which returns the sizes of each dimension, what is most probably a necessary information for any algorithm using a multi-dimensional matrix. If there's indeed neither such method nor any builtin workaround, I suggest writing a very simple wrapper around `cv::Mat`

to store this information, so to avoid the inconvenience of tracking this down externaly.