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I am creating a multi-dimensional MAT object, and would like to get the size of the object - e.g.,

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

I believe the resulting MAT to be 10x10x9, and I'd like to confirm, but the COUT statement gives:

temp.dims = 3 temp.size = [10 x 10] temp.channels = 1

I was hoping to see either:

temp.dims = 3 temp.size = [10 x 10 x 9] temp.channels = 1


temp.dims = 3 temp.size = [10 x 10] temp.channels = 9

How can I get the dimensionality of this Mat object? I didn't see any methods in Mat::Mat or MatND

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3 Answers 3

up vote 11 down vote accepted

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, 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.

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What a thorough and detailed answer! Thanks! As it turns out, I'm finding it easier to use Vector<Mat> to store each slice for now (I am not doing much cross-slice indexing). Accepted and voted up. –  Pete Sep 18 '13 at 22:00
@Pete Experience eventually taught me to avoid cv::Mat at all reasonable [read almost any] costs. As an advice, if you don't know yet of the existence of cv::Mat_<>, I suggest you take a look at it here. It hides the most outrageous flaws of the cv::Mat API and helped me putting up with OpenCV this long. –  brunocodutra Sep 18 '13 at 22:06
OK. Good to know! Is it the access operators you prefer? Any other benefits? I see you can provide vectors (e.g., Vec3b)'s as the base types; I assume this breaks Filter2D, and others? But I will investigate. The documentation for all of this seems... sparse. –  Pete Sep 18 '13 at 22:28
@Pete cv::Mat_<> inherits cv::Mat and is thus implicitly convertible to it, so it can seamlessly replace cv::Mat in most contexts. The main benefit of it is being staticaly typed, in the sense the compiler is left to deal with the checking of the underlying data type (doing not more than is expected from it, one might add). That means no more nonsense like asserts to check the underlying data type of a matrix, dynamic function overload techniques, and the list goes on. Anybody who has already used OpenCV can testify these are the most error prone caveats. –  brunocodutra Sep 18 '13 at 22:43
@brunocodutra: Compiling OpenCV requires Eigen. Do you know what is the relationship between cv::Mat or cv::Mat_<> and Eigen::Matrix? –  Siyuan Ren Sep 19 '13 at 1:06

OpenCV 2.4.9 deals with multi-dimensional sizes just fine. The struct cv::Mat::MSize can stores and return multiple dimensions. The data member cv::Mat::size is of the type cv::Mat::MSize. This code will enumerate the dimensions for you:

const int sz[] = {3, 4, 3, 6};
cv::Mat bigm(4, sz, CV_8UC1);
cout << bigm.dims << '\t';
for (int i=0; i<bigm.dims; ++i)
  cout << bigm.size[i] << ',';
cout << endl;

The output is:

4       3,4,3,6,
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I am reading the OpenCV2.4.9 document. It writes: C++: Size Mat::size() const The method returns a matrix size: Size(cols, rows) . When the matrix is more than 2-dimensional, the returned size is (-1, -1). –  user1914692 Dec 17 '14 at 2:01
I guess the documentation hasn't caught up with the API change. Did the example code above work for you? –  Sameer Jan 15 at 20:04
thanks. The method .size() can only work for 2-dimension. But your example, .size (member variable) can work for multiple dimensions. –  user1914692 Jan 15 at 22:16
std::vector<size_t> getMatDims(const cv::Mat& m)
    std::vector<size_t> dims(m.dims);
    std::partial_sum(&m.step[0],&m.step[0]+m.dims,dims.begin(),[](size_t a,size_t b){ return a/b; });
    return dims;
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