I don't know about OpenCV, so I can't tell you what
cv.GetMat() does. Apparently, it returns something that can be used as or converted to a two-dimensional array. The C or C++ interface to OpenCV that you are using will probably have a similarly names function.
The following lines create an array of index pairs of the entries in
grey_image_as_array that are bigger than
3. Each entry in
non_black_coords_array are zero based x-y-coordinates into
grey_image_as_array. Given such a coordinates pair
y, you can access the corresponsing entry in the two-dimensional C++ array
The Python code has to avoid explicit loops over the image to achieve good performance, so it needs to make to with the vectorised functions NumPy offers. The expression
grey_image_as_array > 3 is a vectorised comparison and results in a Boolean array of the same shape as
numpy.where() extracts the indices of the
True entries in this Boolean array, but the result is not in the format described above, so we need
zip() to restructure it.
In C++, there's no need to avoid explicit loops, and an equivalent of
numpy.where() would be rather pointless -- you just write the loops and store the result in the format of your choice.