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My question is similiar to the one a cv::Mat of std::vector ... how do I?

I need a matrix where each element is a std::vector. This matrix is the output of calculations done on a series of images of the same size (like a video ). Many of the calculations are typical cv functions (convert to gray scale, box filter etc. ) and the value of the pixel is then added to the vector. I do not know before hand how many images I will have and in any case, I cannot use the channel concept as images may be more than 512.

One of the suggested answers there was to use a Mat of pointers. So if I try the following, will it work?

This will be on Windows machines and I understand that the pointer size INT-PTR 64 bits wide. I could then use CV_64 but only CV_64F is defined. Since I will not be doing any calculations with this matrix, can I use this to store the pointers. I am thinking that before I read the first image, I will get the size, create this matrix, use "new std::vector" to create the vector for each pixel and store that pointer in the element. In the loop for my calculations I use the same access offset for to read the original images and to store the output in the vector. When I am done with the vectors, I need to delete these before I release the cv::mat.

I appreciate any input from those who know more about opencv than I do - this is really from the first application with opencv.

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Given that this is your first OpenCV application, may I suggest that putting your user type into a matrix might not be what you want to do? Can't you instead create a user type that stores matrices of ordinary values, and then store a vector of those, where each vector element represents the result for one frame? –  paddy Jul 8 '13 at 5:44
As in the example I cited, I need quick access to all the data in the third dimension. a vector of matrices will not give this to me. –  Arasu Arasakumaran Jul 8 '13 at 12:14

1 Answer 1

up vote 1 down vote accepted




In particular:

To use Mat_ for multi-channel images/matrices, pass Vec as a Mat_ parameter 

There's a nice example, and you can use your own "blend" of Vec (assuming the size of the array/vector for each element is fixed), or if you really need you can use std::vector.

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Thank you! This should do it. Since I will not know at compile time (and actually before the calculations at run time), how many images I will have, I cannot use a vector of known size. I will try Mat_ and update here of my success. –  Arasu Arasakumaran Jul 8 '13 at 12:20
@ArasuArasakumaran Perfect, good luck! –  Antonio Jul 8 '13 at 12:28
Here is what I did - and it appears to be working as intended. <br> typedef std::vector<WORD> MyVector, *LPMyVector;<br>cv::Mat_<LPMyVector> m_matPtrs;<br> At the beginning, I allocate these vectors and use it in my calculations. This allows me to process images using opencv functions and store results in this matrix in the same loop.<br>Once agan Thank you. –  Arasu Arasakumaran Jul 8 '13 at 12:54
@ArasuArasakumaran Perfect, can you please accept my answer? It's the "tick" under the answer score, it will become green after accepting. –  Antonio Jul 8 '13 at 13:09

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