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I am new to OpenCV, and I want to transpose a grayscale image but I am getting the wrong output size.

// img is an unsigned char image
IplImage *img = cvLoadImage("image.jpg"); // where image is of width=668 height=493
int width  = img->width;
int height = img->height;

I want to transpose it:

IplImage *imgT = cvCreateImage(cvSize(height,width),img->depth,img->nChannels);

cvTranspose(img,imgT);

When I check the images I see that the original image img has a size of 329324, which is correct: 493*668* 1 byte as it is an unsigned char. However imgT has a size of 331328.

I am not really sure where this happened.

EDIT: 1- I am using Windows XP and OpenCV 2.2. 2- By when i check the image, i meant when i see the values of the variable imgT. Such as the imgT->width, imgT->heigt, imgT->size, etc.

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Which OpenCV version and what platform are you using? (Windows, Linux, MacOSX) –  karlphillip Jun 15 '11 at 19:41
    
What do you mean by "when I check the images" ? –  Park Young-Bae Jun 15 '11 at 19:56
1  
By the way @Louis, since you are a new member you should read how stackoverflow works so you can get the most of it: meta.stackexchange.com/questions/5234/… –  karlphillip Jun 15 '11 at 21:04

2 Answers 2

This is due to the fact, that OpenCV aligns the rows of the images at 4-byte boundaries. In the first image a row is 668 bytes wide, which is dividable by 4, so your image elements are contiguous.

The second image has a width of 493 (due to the transposing), which is not dividable by 4. The next higher number dividable by 4 is 496, so your rows are actually 496 bytes wide, with 3 unused bytes at the end of each row, to align the rows at 4-byte boundaries. And in fact 496*668 is indeed 331328. So you should always be aware of the fact, that your image elements need not be contiguous (at least they should be contiguous inside a single row).

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+1 Well spotted. You are right! –  karlphillip Jun 15 '11 at 23:01

You can store your image in cv:Mat() and use Mat.t() to transpose it. Rows and columns will be automatically allocated/deallocated so you don't have to worry about the size

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Still (and while I generally agree with the preference for the C++ API) this will present him with the exact same problem of unexpected size if he dares to inspect it. He would have to worry about this with IplImage either (which is more or less managed by OpenCV, too), but he did and found something unexpected, to which you don't really provide an answer. It is more fit as a comment. –  Christian Rau Jun 5 '13 at 10:53

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