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I am trying to create a Mat object from some data I have allocated in memory using this constructor.

C++: Mat::Mat(Size size, int type, void* data, size_t step=AUTO_STEP)

I am fairly new to C++ so bear that in mind if I am making a rudimentary error somewhere. Basically what I am trying to do is display an image from a raw video file. To do this, I read the data from the file and allocated it in memory.

struct videoFrame{
    float frameTime;
    unsigned short int year, day, msec;
    unsigned char hour, min, sec;
    unsigned short int mFrame[SIZE];
};

...

//seek to first frame
vfs.seekg(2560, ios_base::beg);
int pos;
for(pos=0; pos<SIZE;pos++){
    vfs.read( (char*) &mVideoFrame1->mFrame[pos], sizeof(short));
}
Mat mImage1( Size(WIDTH, HEIGHT), CV_16UC1, mVideoFrame1->mFrame, HEIGHT * 2);
namedWindow("Frame 1", CV_WINDOW_AUTOSIZE);
imshow("Frame 1", mImage1);
waitKey(0);

I have been able to read data from the file... such as frame and video headerers. I think I may not be clear on how the constructor works. If someone could offer some insight that would be great. When I show the frame in the namedWindow it is all black.

By the way...

const int HEIGHT = 512;
const int WIDTH = 640;
const int SIZE = HEIGHT * WIDTH * 2;

the raw data in the first frame is 512x640 16bit unsigned little Endian byte order black and white.

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2 Answers 2

step is the size of the image stride which is equal to or larger than sizeof(_PIXELTYPE) * Width. You don't specify your problem, but I note you wrongly have put step equal to 2*HEIGHT. Otherwise your constructor usage seems ok.

EDIT: of course just use auto step which calculates the default stride for you.

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Well the image isn't showing up in the namedWindow its just black. I found out that pos<(WIDTH*HEIGHT) not SIZE. Also I was looking at the file under a hex editor, and checking mFrame out in debug mode. It looks as if its skipping every other byte in the file. The file itself should be fine, as I can load it up perfectly in ImageJ –  drewski Apr 26 '13 at 14:44
    
Hard to say what vfs.read does, but typically you would read the whole data at once, not by pixel increments. What comes with the visualization, try cv::minMaxLoc to see the dynamic range, and then scale your image from [min,max]->[0,255] and convert to CV_8UC1. Then you see if problem is in visualization or file read. And you don't need to have SIZE=W*H*2, since your buffer is already defined as unsigned short (size=2) –  Vaaksiainen Apr 26 '13 at 15:10
up vote 2 down vote accepted

Found what was wrong... The data in the file is 16 bit unsigned, but the range for each pixel is only 12 bit. So that was the whole reason the window was showing up black.

OpenCV I suppose does not offer support for displaying 12bit unsigned data, so I had to convert it to 8bit unsigned for it to be displayed. And yes its much more efficient to read all pixel data in block, rather than a loop.

vfs.read( (char*) &mVideoFrame1->mFrame, sizeof(mVideoFrame1->mFrame));

Mat mImage1(HEIGHT, WIDTH, CV_16UC1, mVideoFrame1->mFrame, Mat::AUTO_STEP);
Mat mine(Size(640,512), CV_8UC1);
mImage1.convertTo(mine, CV_8UC1, 255.0/4095.0);
namedWindow("Frame 1", CV_WINDOW_AUTOSIZE);
imshow("Frame 1", mine);
waitKey(0);

So yeah, wasn't to hard lol

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