int main(int argc, char* argv[])
{
// Image matrix
Mat img;
Mat result;
//---------------------------------------------
//
//---------------------------------------------
namedWindow("Source Image");
namedWindow("Result");
// Load image in grayscale mode
img=imread("D:ImagesForTestcat.bmp",0);
img.convertTo(img,CV_32FC1,1.0/255.0);
cout << "Source size:" << img.rows*img.cols <<" elements "<< endl;
// create SVD
cv::SVD s;
// svd result
Mat w,u,vt;
// computations ...
s.compute(img,w,u,vt);
// collect Sigma matrix (diagonal - is eigen values, other - zeros)
// we got it in as vector, transform it to diagonal matrix
Mat W=Mat::zeros(w.rows,w.rows,CV_32FC1);
for(int i=0;i<w.rows;i++)
{
W.at<float>(i,i)=w.at<float>(i);
}
// reduce rank to k
int k=25;
W=W(Range(0,k),Range(0,k));
u=u(Range::all(),Range(0,k));
vt=vt(Range(0,k),Range::all());
// Get compressed image
result=u*W*vt;
cout << "Result size:" << u.rows*u.cols+k+vt.rows*vt.cols <<" elements "<< endl;
//---------------------------------------------
//
//---------------------------------------------
imshow("Source Image", img);
imshow("Result", result);
cvWaitKey(0);
return 0;
}