# How to draw eigenvectors in opencv?

The question is: how can i draw the eigenvectors relative to a corner? I already calculated the eigen(values/vectors) using cornerEigenValsAndVecs, and the corners using goodFeaturesToTrack.(with Harris). When i try to draw the eigenvectors they don't seem to make the sense i thought they have( (x1, y1) the vector pointing at the minimum intensity variance and (x2, y2) the vector pointing at the maximum intensity variance). I'm quite sure i'm making some mistakes, here is the code:

``````cvtColor( src, src_gray, CV_BGR2GRAY );

int blockSize = 3;
int apertureSize = 3;

myHarris_dst = Mat::zeros( src_gray.size(), CV_32FC(6) );
cornerEigenValsAndVecs( src_gray, myHarris_dst, blockSize, apertureSize, BORDER_DEFAULT );

Mat l1 = Mat::zeros( myHarris_dst.size(), CV_32FC1 ),
l2 = Mat::zeros( myHarris_dst.size(), CV_32FC1 ),
x1 = Mat::zeros( myHarris_dst.size(), CV_32FC1 ),
x2 = Mat::zeros( myHarris_dst.size(), CV_32FC1 ),
y1 = Mat::zeros( myHarris_dst.size(), CV_32FC1 ),
y2 = Mat::zeros( myHarris_dst.size(), CV_32FC1 );
int ch[] =
{ 0, 0 };
mixChannels( &myHarris_dst, 1, &l1, 1, ch, 1 );
ch[ 0 ] = 1;
mixChannels( &myHarris_dst, 1, &l2, 1, ch, 1 );
ch[ 0 ] = 2;
mixChannels( &myHarris_dst, 1, &x1, 1, ch, 1 );
ch[ 0 ] = 3;
mixChannels( &myHarris_dst, 1, &x2, 1, ch, 1 );
ch[ 0 ] = 4;
mixChannels( &myHarris_dst, 1, &y1, 1, ch, 1 );
ch[ 0 ] = 5;
mixChannels( &myHarris_dst, 1, &y2, 1, ch, 1 );

Point minLoc;
Point maxLoc;
double minValL1;
double maxValL1;

vector< Point2f > corners;
Mat harrisCorners = Mat::zeros( src.size(), CV_8UC1 );
goodFeaturesToTrack( src_gray, corners, 14, 0.001, 5, noArray(), 3, true, 0.04 );

for( uint i = 0; i < corners.size(); i++ )
{
circle( harrisCorners, corners[ i ], 0, Scalar( 255, 255, 255 ), 1 );
}

Mat eigenDirection = Mat::zeros( src.size(), src.type() );

for( int i = 0; i < src.rows; i++ )
{
for( int j = 0; j < src.cols; j++ )
{
if( harrisCorners.at< uchar >( i, j ) != 0 )
{
//DIRECTION LOWEST CHANGE
line( src, Point( j, i ), Point( j - 30 * y1.at< float >( i, j ), i - 30 * x1.at< float >( i, j ) ), Scalar( 20, 20, 255 ), 1, 1 );
line( src, Point( j, i ), Point( j - 30 * y2.at< float >( i, j ), i - 30 * x2.at< float >( i, j ) ), Scalar( 255, 20, 20 ), 1, 1 );
circle( src, Point( j, i ), 0, Scalar( 20, 255, 20 ), 1 );
}
}
}
``````
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