Esempio n. 1
0
DepthFinder::DepthFinder( const cv::Mat_<cv::Vec3f>& pc, const cv::Vec3d &focVec)
{
    imgRct_ = cv::Rect( 0, 0, pc.cols, pc.rows);
    // Integral image with single channel for depth
    const cv::Size imgSz( imgRct_.width, imgRct_.height);

    cv::Mat_<double> dmap(imgSz);
    cv::Mat_<byte> dcnts(imgSz);

    for ( int i = 0; i < imgSz.height; ++i)
    {
        double* drow = dmap.ptr<double>(i);
        byte* irow = dcnts.ptr<byte>(i);

        for ( int j = 0; j < imgSz.width; ++j)
        {
            const cv::Vec3f& fp = pc.at<cv::Vec3f>(i,j);
            cv::Vec3d p( fp[0], fp[1], fp[2]);
            double depth = focVec.dot( p);
            if ( depth < 0)
                depth = 0;
            if ( depth > MAX_DEPTH)
                depth = MAX_DEPTH;

            drow[j] = depth;
            irow[j] = depth > 0 ? 1 : 0; // Only points with valid depth are set
        }   // end for
    }   // end for

    cv::integral( dmap, depthIntImg, CV_64F);
    cv::integral( dcnts, depthCntImg, CV_32S);
}   // end ctor
// public static
double ObjModelPolygonAngles::calcAngle( const cv::Vec3f& v, const cv::Vec3f& v0, const cv::Vec3f& v1)
{
    const cv::Vec3d u0 = v0 - v;
    const cv::Vec3d u1 = v1 - v;
    return acos( u0.dot(u1) / (cv::norm(u0) * cv::norm(u1)));
}   // end calcAngle
Esempio n. 3
0
 void
 set_d(float d)
 {
     p = cv::Vec3d(0, 0, d / n[2]);
     p_dot_n = p.dot(n);
 }