OpenCV_4.2.0/opencv_contrib-4.2.0/modules/sfm/test/test_reconstruct.cpp

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/*
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#include "test_precomp.hpp"
namespace opencv_test { namespace {
/* Check projection errors */
static void
check_projection_errors(const cv::Mat& X_estimated, const std::vector<Matx34d>& Ps,
const std::vector<Mat_<double> >& xs, float err_max2d)
{
cv::Mat X;
euclideanToHomogeneous(X_estimated, X); // 3D point
for (int m = 0; m < xs.size(); ++m)
{
cv::Mat x;
homogeneousToEuclidean(cv::Mat(Ps[m]) * X, x); // 2d projection
cv::Mat projerr = xs[m] - x;
for (int n = 0; n < projerr.cols; ++n)
{
double d = cv::norm(projerr.col(n));
EXPECT_NEAR(0, d, err_max2d);
}
}
}
#if CERES_FOUND
TEST(Sfm_reconstruct, twoViewProjectiveOutliers)
{
float err_max2d = 1e-7;
int nviews = 2;
int npoints = 50;
bool is_projective = true;
std::vector<Mat_<double> > points2d;
std::vector<cv::Matx33d> Rs;
std::vector<cv::Vec3d> ts;
std::vector<cv::Matx34d> Ps;
Matx33d K;
Mat_<double> points3d;
generateScene(nviews, npoints, is_projective, K, Rs, ts, Ps, points3d, points2d);
Mat_<double> points3d_estimated;
std::vector<cv::Mat> Ps_estimated;
reconstruct(points2d, Ps_estimated, points3d_estimated, K, is_projective);
/* Check projection errors on GT */
check_projection_errors(points3d, Ps, points2d, err_max2d);
/* Check projection errors on estimates */
std::vector<cv::Matx34d> Ps_estimated_d;
Ps_estimated_d.resize(Ps_estimated.size());
for(size_t i=0; i<Ps_estimated.size(); ++i)
Ps_estimated_d[i] = Ps_estimated[i];
check_projection_errors(points3d_estimated, Ps_estimated_d, points2d, err_max2d);
}
#endif /* CERES_FOUND */
}} // namespace