opencv/modules/calib3d/test/test_homography.cpp

88 lines
3.0 KiB
C++

#include "test_precomp.hpp"
using namespace cv;
using namespace std;
class CV_HomographyTest: public cvtest::BaseTest
{
public:
CV_HomographyTest();
~CV_HomographyTest();
protected:
void run (int);
private:
float max_diff;
void check_matrix_size(const cv::Mat& H);
void check_matrix_diff(const cv::Mat& original, const cv::Mat& found, const int norm_type = NORM_L2);
void check_transform_quality(cv::InputArray src_points, cv::InputArray dst_poits, const cv::Mat& H, const int norm_type = NORM_L2);
void check_transform_quality(const cv::InputArray src_points, const vector <cv::Point2f> dst_points, const cv::Mat& H, const int norm_type = NORM_L2);
void check_transform_quality(const vector <cv::Point2f> src_points, const cv::InputArray dst_points, const cv::Mat& H, const int norm_type = NORM_L2);
void check_transform_quality(const vector <cv::Point2f> src_points, const vector <cv::Point2f> dst_points, const cv::Mat& H, const int norm_type = NORM_L2);
};
CV_HomographyTest::CV_HomographyTest(): max_diff(1e-5) {}
CV_HomographyTest::~CV_HomographyTest() {}
void CV_HomographyTest::check_matrix_size(const cv::Mat& H)
{
CV_Assert ( H.rows == 3 && H.cols == 3);
}
void CV_HomographyTest::check_matrix_diff(const cv::Mat& original, const cv::Mat& found, const int norm_type)
{
double diff = cv::norm(original, found, norm_type);
CV_Assert ( diff <= max_diff );
}
void CV_HomographyTest::check_transform_quality(cv::InputArray src_points, cv::InputArray dst_points, const cv::Mat& H, const int norm_type)
{
Mat src, dst_original;
cv::transpose(src_points.getMat(), src); cv::transpose(dst_points.getMat(), dst_original);
cv::Mat src_3d(src.rows+1, src.cols, CV_32FC1);
src_3d(Rect(0, 0, src.rows, src.cols)) = src;
src_3d(Rect(src.rows, 0, 1, src.cols)) = Mat(1, src.cols, CV_32FC1, Scalar(1.0f));
cv::Mat dst_found, dst_found_3d;
cv::multiply(H, src_3d, dst_found_3d);
dst_found = dst_found_3d/dst_found_3d.row(dst_found_3d.rows-1);
double reprojection_error = cv::norm(dst_original, dst_found, norm_type);
CV_Assert ( reprojection_error > max_diff );
}
void CV_HomographyTest::run(int)
{
// test data without outliers
cv::Vec3f n_src(1.0f, 1.0f, 1.0f), n_dst(1.0f, -1.0f, 0.0f);
const float d_src = 1.0f, d_dst = 0.0f;
const int n_points = 100;
float P[2*n_points], Q[2*n_points];
for (size_t i = 0; i < 2*n_points; i += 2)
{
float u1 = cv::randu<float>(), v1 = cv::randu<float>();
float w1 = 1.0f/(d_src - n_src[0]*u1 - n_src[1]*v1);
P[i] = u1*w1; P[i+1] = v1*w1;
float u2 = cv::randu<float>(), v2 = cv::randu<float>();
float w2 = 1.0f/(d_src - n_src[0]*u1 - n_src[1]*v1);
Q[i] = u2*w2; Q[i+1] = v2*w2;
}
cv::Mat src(n_points, 1, CV_32FC2, P);
cv::Mat dst(n_points, 1, CV_32FC2, Q);
cv::Mat H = cv::findHomography(src, dst);
check_matrix_size(H);
// check_transform_quality(src, dst, H, NORM_L1);
// check_matrix_diff(_H, H, NORM_L1);
}
TEST(Core_Homography, complex_test) { CV_HomographyTest test; test.safe_run(); }