コード例 #1
0
ファイル: ts_perf.cpp プロジェクト: Belial2010/opencv
void Regression::write(cv::InputArray array)
{
    write() << "kind" << array.kind();
    write() << "type" << array.type();
    if (isVector(array))
    {
        int total = (int)array.total();
        int idx = regRNG.uniform(0, total);
        write() << "len" << total;
        write() << "idx" << idx;

        cv::Mat m = array.getMat(idx);

        if (m.total() * m.channels() < 26) //5x5 or smaller
            write() << "val" << m;
        else
            write(m);
    }
    else
    {
        if (array.total() * array.channels() < 26) //5x5 or smaller
            write() << "val" << array.getMat();
        else
            write(array.getMat());
    }
}
コード例 #2
0
void unprojectPointsFisheye( cv::InputArray distorted, cv::OutputArray undistorted, cv::InputArray K, cv::InputArray D, cv::InputArray R, cv::InputArray P)
{
    // will support only 2-channel data now for points
    CV_Assert(distorted.type() == CV_32FC2 || distorted.type() == CV_64FC2);
    undistorted.create(distorted.size(), CV_MAKETYPE(distorted.depth(), 3));

    CV_Assert(P.empty() || P.size() == cv::Size(3, 3) || P.size() == cv::Size(4, 3));
    CV_Assert(R.empty() || R.size() == cv::Size(3, 3) || R.total() * R.channels() == 3);
    CV_Assert(D.total() == 4 && K.size() == cv::Size(3, 3) && (K.depth() == CV_32F || K.depth() == CV_64F));

    cv::Vec2d f, c;
    if (K.depth() == CV_32F)
    {
        cv::Matx33f camMat = K.getMat();
        f = cv::Vec2f(camMat(0, 0), camMat(1, 1));
        c = cv::Vec2f(camMat(0, 2), camMat(1, 2));
    }
    else
    {
        cv::Matx33d camMat = K.getMat();
        f = cv::Vec2d(camMat(0, 0), camMat(1, 1));
        c = cv::Vec2d(camMat(0, 2), camMat(1, 2));
    }

    cv::Vec4d k = D.depth() == CV_32F ? (cv::Vec4d)*D.getMat().ptr<cv::Vec4f>(): *D.getMat().ptr<cv::Vec4d>();

    cv::Matx33d RR = cv::Matx33d::eye();
    if (!R.empty() && R.total() * R.channels() == 3)
    {
        cv::Vec3d rvec;
        R.getMat().convertTo(rvec, CV_64F);
        RR = cv::Affine3d(rvec).rotation();
    }
    else if (!R.empty() && R.size() == cv::Size(3, 3))
        R.getMat().convertTo(RR, CV_64F);

    if(!P.empty())
    {
        cv::Matx33d PP;
        P.getMat().colRange(0, 3).convertTo(PP, CV_64F);
        RR = PP * RR;
    }

    // start undistorting
    const cv::Vec2f* srcf = distorted.getMat().ptr<cv::Vec2f>();
    const cv::Vec2d* srcd = distorted.getMat().ptr<cv::Vec2d>();
    cv::Vec3f* dstf = undistorted.getMat().ptr<cv::Vec3f>();
    cv::Vec3d* dstd = undistorted.getMat().ptr<cv::Vec3d>();

    size_t n = distorted.total();
    int sdepth = distorted.depth();

    for(size_t i = 0; i < n; i++ )
    {
        cv::Vec2d pi = sdepth == CV_32F ? (cv::Vec2d)srcf[i] : srcd[i];  // image point
        cv::Vec2d pw((pi[0] - c[0])/f[0], (pi[1] - c[1])/f[1]);      // world point

        double theta_d = sqrt(pw[0]*pw[0] + pw[1]*pw[1]);
        double theta = theta_d;
        if (theta_d > 1e-8)
        {
            // compensate distortion iteratively
            for(int j = 0; j < 10; j++ )
            {
                double theta2 = theta*theta, theta4 = theta2*theta2, theta6 = theta4*theta2, theta8 = theta6*theta2;
                theta = theta_d / (1 + k[0] * theta2 + k[1] * theta4 + k[2] * theta6 + k[3] * theta8);
            }
        }
        double z = std::cos(theta);
        double r = std::sin(theta);

        cv::Vec3d pu = cv::Vec3d(r*pw[0], r*pw[1], z); //undistorted point

        // reproject
        cv::Vec3d pr = RR * pu; // rotated point optionally multiplied by new camera matrix
        cv::Vec3d fi;       // final
        normalize(pr, fi);

        if( sdepth == CV_32F )
            dstf[i] = fi;
        else
            dstd[i] = fi;
    }
}
コード例 #3
0
ファイル: ts_perf.cpp プロジェクト: Belial2010/opencv
void Regression::verify(cv::FileNode node, cv::InputArray array, double eps, ERROR_TYPE err)
{
    int expected_kind = (int)node["kind"];
    int expected_type = (int)node["type"];
    ASSERT_EQ(expected_kind, array.kind()) << "  Argument \"" << node.name() << "\" has unexpected kind";
    ASSERT_EQ(expected_type, array.type()) << "  Argument \"" << node.name() << "\" has unexpected type";

    cv::FileNode valnode = node["val"];
    if (isVector(array))
    {
        int expected_length = (int)node["len"];
        ASSERT_EQ(expected_length, (int)array.total()) << "  Vector \"" << node.name() << "\" has unexpected length";
        int idx = node["idx"];

        cv::Mat actual = array.getMat(idx);

        if (valnode.isNone())
        {
            ASSERT_LE((size_t)26, actual.total() * (size_t)actual.channels())
                    << "  \"" << node.name() << "[" <<  idx << "]\" has unexpected number of elements";
            verify(node, actual, eps, cv::format("%s[%d]", node.name().c_str(), idx), err);
        }
        else
        {
            cv::Mat expected;
            valnode >> expected;

            if(expected.empty())
            {
                ASSERT_TRUE(actual.empty())
                    << "  expected empty " << node.name() << "[" <<  idx<< "]";
            }
            else
            {
                ASSERT_EQ(expected.size(), actual.size())
                        << "  " << node.name() << "[" <<  idx<< "] has unexpected size";

                cv::Mat diff;
                cv::absdiff(expected, actual, diff);

                if (err == ERROR_ABSOLUTE)
                {
                    if (!cv::checkRange(diff, true, 0, 0, eps))
                    {
                        if(expected.total() * expected.channels() < 12)
                            std::cout << " Expected: " << std::endl << expected << std::endl << " Actual:" << std::endl << actual << std::endl;

                        double max;
                        cv::minMaxIdx(diff.reshape(1), 0, &max);

                        FAIL() << "  Absolute difference (=" << max << ") between argument \""
                               << node.name() << "[" <<  idx << "]\" and expected value is greater than " << eps;
                    }
                }
                else if (err == ERROR_RELATIVE)
                {
                    double maxv, maxa;
                    int violations = countViolations(expected, actual, diff, eps, &maxv, &maxa);
                    if (violations > 0)
                    {
                        FAIL() << "  Relative difference (" << maxv << " of " << maxa << " allowed) between argument \""
                               << node.name() << "[" <<  idx << "]\" and expected value is greater than " << eps << " in " << violations << " points";
                    }
                }
            }
        }
    }
    else
    {
        if (valnode.isNone())