opencv/modules/video/test/test_tvl1optflow.cpp

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#include "test_precomp.hpp"

namespace opencv_test { namespace {

//#define DUMP

    // first four bytes, should be the same in little endian
    const float FLO_TAG_FLOAT = 202021.25f;  // check for this when READING the file

#ifdef DUMP
    // binary file format for flow data specified here:
    // http://vision.middlebury.edu/flow/data/
    void writeOpticalFlowToFile(const Mat_<Point2f>& flow, const string& fileName)
    {
        const char FLO_TAG_STRING[] = "PIEH";    // use this when WRITING the file
        ofstream file(fileName.c_str(), ios_base::binary);

        file << FLO_TAG_STRING;

        file.write((const char*) &flow.cols, sizeof(int));
        file.write((const char*) &flow.rows, sizeof(int));

        for (int i = 0; i < flow.rows; ++i)
        {
            for (int j = 0; j < flow.cols; ++j)
            {
                const Point2f u = flow(i, j);

                file.write((const char*) &u.x, sizeof(float));
                file.write((const char*) &u.y, sizeof(float));
            }
        }
    }
#endif

    // binary file format for flow data specified here:
    // http://vision.middlebury.edu/flow/data/
    void readOpticalFlowFromFile(Mat_<Point2f>& flow, const string& fileName)
    {
        std::ifstream file(fileName.c_str(), std::ios_base::binary);

        float tag;
        file.read((char*) &tag, sizeof(float));
        CV_Assert( tag == FLO_TAG_FLOAT );

        Size size;

        file.read((char*) &size.width, sizeof(int));
        file.read((char*) &size.height, sizeof(int));

        flow.create(size);

        for (int i = 0; i < flow.rows; ++i)
        {
            for (int j = 0; j < flow.cols; ++j)
            {
                Point2f u;

                file.read((char*) &u.x, sizeof(float));
                file.read((char*) &u.y, sizeof(float));

                flow(i, j) = u;
            }
        }
        file.close();
    }

    bool isFlowCorrect(Point2f u)
    {
        return !cvIsNaN(u.x) && !cvIsNaN(u.y) && (fabs(u.x) < 1e9) && (fabs(u.y) < 1e9);
    }

    void check(const Mat_<Point2f>& gold, const Mat_<Point2f>& flow, double threshold = 0.1, double expectedAccuracy = 0.95)
    {
        threshold = threshold*threshold;

        size_t gold_counter = 0;
        size_t valid_counter = 0;

        for (int i = 0; i < gold.rows; ++i)
        {
            for (int j = 0; j < gold.cols; ++j)
            {
                const Point2f u1 = gold(i, j);
                const Point2f u2 = flow(i, j);

                if (isFlowCorrect(u1))
                {
                    gold_counter++;
                    if (isFlowCorrect(u2))
                    {
                        const Point2f diff = u1 - u2;
                        double err = diff.ddot(diff);
                        if (err <= threshold)
                            valid_counter++;
                    }
                }
            }
        }
        EXPECT_GE(valid_counter, expectedAccuracy * gold_counter);
    }

TEST(Video_calcOpticalFlowDual_TVL1, Regression)
{
    const string frame1_path = TS::ptr()->get_data_path() + "optflow/RubberWhale1.png";
    const string frame2_path = TS::ptr()->get_data_path() + "optflow/RubberWhale2.png";
    const string gold_flow_path = TS::ptr()->get_data_path() + "optflow/tvl1_flow.flo";

    Mat frame1 = imread(frame1_path, IMREAD_GRAYSCALE);
    Mat frame2 = imread(frame2_path, IMREAD_GRAYSCALE);
    ASSERT_FALSE(frame1.empty());
    ASSERT_FALSE(frame2.empty());

    Mat_<Point2f> flow;
    Ptr<DualTVL1OpticalFlow> tvl1 = cv::DualTVL1OpticalFlow::create();

    tvl1->calc(frame1, frame2, flow);

#ifdef DUMP
    writeOpticalFlowToFile(flow, gold_flow_path);
#else
    Mat_<Point2f> gold;
    readOpticalFlowFromFile(gold, gold_flow_path);

    ASSERT_EQ(gold.rows, flow.rows);
    ASSERT_EQ(gold.cols, flow.cols);

    check(gold, flow);
#endif
}

}} // namespace