opencv/modules/objdetect/perf/perf_qrcode_pipeline.cpp

// This file is part of OpenCV project.
// It is subject to the license terms in the LICENSE file found in the top-level directory
// of this distribution and at http://opencv.org/license.html.

#include "perf_precomp.hpp"

namespace opencv_test
{
namespace
{

typedef ::perf::TestBaseWithParam< std::string > Perf_Objdetect_QRCode;

PERF_TEST_P_(Perf_Objdetect_QRCode, detect)
{
    const std::string name_current_image = GetParam();
    const std::string root = "cv/qrcode/";

    std::string image_path = findDataFile(root + name_current_image);
    Mat src = imread(image_path, IMREAD_GRAYSCALE), straight_barcode;
    ASSERT_FALSE(src.empty()) << "Can't read image: " << image_path;

    std::vector< Point > corners;
    QRCodeDetector qrcode;
    TEST_CYCLE() ASSERT_TRUE(qrcode.detect(src, corners));
    SANITY_CHECK(corners);
}

#ifdef HAVE_QUIRC
PERF_TEST_P_(Perf_Objdetect_QRCode, decode)
{
    const std::string name_current_image = GetParam();
    const std::string root = "cv/qrcode/";

    std::string image_path = findDataFile(root + name_current_image);
    Mat src = imread(image_path, IMREAD_GRAYSCALE), straight_barcode;
    ASSERT_FALSE(src.empty()) << "Can't read image: " << image_path;

    std::vector< Point > corners;
    std::string decoded_info;
    QRCodeDetector qrcode;
    ASSERT_TRUE(qrcode.detect(src, corners));
    TEST_CYCLE()
    {
        decoded_info = qrcode.decode(src, corners, straight_barcode);
        ASSERT_FALSE(decoded_info.empty());
    }

    std::vector<uint8_t> decoded_info_uint8_t(decoded_info.begin(), decoded_info.end());
    SANITY_CHECK(decoded_info_uint8_t);
    SANITY_CHECK(straight_barcode);

}
#endif

typedef ::perf::TestBaseWithParam< std::string > Perf_Objdetect_QRCode_Multi;

static inline bool compareCorners(const Point2f& corner1, const Point2f& corner2) {
    return corner1.x == corner2.x ? corner1.y < corner2.y : corner1.x < corner2.x;
}

PERF_TEST_P_(Perf_Objdetect_QRCode_Multi, detectMulti)
{
    const std::string name_current_image = GetParam();
    const std::string root = "cv/qrcode/multiple/";

    std::string image_path = findDataFile(root + name_current_image);
    Mat src = imread(image_path);
    ASSERT_FALSE(src.empty()) << "Can't read image: " << image_path;
    std::vector<Point2f> corners;
    QRCodeDetector qrcode;
    TEST_CYCLE() ASSERT_TRUE(qrcode.detectMulti(src, corners));
    sort(corners.begin(), corners.end(), compareCorners);
    SANITY_CHECK(corners);
}

static inline bool compareQR(const pair<string, Mat>& v1, const pair<string, Mat>& v2) {
    return v1.first < v2.first;
}

#ifdef HAVE_QUIRC
PERF_TEST_P_(Perf_Objdetect_QRCode_Multi, decodeMulti)
{
    const std::string name_current_image = GetParam();
    const std::string root = "cv/qrcode/multiple/";
    std::string image_path = findDataFile(root + name_current_image);
    Mat src = imread(image_path);
    ASSERT_FALSE(src.empty()) << "Can't read image: " << image_path;
    QRCodeDetector qrcode;
    std::vector<Point2f> corners;
    ASSERT_TRUE(qrcode.detectMulti(src, corners));
    std::vector<Mat> straight_barcode;
    std::vector< cv::String > decoded_info;
    TEST_CYCLE()
    {
        ASSERT_TRUE(qrcode.decodeMulti(src, corners, decoded_info, straight_barcode));
        for(size_t i = 0; i < decoded_info.size(); i++)
        {
            ASSERT_FALSE(decoded_info[i].empty());
        }
    }
    ASSERT_EQ(decoded_info.size(), straight_barcode.size());
    vector<pair<string, Mat> > result;
    for (size_t i = 0ull;  i < decoded_info.size(); i++) {
        result.push_back(make_pair(decoded_info[i], straight_barcode[i]));
    }

    sort(result.begin(), result.end(), compareQR);
    vector<vector<uint8_t> > decoded_info_sort;
    vector<Mat> straight_barcode_sort;
    for (size_t i = 0ull;  i < result.size(); i++) {
        vector<uint8_t> tmp(result[i].first.begin(), result[i].first.end());
        decoded_info_sort.push_back(tmp);
        straight_barcode_sort.push_back(result[i].second);
    }
    SANITY_CHECK(decoded_info_sort);
}
#endif

INSTANTIATE_TEST_CASE_P(/*nothing*/, Perf_Objdetect_QRCode,
    ::testing::Values(
        "version_1_down.jpg", "version_1_left.jpg", "version_1_right.jpg", "version_1_up.jpg", "version_1_top.jpg",
        "version_5_down.jpg", "version_5_left.jpg",/*version_5_right.jpg*/ "version_5_up.jpg", "version_5_top.jpg",
        "russian.jpg", "kanji.jpg", "link_github_ocv.jpg", "link_ocv.jpg", "link_wiki_cv.jpg"
    )
);
// version_5_right.jpg DISABLED after tile fix, PR #22025

INSTANTIATE_TEST_CASE_P(/*nothing*/, Perf_Objdetect_QRCode_Multi,
    ::testing::Values(
      "2_qrcodes.png", "3_close_qrcodes.png", "3_qrcodes.png", "4_qrcodes.png",
      "5_qrcodes.png", "6_qrcodes.png", "7_qrcodes.png", "8_close_qrcodes.png"
    )
);

typedef ::perf::TestBaseWithParam< tuple< std::string, Size > > Perf_Objdetect_Not_QRCode;

PERF_TEST_P_(Perf_Objdetect_Not_QRCode, detect)
{
    std::vector<Point> corners;
    std::string type_gen = get<0>(GetParam());
    Size resolution = get<1>(GetParam());
    Mat not_qr_code(resolution, CV_8UC1, Scalar(0));
    if (type_gen == "random")
    {
        RNG rng;
        rng.fill(not_qr_code, RNG::UNIFORM, Scalar(0), Scalar(1));
    }
    if (type_gen == "chessboard")
    {
        uint8_t next_pixel = 0;
        for (int r = 0; r < not_qr_code.rows * not_qr_code.cols; r++)
        {
            int i = r / not_qr_code.cols;
            int j = r % not_qr_code.cols;
            not_qr_code.ptr<uchar>(i)[j] = next_pixel;
            next_pixel = 255 - next_pixel;
        }
    }

    QRCodeDetector qrcode;
    TEST_CYCLE() ASSERT_FALSE(qrcode.detect(not_qr_code, corners));
    SANITY_CHECK_NOTHING();
}

#ifdef HAVE_QUIRC
PERF_TEST_P_(Perf_Objdetect_Not_QRCode, decode)
{
    Mat straight_barcode;
    std::vector< Point > corners;
    corners.push_back(Point( 0, 0)); corners.push_back(Point( 0,  5));
    corners.push_back(Point(10, 0)); corners.push_back(Point(15, 15));

    std::string type_gen = get<0>(GetParam());
    Size resolution = get<1>(GetParam());
    Mat not_qr_code(resolution, CV_8UC1, Scalar(0));
    if (type_gen == "random")
    {
        RNG rng;
        rng.fill(not_qr_code, RNG::UNIFORM, Scalar(0), Scalar(1));
    }
    if (type_gen == "chessboard")
    {
        uint8_t next_pixel = 0;
        for (int r = 0; r < not_qr_code.rows * not_qr_code.cols; r++)
        {
            int i = r / not_qr_code.cols;
            int j = r % not_qr_code.cols;
            not_qr_code.ptr<uchar>(i)[j] = next_pixel;
            next_pixel = 255 - next_pixel;
        }
    }

    QRCodeDetector qrcode;
    TEST_CYCLE() ASSERT_TRUE(qrcode.decode(not_qr_code, corners, straight_barcode).empty());
    SANITY_CHECK_NOTHING();
}
#endif

INSTANTIATE_TEST_CASE_P(/*nothing*/, Perf_Objdetect_Not_QRCode,
      ::testing::Combine(
            ::testing::Values("zero", "random", "chessboard"),
            ::testing::Values(Size(640, 480),   Size(1280, 720),
                              Size(1920, 1080), Size(3840, 2160))
      ));

}
} // namespace