root/modules/core/test/test_concatenation.cpp

DEFINITIONS

1. secondEmpty
2. prepare_test_case
3. run_func
4. validate_test_results
5. areEqual
6. TEST
7. TEST
8. TEST
9. TEST
10. TEST
11. TEST

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#include "test_precomp.hpp"

using namespace cv;
using namespace std;

class Core_ConcatenationTest : public cvtest::BaseTest
{
public:
    Core_ConcatenationTest(bool horizontal, bool firstEmpty, bool secondEmpty);
protected:
    int prepare_test_case( int );
    void run_func();
    int validate_test_results( int );

    Mat mat0x5;
    Mat mat10x5;
    Mat mat20x5;

    Mat mat5x0;
    Mat mat5x10;
    Mat mat5x20;

    Mat result;

    bool horizontal;
    bool firstEmpty;
    bool secondEmpty;

private:
    static bool areEqual(const Mat& m1, const Mat& m2);

};

Core_ConcatenationTest::Core_ConcatenationTest(bool horizontal_, bool firstEmpty_, bool secondEmpty_)
    : horizontal(horizontal_)
    , firstEmpty(firstEmpty_)
    , secondEmpty(secondEmpty_)
{
    test_case_count = 1;

    mat0x5 = Mat::ones(0,5, CV_8U);
    mat10x5 = Mat::ones(10,5, CV_8U);
    mat20x5 = Mat::ones(20,5, CV_8U);

    mat5x0 = Mat::ones(5,0, CV_8U);
    mat5x10 = Mat::ones(5,10, CV_8U);
    mat5x20 = Mat::ones(5,20, CV_8U);
}

int Core_ConcatenationTest::prepare_test_case( int test_case_idx )
{
    cvtest::BaseTest::prepare_test_case( test_case_idx );
    return 1;
}

void Core_ConcatenationTest::run_func()
{
    if (horizontal)
    {
        cv::hconcat((firstEmpty ? mat5x0 : mat5x10),
                    (secondEmpty ? mat5x0 : mat5x10),
                    result);
    } else {
        cv::vconcat((firstEmpty ? mat0x5 : mat10x5),
                    (secondEmpty ? mat0x5 : mat10x5),
                    result);
    }
}

int Core_ConcatenationTest::validate_test_results( int )
{
    Mat expected;

    if (firstEmpty && secondEmpty)
        expected = (horizontal ? mat5x0 : mat0x5);
    else if ((firstEmpty && !secondEmpty) || (!firstEmpty && secondEmpty))
        expected = (horizontal ? mat5x10 : mat10x5);
    else
        expected = (horizontal ? mat5x20 : mat20x5);

    if (areEqual(expected, result))
    {
        return cvtest::TS::OK;
    } else
    {
        ts->printf( cvtest::TS::LOG, "Concatenation failed");
        ts->set_failed_test_info( cvtest::TS::FAIL_MISMATCH );
    }

    return cvtest::TS::OK;
}

bool Core_ConcatenationTest::areEqual(const Mat &m1, const Mat &m2)
{
    return m1.size() == m2.size()
            && m1.type() == m2.type()
            && countNonZero(m1 != m2) == 0;
}

TEST(Core_Concatenation, hconcat_empty_nonempty) { Core_ConcatenationTest test(true, true, false); test.safe_run(); }
TEST(Core_Concatenation, hconcat_nonempty_empty) { Core_ConcatenationTest test(true, false, true); test.safe_run(); }
TEST(Core_Concatenation, hconcat_empty_empty) { Core_ConcatenationTest test(true, true, true); test.safe_run(); }

TEST(Core_Concatenation, vconcat_empty_nonempty) { Core_ConcatenationTest test(false, true, false); test.safe_run(); }
TEST(Core_Concatenation, vconcat_nonempty_empty) { Core_ConcatenationTest test(false, false, true); test.safe_run(); }
TEST(Core_Concatenation, vconcat_empty_empty) { Core_ConcatenationTest test(false, true, true); test.safe_run(); }