// 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 "test_precomp.hpp" namespace opencv_test { namespace { #if 0 // LSD implementation has been removed due original code license issues const Size img_size(640, 480); const int LSD_TEST_SEED = 0x134679; const int EPOCHS = 20; class LSDBase : public testing::Test { public: LSDBase() { } protected: Mat test_image; vector lines; RNG rng; int passedtests; void GenerateWhiteNoise(Mat& image); void GenerateConstColor(Mat& image); void GenerateLines(Mat& image, const unsigned int numLines); void GenerateRotatedRect(Mat& image); virtual void SetUp(); }; class Imgproc_LSD_ADV: public LSDBase { public: Imgproc_LSD_ADV() { } protected: }; class Imgproc_LSD_STD: public LSDBase { public: Imgproc_LSD_STD() { } protected: }; class Imgproc_LSD_NONE: public LSDBase { public: Imgproc_LSD_NONE() { } protected: }; class Imgproc_LSD_Common : public LSDBase { public: Imgproc_LSD_Common() { } protected: }; void LSDBase::GenerateWhiteNoise(Mat& image) { image = Mat(img_size, CV_8UC1); rng.fill(image, RNG::UNIFORM, 0, 256); } void LSDBase::GenerateConstColor(Mat& image) { image = Mat(img_size, CV_8UC1, Scalar::all(rng.uniform(0, 256))); } void LSDBase::GenerateLines(Mat& image, const unsigned int numLines) { image = Mat(img_size, CV_8UC1, Scalar::all(rng.uniform(0, 128))); for(unsigned int i = 0; i < numLines; ++i) { int y = rng.uniform(10, img_size.width - 10); Point p1(y, 10); Point p2(y, img_size.height - 10); line(image, p1, p2, Scalar(255), 3); } } void LSDBase::GenerateRotatedRect(Mat& image) { image = Mat::zeros(img_size, CV_8UC1); Point center(rng.uniform(img_size.width/4, img_size.width*3/4), rng.uniform(img_size.height/4, img_size.height*3/4)); Size rect_size(rng.uniform(img_size.width/8, img_size.width/6), rng.uniform(img_size.height/8, img_size.height/6)); float angle = rng.uniform(0.f, 360.f); Point2f vertices[4]; RotatedRect rRect = RotatedRect(center, rect_size, angle); rRect.points(vertices); for (int i = 0; i < 4; i++) { line(image, vertices[i], vertices[(i + 1) % 4], Scalar(255), 3); } } void LSDBase::SetUp() { lines.clear(); test_image = Mat(); rng = RNG(LSD_TEST_SEED); passedtests = 0; } TEST_F(Imgproc_LSD_ADV, whiteNoise) { for (int i = 0; i < EPOCHS; ++i) { GenerateWhiteNoise(test_image); Ptr detector = createLineSegmentDetector(LSD_REFINE_ADV); detector->detect(test_image, lines); if(40u >= lines.size()) ++passedtests; } ASSERT_EQ(EPOCHS, passedtests); } TEST_F(Imgproc_LSD_ADV, constColor) { for (int i = 0; i < EPOCHS; ++i) { GenerateConstColor(test_image); Ptr detector = createLineSegmentDetector(LSD_REFINE_ADV); detector->detect(test_image, lines); if(0u == lines.size()) ++passedtests; } ASSERT_EQ(EPOCHS, passedtests); } TEST_F(Imgproc_LSD_ADV, lines) { for (int i = 0; i < EPOCHS; ++i) { const unsigned int numOfLines = 1; GenerateLines(test_image, numOfLines); Ptr detector = createLineSegmentDetector(LSD_REFINE_ADV); detector->detect(test_image, lines); if(numOfLines * 2 == lines.size()) ++passedtests; // * 2 because of Gibbs effect } ASSERT_EQ(EPOCHS, passedtests); } TEST_F(Imgproc_LSD_ADV, rotatedRect) { for (int i = 0; i < EPOCHS; ++i) { GenerateRotatedRect(test_image); Ptr detector = createLineSegmentDetector(LSD_REFINE_ADV); detector->detect(test_image, lines); if(2u <= lines.size()) ++passedtests; } ASSERT_EQ(EPOCHS, passedtests); } TEST_F(Imgproc_LSD_STD, whiteNoise) { for (int i = 0; i < EPOCHS; ++i) { GenerateWhiteNoise(test_image); Ptr detector = createLineSegmentDetector(LSD_REFINE_STD); detector->detect(test_image, lines); if(50u >= lines.size()) ++passedtests; } ASSERT_EQ(EPOCHS, passedtests); } TEST_F(Imgproc_LSD_STD, constColor) { for (int i = 0; i < EPOCHS; ++i) { GenerateConstColor(test_image); Ptr detector = createLineSegmentDetector(LSD_REFINE_STD); detector->detect(test_image, lines); if(0u == lines.size()) ++passedtests; } ASSERT_EQ(EPOCHS, passedtests); } TEST_F(Imgproc_LSD_STD, lines) { for (int i = 0; i < EPOCHS; ++i) { const unsigned int numOfLines = 1; GenerateLines(test_image, numOfLines); Ptr detector = createLineSegmentDetector(LSD_REFINE_STD); detector->detect(test_image, lines); if(numOfLines * 2 == lines.size()) ++passedtests; // * 2 because of Gibbs effect } ASSERT_EQ(EPOCHS, passedtests); } TEST_F(Imgproc_LSD_STD, rotatedRect) { for (int i = 0; i < EPOCHS; ++i) { GenerateRotatedRect(test_image); Ptr detector = createLineSegmentDetector(LSD_REFINE_STD); detector->detect(test_image, lines); if(4u <= lines.size()) ++passedtests; } ASSERT_EQ(EPOCHS, passedtests); } TEST_F(Imgproc_LSD_NONE, whiteNoise) { for (int i = 0; i < EPOCHS; ++i) { GenerateWhiteNoise(test_image); Ptr detector = createLineSegmentDetector(LSD_REFINE_NONE); detector->detect(test_image, lines); if(50u >= lines.size()) ++passedtests; } ASSERT_EQ(EPOCHS, passedtests); } TEST_F(Imgproc_LSD_NONE, constColor) { for (int i = 0; i < EPOCHS; ++i) { GenerateConstColor(test_image); Ptr detector = createLineSegmentDetector(LSD_REFINE_NONE); detector->detect(test_image, lines); if(0u == lines.size()) ++passedtests; } ASSERT_EQ(EPOCHS, passedtests); } TEST_F(Imgproc_LSD_NONE, lines) { for (int i = 0; i < EPOCHS; ++i) { const unsigned int numOfLines = 1; GenerateLines(test_image, numOfLines); Ptr detector = createLineSegmentDetector(LSD_REFINE_NONE); detector->detect(test_image, lines); if(numOfLines * 2 == lines.size()) ++passedtests; // * 2 because of Gibbs effect } ASSERT_EQ(EPOCHS, passedtests); } TEST_F(Imgproc_LSD_NONE, rotatedRect) { for (int i = 0; i < EPOCHS; ++i) { GenerateRotatedRect(test_image); Ptr detector = createLineSegmentDetector(LSD_REFINE_NONE); detector->detect(test_image, lines); if(8u <= lines.size()) ++passedtests; } ASSERT_EQ(EPOCHS, passedtests); } TEST_F(Imgproc_LSD_Common, supportsVec4iResult) { for (int i = 0; i < EPOCHS; ++i) { GenerateWhiteNoise(test_image); Ptr detector = createLineSegmentDetector(LSD_REFINE_STD); detector->detect(test_image, lines); std::vector linesVec4i; detector->detect(test_image, linesVec4i); if (lines.size() == linesVec4i.size()) { bool pass = true; for (size_t lineIndex = 0; pass && lineIndex < lines.size(); lineIndex++) { for (int ch = 0; ch < 4; ch++) { if (cv::saturate_cast(lines[lineIndex][ch]) != linesVec4i[lineIndex][ch]) { pass = false; break; } } } if (pass) ++passedtests; } } ASSERT_EQ(EPOCHS, passedtests); } TEST_F(Imgproc_LSD_Common, drawSegmentsVec4f) { GenerateConstColor(test_image); std::vector linesVec4f; RNG cr(0); // constant seed for deterministic test for (int j = 0; j < 10; j++) { linesVec4f.push_back( Vec4f(float(cr) * test_image.cols, float(cr) * test_image.rows, float(cr) * test_image.cols, float(cr) * test_image.rows)); } Mat actual = Mat::zeros(test_image.size(), CV_8UC3); Mat expected = Mat::zeros(test_image.size(), CV_8UC3); Ptr detector = createLineSegmentDetector(LSD_REFINE_STD); detector->drawSegments(actual, linesVec4f); // something should be drawn ASSERT_EQ(sum(actual == expected) != Scalar::all(0), true); for (size_t lineIndex = 0; lineIndex < linesVec4f.size(); lineIndex++) { const Vec4f &v = linesVec4f[lineIndex]; const Point2f b(v[0], v[1]); const Point2f e(v[2], v[3]); line(expected, b, e, Scalar(0, 0, 255), 1); } ASSERT_EQ(sum(actual != expected) == Scalar::all(0), true); } TEST_F(Imgproc_LSD_Common, drawSegmentsVec4i) { GenerateConstColor(test_image); std::vector linesVec4i; RNG cr(0); // constant seed for deterministic test for (int j = 0; j < 10; j++) { linesVec4i.push_back( Vec4i(cr(test_image.cols), cr(test_image.rows), cr(test_image.cols), cr(test_image.rows))); } Mat actual = Mat::zeros(test_image.size(), CV_8UC3); Mat expected = Mat::zeros(test_image.size(), CV_8UC3); Ptr detector = createLineSegmentDetector(LSD_REFINE_STD); detector->drawSegments(actual, linesVec4i); // something should be drawn ASSERT_EQ(sum(actual == expected) != Scalar::all(0), true); for (size_t lineIndex = 0; lineIndex < linesVec4i.size(); lineIndex++) { const Vec4f &v = linesVec4i[lineIndex]; const Point2f b(v[0], v[1]); const Point2f e(v[2], v[3]); line(expected, b, e, Scalar(0, 0, 255), 1); } ASSERT_EQ(sum(actual != expected) == Scalar::all(0), true); } TEST_F(Imgproc_LSD_Common, compareSegmentsVec4f) { GenerateConstColor(test_image); Ptr detector = createLineSegmentDetector(LSD_REFINE_STD); std::vector lines1, lines2; lines1.push_back(Vec4f(0, 0, 100, 200)); lines2.push_back(Vec4f(0, 0, 100, 200)); int result1 = detector->compareSegments(test_image.size(), lines1, lines2); ASSERT_EQ(result1, 0); lines2.push_back(Vec4f(100, 100, 110, 100)); int result2 = detector->compareSegments(test_image.size(), lines1, lines2); ASSERT_EQ(result2, 11); } TEST_F(Imgproc_LSD_Common, compareSegmentsVec4i) { GenerateConstColor(test_image); Ptr detector = createLineSegmentDetector(LSD_REFINE_STD); std::vector lines1, lines2; lines1.push_back(Vec4i(0, 0, 100, 200)); lines2.push_back(Vec4i(0, 0, 100, 200)); int result1 = detector->compareSegments(test_image.size(), lines1, lines2); ASSERT_EQ(result1, 0); lines2.push_back(Vec4i(100, 100, 110, 100)); int result2 = detector->compareSegments(test_image.size(), lines1, lines2); ASSERT_EQ(result2, 11); } #endif }} // namespace