// 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" #include "test_aruco_utils.hpp" namespace opencv_test { namespace { /** * @brief Get a synthetic image of Chessboard in perspective */ static Mat projectChessboard(int squaresX, int squaresY, float squareSize, Size imageSize, Mat cameraMatrix, Mat rvec, Mat tvec, bool legacyPattern) { Mat img(imageSize, CV_8UC1, Scalar::all(255)); Mat distCoeffs(5, 1, CV_64FC1, Scalar::all(0)); for(int y = 0; y < squaresY; y++) { float startY = float(y) * squareSize; for(int x = 0; x < squaresX; x++) { if(legacyPattern && (squaresY % 2 == 0)) { if((y + 1) % 2 != x % 2) continue; } else { if(y % 2 != x % 2) continue; } float startX = float(x) * squareSize; vector< Point3f > squareCorners; squareCorners.push_back(Point3f(startX, startY, 0) - Point3f(squaresX*squareSize/2.f, squaresY*squareSize/2.f, 0.f)); squareCorners.push_back(squareCorners[0] + Point3f(squareSize, 0, 0)); squareCorners.push_back(squareCorners[0] + Point3f(squareSize, squareSize, 0)); squareCorners.push_back(squareCorners[0] + Point3f(0, squareSize, 0)); vector< vector< Point2f > > projectedCorners; projectedCorners.push_back(vector< Point2f >()); projectPoints(squareCorners, rvec, tvec, cameraMatrix, distCoeffs, projectedCorners[0]); vector< vector< Point > > projectedCornersInt; projectedCornersInt.push_back(vector< Point >()); for(int k = 0; k < 4; k++) projectedCornersInt[0] .push_back(Point((int)projectedCorners[0][k].x, (int)projectedCorners[0][k].y)); fillPoly(img, projectedCornersInt, Scalar::all(0)); } } return img; } /** * @brief Check pose estimation of charuco board */ static Mat projectCharucoBoard(aruco::CharucoBoard& board, Mat cameraMatrix, double yaw, double pitch, double distance, Size imageSize, int markerBorder, Mat &rvec, Mat &tvec) { getSyntheticRT(yaw, pitch, distance, rvec, tvec); // project markers Mat img = Mat(imageSize, CV_8UC1, Scalar::all(255)); for(unsigned int indexMarker = 0; indexMarker < board.getIds().size(); indexMarker++) { projectMarker(img, board, indexMarker, cameraMatrix, rvec, tvec, markerBorder); } // project chessboard Mat chessboard = projectChessboard(board.getChessboardSize().width, board.getChessboardSize().height, board.getSquareLength(), imageSize, cameraMatrix, rvec, tvec, board.getLegacyPattern()); for(unsigned int i = 0; i < chessboard.total(); i++) { if(chessboard.ptr< unsigned char >()[i] == 0) { img.ptr< unsigned char >()[i] = 0; } } return img; } /** * @brief Check Charuco detection */ class CV_CharucoDetection : public cvtest::BaseTest { public: CV_CharucoDetection(bool _legacyPattern) : legacyPattern(_legacyPattern) {} protected: void run(int); bool legacyPattern; }; void CV_CharucoDetection::run(int) { int iter = 0; Mat cameraMatrix = Mat::eye(3, 3, CV_64FC1); Size imgSize(500, 500); aruco::DetectorParameters params; params.minDistanceToBorder = 3; aruco::CharucoBoard board(Size(4, 4), 0.03f, 0.015f, aruco::getPredefinedDictionary(aruco::DICT_6X6_250)); board.setLegacyPattern(legacyPattern); aruco::CharucoDetector detector(board, aruco::CharucoParameters(), params); cameraMatrix.at(0, 0) = cameraMatrix.at(1, 1) = 600; cameraMatrix.at(0, 2) = imgSize.width / 2; cameraMatrix.at(1, 2) = imgSize.height / 2; Mat distCoeffs(5, 1, CV_64FC1, Scalar::all(0)); // for different perspectives for(double distance : {0.2, 0.4}) { for(int yaw = -55; yaw <= 50; yaw += 25) { for(int pitch = -55; pitch <= 50; pitch += 25) { int markerBorder = iter % 2 + 1; iter++; // create synthetic image Mat rvec, tvec; Mat img = projectCharucoBoard(board, cameraMatrix, deg2rad(yaw), deg2rad(pitch), distance, imgSize, markerBorder, rvec, tvec); // detect markers and interpolate charuco corners vector > corners; vector charucoCorners; vector ids, charucoIds; params.markerBorderBits = markerBorder; detector.setDetectorParameters(params); //detector.detectMarkers(img, corners, ids); if(iter % 2 == 0) { detector.detectBoard(img, charucoCorners, charucoIds, corners, ids); } else { aruco::CharucoParameters charucoParameters; charucoParameters.cameraMatrix = cameraMatrix; charucoParameters.distCoeffs = distCoeffs; detector.setCharucoParameters(charucoParameters); detector.detectBoard(img, charucoCorners, charucoIds, corners, ids); } ASSERT_GT(ids.size(), std::vector< int >::size_type(0)) << "Marker detection failed"; // check results vector< Point2f > projectedCharucoCorners; // copy chessboardCorners vector copyChessboardCorners = board.getChessboardCorners(); // move copyChessboardCorners points for (size_t i = 0; i < copyChessboardCorners.size(); i++) copyChessboardCorners[i] -= board.getRightBottomCorner() / 2.f; projectPoints(copyChessboardCorners, rvec, tvec, cameraMatrix, distCoeffs, projectedCharucoCorners); for(unsigned int i = 0; i < charucoIds.size(); i++) { int currentId = charucoIds[i]; ASSERT_LT(currentId, (int)board.getChessboardCorners().size()) << "Invalid Charuco corner id"; double repError = cv::norm(charucoCorners[i] - projectedCharucoCorners[currentId]); // TODO cvtest ASSERT_LE(repError, 5.) << "Charuco corner reprojection error too high"; } } } } } /** * @brief Check charuco pose estimation */ class CV_CharucoPoseEstimation : public cvtest::BaseTest { public: CV_CharucoPoseEstimation(bool _legacyPattern) : legacyPattern(_legacyPattern) {} protected: void run(int); bool legacyPattern; }; void CV_CharucoPoseEstimation::run(int) { int iter = 0; Mat cameraMatrix = Mat::eye(3, 3, CV_64FC1); Size imgSize(750, 750); aruco::DetectorParameters params; params.minDistanceToBorder = 3; aruco::CharucoBoard board(Size(4, 4), 0.03f, 0.015f, aruco::getPredefinedDictionary(aruco::DICT_6X6_250)); board.setLegacyPattern(legacyPattern); aruco::CharucoDetector detector(board, aruco::CharucoParameters(), params); cameraMatrix.at(0, 0) = cameraMatrix.at< double >(1, 1) = 1000; cameraMatrix.at(0, 2) = imgSize.width / 2; cameraMatrix.at(1, 2) = imgSize.height / 2; Mat distCoeffs(5, 1, CV_64FC1, Scalar::all(0)); // for different perspectives for(double distance : {0.2, 0.25}) { for(int yaw = -55; yaw <= 50; yaw += 25) { for(int pitch = -55; pitch <= 50; pitch += 25) { int markerBorder = iter % 2 + 1; iter++; // get synthetic image Mat rvec, tvec; Mat img = projectCharucoBoard(board, cameraMatrix, deg2rad(yaw), deg2rad(pitch), distance, imgSize, markerBorder, rvec, tvec); // detect markers vector > corners; vector ids; params.markerBorderBits = markerBorder; detector.setDetectorParameters(params); // detect markers and interpolate charuco corners vector charucoCorners; vector charucoIds; if(iter % 2 == 0) { detector.detectBoard(img, charucoCorners, charucoIds, corners, ids); } else { aruco::CharucoParameters charucoParameters; charucoParameters.cameraMatrix = cameraMatrix; charucoParameters.distCoeffs = distCoeffs; detector.setCharucoParameters(charucoParameters); detector.detectBoard(img, charucoCorners, charucoIds, corners, ids); } ASSERT_EQ(ids.size(), board.getIds().size()); if(charucoIds.size() == 0) continue; // estimate charuco pose getCharucoBoardPose(charucoCorners, charucoIds, board, cameraMatrix, distCoeffs, rvec, tvec); // check axes const float aruco_offset = (board.getSquareLength() - board.getMarkerLength()) / 2.f; Point2f offset; vector topLeft, bottomLeft; if(legacyPattern) { // white box in upper left corner for even row count chessboard patterns offset = Point2f(aruco_offset + board.getSquareLength(), aruco_offset); topLeft = getMarkerById(board.getIds()[1], corners, ids); bottomLeft = getMarkerById(board.getIds()[2], corners, ids); } else { // always a black box in the upper left corner offset = Point2f(aruco_offset, aruco_offset); topLeft = getMarkerById(board.getIds()[0], corners, ids); bottomLeft = getMarkerById(board.getIds()[2], corners, ids); } vector axes = getAxis(cameraMatrix, distCoeffs, rvec, tvec, board.getSquareLength(), offset); ASSERT_NEAR(topLeft[0].x, axes[1].x, 3.f); ASSERT_NEAR(topLeft[0].y, axes[1].y, 3.f); ASSERT_NEAR(bottomLeft[0].x, axes[2].x, 3.f); ASSERT_NEAR(bottomLeft[0].y, axes[2].y, 3.f); // check estimate result vector< Point2f > projectedCharucoCorners; projectPoints(board.getChessboardCorners(), rvec, tvec, cameraMatrix, distCoeffs, projectedCharucoCorners); for(unsigned int i = 0; i < charucoIds.size(); i++) { int currentId = charucoIds[i]; ASSERT_LT(currentId, (int)board.getChessboardCorners().size()) << "Invalid Charuco corner id"; double repError = cv::norm(charucoCorners[i] - projectedCharucoCorners[currentId]); // TODO cvtest ASSERT_LE(repError, 5.) << "Charuco corner reprojection error too high"; } } } } } /** * @brief Check diamond detection */ class CV_CharucoDiamondDetection : public cvtest::BaseTest { public: CV_CharucoDiamondDetection(); protected: void run(int); }; CV_CharucoDiamondDetection::CV_CharucoDiamondDetection() {} void CV_CharucoDiamondDetection::run(int) { int iter = 0; Mat cameraMatrix = Mat::eye(3, 3, CV_64FC1); Size imgSize(500, 500); aruco::DetectorParameters params; params.minDistanceToBorder = 0; float squareLength = 0.03f; float markerLength = 0.015f; aruco::CharucoBoard board(Size(3, 3), squareLength, markerLength, aruco::getPredefinedDictionary(aruco::DICT_6X6_250)); aruco::CharucoDetector detector(board); cameraMatrix.at(0, 0) = cameraMatrix.at< double >(1, 1) = 650; cameraMatrix.at(0, 2) = imgSize.width / 2; cameraMatrix.at(1, 2) = imgSize.height / 2; Mat distCoeffs(5, 1, CV_64FC1, Scalar::all(0)); aruco::CharucoParameters charucoParameters; charucoParameters.cameraMatrix = cameraMatrix; charucoParameters.distCoeffs = distCoeffs; detector.setCharucoParameters(charucoParameters); // for different perspectives for(double distance : {0.2, 0.22}) { for(int yaw = -50; yaw <= 50; yaw += 25) { for(int pitch = -50; pitch <= 50; pitch += 25) { int markerBorder = iter % 2 + 1; vector idsTmp; for(int i = 0; i < 4; i++) idsTmp.push_back(4 * iter + i); board = aruco::CharucoBoard(Size(3, 3), squareLength, markerLength, aruco::getPredefinedDictionary(aruco::DICT_6X6_250), idsTmp); detector.setBoard(board); iter++; // get synthetic image Mat rvec, tvec; Mat img = projectCharucoBoard(board, cameraMatrix, deg2rad(yaw), deg2rad(pitch), distance, imgSize, markerBorder, rvec, tvec); // detect markers vector> corners; vector ids; params.markerBorderBits = markerBorder; detector.setDetectorParameters(params); //detector.detectMarkers(img, corners, ids); // detect diamonds vector> diamondCorners; vector diamondIds; detector.detectDiamonds(img, diamondCorners, diamondIds, corners, ids); // check detect if(ids.size() != 4) { ts->printf(cvtest::TS::LOG, "Not enough markers for diamond detection"); ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); return; } // check results if(diamondIds.size() != 1) { ts->printf(cvtest::TS::LOG, "Diamond not detected correctly"); ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); return; } for(int i = 0; i < 4; i++) { if(diamondIds[0][i] != board.getIds()[i]) { ts->printf(cvtest::TS::LOG, "Incorrect diamond ids"); ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); return; } } vector< Point2f > projectedDiamondCorners; // copy chessboardCorners vector copyChessboardCorners = board.getChessboardCorners(); // move copyChessboardCorners points for (size_t i = 0; i < copyChessboardCorners.size(); i++) copyChessboardCorners[i] -= board.getRightBottomCorner() / 2.f; projectPoints(copyChessboardCorners, rvec, tvec, cameraMatrix, distCoeffs, projectedDiamondCorners); vector< Point2f > projectedDiamondCornersReorder(4); projectedDiamondCornersReorder[0] = projectedDiamondCorners[0]; projectedDiamondCornersReorder[1] = projectedDiamondCorners[1]; projectedDiamondCornersReorder[2] = projectedDiamondCorners[3]; projectedDiamondCornersReorder[3] = projectedDiamondCorners[2]; for(unsigned int i = 0; i < 4; i++) { double repError = cv::norm(diamondCorners[0][i] - projectedDiamondCornersReorder[i]); // TODO cvtest if(repError > 5.) { ts->printf(cvtest::TS::LOG, "Diamond corner reprojection error too high"); ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); return; } } // estimate diamond pose vector< Vec3d > estimatedRvec, estimatedTvec; getMarkersPoses(diamondCorners, squareLength, cameraMatrix, distCoeffs, estimatedRvec, estimatedTvec, noArray(), false); // check result vector< Point2f > projectedDiamondCornersPose; vector< Vec3f > diamondObjPoints(4); diamondObjPoints[0] = Vec3f(0.f, 0.f, 0); diamondObjPoints[1] = Vec3f(squareLength, 0.f, 0); diamondObjPoints[2] = Vec3f(squareLength, squareLength, 0); diamondObjPoints[3] = Vec3f(0.f, squareLength, 0); projectPoints(diamondObjPoints, estimatedRvec[0], estimatedTvec[0], cameraMatrix, distCoeffs, projectedDiamondCornersPose); for(unsigned int i = 0; i < 4; i++) { double repError = cv::norm(projectedDiamondCornersReorder[i] - projectedDiamondCornersPose[i]); // TODO cvtest if(repError > 5.) { ts->printf(cvtest::TS::LOG, "Charuco pose error too high"); ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); return; } } } } } } /** * @brief Check charuco board creation */ class CV_CharucoBoardCreation : public cvtest::BaseTest { public: CV_CharucoBoardCreation(); protected: void run(int); }; CV_CharucoBoardCreation::CV_CharucoBoardCreation() {} void CV_CharucoBoardCreation::run(int) { aruco::Dictionary dictionary = aruco::getPredefinedDictionary(aruco::DICT_5X5_250); int n = 6; float markerSizeFactor = 0.5f; for (float squareSize_mm = 5.0f; squareSize_mm < 35.0f; squareSize_mm += 0.1f) { aruco::CharucoBoard board_meters(Size(n, n), squareSize_mm*1e-3f, squareSize_mm * markerSizeFactor * 1e-3f, dictionary); aruco::CharucoBoard board_millimeters(Size(n, n), squareSize_mm, squareSize_mm * markerSizeFactor, dictionary); for (size_t i = 0; i < board_meters.getNearestMarkerIdx().size(); i++) { if (board_meters.getNearestMarkerIdx()[i].size() != board_millimeters.getNearestMarkerIdx()[i].size() || board_meters.getNearestMarkerIdx()[i][0] != board_millimeters.getNearestMarkerIdx()[i][0]) { ts->printf(cvtest::TS::LOG, cv::format("Charuco board topology is sensitive to scale with squareSize=%.1f\n", squareSize_mm).c_str()); ts->set_failed_test_info(cvtest::TS::FAIL_INVALID_OUTPUT); break; } } } } TEST(CV_CharucoDetection, accuracy) { const bool legacyPattern = false; CV_CharucoDetection test(legacyPattern); test.safe_run(); } TEST(CV_CharucoDetection, accuracy_legacyPattern) { const bool legacyPattern = true; CV_CharucoDetection test(legacyPattern); test.safe_run(); } TEST(CV_CharucoPoseEstimation, accuracy) { const bool legacyPattern = false; CV_CharucoPoseEstimation test(legacyPattern); test.safe_run(); } TEST(CV_CharucoPoseEstimation, accuracy_legacyPattern) { const bool legacyPattern = true; CV_CharucoPoseEstimation test(legacyPattern); test.safe_run(); } TEST(CV_CharucoDiamondDetection, accuracy) { CV_CharucoDiamondDetection test; test.safe_run(); } TEST(CV_CharucoBoardCreation, accuracy) { CV_CharucoBoardCreation test; test.safe_run(); } TEST(Charuco, testCharucoCornersCollinear_true) { int squaresX = 13; int squaresY = 28; float squareLength = 300; float markerLength = 150; int dictionaryId = 11; aruco::Dictionary dictionary = aruco::getPredefinedDictionary(aruco::PredefinedDictionaryType(dictionaryId)); aruco::CharucoBoard charucoBoard(Size(squaresX, squaresY), squareLength, markerLength, dictionary); // consistency with C++98 const int arrLine[9] = {192, 204, 216, 228, 240, 252, 264, 276, 288}; vector charucoIdsAxisLine(9, 0); for (int i = 0; i < 9; i++){ charucoIdsAxisLine[i] = arrLine[i]; } const int arrDiag[7] = {198, 209, 220, 231, 242, 253, 264}; vector charucoIdsDiagonalLine(7, 0); for (int i = 0; i < 7; i++){ charucoIdsDiagonalLine[i] = arrDiag[i]; } bool resultAxisLine = charucoBoard.checkCharucoCornersCollinear(charucoIdsAxisLine); EXPECT_TRUE(resultAxisLine); bool resultDiagonalLine = charucoBoard.checkCharucoCornersCollinear(charucoIdsDiagonalLine); EXPECT_TRUE(resultDiagonalLine); } TEST(Charuco, testCharucoCornersCollinear_false) { int squaresX = 13; int squaresY = 28; float squareLength = 300; float markerLength = 150; int dictionaryId = 11; aruco::Dictionary dictionary = aruco::getPredefinedDictionary(aruco::PredefinedDictionaryType(dictionaryId)); aruco::CharucoBoard charucoBoard(Size(squaresX, squaresY), squareLength, markerLength, dictionary); // consistency with C++98 const int arr[63] = {192, 193, 194, 195, 196, 197, 198, 204, 205, 206, 207, 208, 209, 210, 216, 217, 218, 219, 220, 221, 222, 228, 229, 230, 231, 232, 233, 234, 240, 241, 242, 243, 244, 245, 246, 252, 253, 254, 255, 256, 257, 258, 264, 265, 266, 267, 268, 269, 270, 276, 277, 278, 279, 280, 281, 282, 288, 289, 290, 291, 292, 293, 294}; vector charucoIds(63, 0); for (int i = 0; i < 63; i++){ charucoIds[i] = arr[i]; } bool result = charucoBoard.checkCharucoCornersCollinear(charucoIds); EXPECT_FALSE(result); } // test that ChArUco board detection is subpixel accurate TEST(Charuco, testBoardSubpixelCoords) { cv::Size res{500, 500}; cv::Mat K = (cv::Mat_(3,3) << 0.5*res.width, 0, 0.5*res.width, 0, 0.5*res.height, 0.5*res.height, 0, 0, 1); // set expected_corners values cv::Mat expected_corners = (cv::Mat_(9,2) << 200, 200, 250, 200, 300, 200, 200, 250, 250, 250, 300, 250, 200, 300, 250, 300, 300, 300 ); std::vector shape={expected_corners.rows}; expected_corners = expected_corners.reshape(2, shape); cv::Mat gray; aruco::Dictionary dict = cv::aruco::getPredefinedDictionary(cv::aruco::DICT_APRILTAG_36h11); aruco::CharucoBoard board(Size(4, 4), 1.f, .8f, dict); // generate ChArUco board board.generateImage(Size(res.width, res.height), gray, 150); cv::GaussianBlur(gray, gray, Size(5, 5), 1.0); aruco::DetectorParameters params; params.cornerRefinementMethod = (int)cv::aruco::CORNER_REFINE_APRILTAG; aruco::CharucoParameters charucoParameters; charucoParameters.cameraMatrix = K; aruco::CharucoDetector detector(board, charucoParameters); detector.setDetectorParameters(params); std::vector ids; std::vector> corners; cv::Mat c_ids, c_corners; detector.detectBoard(gray, c_corners, c_ids, corners, ids); ASSERT_EQ(ids.size(), size_t(8)); ASSERT_EQ(c_corners.cols, expected_corners.cols); EXPECT_NEAR(0, cvtest::norm(expected_corners, c_corners, NORM_INF), 1e-1); } TEST(Charuco, issue_14014) { string imgPath = cvtest::findDataFile("aruco/recover.png"); Mat img = imread(imgPath); aruco::DetectorParameters detectorParams; detectorParams.cornerRefinementMethod = (int)aruco::CORNER_REFINE_SUBPIX; detectorParams.cornerRefinementMinAccuracy = 0.01; aruco::ArucoDetector detector(aruco::getPredefinedDictionary(aruco::DICT_7X7_250), detectorParams); aruco::CharucoBoard board(Size(8, 5), 0.03455f, 0.02164f, detector.getDictionary()); vector corners, rejectedPoints; vector ids; detector.detectMarkers(img, corners, ids, rejectedPoints); ASSERT_EQ(corners.size(), 19ull); EXPECT_EQ(Size(4, 1), corners[0].size()); // check dimension of detected corners size_t numRejPoints = rejectedPoints.size(); ASSERT_EQ(rejectedPoints.size(), 26ull); // optional check to track regressions EXPECT_EQ(Size(4, 1), rejectedPoints[0].size()); // check dimension of detected corners detector.refineDetectedMarkers(img, board, corners, ids, rejectedPoints); ASSERT_EQ(corners.size(), 20ull); EXPECT_EQ(Size(4, 1), corners[0].size()); // check dimension of rejected corners after successfully refine ASSERT_EQ(rejectedPoints.size() + 1, numRejPoints); EXPECT_EQ(Size(4, 1), rejectedPoints[0].size()); // check dimension of rejected corners after successfully refine } TEST(Charuco, testmatchImagePoints) { aruco::CharucoBoard board(Size(2, 3), 1.f, 0.5f, aruco::getPredefinedDictionary(aruco::DICT_4X4_50)); auto chessboardPoints = board.getChessboardCorners(); vector detectedIds; vector detectedCharucoCorners; for (const Point3f& point : chessboardPoints) { detectedIds.push_back((int)detectedCharucoCorners.size()); detectedCharucoCorners.push_back({2.f*point.x, 2.f*point.y}); } vector objPoints; vector imagePoints; board.matchImagePoints(detectedCharucoCorners, detectedIds, objPoints, imagePoints); ASSERT_EQ(detectedCharucoCorners.size(), objPoints.size()); ASSERT_EQ(detectedCharucoCorners.size(), imagePoints.size()); for (size_t i = 0ull; i < detectedCharucoCorners.size(); i++) { EXPECT_EQ(detectedCharucoCorners[i], imagePoints[i]); EXPECT_EQ(chessboardPoints[i].x, objPoints[i].x); EXPECT_EQ(chessboardPoints[i].y, objPoints[i].y); } } typedef testing::TestWithParam CharucoDraw; INSTANTIATE_TEST_CASE_P(/**/, CharucoDraw, testing::Values(CV_8UC2, CV_8SC2, CV_16UC2, CV_16SC2, CV_32SC2, CV_32FC2, CV_64FC2)); TEST_P(CharucoDraw, testDrawDetected) { vector> detected_golds = {{Point(20, 20), Point(80, 20), Point(80, 80), Point2f(20, 80)}}; Point center_gold = (detected_golds[0][0] + detected_golds[0][1] + detected_golds[0][2] + detected_golds[0][3]) / 4; int type = GetParam(); vector detected(detected_golds[0].size(), Mat(4, 1, type)); // copy detected_golds to detected with any 2 channels type for (size_t i = 0ull; i < detected_golds[0].size(); i++) { detected[0].row((int)i) = Scalar(detected_golds[0][i].x, detected_golds[0][i].y); } vector> contours; Point detectedCenter; Moments m; Mat img; // check drawDetectedMarkers img = Mat::zeros(100, 100, CV_8UC1); ASSERT_NO_THROW(aruco::drawDetectedMarkers(img, detected, noArray(), Scalar(255, 255, 255))); // check that the marker borders are painted findContours(img, contours, RETR_EXTERNAL, CHAIN_APPROX_SIMPLE); ASSERT_EQ(contours.size(), 1ull); m = moments(contours[0]); detectedCenter = Point(cvRound(m.m10/m.m00), cvRound(m.m01/m.m00)); ASSERT_EQ(detectedCenter, center_gold); // check drawDetectedCornersCharuco img = Mat::zeros(100, 100, CV_8UC1); ASSERT_NO_THROW(aruco::drawDetectedCornersCharuco(img, detected[0], noArray(), Scalar(255, 255, 255))); // check that the 4 charuco corners are painted findContours(img, contours, RETR_EXTERNAL, CHAIN_APPROX_SIMPLE); ASSERT_EQ(contours.size(), 4ull); for (size_t i = 0ull; i < 4ull; i++) { m = moments(contours[i]); detectedCenter = Point(cvRound(m.m10/m.m00), cvRound(m.m01/m.m00)); // detectedCenter must be in detected_golds ASSERT_TRUE(find(detected_golds[0].begin(), detected_golds[0].end(), detectedCenter) != detected_golds[0].end()); } // check drawDetectedDiamonds img = Mat::zeros(100, 100, CV_8UC1); ASSERT_NO_THROW(aruco::drawDetectedDiamonds(img, detected, noArray(), Scalar(255, 255, 255))); // check that the diamonds borders are painted findContours(img, contours, RETR_EXTERNAL, CHAIN_APPROX_SIMPLE); ASSERT_EQ(contours.size(), 1ull); m = moments(contours[0]); detectedCenter = Point(cvRound(m.m10/m.m00), cvRound(m.m01/m.m00)); ASSERT_EQ(detectedCenter, center_gold); } typedef testing::TestWithParam CharucoBoard; INSTANTIATE_TEST_CASE_P(/**/, CharucoBoard, testing::Values(Size(3, 2), Size(3, 2), Size(6, 2), Size(2, 6), Size(3, 4), Size(4, 3), Size(7, 3), Size(3, 7))); TEST_P(CharucoBoard, testWrongSizeDetection) { cv::Size boardSize = GetParam(); ASSERT_FALSE(boardSize.width == boardSize.height); aruco::CharucoBoard board(boardSize, 1.f, 0.5f, aruco::getPredefinedDictionary(aruco::DICT_4X4_50)); vector detectedCharucoIds, detectedArucoIds; vector detectedCharucoCorners; vector> detectedArucoCorners; Mat boardImage; board.generateImage(boardSize*40, boardImage); swap(boardSize.width, boardSize.height); aruco::CharucoDetector detector(aruco::CharucoBoard(boardSize, 1.f, 0.5f, aruco::getPredefinedDictionary(aruco::DICT_4X4_50))); // try detect board with wrong size detector.detectBoard(boardImage, detectedCharucoCorners, detectedCharucoIds, detectedArucoCorners, detectedArucoIds); // aruco markers must be found ASSERT_EQ(detectedArucoIds.size(), board.getIds().size()); ASSERT_EQ(detectedArucoCorners.size(), board.getIds().size()); // charuco corners should not be found in board with wrong size ASSERT_TRUE(detectedCharucoCorners.empty()); ASSERT_TRUE(detectedCharucoIds.empty()); } // Temporary disabled in https://github.com/opencv/opencv/pull/24338 // 5.x version produces conrnes with different shape than 4.x (32F_C2 instead of 2x 32FC1) TEST(Charuco, DISABLED_testSeveralBoardsWithCustomIds) { Size res{500, 500}; Mat K = (Mat_(3,3) << 0.5*res.width, 0, 0.5*res.width, 0, 0.5*res.height, 0.5*res.height, 0, 0, 1); Mat expected_corners = (Mat_(9,2) << 200, 200, 250, 200, 300, 200, 200, 250, 250, 250, 300, 250, 200, 300, 250, 300, 300, 300 ); aruco::Dictionary dict = cv::aruco::getPredefinedDictionary(aruco::DICT_4X4_50); vector ids1 = {0, 1, 33, 3, 4, 5, 6, 8}, ids2 = {7, 9, 44, 11, 12, 13, 14, 15}; aruco::CharucoBoard board1(Size(4, 4), 1.f, .8f, dict, ids1), board2(Size(4, 4), 1.f, .8f, dict, ids2); // generate ChArUco board Mat gray; { Mat gray1, gray2; board1.generateImage(Size(res.width, res.height), gray1, 150); board2.generateImage(Size(res.width, res.height), gray2, 150); hconcat(gray1, gray2, gray); } aruco::CharucoParameters charucoParameters; charucoParameters.cameraMatrix = K; aruco::CharucoDetector detector1(board1, charucoParameters), detector2(board2, charucoParameters); vector ids; vector corners; Mat c_ids1, c_ids2, c_corners1, c_corners2; detector1.detectBoard(gray, c_corners1, c_ids1, corners, ids); detector2.detectBoard(gray, c_corners2, c_ids2, corners, ids); ASSERT_EQ(ids.size(), size_t(16)); ASSERT_EQ(c_corners1.rows, expected_corners.rows); EXPECT_NEAR(0, cvtest::norm(expected_corners, c_corners1.reshape(1), NORM_INF), 3e-1); ASSERT_EQ(c_corners2.rows, expected_corners.rows); expected_corners.col(0) += 500; EXPECT_NEAR(0, cvtest::norm(expected_corners, c_corners2.reshape(1), NORM_INF), 3e-1); } }} // namespace