// 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 "parametersController.hpp" #include template static bool readFromNode(cv::FileNode node, T& value) { if(!node.isNone()) { node >> value; return true; } else return false; } static bool checkAssertion(bool value, const std::string& msg) { if(!value) std::cerr << "Error: " << msg << std::endl; return value; } bool calib::parametersController::loadFromFile(const std::string &inputFileName) { cv::FileStorage reader; reader.open(inputFileName, cv::FileStorage::READ); if(!reader.isOpened()) { std::cerr << "Warning: Unable to open " << inputFileName << " Application started with default advanced parameters" << std::endl; return true; } readFromNode(reader["charuco_dict"], mCapParams.charucoDictName); if (readFromNode(reader["charuco_square_lenght"], mCapParams.charucoSquareLength)) { std::cout << "DEPRECATION: Parameter 'charuco_square_lenght' has been deprecated (typo). Use 'charuco_square_length' instead." << std::endl; } readFromNode(reader["charuco_square_length"], mCapParams.charucoSquareLength); readFromNode(reader["charuco_marker_size"], mCapParams.charucoMarkerSize); readFromNode(reader["camera_resolution"], mCapParams.cameraResolution); readFromNode(reader["calibration_step"], mCapParams.calibrationStep); readFromNode(reader["max_frames_num"], mCapParams.maxFramesNum); readFromNode(reader["min_frames_num"], mCapParams.minFramesNum); readFromNode(reader["solver_eps"], mInternalParameters.solverEps); readFromNode(reader["solver_max_iters"], mInternalParameters.solverMaxIters); readFromNode(reader["fast_solver"], mInternalParameters.fastSolving); readFromNode(reader["frame_filter_conv_param"], mInternalParameters.filterAlpha); bool retValue = checkAssertion(mCapParams.charucoDictName >= 0, "Dict name must be >= 0") && checkAssertion(mCapParams.charucoMarkerSize > 0, "Marker size must be positive") && checkAssertion(mCapParams.charucoSquareLength > 0, "Square size must be positive") && checkAssertion(mCapParams.minFramesNum > 1, "Minimal number of frames for calibration < 1") && checkAssertion(mCapParams.calibrationStep > 0, "Calibration step must be positive") && checkAssertion(mCapParams.maxFramesNum > mCapParams.minFramesNum, "maxFramesNum < minFramesNum") && checkAssertion(mInternalParameters.solverEps > 0, "Solver precision must be positive") && checkAssertion(mInternalParameters.solverMaxIters > 0, "Max solver iterations number must be positive") && checkAssertion(mInternalParameters.filterAlpha >=0 && mInternalParameters.filterAlpha <=1 , "Frame filter convolution parameter must be in [0,1] interval") && checkAssertion(mCapParams.cameraResolution.width > 0 && mCapParams.cameraResolution.height > 0, "Wrong camera resolution values"); reader.release(); return retValue; } calib::parametersController::parametersController() { } calib::captureParameters calib::parametersController::getCaptureParameters() const { return mCapParams; } calib::internalParameters calib::parametersController::getInternalParameters() const { return mInternalParameters; } bool calib::parametersController::loadFromParser(cv::CommandLineParser &parser) { mCapParams.flipVertical = parser.get("flip"); mCapParams.captureDelay = parser.get("d"); mCapParams.squareSize = parser.get("sz"); mCapParams.templDst = parser.get("dst"); mCapParams.saveFrames = parser.has("save_frames"); if(!checkAssertion(mCapParams.squareSize > 0, "Distance between corners or circles must be positive")) return false; if(!checkAssertion(mCapParams.templDst > 0, "Distance between parts of dual template must be positive")) return false; if (parser.has("v")) { mCapParams.source = File; mCapParams.videoFileName = parser.get("v"); } else { mCapParams.source = Camera; mCapParams.camID = parser.get("ci"); } std::string templateType = parser.get("t"); if(templateType.find("circles", 0) == 0) { mCapParams.board = AcirclesGrid; mCapParams.boardSize = cv::Size(4, 11); } else if(templateType.find("chessboard", 0) == 0) { mCapParams.board = Chessboard; mCapParams.boardSize = cv::Size(7, 7); } else if(templateType.find("dualcircles", 0) == 0) { mCapParams.board = DoubleAcirclesGrid; mCapParams.boardSize = cv::Size(4, 11); } else if(templateType.find("charuco", 0) == 0) { mCapParams.board = chAruco; mCapParams.boardSize = cv::Size(6, 8); mCapParams.charucoDictName = 0; mCapParams.charucoSquareLength = 200; mCapParams.charucoMarkerSize = 100; } else { std::cerr << "Wrong template name\n"; return false; } if(parser.has("w") && parser.has("h")) { mCapParams.boardSize = cv::Size(parser.get("w"), parser.get("h")); if(!checkAssertion(mCapParams.boardSize.width > 0 || mCapParams.boardSize.height > 0, "Board size must be positive")) return false; } if(!checkAssertion(parser.get("of").find(".xml") > 0, "Wrong output file name: correct format is [name].xml")) return false; loadFromFile(parser.get("pf")); return true; }