#ifndef CALIB_COMMON_HPP #define CALIB_COMMON_HPP #include #include #include #include namespace calib { #define OVERLAY_DELAY 1000 #define IMAGE_MAX_WIDTH 1280 #define IMAGE_MAX_HEIGHT 960 bool showOverlayMessage(const std::string& message); enum InputType { Video, Pictures }; enum InputVideoSource { Camera, File }; enum TemplateType { AcirclesGrid, Chessboard, chAruco, DoubleAcirclesGrid }; static const std::string mainWindowName = "Calibration"; static const std::string gridWindowName = "Board locations"; static const std::string consoleHelp = "Hot keys:\nesc - exit application\n" "s - save current data to .xml file\n" "r - delete last frame\n" "u - enable/disable applying undistortion" "d - delete all frames\n" "v - switch visualization"; static const double sigmaMult = 1.96; struct calibrationData { cv::Mat cameraMatrix; cv::Mat distCoeffs; cv::Mat stdDeviations; cv::Mat perViewErrors; std::vector rvecs; std::vector tvecs; double totalAvgErr; cv::Size imageSize; std::vector > imagePoints; std::vector< std::vector > objectPoints; std::vector allCharucoCorners; std::vector allCharucoIds; cv::Mat undistMap1, undistMap2; calibrationData() { imageSize = cv::Size(IMAGE_MAX_WIDTH, IMAGE_MAX_HEIGHT); } }; struct cameraParameters { cv::Mat cameraMatrix; cv::Mat distCoeffs; cv::Mat stdDeviations; double avgError; cameraParameters(){} cameraParameters(cv::Mat& _cameraMatrix, cv::Mat& _distCoeffs, cv::Mat& _stdDeviations, double _avgError = 0) : cameraMatrix(_cameraMatrix), distCoeffs(_distCoeffs), stdDeviations(_stdDeviations), avgError(_avgError) {} }; struct captureParameters { InputType captureMethod; InputVideoSource source; TemplateType board; cv::Size boardSize; int charucoDictName; int calibrationStep; float charucoSquareLenght, charucoMarkerSize; float captureDelay; float squareSize; float templDst; std::string videoFileName; bool flipVertical; int camID; int fps; cv::Size cameraResolution; int maxFramesNum; int minFramesNum; captureParameters() { calibrationStep = 1; captureDelay = 500.f; maxFramesNum = 30; minFramesNum = 10; fps = 30; cameraResolution = cv::Size(IMAGE_MAX_WIDTH, IMAGE_MAX_HEIGHT); } }; struct internalParameters { double solverEps; int solverMaxIters; bool fastSolving; double filterAlpha; internalParameters() { solverEps = 1e-7; solverMaxIters = 30; fastSolving = false; filterAlpha = 0.1; } }; } #endif