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Open Source Computer Vision Library
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228 lines
10 KiB
228 lines
10 KiB
// This file is part of OpenCV project. |
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// It is subject to the license terms in the LICENSE file found in the top-level directory |
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// of this distribution and at http://opencv.org/license.html. |
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#include <opencv2/core.hpp> |
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#include <opencv2/calib3d.hpp> |
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#include <opencv2/cvconfig.h> |
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#include <opencv2/highgui.hpp> |
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#ifdef HAVE_OPENCV_ARUCO |
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#include <opencv2/aruco/charuco.hpp> |
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#endif |
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#include <string> |
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#include <vector> |
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#include <stdexcept> |
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#include <algorithm> |
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#include <iostream> |
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#include "calibCommon.hpp" |
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#include "calibPipeline.hpp" |
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#include "frameProcessor.hpp" |
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#include "calibController.hpp" |
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#include "parametersController.hpp" |
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#include "rotationConverters.hpp" |
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using namespace calib; |
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const std::string keys = |
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"{v | | Input from video file }" |
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"{ci | 0 | Default camera id }" |
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"{flip | false | Vertical flip of input frames }" |
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"{t | circles | Template for calibration (circles, chessboard, dualCircles, charuco, symcircles) }" |
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"{sz | 16.3 | Distance between two nearest centers of circles or squares on calibration board}" |
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"{dst | 295 | Distance between white and black parts of daulCircles template}" |
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"{w | | Width of template (in corners or circles)}" |
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"{h | | Height of template (in corners or circles)}" |
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"{of | cameraParameters.xml | Output file name}" |
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"{ft | true | Auto tuning of calibration flags}" |
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"{vis | grid | Captured boards visualisation (grid, window)}" |
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"{d | 0.8 | Min delay between captures}" |
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"{pf | defaultConfig.xml| Advanced application parameters}" |
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"{save_frames | false | Save frames that contribute to final calibration}" |
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"{zoom | 1 | Zoom factor applied to the preview image}" |
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"{force_reopen | false | Forcefully reopen camera in case of errors}" |
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"{help | | Print help}"; |
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bool calib::showOverlayMessage(const std::string& message) |
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{ |
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#ifdef HAVE_QT |
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cv::displayOverlay(mainWindowName, message, OVERLAY_DELAY); |
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return true; |
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#else |
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std::cout << message << std::endl; |
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return false; |
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#endif |
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} |
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static void deleteButton(int, void* data) |
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{ |
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(static_cast<cv::Ptr<calibDataController>*>(data))->get()->deleteLastFrame(); |
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calib::showOverlayMessage("Last frame deleted"); |
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} |
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static void deleteAllButton(int, void* data) |
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{ |
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(static_cast<cv::Ptr<calibDataController>*>(data))->get()->deleteAllData(); |
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calib::showOverlayMessage("All frames deleted"); |
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} |
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static void saveCurrentParamsButton(int, void* data) |
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{ |
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if((static_cast<cv::Ptr<calibDataController>*>(data))->get()->saveCurrentCameraParameters()) |
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calib::showOverlayMessage("Calibration parameters saved"); |
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} |
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#ifdef HAVE_QT |
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static void switchVisualizationModeButton(int, void* data) |
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{ |
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ShowProcessor* processor = static_cast<ShowProcessor*>(((cv::Ptr<FrameProcessor>*)data)->get()); |
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processor->switchVisualizationMode(); |
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} |
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static void undistortButton(int state, void* data) |
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{ |
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ShowProcessor* processor = static_cast<ShowProcessor*>(((cv::Ptr<FrameProcessor>*)data)->get()); |
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processor->setUndistort(static_cast<bool>(state)); |
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calib::showOverlayMessage(std::string("Undistort is ") + |
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(static_cast<bool>(state) ? std::string("on") : std::string("off"))); |
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} |
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#endif //HAVE_QT |
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int main(int argc, char** argv) |
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{ |
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cv::CommandLineParser parser(argc, argv, keys); |
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if(parser.has("help")) { |
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parser.printMessage(); |
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return 0; |
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} |
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std::cout << consoleHelp << std::endl; |
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parametersController paramsController; |
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if(!paramsController.loadFromParser(parser)) |
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return 0; |
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captureParameters capParams = paramsController.getCaptureParameters(); |
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internalParameters intParams = paramsController.getInternalParameters(); |
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#ifndef HAVE_OPENCV_ARUCO |
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if(capParams.board == chAruco) |
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CV_Error(cv::Error::StsNotImplemented, "Aruco module is disabled in current build configuration." |
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" Consider usage of another calibration pattern\n"); |
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#endif |
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cv::TermCriteria solverTermCrit = cv::TermCriteria(cv::TermCriteria::COUNT+cv::TermCriteria::EPS, |
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intParams.solverMaxIters, intParams.solverEps); |
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cv::Ptr<calibrationData> globalData(new calibrationData); |
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if(!parser.has("v")) globalData->imageSize = capParams.cameraResolution; |
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int calibrationFlags = 0; |
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if(intParams.fastSolving) calibrationFlags |= cv::CALIB_USE_QR; |
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cv::Ptr<calibController> controller(new calibController(globalData, calibrationFlags, |
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parser.get<bool>("ft"), capParams.minFramesNum)); |
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cv::Ptr<calibDataController> dataController(new calibDataController(globalData, capParams.maxFramesNum, |
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intParams.filterAlpha)); |
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dataController->setParametersFileName(parser.get<std::string>("of")); |
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cv::Ptr<FrameProcessor> capProcessor, showProcessor; |
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capProcessor = cv::Ptr<FrameProcessor>(new CalibProcessor(globalData, capParams)); |
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showProcessor = cv::Ptr<FrameProcessor>(new ShowProcessor(globalData, controller, capParams.board)); |
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if(parser.get<std::string>("vis").find("window") == 0) { |
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static_cast<ShowProcessor*>(showProcessor.get())->setVisualizationMode(Window); |
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cv::namedWindow(gridWindowName); |
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cv::moveWindow(gridWindowName, 1280, 500); |
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} |
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cv::Ptr<CalibPipeline> pipeline(new CalibPipeline(capParams)); |
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std::vector<cv::Ptr<FrameProcessor> > processors; |
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processors.push_back(capProcessor); |
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processors.push_back(showProcessor); |
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cv::namedWindow(mainWindowName); |
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cv::moveWindow(mainWindowName, 10, 10); |
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#ifdef HAVE_QT |
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cv::createButton("Delete last frame", deleteButton, &dataController, |
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cv::QT_PUSH_BUTTON | cv::QT_NEW_BUTTONBAR); |
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cv::createButton("Delete all frames", deleteAllButton, &dataController, |
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cv::QT_PUSH_BUTTON | cv::QT_NEW_BUTTONBAR); |
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cv::createButton("Undistort", undistortButton, &showProcessor, |
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cv::QT_CHECKBOX | cv::QT_NEW_BUTTONBAR, false); |
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cv::createButton("Save current parameters", saveCurrentParamsButton, &dataController, |
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cv::QT_PUSH_BUTTON | cv::QT_NEW_BUTTONBAR); |
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cv::createButton("Switch visualisation mode", switchVisualizationModeButton, &showProcessor, |
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cv::QT_PUSH_BUTTON | cv::QT_NEW_BUTTONBAR); |
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#endif //HAVE_QT |
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try { |
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bool pipelineFinished = false; |
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while(!pipelineFinished) |
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{ |
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PipelineExitStatus exitStatus = pipeline->start(processors); |
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if (exitStatus == Finished) { |
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if(controller->getCommonCalibrationState()) |
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saveCurrentParamsButton(0, &dataController); |
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pipelineFinished = true; |
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continue; |
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} |
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else if (exitStatus == Calibrate) { |
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dataController->rememberCurrentParameters(); |
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globalData->imageSize = pipeline->getImageSize(); |
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calibrationFlags = controller->getNewFlags(); |
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if(capParams.board != chAruco) { |
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globalData->totalAvgErr = |
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cv::calibrateCamera(globalData->objectPoints, globalData->imagePoints, |
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globalData->imageSize, globalData->cameraMatrix, |
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globalData->distCoeffs, cv::noArray(), cv::noArray(), |
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globalData->stdDeviations, cv::noArray(), globalData->perViewErrors, |
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calibrationFlags, solverTermCrit); |
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} |
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else { |
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#ifdef HAVE_OPENCV_ARUCO |
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cv::Ptr<cv::aruco::Dictionary> dictionary = |
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cv::aruco::getPredefinedDictionary(cv::aruco::PREDEFINED_DICTIONARY_NAME(capParams.charucoDictName)); |
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cv::Ptr<cv::aruco::CharucoBoard> charucoboard = |
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cv::aruco::CharucoBoard::create(capParams.boardSize.width, capParams.boardSize.height, |
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capParams.charucoSquareLength, capParams.charucoMarkerSize, dictionary); |
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globalData->totalAvgErr = |
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cv::aruco::calibrateCameraCharuco(globalData->allCharucoCorners, globalData->allCharucoIds, |
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charucoboard, globalData->imageSize, |
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globalData->cameraMatrix, globalData->distCoeffs, |
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cv::noArray(), cv::noArray(), globalData->stdDeviations, cv::noArray(), |
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globalData->perViewErrors, calibrationFlags, solverTermCrit); |
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#endif |
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} |
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dataController->updateUndistortMap(); |
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dataController->printParametersToConsole(std::cout); |
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controller->updateState(); |
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for(int j = 0; j < capParams.calibrationStep; j++) |
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dataController->filterFrames(); |
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static_cast<ShowProcessor*>(showProcessor.get())->updateBoardsView(); |
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} |
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else if (exitStatus == DeleteLastFrame) { |
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deleteButton(0, &dataController); |
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static_cast<ShowProcessor*>(showProcessor.get())->updateBoardsView(); |
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} |
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else if (exitStatus == DeleteAllFrames) { |
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deleteAllButton(0, &dataController); |
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static_cast<ShowProcessor*>(showProcessor.get())->updateBoardsView(); |
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} |
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else if (exitStatus == SaveCurrentData) { |
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saveCurrentParamsButton(0, &dataController); |
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} |
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else if (exitStatus == SwitchUndistort) |
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static_cast<ShowProcessor*>(showProcessor.get())->switchUndistort(); |
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else if (exitStatus == SwitchVisualisation) |
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static_cast<ShowProcessor*>(showProcessor.get())->switchVisualizationMode(); |
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for (std::vector<cv::Ptr<FrameProcessor> >::iterator it = processors.begin(); it != processors.end(); ++it) |
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(*it)->resetState(); |
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} |
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} |
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catch (const std::runtime_error& exp) { |
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std::cout << exp.what() << std::endl; |
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} |
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return 0; |
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}
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