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               For Open Source Computer Vision Library
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*/


#include <opencv2/highgui.hpp>
#include <opencv2/calib3d.hpp>
#include <opencv2/aruco/charuco.hpp>
#include <opencv2/imgproc.hpp>
#include <vector>
#include <iostream>
#include "aruco_samples_utility.hpp"

using namespace std;
using namespace cv;

namespace {
const char* about =
        "Calibration using a ChArUco board\n"
        "  To capture a frame for calibration, press 'c',\n"
        "  If input comes from video, press any key for next frame\n"
        "  To finish capturing, press 'ESC' key and calibration starts.\n";
const char* keys  =
        "{w        |       | Number of squares in X direction }"
        "{h        |       | Number of squares in Y direction }"
        "{sl       |       | Square side length (in meters) }"
        "{ml       |       | Marker side length (in meters) }"
        "{d        |       | dictionary: DICT_4X4_50=0, DICT_4X4_100=1, DICT_4X4_250=2,"
        "DICT_4X4_1000=3, DICT_5X5_50=4, DICT_5X5_100=5, DICT_5X5_250=6, DICT_5X5_1000=7, "
        "DICT_6X6_50=8, DICT_6X6_100=9, DICT_6X6_250=10, DICT_6X6_1000=11, DICT_7X7_50=12,"
        "DICT_7X7_100=13, DICT_7X7_250=14, DICT_7X7_1000=15, DICT_ARUCO_ORIGINAL = 16}"
        "{cd       |       | Input file with custom dictionary }"
        "{@outfile |<none> | Output file with calibrated camera parameters }"
        "{v        |       | Input from video file, if ommited, input comes from camera }"
        "{ci       | 0     | Camera id if input doesnt come from video (-v) }"
        "{dp       |       | File of marker detector parameters }"
        "{rs       | false | Apply refind strategy }"
        "{zt       | false | Assume zero tangential distortion }"
        "{a        |       | Fix aspect ratio (fx/fy) to this value }"
        "{pc       | false | Fix the principal point at the center }"
        "{sc       | false | Show detected chessboard corners after calibration }";
}


int main(int argc, char *argv[]) {
    CommandLineParser parser(argc, argv, keys);
    parser.about(about);

    if(argc < 7) {
        parser.printMessage();
        return 0;
    }

    int squaresX = parser.get<int>("w");
    int squaresY = parser.get<int>("h");
    float squareLength = parser.get<float>("sl");
    float markerLength = parser.get<float>("ml");
    string outputFile = parser.get<string>(0);

    bool showChessboardCorners = parser.get<bool>("sc");

    int calibrationFlags = 0;
    float aspectRatio = 1;
    if(parser.has("a")) {
        calibrationFlags |= CALIB_FIX_ASPECT_RATIO;
        aspectRatio = parser.get<float>("a");
    }
    if(parser.get<bool>("zt")) calibrationFlags |= CALIB_ZERO_TANGENT_DIST;
    if(parser.get<bool>("pc")) calibrationFlags |= CALIB_FIX_PRINCIPAL_POINT;

    Ptr<aruco::DetectorParameters> detectorParams;
    if(parser.has("dp")) {
        FileStorage fs(parser.get<string>("dp"), FileStorage::READ);
        bool readOk = aruco::DetectorParameters::readDetectorParameters(fs.root(), detectorParams);
        if(!readOk) {
            cerr << "Invalid detector parameters file" << endl;
            return 0;
        }
    }

    bool refindStrategy = parser.get<bool>("rs");
    int camId = parser.get<int>("ci");
    String video;

    if(parser.has("v")) {
        video = parser.get<String>("v");
    }

    if(!parser.check()) {
        parser.printErrors();
        return 0;
    }

    VideoCapture inputVideo;
    int waitTime;
    if(!video.empty()) {
        inputVideo.open(video);
        waitTime = 0;
    } else {
        inputVideo.open(camId);
        waitTime = 10;
    }

    Ptr<aruco::Dictionary> dictionary;
    if (parser.has("d")) {
        int dictionaryId = parser.get<int>("d");
        dictionary = aruco::getPredefinedDictionary(aruco::PREDEFINED_DICTIONARY_NAME(dictionaryId));
    }
    else if (parser.has("cd")) {
        FileStorage fs(parser.get<std::string>("cd"), FileStorage::READ);
        bool readOk = aruco::Dictionary::readDictionary(fs.root(), dictionary);
        if(!readOk) {
            cerr << "Invalid dictionary file" << endl;
            return 0;
        }
    }
    else {
        cerr << "Dictionary not specified" << endl;
        return 0;
    }

    // create charuco board object
    Ptr<aruco::CharucoBoard> charucoboard =
            aruco::CharucoBoard::create(squaresX, squaresY, squareLength, markerLength, dictionary);
    Ptr<aruco::Board> board = charucoboard.staticCast<aruco::Board>();

    // collect data from each frame
    vector< vector< vector< Point2f > > > allCorners;
    vector< vector< int > > allIds;
    vector< Mat > allImgs;
    Size imgSize;

    while(inputVideo.grab()) {
        Mat image, imageCopy;
        inputVideo.retrieve(image);

        vector< int > ids;
        vector< vector< Point2f > > corners, rejected;

        // detect markers
        aruco::detectMarkers(image, dictionary, corners, ids, detectorParams, rejected);

        // refind strategy to detect more markers
        if(refindStrategy) aruco::refineDetectedMarkers(image, board, corners, ids, rejected);

        // interpolate charuco corners
        Mat currentCharucoCorners, currentCharucoIds;
        if(ids.size() > 0)
            aruco::interpolateCornersCharuco(corners, ids, image, charucoboard, currentCharucoCorners,
                                             currentCharucoIds);

        // draw results
        image.copyTo(imageCopy);
        if(ids.size() > 0) aruco::drawDetectedMarkers(imageCopy, corners);

        if(currentCharucoCorners.total() > 0)
            aruco::drawDetectedCornersCharuco(imageCopy, currentCharucoCorners, currentCharucoIds);

        putText(imageCopy, "Press 'c' to add current frame. 'ESC' to finish and calibrate",
                Point(10, 20), FONT_HERSHEY_SIMPLEX, 0.5, Scalar(255, 0, 0), 2);

        imshow("out", imageCopy);
        char key = (char)waitKey(waitTime);
        if(key == 27) break;
        if(key == 'c' && ids.size() > 0) {
            cout << "Frame captured" << endl;
            allCorners.push_back(corners);
            allIds.push_back(ids);
            allImgs.push_back(image);
            imgSize = image.size();
        }
    }

    if(allIds.size() < 1) {
        cerr << "Not enough captures for calibration" << endl;
        return 0;
    }

    Mat cameraMatrix, distCoeffs;
    vector< Mat > rvecs, tvecs;
    double repError;

    if(calibrationFlags & CALIB_FIX_ASPECT_RATIO) {
        cameraMatrix = Mat::eye(3, 3, CV_64F);
        cameraMatrix.at< double >(0, 0) = aspectRatio;
    }

    // prepare data for calibration
    vector< vector< Point2f > > allCornersConcatenated;
    vector< int > allIdsConcatenated;
    vector< int > markerCounterPerFrame;
    markerCounterPerFrame.reserve(allCorners.size());
    for(unsigned int i = 0; i < allCorners.size(); i++) {
        markerCounterPerFrame.push_back((int)allCorners[i].size());
        for(unsigned int j = 0; j < allCorners[i].size(); j++) {
            allCornersConcatenated.push_back(allCorners[i][j]);
            allIdsConcatenated.push_back(allIds[i][j]);
        }
    }

    // calibrate camera using aruco markers
    double arucoRepErr;
    arucoRepErr = aruco::calibrateCameraAruco(allCornersConcatenated, allIdsConcatenated,
                                              markerCounterPerFrame, board, imgSize, cameraMatrix,
                                              distCoeffs, noArray(), noArray(), calibrationFlags);

    // prepare data for charuco calibration
    int nFrames = (int)allCorners.size();
    vector< Mat > allCharucoCorners;
    vector< Mat > allCharucoIds;
    vector< Mat > filteredImages;
    allCharucoCorners.reserve(nFrames);
    allCharucoIds.reserve(nFrames);

    for(int i = 0; i < nFrames; i++) {
        // interpolate using camera parameters
        Mat currentCharucoCorners, currentCharucoIds;
        aruco::interpolateCornersCharuco(allCorners[i], allIds[i], allImgs[i], charucoboard,
                                         currentCharucoCorners, currentCharucoIds, cameraMatrix,
                                         distCoeffs);

        allCharucoCorners.push_back(currentCharucoCorners);
        allCharucoIds.push_back(currentCharucoIds);
        filteredImages.push_back(allImgs[i]);
    }

    if(allCharucoCorners.size() < 4) {
        cerr << "Not enough corners for calibration" << endl;
        return 0;
    }

    // calibrate camera using charuco
    repError =
        aruco::calibrateCameraCharuco(allCharucoCorners, allCharucoIds, charucoboard, imgSize,
                                      cameraMatrix, distCoeffs, rvecs, tvecs, calibrationFlags);

    bool saveOk =  saveCameraParams(outputFile, imgSize, aspectRatio, calibrationFlags,
                                    cameraMatrix, distCoeffs, repError);
    if(!saveOk) {
        cerr << "Cannot save output file" << endl;
        return 0;
    }

    cout << "Rep Error: " << repError << endl;
    cout << "Rep Error Aruco: " << arucoRepErr << endl;
    cout << "Calibration saved to " << outputFile << endl;

    // show interpolated charuco corners for debugging
    if(showChessboardCorners) {
        for(unsigned int frame = 0; frame < filteredImages.size(); frame++) {
            Mat imageCopy = filteredImages[frame].clone();
            if(allIds[frame].size() > 0) {

                if(allCharucoCorners[frame].total() > 0) {
                    aruco::drawDetectedCornersCharuco( imageCopy, allCharucoCorners[frame],
                                                       allCharucoIds[frame]);
                }
            }

            imshow("out", imageCopy);
            char key = (char)waitKey(0);
            if(key == 27) break;
        }
    }

    return 0;
}