2022-08-21 20:31:19 +00:00
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#include "calib3d.h"
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void Fisheye_UndistortImage(Mat distorted, Mat undistorted, Mat k, Mat d) {
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cv::fisheye::undistortImage(*distorted, *undistorted, *k, *d);
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}
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void Fisheye_UndistortImageWithParams(Mat distorted, Mat undistorted, Mat k, Mat d, Mat knew, Size size) {
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cv::Size sz(size.width, size.height);
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cv::fisheye::undistortImage(*distorted, *undistorted, *k, *d, *knew, sz);
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}
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void Fisheye_UndistortPoints(Mat distorted, Mat undistorted, Mat k, Mat d, Mat r, Mat p) {
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cv::fisheye::undistortPoints(*distorted, *undistorted, *k, *d, *r, *p);
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}
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void Fisheye_EstimateNewCameraMatrixForUndistortRectify(Mat k, Mat d, Size imgSize, Mat r, Mat p, double balance, Size newSize, double fovScale) {
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cv::Size newSz(newSize.width, newSize.height);
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cv::Size imgSz(imgSize.width, imgSize.height);
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cv::fisheye::estimateNewCameraMatrixForUndistortRectify(*k, *d, imgSz, *r, *p, balance, newSz, fovScale);
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}
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void InitUndistortRectifyMap(Mat cameraMatrix,Mat distCoeffs,Mat r,Mat newCameraMatrix,Size size,int m1type,Mat map1,Mat map2) {
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cv::Size sz(size.width, size.height);
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cv::initUndistortRectifyMap(*cameraMatrix,*distCoeffs,*r,*newCameraMatrix,sz,m1type,*map1,*map2);
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}
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Mat GetOptimalNewCameraMatrixWithParams(Mat cameraMatrix,Mat distCoeffs,Size size,double alpha,Size newImgSize,Rect* validPixROI,bool centerPrincipalPoint) {
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cv::Size sz(size.width, size.height);
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cv::Size newSize(newImgSize.width, newImgSize.height);
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cv::Rect rect(validPixROI->x,validPixROI->y,validPixROI->width,validPixROI->height);
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cv::Mat* mat = new cv::Mat(cv::getOptimalNewCameraMatrix(*cameraMatrix,*distCoeffs,sz,alpha,newSize,&rect,centerPrincipalPoint));
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validPixROI->x = rect.x;
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validPixROI->y = rect.y;
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validPixROI->width = rect.width;
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validPixROI->height = rect.height;
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return mat;
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}
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double CalibrateCamera(Points3fVector objectPoints, Points2fVector imagePoints, Size imageSize, Mat cameraMatrix, Mat distCoeffs, Mat rvecs, Mat tvecs, int flag) {
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return cv::calibrateCamera(*objectPoints, *imagePoints, cv::Size(imageSize.width, imageSize.height), *cameraMatrix, *distCoeffs, *rvecs, *tvecs, flag);
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}
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void Undistort(Mat src, Mat dst, Mat cameraMatrix, Mat distCoeffs, Mat newCameraMatrix) {
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cv::undistort(*src, *dst, *cameraMatrix, *distCoeffs, *newCameraMatrix);
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}
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void UndistortPoints(Mat distorted, Mat undistorted, Mat k, Mat d, Mat r, Mat p) {
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cv::undistortPoints(*distorted, *undistorted, *k, *d, *r, *p);
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}
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bool FindChessboardCorners(Mat image, Size patternSize, Mat corners, int flags) {
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cv::Size sz(patternSize.width, patternSize.height);
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return cv::findChessboardCorners(*image, sz, *corners, flags);
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}
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bool FindChessboardCornersSB(Mat image, Size patternSize, Mat corners, int flags) {
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cv::Size sz(patternSize.width, patternSize.height);
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return cv::findChessboardCornersSB(*image, sz, *corners, flags);
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}
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bool FindChessboardCornersSBWithMeta(Mat image, Size patternSize, Mat corners, int flags, Mat meta) {
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cv::Size sz(patternSize.width, patternSize.height);
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return cv::findChessboardCornersSB(*image, sz, *corners, flags, *meta);
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}
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void DrawChessboardCorners(Mat image, Size patternSize, Mat corners, bool patternWasFound) {
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cv::Size sz(patternSize.width, patternSize.height);
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cv::drawChessboardCorners(*image, sz, *corners, patternWasFound);
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}
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Mat EstimateAffinePartial2D(Point2fVector from, Point2fVector to) {
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return new cv::Mat(cv::estimateAffinePartial2D(*from, *to));
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}
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2023-10-15 09:53:35 +00:00
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Mat EstimateAffinePartial2DWithParams(Point2fVector from, Point2fVector to, Mat inliers, int method, double ransacReprojThreshold, size_t maxIters, double confidence, size_t refineIters) {
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return new cv::Mat(cv::estimateAffinePartial2D(*from, *to, *inliers, method, ransacReprojThreshold, maxIters, confidence, refineIters));
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}
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2022-08-21 20:31:19 +00:00
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Mat EstimateAffine2D(Point2fVector from, Point2fVector to) {
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return new cv::Mat(cv::estimateAffine2D(*from, *to));
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}
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Mat EstimateAffine2DWithParams(Point2fVector from, Point2fVector to, Mat inliers, int method, double ransacReprojThreshold, size_t maxIters, double confidence, size_t refineIters) {
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return new cv::Mat(cv::estimateAffine2D(*from, *to, *inliers, method, ransacReprojThreshold, maxIters, confidence, refineIters));
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}
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