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#ifndef epnp_h
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#define epnp_h
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#include "precomp.hpp"
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#include "opencv2/core/core_c.h"
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namespace cv
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{
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class epnp {
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 public:
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  epnp(const cv::Mat& cameraMatrix, const cv::Mat& opoints, const cv::Mat& ipoints);
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  ~epnp();
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  void add_correspondence(const double X, const double Y, const double Z,
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              const double u, const double v);
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  void compute_pose(cv::Mat& R, cv::Mat& t);
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 private:
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  epnp(const epnp &); // copy disabled
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  epnp& operator=(const epnp &); // assign disabled
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  template <typename T>
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  void init_camera_parameters(const cv::Mat& cameraMatrix)
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  {
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    uc = cameraMatrix.at<T> (0, 2);
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    vc = cameraMatrix.at<T> (1, 2);
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    fu = cameraMatrix.at<T> (0, 0);
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    fv = cameraMatrix.at<T> (1, 1);
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  }
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  template <typename OpointType, typename IpointType>
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  void init_points(const cv::Mat& opoints, const cv::Mat& ipoints)
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  {
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      for(int i = 0; i < number_of_correspondences; i++)
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      {
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          pws[3 * i    ] = opoints.at<OpointType>(i).x;
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          pws[3 * i + 1] = opoints.at<OpointType>(i).y;
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          pws[3 * i + 2] = opoints.at<OpointType>(i).z;
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          us[2 * i    ] = ipoints.at<IpointType>(i).x*fu + uc;
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          us[2 * i + 1] = ipoints.at<IpointType>(i).y*fv + vc;
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      }
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  }
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  double reprojection_error(const double R[3][3], const double t[3]);
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  void choose_control_points(void);
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  void compute_barycentric_coordinates(void);
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  void fill_M(CvMat * M, const int row, const double * alphas, const double u, const double v);
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  void compute_ccs(const double * betas, const double * ut);
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  void compute_pcs(void);
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  void solve_for_sign(void);
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  void find_betas_approx_1(const CvMat * L_6x10, const CvMat * Rho, double * betas);
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  void find_betas_approx_2(const CvMat * L_6x10, const CvMat * Rho, double * betas);
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  void find_betas_approx_3(const CvMat * L_6x10, const CvMat * Rho, double * betas);
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  void qr_solve(CvMat * A, CvMat * b, CvMat * X);
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  double dot(const double * v1, const double * v2);
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  double dist2(const double * p1, const double * p2);
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  void compute_rho(double * rho);
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  void compute_L_6x10(const double * ut, double * l_6x10);
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  void gauss_newton(const CvMat * L_6x10, const CvMat * Rho, double current_betas[4]);
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  void compute_A_and_b_gauss_newton(const double * l_6x10, const double * rho,
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                    const double cb[4], CvMat * A, CvMat * b);
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  double compute_R_and_t(const double * ut, const double * betas,
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             double R[3][3], double t[3]);
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  void estimate_R_and_t(double R[3][3], double t[3]);
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  void copy_R_and_t(const double R_dst[3][3], const double t_dst[3],
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            double R_src[3][3], double t_src[3]);
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  double uc, vc, fu, fv;
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  std::vector<double> pws, us, alphas, pcs;
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  int number_of_correspondences;
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  double cws[4][3], ccs[4][3];
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  int max_nr;
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  double * A1, * A2;
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};
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}
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#endif
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