#define chkder_log10e 0.43429448190325182765 #define chkder_factor 100. namespace Eigen { namespace internal { template<typename Scalar> void chkder( const Matrix< Scalar, Dynamic, 1 > &x, const Matrix< Scalar, Dynamic, 1 > &fvec, const Matrix< Scalar, Dynamic, Dynamic > &fjac, Matrix< Scalar, Dynamic, 1 > &xp, const Matrix< Scalar, Dynamic, 1 > &fvecp, int mode, Matrix< Scalar, Dynamic, 1 > &err ) { using std::sqrt; using std::abs; using std::log; typedef DenseIndex Index; const Scalar eps = sqrt(NumTraits<Scalar>::epsilon()); const Scalar epsf = chkder_factor * NumTraits<Scalar>::epsilon(); const Scalar epslog = chkder_log10e * log(eps); Scalar temp; const Index m = fvec.size(), n = x.size(); if (mode != 2) { /* mode = 1. */ xp.resize(n); for (Index j = 0; j < n; ++j) { temp = eps * abs(x[j]); if (temp == 0.) temp = eps; xp[j] = x[j] + temp; } } else { /* mode = 2. */ err.setZero(m); for (Index j = 0; j < n; ++j) { temp = abs(x[j]); if (temp == 0.) temp = 1.; err += temp * fjac.col(j); } for (Index i = 0; i < m; ++i) { temp = 1.; if (fvec[i] != 0. && fvecp[i] != 0. && abs(fvecp[i] - fvec[i]) >= epsf * abs(fvec[i])) temp = eps * abs((fvecp[i] - fvec[i]) / eps - err[i]) / (abs(fvec[i]) + abs(fvecp[i])); err[i] = 1.; if (temp > NumTraits<Scalar>::epsilon() && temp < eps) err[i] = (chkder_log10e * log(temp) - epslog) / epslog; if (temp >= eps) err[i] = 0.; } } } } // end namespace internal } // end namespace Eigen