// #include // #include // #include #include "OrthPol.h" /** * Purpose: Compute orthogonal polynomials: Chebyshev, Laguerre, Hermite polynomials, and their derivatives * * @param KF * KF = 1 for Chebyshev polynomial of the first kind * KF = 2 for Chebyshev polynomial of the second kind * KF = 3 for Laguerre polynomial * KF = 4 for Hermite polynomial * @param n - Integer order of orthogonal polynomial. * @param x - Argument of orthogonal polynomial. * @return Vector with values of the orthogonal polynomial (the first place) of order n with argument x, and its first derivatives (the second place). * @throws None */ std::vector OrthPol(const int& KF, const int& n, const double& x) { std::vector result; double* PL = new double[n + 1]; double* DPL = new double[n + 1]; double A = 2.0; double B = 0.0; double C = 1.0; double Y0 = 1.0; double Y1 = 2.0 * x; double DY0 = 0.0; double DY1 = 2.0; PL[0] = 1.0; PL[1] = 2.0 * x; DPL[0] = 0.0; DPL[1] = 2.0; if (KF == 1) { Y1 = x; DY1 = 1.0; PL[1] = x; DPL[1] = 1.0; } else if (KF == 3) { Y1 = 1.0 - x; DY1 = -1.0; PL[1] = 1.0 - x; DPL[1] = -1.0; } for (int k = 2; k <= n; k++) { if (KF == 3) { A = -1.0 / k; B = 2.0 + A; C = 1.0 + A; } else if (KF == 4) { C = 2.0 * (k - 1.0); } double YN = (A * x + B) * Y1 - C * Y0; double DYN = A * Y1 + (A * x + B) * DY1 - C * DY0; PL[k] = YN; DPL[k] = DYN; Y0 = Y1; Y1 = YN; DY0 = DY1; DY1 = DYN; } result.push_back(PL[n]); result.push_back(DPL[n]); return result; }