boost/math/special_functions/jacobi.hpp
// (C) Copyright Nick Thompson 2019. // Use, modification and distribution are subject to the // Boost Software License, Version 1.0. (See accompanying file // LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) #ifndef BOOST_MATH_SPECIAL_JACOBI_HPP #define BOOST_MATH_SPECIAL_JACOBI_HPP #include <limits> #include <stdexcept> namespace boost { namespace math { template<typename Real> Real jacobi(unsigned n, Real alpha, Real beta, Real x) { static_assert(!std::is_integral<Real>::value, "Jacobi polynomials do not work with integer arguments."); if (n == 0) { return Real(1); } Real y0 = 1; Real y1 = (alpha+1) + (alpha+beta+2)*(x-1)/Real(2); Real yk = y1; Real k = 2; Real k_max = n*(1+std::numeric_limits<Real>::epsilon()); while(k < k_max) { // Hoping for lots of common subexpression elimination by the compiler: Real denom = 2*k*(k+alpha+beta)*(2*k+alpha+beta-2); Real gamma1 = (2*k+alpha+beta-1)*( (2*k+alpha+beta)*(2*k+alpha+beta-2)*x + alpha*alpha -beta*beta); Real gamma0 = -2*(k+alpha-1)*(k+beta-1)*(2*k+alpha+beta); yk = (gamma1*y1 + gamma0*y0)/denom; y0 = y1; y1 = yk; k += 1; } return yk; } template<typename Real> Real jacobi_derivative(unsigned n, Real alpha, Real beta, Real x, unsigned k) { if (k > n) { return Real(0); } Real scale = 1; for(unsigned j = 1; j <= k; ++j) { scale *= (alpha + beta + n + j)/2; } return scale*jacobi<Real>(n-k, alpha + k, beta+k, x); } template<typename Real> Real jacobi_prime(unsigned n, Real alpha, Real beta, Real x) { return jacobi_derivative<Real>(n, alpha, beta, x, 1); } template<typename Real> Real jacobi_double_prime(unsigned n, Real alpha, Real beta, Real x) { return jacobi_derivative<Real>(n, alpha, beta, x, 2); } }} #endif