/////////////////////////////////////////////////////////////////////////////// // Copyright 2014 Anton Bikineev // Copyright 2014 Christopher Kormanyos // Copyright 2014 John Maddock // Copyright 2014 Paul Bristow // Distributed under 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_DETAIL_HYPERGEOMETRIC_CF_HPP #define BOOST_MATH_DETAIL_HYPERGEOMETRIC_CF_HPP namespace boost { namespace math { namespace detail { // primary template for term of continued fraction template struct hypergeometric_pFq_cf_term; // partial specialization for 0F1 template struct hypergeometric_pFq_cf_term { typedef std::pair result_type; hypergeometric_pFq_cf_term(const T& b, const T& z): n(1), b(b), z(z), term(std::make_pair(T(0), T(1))) { } result_type operator()() { const result_type result = term; ++b; ++n; numer = -(z / (b * n)); term = std::make_pair(numer, 1 - numer); return result; } private: unsigned n; T b; const T z; T numer; result_type term; }; // partial specialization for 1F0 template struct hypergeometric_pFq_cf_term { typedef std::pair result_type; hypergeometric_pFq_cf_term(const T& a, const T& z): n(1), a(a), z(z), term(std::make_pair(T(0), T(1))) { } result_type operator()() { const result_type result = term; ++a; ++n; numer = -((a * z) / n); term = std::make_pair(numer, 1 - numer); return result; } private: unsigned n; T a; const T z; T numer; result_type term; }; // partial specialization for 1F1 template struct hypergeometric_pFq_cf_term { typedef std::pair result_type; hypergeometric_pFq_cf_term(const T& a, const T& b, const T& z): n(1), a(a), b(b), z(z), term(std::make_pair(T(0), T(1))) { } result_type operator()() { const result_type result = term; ++a; ++b; ++n; numer = -((a * z) / (b * n)); term = std::make_pair(numer, 1 - numer); return result; } private: unsigned n; T a, b; const T z; T numer; result_type term; }; // partial specialization for 1f2 template struct hypergeometric_pFq_cf_term { typedef std::pair result_type; hypergeometric_pFq_cf_term(const T& a, const T& b, const T& c, const T& z): n(1), a(a), b(b), c(c), z(z), term(std::make_pair(T(0), T(1))) { } result_type operator()() { const result_type result = term; ++a; ++b; ++c; ++n; numer = -((a * z) / ((b * c) * n)); term = std::make_pair(numer, 1 - numer); return result; } private: unsigned n; T a, b, c; const T z; T numer; result_type term; }; // partial specialization for 2f1 template struct hypergeometric_pFq_cf_term { typedef std::pair result_type; hypergeometric_pFq_cf_term(const T& a, const T& b, const T& c, const T& z): n(1), a(a), b(b), c(c), z(z), term(std::make_pair(T(0), T(1))) { } result_type operator()() { const result_type result = term; ++a; ++b; ++c; ++n; numer = -(((a * b) * z) / (c * n)); term = std::make_pair(numer, 1 - numer); return result; } private: unsigned n; T a, b, c; const T z; T numer; result_type term; }; template inline T compute_cf_pFq(detail::hypergeometric_pFq_cf_term& term, const Policy& pol) { BOOST_MATH_STD_USING std::uintmax_t max_iter = policies::get_max_series_iterations(); const T result = tools::continued_fraction_b( term, boost::math::policies::get_epsilon(), max_iter); boost::math::policies::check_series_iterations( "boost::math::hypergeometric_pFq_cf<%1%>(%1%,%1%,%1%)", max_iter, pol); return result; } template inline T hypergeometric_0F1_cf(const T& b, const T& z, const Policy& pol) { detail::hypergeometric_pFq_cf_term f(b, z); T result = detail::compute_cf_pFq(f, pol); result = ((z / b) / result) + 1; return result; } template inline T hypergeometric_1F0_cf(const T& a, const T& z, const Policy& pol) { detail::hypergeometric_pFq_cf_term f(a, z); T result = detail::compute_cf_pFq(f, pol); result = ((a * z) / result) + 1; return result; } template inline T hypergeometric_1F1_cf(const T& a, const T& b, const T& z, const Policy& pol) { detail::hypergeometric_pFq_cf_term f(a, b, z); T result = detail::compute_cf_pFq(f, pol); result = (((a * z) / b) / result) + 1; return result; } template inline T hypergeometric_1F2_cf(const T& a, const T& b, const T& c, const T& z, const Policy& pol) { detail::hypergeometric_pFq_cf_term f(a, b, c, z); T result = detail::compute_cf_pFq(f, pol); result = (((a * z) / (b * c)) / result) + 1; return result; } template inline T hypergeometric_2F1_cf(const T& a, const T& b, const T& c, const T& z, const Policy& pol) { detail::hypergeometric_pFq_cf_term f(a, b, c, z); T result = detail::compute_cf_pFq(f, pol); result = ((((a * b) * z) / c) / result) + 1; return result; } } } } // namespaces #endif // BOOST_MATH_DETAIL_HYPERGEOMETRIC_CF_HPP