// (C) Copyright John Maddock 2005-2006. // 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_TOOLS_FRACTION_INCLUDED #define BOOST_MATH_TOOLS_FRACTION_INCLUDED #ifdef _MSC_VER #pragma once #endif #include #include #include #include #include namespace boost{ namespace math{ namespace tools{ namespace detail { template struct is_pair : public std::false_type{}; template struct is_pair> : public std::true_type{}; template struct fraction_traits_simple { using result_type = typename Gen::result_type; using value_type = typename Gen::result_type; static result_type a(const value_type&) BOOST_MATH_NOEXCEPT(value_type) { return 1; } static result_type b(const value_type& v) BOOST_MATH_NOEXCEPT(value_type) { return v; } }; template struct fraction_traits_pair { using value_type = typename Gen::result_type; using result_type = typename value_type::first_type; static result_type a(const value_type& v) BOOST_MATH_NOEXCEPT(value_type) { return v.first; } static result_type b(const value_type& v) BOOST_MATH_NOEXCEPT(value_type) { return v.second; } }; template struct fraction_traits : public std::conditional< is_pair::value, fraction_traits_pair, fraction_traits_simple>::type { }; template ::value> struct tiny_value { // For float, double, and long double, 1/min_value() is finite. // But for mpfr_float and cpp_bin_float, 1/min_value() is inf. // Multiply the min by 16 so that the reciprocal doesn't overflow. static T get() { return 16*tools::min_value(); } }; template struct tiny_value { using value_type = typename T::value_type; static T get() { return 16*tools::min_value(); } }; } // namespace detail // // continued_fraction_b // Evaluates: // // b0 + a1 // --------------- // b1 + a2 // ---------- // b2 + a3 // ----- // b3 + ... // // Note that the first a0 returned by generator Gen is discarded. // template inline typename detail::fraction_traits::result_type continued_fraction_b(Gen& g, const U& factor, std::uintmax_t& max_terms) BOOST_NOEXCEPT_IF(BOOST_MATH_IS_FLOAT(typename detail::fraction_traits::result_type) && noexcept(std::declval()())) { BOOST_MATH_STD_USING // ADL of std names using traits = detail::fraction_traits; using result_type = typename traits::result_type; using value_type = typename traits::value_type; using integer_type = typename integer_scalar_type::type; using scalar_type = typename scalar_type::type; integer_type const zero(0), one(1); result_type tiny = detail::tiny_value::get(); scalar_type terminator = abs(factor); value_type v = g(); result_type f, C, D, delta; f = traits::b(v); if(f == zero) f = tiny; C = f; D = 0; std::uintmax_t counter(max_terms); do{ v = g(); D = traits::b(v) + traits::a(v) * D; if(D == result_type(0)) D = tiny; C = traits::b(v) + traits::a(v) / C; if(C == zero) C = tiny; D = one/D; delta = C*D; f = f * delta; }while((abs(delta - one) > terminator) && --counter); max_terms = max_terms - counter; return f; } template inline typename detail::fraction_traits::result_type continued_fraction_b(Gen& g, const U& factor) BOOST_NOEXCEPT_IF(BOOST_MATH_IS_FLOAT(typename detail::fraction_traits::result_type) && noexcept(std::declval()())) { std::uintmax_t max_terms = (std::numeric_limits::max)(); return continued_fraction_b(g, factor, max_terms); } template inline typename detail::fraction_traits::result_type continued_fraction_b(Gen& g, int bits) BOOST_NOEXCEPT_IF(BOOST_MATH_IS_FLOAT(typename detail::fraction_traits::result_type) && noexcept(std::declval()())) { BOOST_MATH_STD_USING // ADL of std names using traits = detail::fraction_traits; using result_type = typename traits::result_type; result_type factor = ldexp(1.0f, 1 - bits); // 1 / pow(result_type(2), bits); std::uintmax_t max_terms = (std::numeric_limits::max)(); return continued_fraction_b(g, factor, max_terms); } template inline typename detail::fraction_traits::result_type continued_fraction_b(Gen& g, int bits, std::uintmax_t& max_terms) BOOST_NOEXCEPT_IF(BOOST_MATH_IS_FLOAT(typename detail::fraction_traits::result_type) && noexcept(std::declval()())) { BOOST_MATH_STD_USING // ADL of std names using traits = detail::fraction_traits; using result_type = typename traits::result_type; result_type factor = ldexp(1.0f, 1 - bits); // 1 / pow(result_type(2), bits); return continued_fraction_b(g, factor, max_terms); } // // continued_fraction_a // Evaluates: // // a1 // --------------- // b1 + a2 // ---------- // b2 + a3 // ----- // b3 + ... // // Note that the first a1 and b1 returned by generator Gen are both used. // template inline typename detail::fraction_traits::result_type continued_fraction_a(Gen& g, const U& factor, std::uintmax_t& max_terms) BOOST_NOEXCEPT_IF(BOOST_MATH_IS_FLOAT(typename detail::fraction_traits::result_type) && noexcept(std::declval()())) { BOOST_MATH_STD_USING // ADL of std names using traits = detail::fraction_traits; using result_type = typename traits::result_type; using value_type = typename traits::value_type; using integer_type = typename integer_scalar_type::type; using scalar_type = typename scalar_type::type; integer_type const zero(0), one(1); result_type tiny = detail::tiny_value::get(); scalar_type terminator = abs(factor); value_type v = g(); result_type f, C, D, delta, a0; f = traits::b(v); a0 = traits::a(v); if(f == zero) f = tiny; C = f; D = 0; std::uintmax_t counter(max_terms); do{ v = g(); D = traits::b(v) + traits::a(v) * D; if(D == zero) D = tiny; C = traits::b(v) + traits::a(v) / C; if(C == zero) C = tiny; D = one/D; delta = C*D; f = f * delta; }while((abs(delta - one) > terminator) && --counter); max_terms = max_terms - counter; return a0/f; } template inline typename detail::fraction_traits::result_type continued_fraction_a(Gen& g, const U& factor) BOOST_NOEXCEPT_IF(BOOST_MATH_IS_FLOAT(typename detail::fraction_traits::result_type) && noexcept(std::declval()())) { std::uintmax_t max_iter = (std::numeric_limits::max)(); return continued_fraction_a(g, factor, max_iter); } template inline typename detail::fraction_traits::result_type continued_fraction_a(Gen& g, int bits) BOOST_NOEXCEPT_IF(BOOST_MATH_IS_FLOAT(typename detail::fraction_traits::result_type) && noexcept(std::declval()())) { BOOST_MATH_STD_USING // ADL of std names typedef detail::fraction_traits traits; typedef typename traits::result_type result_type; result_type factor = ldexp(1.0f, 1-bits); // 1 / pow(result_type(2), bits); std::uintmax_t max_iter = (std::numeric_limits::max)(); return continued_fraction_a(g, factor, max_iter); } template inline typename detail::fraction_traits::result_type continued_fraction_a(Gen& g, int bits, std::uintmax_t& max_terms) BOOST_NOEXCEPT_IF(BOOST_MATH_IS_FLOAT(typename detail::fraction_traits::result_type) && noexcept(std::declval()())) { BOOST_MATH_STD_USING // ADL of std names using traits = detail::fraction_traits; using result_type = typename traits::result_type; result_type factor = ldexp(1.0f, 1-bits); // 1 / pow(result_type(2), bits); return continued_fraction_a(g, factor, max_terms); } } // namespace tools } // namespace math } // namespace boost #endif // BOOST_MATH_TOOLS_FRACTION_INCLUDED