libs/multiprecision/performance/rational_bernoulli_bench.cpp
// Copyright 2020 John Maddock. Distributed under the Boost // Software License, Version 1.0. (See accompanying file // LICENSE_1_0.txt or copy at https://www.boost.org/LICENSE_1_0.txt #include <iostream> #include <benchmark/benchmark.h> #include <boost/multiprecision/cpp_int.hpp> #include <boost/multiprecision/gmp.hpp> #include <gmpxx.h> template <class Integer> inline Integer factorial(unsigned n) { Integer result = 1; for (unsigned k = 1; k <= n; ++k) result *= k; return result; } template <class Rational, class Integer = typename Rational::value_type> inline Rational binomial(unsigned n, unsigned k) { return Rational(factorial<Integer>(n), factorial<Integer>(k) * factorial<Integer>(n - k)); } inline mpz_class pow(mpz_class i, unsigned p) { mpz_class result; mpz_pow_ui(result.get_mpz_t(), i.get_mpz_t(), p); return result; } template <class Rational, class Integer = typename Rational::value_type> Rational Bernoulli(unsigned m) { Rational result = 0; for (unsigned k = 0; k <= m; ++k) { Rational inner = 0; for (unsigned v = 0; v <= k; ++v) { Rational term = binomial<Rational, Integer>(k, v) * Rational(pow(Integer(v), m), k + 1); if (v & 1) term = -term; inner += term; } result += inner; } return result; } template <class Rational, class Integer = typename Rational::value_type> static void BM_bernoulli(benchmark::State& state) { int m = state.range(0); for (auto _ : state) { benchmark::DoNotOptimize(Bernoulli<Rational, Integer>(m)); } } BENCHMARK_TEMPLATE(BM_bernoulli, boost::multiprecision::cpp_rational)->DenseRange(50, 200, 4); BENCHMARK_TEMPLATE(BM_bernoulli, boost::multiprecision::mpq_rational)->DenseRange(50, 200, 4); BENCHMARK_TEMPLATE(BM_bernoulli, boost::multiprecision::number<boost::multiprecision::rational_adaptor<boost::multiprecision::gmp_int> >)->DenseRange(50, 200, 4); BENCHMARK_TEMPLATE(BM_bernoulli, mpq_class, mpz_class)->DenseRange(50, 200, 4); BENCHMARK_MAIN();