//===----------------------------------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // UNSUPPORTED: c++03, c++11, c++14, c++17 #include #include #include #include #include #include #include #include "../../GenerateInput.h" int main(int argc, char** argv) { auto std_count = [](auto first, auto last, auto const& value) { return std::count(first, last, value); }; auto std_count_if = [](auto first, auto last, auto const& value) { return std::count_if(first, last, [&](auto element) { benchmark::DoNotOptimize(element); return element == value; }); }; auto ranges_count = [](auto first, auto last, auto const& value) { return std::ranges::count(first, last, value); }; auto ranges_count_if = [](auto first, auto last, auto const& value) { return std::ranges::count_if(first, last, [&](auto element) { benchmark::DoNotOptimize(element); return element == value; }); }; // Benchmark {std,ranges}::{count,count_if} on a sequence where every other element is counted. { auto bm = [](std::string name, auto count) { benchmark::RegisterBenchmark( name, [count](auto& st) { std::size_t const size = st.range(0); using ValueType = typename Container::value_type; ValueType x = Generate::random(); ValueType y = random_different_from({x}); Container c; for (std::size_t i = 0; i != size; ++i) { c.push_back(i % 2 == 0 ? x : y); } for ([[maybe_unused]] auto _ : st) { benchmark::DoNotOptimize(c); benchmark::DoNotOptimize(x); auto result = count(c.begin(), c.end(), x); benchmark::DoNotOptimize(result); } }) ->Arg(8) ->Arg(1024) ->Arg(8192) ->Arg(1 << 20); }; // count bm.operator()>("std::count(vector) (every other)", std_count); bm.operator()>("std::count(deque) (every other)", std_count); bm.operator()>("std::count(list) (every other)", std_count); bm.operator()>("rng::count(vector) (every other)", ranges_count); bm.operator()>("rng::count(deque) (every other)", ranges_count); bm.operator()>("rng::count(list) (every other)", ranges_count); // count_if bm.operator()>("std::count_if(vector) (every other)", std_count_if); bm.operator()>("std::count_if(deque) (every other)", std_count_if); bm.operator()>("std::count_if(list) (every other)", std_count_if); bm.operator()>("rng::count_if(vector) (every other)", ranges_count_if); bm.operator()>("rng::count_if(deque) (every other)", ranges_count_if); bm.operator()>("rng::count_if(list) (every other)", ranges_count_if); } // Benchmark {std,ranges}::count(vector) { auto bm = [](std::string name, auto count) { benchmark::RegisterBenchmark( name, [count](auto& st) { std::size_t const size = st.range(0); std::vector c(size, false); for ([[maybe_unused]] auto _ : st) { benchmark::DoNotOptimize(c); auto result = count(c.begin(), c.end(), true); benchmark::DoNotOptimize(result); } }) ->Arg(1000) // non power-of-two ->Arg(1024) ->Arg(8192) ->Arg(1 << 20); }; bm.operator()("std::count(vector)", std_count); bm.operator()("rng::count(vector)", ranges_count); } benchmark::Initialize(&argc, argv); benchmark::RunSpecifiedBenchmarks(); benchmark::Shutdown(); return 0; }