//===----------------------------------------------------------------------===// // // 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 #include "benchmark/benchmark.h" #include "../../GenerateInput.h" auto compute_median(auto first, auto last) { std::vector v(first, last); auto middle = v.begin() + v.size() / 2; std::nth_element(v.begin(), middle, v.end()); return *middle; } int main(int argc, char** argv) { auto std_is_partitioned = [](auto first, auto last, auto pred) { return std::is_partitioned(first, last, pred); }; auto bm = [](std::string name, auto is_partitioned) { benchmark::RegisterBenchmark( name, [is_partitioned](auto& st) { std::size_t const size = st.range(0); using ValueType = typename Container::value_type; Container c; std::generate_n(std::back_inserter(c), size, [] { return Generate::random(); }); // Partition the container in two equally-sized halves, ensuring the median // value appears in the left half. Note that the median value isn't located // in the middle -- this isn't std::nth_element. ValueType median = compute_median(c.begin(), c.end()); auto pred = [median](auto const& element) { return element <= median; }; std::partition(c.begin(), c.end(), pred); assert(std::is_partitioned(c.begin(), c.end(), pred)); if constexpr (!Partitioned) { // De-partition the container by swapping the element containing the median // value with the last one. auto median_it = std::find(c.begin(), c.end(), median); auto last_it = std::next(c.begin(), c.size() - 1); std::iter_swap(median_it, last_it); assert(!std::is_partitioned(c.begin(), c.end(), pred)); } for ([[maybe_unused]] auto _ : st) { benchmark::DoNotOptimize(c); auto result = is_partitioned(c.begin(), c.end(), pred); benchmark::DoNotOptimize(result); } }) ->Arg(32) ->Arg(50) // non power-of-two ->Arg(1024) ->Arg(8192); }; // std::is_partitioned bm.operator(), true>("std::is_partitioned(vector) (partitioned)", std_is_partitioned); bm.operator(), false>("std::is_partitioned(vector) (unpartitioned)", std_is_partitioned); bm.operator(), true>("std::is_partitioned(deque) (partitioned)", std_is_partitioned); bm.operator(), false>("std::is_partitioned(deque) (unpartitioned)", std_is_partitioned); bm.operator(), true>("std::is_partitioned(list) (partitioned)", std_is_partitioned); bm.operator(), false>("std::is_partitioned(list) (unpartitioned)", std_is_partitioned); // ranges::is_partitioned bm.operator(), true>("rng::is_partitioned(vector) (partitioned)", std::ranges::is_partitioned); bm.operator(), false>( "rng::is_partitioned(vector) (unpartitioned)", std::ranges::is_partitioned); bm.operator(), true>("rng::is_partitioned(deque) (partitioned)", std::ranges::is_partitioned); bm.operator(), false>("rng::is_partitioned(deque) (unpartitioned)", std::ranges::is_partitioned); bm.operator(), true>("rng::is_partitioned(list) (partitioned)", std::ranges::is_partitioned); bm.operator(), false>("rng::is_partitioned(list) (unpartitioned)", std::ranges::is_partitioned); benchmark::Initialize(&argc, argv); benchmark::RunSpecifiedBenchmarks(); benchmark::Shutdown(); return 0; }