third_party/llvm-project/libcxx/benchmarks/deque_iterator.bench.cpp - cobalt - Git at Google

 //===----------------------------------------------------------------------===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//

 #include <algorithm>
 #include <deque>

 #include "benchmark/benchmark.h"

 namespace {
 void run_sizes(auto benchmark) {
   benchmark->Arg(0)
       ->Arg(1)
       ->Arg(2)
       ->Arg(64)
       ->Arg(512)
       ->Arg(1024)
       ->Arg(4000)
       ->Arg(4096)
       ->Arg(5500)
       ->Arg(64000)
       ->Arg(65536)
       ->Arg(70000);
 }

 template <class FromContainer, class ToContainer, class Func>
 void benchmark_containers(benchmark::State& state, FromContainer& d, ToContainer& v, Func&& func) {
   for (auto _ : state) {
     benchmark::DoNotOptimize(v);
     benchmark::DoNotOptimize(d);
     func(d.begin(), d.end(), v.begin());
   }
 }

 template <class Func>
 void benchmark_deque_vector(benchmark::State& state, Func&& func) {
   auto size = state.range(0);
   std::deque<int> d;
   d.resize(size);
   std::ranges::fill(d, 10);
   std::vector<int> v;
   v.resize(size);
   benchmark_containers(state, d, v, func);
 }

 template <class Func>
 void benchmark_deque_deque(benchmark::State& state, Func&& func) {
   auto size = state.range(0);
   std::deque<int> d;
   d.resize(size);
   std::ranges::fill(d, 10);
   std::deque<int> v;
   v.resize(size);
   benchmark_containers(state, d, v, func);
 }

 template <class Func>
 void benchmark_vector_deque(benchmark::State& state, Func&& func) {
   auto size = state.range(0);
   std::vector<int> d;
   d.resize(size);
   std::ranges::fill(d, 10);
   std::deque<int> v;
   v.resize(size);
   benchmark_containers(state, d, v, func);
 }

 template <class FromContainer, class ToContainer, class Func>
 void benchmark_containers_backward(benchmark::State& state, FromContainer& d, ToContainer& v, Func&& func) {
   for (auto _ : state) {
     benchmark::DoNotOptimize(v);
     benchmark::DoNotOptimize(d);
     func(d.begin(), d.end(), v.end());
   }
 }

 template <class Func>
 void benchmark_deque_vector_backward(benchmark::State& state, Func&& func) {
   auto size = state.range(0);
   std::deque<int> d;
   d.resize(size);
   std::ranges::fill(d, 10);
   std::vector<int> v;
   v.resize(size);
   benchmark_containers_backward(state, d, v, func);
 }

 template <class Func>
 void benchmark_deque_deque_backward(benchmark::State& state, Func&& func) {
   auto size = state.range(0);
   std::deque<int> d;
   d.resize(size);
   std::ranges::fill(d, 10);
   std::deque<int> v;
   v.resize(size);
   benchmark_containers_backward(state, d, v, func);
 }

 template <class Func>
 void benchmark_vector_deque_backward(benchmark::State& state, Func&& func) {
   auto size = state.range(0);
   std::vector<int> d;
   d.resize(size);
   std::ranges::fill(d, 10);
   std::deque<int> v;
   v.resize(size);
   benchmark_containers_backward(state, d, v, func);
 }

 struct CopyFunctor {
   template <class... Args>
   auto operator()(Args... args) const {
     std::copy(std::forward<Args>(args)...);
   }
 } copy;

 struct MoveFunctor {
   template <class... Args>
   auto operator()(Args... args) const {
     std::move(std::forward<Args>(args)...);
   }
 } move;

 struct CopyBackwardFunctor {
   template <class... Args>
   auto operator()(Args... args) const {
     std::copy_backward(std::forward<Args>(args)...);
   }
 } copy_backward;

 struct MoveBackwardFunctor {
   template <class... Args>
   auto operator()(Args... args) const {
     std::move_backward(std::forward<Args>(args)...);
   }
 } move_backward;

 // copy
 void BM_deque_vector_copy(benchmark::State& state) { benchmark_deque_vector(state, copy); }
 BENCHMARK(BM_deque_vector_copy)->Apply(run_sizes);

 void BM_deque_vector_ranges_copy(benchmark::State& state) { benchmark_deque_vector(state, std::ranges::copy); }
 BENCHMARK(BM_deque_vector_ranges_copy)->Apply(run_sizes);

 void BM_deque_deque_copy(benchmark::State& state) { benchmark_deque_deque(state, copy); }
 BENCHMARK(BM_deque_deque_copy)->Apply(run_sizes);

 void BM_deque_deque_ranges_copy(benchmark::State& state) { benchmark_deque_deque(state, std::ranges::copy); }
 BENCHMARK(BM_deque_deque_ranges_copy)->Apply(run_sizes);

 void BM_vector_deque_copy(benchmark::State& state) { benchmark_vector_deque(state, copy); }
 BENCHMARK(BM_vector_deque_copy)->Apply(run_sizes);

 void BM_vector_deque_ranges_copy(benchmark::State& state) { benchmark_vector_deque(state, std::ranges::copy); }
 BENCHMARK(BM_vector_deque_ranges_copy)->Apply(run_sizes);

 // move
 void BM_deque_vector_move(benchmark::State& state) { benchmark_deque_vector(state, move); }
 BENCHMARK(BM_deque_vector_move)->Apply(run_sizes);

 void BM_deque_vector_ranges_move(benchmark::State& state) { benchmark_deque_vector(state, std::ranges::move); }
 BENCHMARK(BM_deque_vector_ranges_move)->Apply(run_sizes);

 void BM_deque_deque_move(benchmark::State& state) { benchmark_deque_deque(state, move); }
 BENCHMARK(BM_deque_deque_move)->Apply(run_sizes);

 void BM_deque_deque_ranges_move(benchmark::State& state) { benchmark_deque_deque(state, std::ranges::move); }
 BENCHMARK(BM_deque_deque_ranges_move)->Apply(run_sizes);

 void BM_vector_deque_move(benchmark::State& state) { benchmark_vector_deque(state, move); }
 BENCHMARK(BM_vector_deque_move)->Apply(run_sizes);

 void BM_vector_deque_ranges_move(benchmark::State& state) { benchmark_vector_deque(state, std::ranges::move); }
 BENCHMARK(BM_vector_deque_ranges_move)->Apply(run_sizes);

 // copy_backward
 void BM_deque_vector_copy_backward(benchmark::State& state) { benchmark_deque_vector_backward(state, copy_backward); }
 BENCHMARK(BM_deque_vector_copy_backward)->Apply(run_sizes);

 void BM_deque_vector_ranges_copy_backward(benchmark::State& state) {
   benchmark_deque_vector_backward(state, std::ranges::copy_backward);
 }
 BENCHMARK(BM_deque_vector_ranges_copy_backward)->Apply(run_sizes);

 void BM_deque_deque_copy_backward(benchmark::State& state) { benchmark_deque_deque_backward(state, copy_backward); }
 BENCHMARK(BM_deque_deque_copy_backward)->Apply(run_sizes);

 void BM_deque_deque_ranges_copy_backward(benchmark::State& state) {
   benchmark_deque_deque_backward(state, std::ranges::copy_backward);
 }
 BENCHMARK(BM_deque_deque_ranges_copy_backward)->Apply(run_sizes);

 void BM_vector_deque_copy_backward(benchmark::State& state) { benchmark_vector_deque_backward(state, copy_backward); }
 BENCHMARK(BM_vector_deque_copy_backward)->Apply(run_sizes);

 void BM_vector_deque_ranges_copy_backward(benchmark::State& state) {
   benchmark_vector_deque_backward(state, std::ranges::copy_backward);
 }
 BENCHMARK(BM_vector_deque_ranges_copy_backward)->Apply(run_sizes);

 // move_backward
 void BM_deque_vector_move_backward(benchmark::State& state) { benchmark_deque_vector_backward(state, move_backward); }
 BENCHMARK(BM_deque_vector_move_backward)->Apply(run_sizes);

 void BM_deque_vector_ranges_move_backward(benchmark::State& state) {
   benchmark_deque_vector_backward(state, std::ranges::move_backward);
 }
 BENCHMARK(BM_deque_vector_ranges_move_backward)->Apply(run_sizes);

 void BM_deque_deque_move_backward(benchmark::State& state) { benchmark_deque_deque_backward(state, move_backward); }
 BENCHMARK(BM_deque_deque_move_backward)->Apply(run_sizes);

 void BM_deque_deque_ranges_move_backward(benchmark::State& state) {
   benchmark_deque_deque_backward(state, std::ranges::move_backward);
 }
 BENCHMARK(BM_deque_deque_ranges_move_backward)->Apply(run_sizes);

 void BM_vector_deque_move_backward(benchmark::State& state) { benchmark_vector_deque_backward(state, move_backward); }
 BENCHMARK(BM_vector_deque_move_backward)->Apply(run_sizes);

 void BM_vector_deque_ranges_move_backward(benchmark::State& state) {
   benchmark_vector_deque_backward(state, std::ranges::move_backward);
 }
 BENCHMARK(BM_vector_deque_ranges_move_backward)->Apply(run_sizes);

 } // namespace

 BENCHMARK_MAIN();
	//===----------------------------------------------------------------------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//

	#include <algorithm>
	#include <deque>

	#include "benchmark/benchmark.h"

	namespace {
	void run_sizes(auto benchmark) {
	benchmark->Arg(0)
	->Arg(1)
	->Arg(2)
	->Arg(64)
	->Arg(512)
	->Arg(1024)
	->Arg(4000)
	->Arg(4096)
	->Arg(5500)
	->Arg(64000)
	->Arg(65536)
	->Arg(70000);
	}

	template <class FromContainer, class ToContainer, class Func>
	void benchmark_containers(benchmark::State& state, FromContainer& d, ToContainer& v, Func&& func) {
	for (auto _ : state) {
	benchmark::DoNotOptimize(v);
	benchmark::DoNotOptimize(d);
	func(d.begin(), d.end(), v.begin());
	}
	}

	template <class Func>
	void benchmark_deque_vector(benchmark::State& state, Func&& func) {
	auto size = state.range(0);
	std::deque<int> d;
	d.resize(size);
	std::ranges::fill(d, 10);
	std::vector<int> v;
	v.resize(size);
	benchmark_containers(state, d, v, func);
	}

	template <class Func>
	void benchmark_deque_deque(benchmark::State& state, Func&& func) {
	auto size = state.range(0);
	std::deque<int> d;
	d.resize(size);
	std::ranges::fill(d, 10);
	std::deque<int> v;
	v.resize(size);
	benchmark_containers(state, d, v, func);
	}

	template <class Func>
	void benchmark_vector_deque(benchmark::State& state, Func&& func) {
	auto size = state.range(0);
	std::vector<int> d;
	d.resize(size);
	std::ranges::fill(d, 10);
	std::deque<int> v;
	v.resize(size);
	benchmark_containers(state, d, v, func);
	}

	template <class FromContainer, class ToContainer, class Func>
	void benchmark_containers_backward(benchmark::State& state, FromContainer& d, ToContainer& v, Func&& func) {
	for (auto _ : state) {
	benchmark::DoNotOptimize(v);
	benchmark::DoNotOptimize(d);
	func(d.begin(), d.end(), v.end());
	}
	}

	template <class Func>
	void benchmark_deque_vector_backward(benchmark::State& state, Func&& func) {
	auto size = state.range(0);
	std::deque<int> d;
	d.resize(size);
	std::ranges::fill(d, 10);
	std::vector<int> v;
	v.resize(size);
	benchmark_containers_backward(state, d, v, func);
	}

	template <class Func>
	void benchmark_deque_deque_backward(benchmark::State& state, Func&& func) {
	auto size = state.range(0);
	std::deque<int> d;
	d.resize(size);
	std::ranges::fill(d, 10);
	std::deque<int> v;
	v.resize(size);
	benchmark_containers_backward(state, d, v, func);
	}

	template <class Func>
	void benchmark_vector_deque_backward(benchmark::State& state, Func&& func) {
	auto size = state.range(0);
	std::vector<int> d;
	d.resize(size);
	std::ranges::fill(d, 10);
	std::deque<int> v;
	v.resize(size);
	benchmark_containers_backward(state, d, v, func);
	}

	struct CopyFunctor {
	template <class... Args>
	auto operator()(Args... args) const {
	std::copy(std::forward<Args>(args)...);
	}
	} copy;

	struct MoveFunctor {
	template <class... Args>
	auto operator()(Args... args) const {
	std::move(std::forward<Args>(args)...);
	}
	} move;

	struct CopyBackwardFunctor {
	template <class... Args>
	auto operator()(Args... args) const {
	std::copy_backward(std::forward<Args>(args)...);
	}
	} copy_backward;

	struct MoveBackwardFunctor {
	template <class... Args>
	auto operator()(Args... args) const {
	std::move_backward(std::forward<Args>(args)...);
	}
	} move_backward;

	// copy
	void BM_deque_vector_copy(benchmark::State& state) { benchmark_deque_vector(state, copy); }
	BENCHMARK(BM_deque_vector_copy)->Apply(run_sizes);

	void BM_deque_vector_ranges_copy(benchmark::State& state) { benchmark_deque_vector(state, std::ranges::copy); }
	BENCHMARK(BM_deque_vector_ranges_copy)->Apply(run_sizes);

	void BM_deque_deque_copy(benchmark::State& state) { benchmark_deque_deque(state, copy); }
	BENCHMARK(BM_deque_deque_copy)->Apply(run_sizes);

	void BM_deque_deque_ranges_copy(benchmark::State& state) { benchmark_deque_deque(state, std::ranges::copy); }
	BENCHMARK(BM_deque_deque_ranges_copy)->Apply(run_sizes);

	void BM_vector_deque_copy(benchmark::State& state) { benchmark_vector_deque(state, copy); }
	BENCHMARK(BM_vector_deque_copy)->Apply(run_sizes);

	void BM_vector_deque_ranges_copy(benchmark::State& state) { benchmark_vector_deque(state, std::ranges::copy); }
	BENCHMARK(BM_vector_deque_ranges_copy)->Apply(run_sizes);

	// move
	void BM_deque_vector_move(benchmark::State& state) { benchmark_deque_vector(state, move); }
	BENCHMARK(BM_deque_vector_move)->Apply(run_sizes);

	void BM_deque_vector_ranges_move(benchmark::State& state) { benchmark_deque_vector(state, std::ranges::move); }
	BENCHMARK(BM_deque_vector_ranges_move)->Apply(run_sizes);

	void BM_deque_deque_move(benchmark::State& state) { benchmark_deque_deque(state, move); }
	BENCHMARK(BM_deque_deque_move)->Apply(run_sizes);

	void BM_deque_deque_ranges_move(benchmark::State& state) { benchmark_deque_deque(state, std::ranges::move); }
	BENCHMARK(BM_deque_deque_ranges_move)->Apply(run_sizes);

	void BM_vector_deque_move(benchmark::State& state) { benchmark_vector_deque(state, move); }
	BENCHMARK(BM_vector_deque_move)->Apply(run_sizes);

	void BM_vector_deque_ranges_move(benchmark::State& state) { benchmark_vector_deque(state, std::ranges::move); }
	BENCHMARK(BM_vector_deque_ranges_move)->Apply(run_sizes);

	// copy_backward
	void BM_deque_vector_copy_backward(benchmark::State& state) { benchmark_deque_vector_backward(state, copy_backward); }
	BENCHMARK(BM_deque_vector_copy_backward)->Apply(run_sizes);

	void BM_deque_vector_ranges_copy_backward(benchmark::State& state) {
	benchmark_deque_vector_backward(state, std::ranges::copy_backward);
	}
	BENCHMARK(BM_deque_vector_ranges_copy_backward)->Apply(run_sizes);

	void BM_deque_deque_copy_backward(benchmark::State& state) { benchmark_deque_deque_backward(state, copy_backward); }
	BENCHMARK(BM_deque_deque_copy_backward)->Apply(run_sizes);

	void BM_deque_deque_ranges_copy_backward(benchmark::State& state) {
	benchmark_deque_deque_backward(state, std::ranges::copy_backward);
	}
	BENCHMARK(BM_deque_deque_ranges_copy_backward)->Apply(run_sizes);

	void BM_vector_deque_copy_backward(benchmark::State& state) { benchmark_vector_deque_backward(state, copy_backward); }
	BENCHMARK(BM_vector_deque_copy_backward)->Apply(run_sizes);

	void BM_vector_deque_ranges_copy_backward(benchmark::State& state) {
	benchmark_vector_deque_backward(state, std::ranges::copy_backward);
	}
	BENCHMARK(BM_vector_deque_ranges_copy_backward)->Apply(run_sizes);

	// move_backward
	void BM_deque_vector_move_backward(benchmark::State& state) { benchmark_deque_vector_backward(state, move_backward); }
	BENCHMARK(BM_deque_vector_move_backward)->Apply(run_sizes);

	void BM_deque_vector_ranges_move_backward(benchmark::State& state) {
	benchmark_deque_vector_backward(state, std::ranges::move_backward);
	}
	BENCHMARK(BM_deque_vector_ranges_move_backward)->Apply(run_sizes);

	void BM_deque_deque_move_backward(benchmark::State& state) { benchmark_deque_deque_backward(state, move_backward); }
	BENCHMARK(BM_deque_deque_move_backward)->Apply(run_sizes);

	void BM_deque_deque_ranges_move_backward(benchmark::State& state) {
	benchmark_deque_deque_backward(state, std::ranges::move_backward);
	}
	BENCHMARK(BM_deque_deque_ranges_move_backward)->Apply(run_sizes);

	void BM_vector_deque_move_backward(benchmark::State& state) { benchmark_vector_deque_backward(state, move_backward); }
	BENCHMARK(BM_vector_deque_move_backward)->Apply(run_sizes);

	void BM_vector_deque_ranges_move_backward(benchmark::State& state) {
	benchmark_vector_deque_backward(state, std::ranges::move_backward);
	}
	BENCHMARK(BM_vector_deque_ranges_move_backward)->Apply(run_sizes);

	} // namespace

	BENCHMARK_MAIN();