libcxx/test/benchmarks/algorithms/modifying/unique.bench.cpp - llvm-project - 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
 //
 //===----------------------------------------------------------------------===//

 // UNSUPPORTED: c++03, c++11, c++14, c++17

 #include <algorithm>
 #include <cstddef>
 #include <deque>
 #include <iterator>
 #include <list>
 #include <string>
 #include <vector>

 #include "benchmark/benchmark.h"
 #include "../../GenerateInput.h"

 int main(int argc, char** argv) {
   auto std_unique      = [](auto first, auto last) { return std::unique(first, last); };
   auto std_unique_pred = [](auto first, auto last) {
     return std::unique(first, last, [](auto a, auto b) {
       benchmark::DoNotOptimize(a);
       benchmark::DoNotOptimize(b);
       return a == b;
     });
   };
   auto ranges_unique_pred = [](auto first, auto last) {
     return std::ranges::unique(first, last, [](auto a, auto b) {
       benchmark::DoNotOptimize(a);
       benchmark::DoNotOptimize(b);
       return a == b;
     });
   };

   // Create a sequence of the form xxxxxxxxxxyyyyyyyyyy and unique the
   // adjacent equal elements.
   //
   // We perform this benchmark in a batch because we need to restore the
   // state of the container after the operation.
   {
     auto bm = []<class Container>(std::string name, auto unique) {
       benchmark::RegisterBenchmark(
           name,
           [unique](auto& st) {
             std::size_t const size          = st.range(0);
             constexpr std::size_t BatchSize = 10;
             using ValueType                 = typename Container::value_type;
             Container c[BatchSize];
             ValueType x   = Generate<ValueType>::random();
             ValueType y   = random_different_from({x});
             auto populate = [&](Container& cont) {
               auto half = cont.size() / 2;
               std::fill_n(std::fill_n(cont.begin(), half, x), half, y);
             };
             for (std::size_t i = 0; i != BatchSize; ++i) {
               c[i] = Container(size);
               populate(c[i]);
             }

             while (st.KeepRunningBatch(BatchSize)) {
               for (std::size_t i = 0; i != BatchSize; ++i) {
                 benchmark::DoNotOptimize(c[i]);
                 auto result = unique(c[i].begin(), c[i].end());
                 benchmark::DoNotOptimize(result);
               }

               st.PauseTiming();
               for (std::size_t i = 0; i != BatchSize; ++i) {
                 populate(c[i]);
               }
               st.ResumeTiming();
             }
           })
           ->Arg(32)
           ->Arg(50) // non power-of-two
           ->Arg(1024)
           ->Arg(8192);
     };
     // {std,ranges}::unique(it, it)
     bm.operator()<std::vector<int>>("std::unique(vector<int>) (contiguous)", std_unique);
     bm.operator()<std::deque<int>>("std::unique(deque<int>) (contiguous)", std_unique);
     bm.operator()<std::list<int>>("std::unique(list<int>) (contiguous)", std_unique);
     bm.operator()<std::vector<int>>("rng::unique(vector<int>) (contiguous)", std::ranges::unique);
     bm.operator()<std::deque<int>>("rng::unique(deque<int>) (contiguous)", std::ranges::unique);
     bm.operator()<std::list<int>>("rng::unique(list<int>) (contiguous)", std::ranges::unique);

     // {std,ranges}::unique(it, it, pred)
     bm.operator()<std::vector<int>>("std::unique(vector<int>, pred) (contiguous)", std_unique_pred);
     bm.operator()<std::deque<int>>("std::unique(deque<int>, pred) (contiguous)", std_unique_pred);
     bm.operator()<std::list<int>>("std::unique(list<int>, pred) (contiguous)", std_unique_pred);
     bm.operator()<std::vector<int>>("rng::unique(vector<int>, pred) (contiguous)", ranges_unique_pred);
     bm.operator()<std::deque<int>>("rng::unique(deque<int>, pred) (contiguous)", ranges_unique_pred);
     bm.operator()<std::list<int>>("rng::unique(list<int>, pred) (contiguous)", ranges_unique_pred);
   }

   // Create a sequence of the form xxyyxxyyxxyyxxyyxxyy and unique
   // adjacent equal elements.
   //
   // We perform this benchmark in a batch because we need to restore the
   // state of the container after the operation.
   {
     auto bm = []<class Container>(std::string name, auto unique) {
       benchmark::RegisterBenchmark(
           name,
           [unique](auto& st) {
             std::size_t const size          = st.range(0);
             constexpr std::size_t BatchSize = 10;
             using ValueType                 = typename Container::value_type;
             Container c[BatchSize];
             ValueType x   = Generate<ValueType>::random();
             ValueType y   = random_different_from({x});
             auto populate = [&](Container& cont) {
               assert(cont.size() % 4 == 0);
               auto out = cont.begin();
               for (std::size_t i = 0; i != cont.size(); i += 4) {
                 *out++ = x;
                 *out++ = x;
                 *out++ = y;
                 *out++ = y;
               }
             };
             for (std::size_t i = 0; i != BatchSize; ++i) {
               c[i] = Container(size);
               populate(c[i]);
             }

             while (st.KeepRunningBatch(BatchSize)) {
               for (std::size_t i = 0; i != BatchSize; ++i) {
                 benchmark::DoNotOptimize(c[i]);
                 auto result = unique(c[i].begin(), c[i].end());
                 benchmark::DoNotOptimize(result);
               }

               st.PauseTiming();
               for (std::size_t i = 0; i != BatchSize; ++i) {
                 populate(c[i]);
               }
               st.ResumeTiming();
             }
           })
           ->Arg(32)
           ->Arg(50) // non power-of-two
           ->Arg(1024)
           ->Arg(8192);
     };
     // {std,ranges}::unique(it, it)
     bm.operator()<std::vector<int>>("std::unique(vector<int>) (sprinkled)", std_unique);
     bm.operator()<std::deque<int>>("std::unique(deque<int>) (sprinkled)", std_unique);
     bm.operator()<std::list<int>>("std::unique(list<int>) (sprinkled)", std_unique);
     bm.operator()<std::vector<int>>("rng::unique(vector<int>) (sprinkled)", std::ranges::unique);
     bm.operator()<std::deque<int>>("rng::unique(deque<int>) (sprinkled)", std::ranges::unique);
     bm.operator()<std::list<int>>("rng::unique(list<int>) (sprinkled)", std::ranges::unique);

     // {std,ranges}::unique(it, it, pred)
     bm.operator()<std::vector<int>>("std::unique(vector<int>, pred) (sprinkled)", std_unique_pred);
     bm.operator()<std::deque<int>>("std::unique(deque<int>, pred) (sprinkled)", std_unique_pred);
     bm.operator()<std::list<int>>("std::unique(list<int>, pred) (sprinkled)", std_unique_pred);
     bm.operator()<std::vector<int>>("rng::unique(vector<int>, pred) (sprinkled)", ranges_unique_pred);
     bm.operator()<std::deque<int>>("rng::unique(deque<int>, pred) (sprinkled)", ranges_unique_pred);
     bm.operator()<std::list<int>>("rng::unique(list<int>, pred) (sprinkled)", ranges_unique_pred);
   }

   benchmark::Initialize(&argc, argv);
   benchmark::RunSpecifiedBenchmarks();
   benchmark::Shutdown();
   return 0;
 }
	//===----------------------------------------------------------------------===//
	//
	// 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 <algorithm>
	#include <cstddef>
	#include <deque>
	#include <iterator>
	#include <list>
	#include <string>
	#include <vector>

	#include "benchmark/benchmark.h"
	#include "../../GenerateInput.h"

	int main(int argc, char** argv) {
	auto std_unique = [](auto first, auto last) { return std::unique(first, last); };
	auto std_unique_pred = [](auto first, auto last) {
	return std::unique(first, last, [](auto a, auto b) {
	benchmark::DoNotOptimize(a);
	benchmark::DoNotOptimize(b);
	return a == b;
	});
	};
	auto ranges_unique_pred = [](auto first, auto last) {
	return std::ranges::unique(first, last, [](auto a, auto b) {
	benchmark::DoNotOptimize(a);
	benchmark::DoNotOptimize(b);
	return a == b;
	});
	};

	// Create a sequence of the form xxxxxxxxxxyyyyyyyyyy and unique the
	// adjacent equal elements.
	//
	// We perform this benchmark in a batch because we need to restore the
	// state of the container after the operation.
	{
	auto bm = []<class Container>(std::string name, auto unique) {
	benchmark::RegisterBenchmark(
	name,
	[unique](auto& st) {
	std::size_t const size = st.range(0);
	constexpr std::size_t BatchSize = 10;
	using ValueType = typename Container::value_type;
	Container c[BatchSize];
	ValueType x = Generate<ValueType>::random();
	ValueType y = random_different_from({x});
	auto populate = [&](Container& cont) {
	auto half = cont.size() / 2;
	std::fill_n(std::fill_n(cont.begin(), half, x), half, y);
	};
	for (std::size_t i = 0; i != BatchSize; ++i) {
	c[i] = Container(size);
	populate(c[i]);
	}

	while (st.KeepRunningBatch(BatchSize)) {
	for (std::size_t i = 0; i != BatchSize; ++i) {
	benchmark::DoNotOptimize(c[i]);
	auto result = unique(c[i].begin(), c[i].end());
	benchmark::DoNotOptimize(result);
	}

	st.PauseTiming();
	for (std::size_t i = 0; i != BatchSize; ++i) {
	populate(c[i]);
	}
	st.ResumeTiming();
	}
	})
	->Arg(32)
	->Arg(50) // non power-of-two
	->Arg(1024)
	->Arg(8192);
	};
	// {std,ranges}::unique(it, it)
	bm.operator()<std::vector<int>>("std::unique(vector<int>) (contiguous)", std_unique);
	bm.operator()<std::deque<int>>("std::unique(deque<int>) (contiguous)", std_unique);
	bm.operator()<std::list<int>>("std::unique(list<int>) (contiguous)", std_unique);
	bm.operator()<std::vector<int>>("rng::unique(vector<int>) (contiguous)", std::ranges::unique);
	bm.operator()<std::deque<int>>("rng::unique(deque<int>) (contiguous)", std::ranges::unique);
	bm.operator()<std::list<int>>("rng::unique(list<int>) (contiguous)", std::ranges::unique);

	// {std,ranges}::unique(it, it, pred)
	bm.operator()<std::vector<int>>("std::unique(vector<int>, pred) (contiguous)", std_unique_pred);
	bm.operator()<std::deque<int>>("std::unique(deque<int>, pred) (contiguous)", std_unique_pred);
	bm.operator()<std::list<int>>("std::unique(list<int>, pred) (contiguous)", std_unique_pred);
	bm.operator()<std::vector<int>>("rng::unique(vector<int>, pred) (contiguous)", ranges_unique_pred);
	bm.operator()<std::deque<int>>("rng::unique(deque<int>, pred) (contiguous)", ranges_unique_pred);
	bm.operator()<std::list<int>>("rng::unique(list<int>, pred) (contiguous)", ranges_unique_pred);
	}

	// Create a sequence of the form xxyyxxyyxxyyxxyyxxyy and unique
	// adjacent equal elements.
	//
	// We perform this benchmark in a batch because we need to restore the
	// state of the container after the operation.
	{
	auto bm = []<class Container>(std::string name, auto unique) {
	benchmark::RegisterBenchmark(
	name,
	[unique](auto& st) {
	std::size_t const size = st.range(0);
	constexpr std::size_t BatchSize = 10;
	using ValueType = typename Container::value_type;
	Container c[BatchSize];
	ValueType x = Generate<ValueType>::random();
	ValueType y = random_different_from({x});
	auto populate = [&](Container& cont) {
	assert(cont.size() % 4 == 0);
	auto out = cont.begin();
	for (std::size_t i = 0; i != cont.size(); i += 4) {
	*out++ = x;
	*out++ = x;
	*out++ = y;
	*out++ = y;
	}
	};
	for (std::size_t i = 0; i != BatchSize; ++i) {
	c[i] = Container(size);
	populate(c[i]);
	}

	while (st.KeepRunningBatch(BatchSize)) {
	for (std::size_t i = 0; i != BatchSize; ++i) {
	benchmark::DoNotOptimize(c[i]);
	auto result = unique(c[i].begin(), c[i].end());
	benchmark::DoNotOptimize(result);
	}

	st.PauseTiming();
	for (std::size_t i = 0; i != BatchSize; ++i) {
	populate(c[i]);
	}
	st.ResumeTiming();
	}
	})
	->Arg(32)
	->Arg(50) // non power-of-two
	->Arg(1024)
	->Arg(8192);
	};
	// {std,ranges}::unique(it, it)
	bm.operator()<std::vector<int>>("std::unique(vector<int>) (sprinkled)", std_unique);
	bm.operator()<std::deque<int>>("std::unique(deque<int>) (sprinkled)", std_unique);
	bm.operator()<std::list<int>>("std::unique(list<int>) (sprinkled)", std_unique);
	bm.operator()<std::vector<int>>("rng::unique(vector<int>) (sprinkled)", std::ranges::unique);
	bm.operator()<std::deque<int>>("rng::unique(deque<int>) (sprinkled)", std::ranges::unique);
	bm.operator()<std::list<int>>("rng::unique(list<int>) (sprinkled)", std::ranges::unique);

	// {std,ranges}::unique(it, it, pred)
	bm.operator()<std::vector<int>>("std::unique(vector<int>, pred) (sprinkled)", std_unique_pred);
	bm.operator()<std::deque<int>>("std::unique(deque<int>, pred) (sprinkled)", std_unique_pred);
	bm.operator()<std::list<int>>("std::unique(list<int>, pred) (sprinkled)", std_unique_pred);
	bm.operator()<std::vector<int>>("rng::unique(vector<int>, pred) (sprinkled)", ranges_unique_pred);
	bm.operator()<std::deque<int>>("rng::unique(deque<int>, pred) (sprinkled)", ranges_unique_pred);
	bm.operator()<std::list<int>>("rng::unique(list<int>, pred) (sprinkled)", ranges_unique_pred);
	}

	benchmark::Initialize(&argc, argv);
	benchmark::RunSpecifiedBenchmarks();
	benchmark::Shutdown();
	return 0;
	}