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llvm-project/libcxx/benchmarks/ordered_set.bench.cpp
Chandler Carruth 57b08b0944 Update more file headers across all of the LLVM projects in the monorepo 
to reflect the new license. These used slightly different spellings that
defeated my regular expressions.

We understand that people may be surprised that we're moving the header
entirely to discuss the new license. We checked this carefully with the
Foundation's lawyer and we believe this is the correct approach.

Essentially, all code in the project is now made available by the LLVM
project under our new license, so you will see that the license headers
include that license only. Some of our contributors have contributed
code under our old license, and accordingly, we have retained a copy of
our old license notice in the top-level files in each project and
repository.

llvm-svn: 351648
2019-01-19 10:56:40 +00:00

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//===----------------------------------------------------------------------===//
//
// 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 <cstdint>
#include <memory>
#include <random>
#include <set>
#include <string>
#include <vector>
#include "CartesianBenchmarks.hpp"
#include "benchmark/benchmark.h"
#include "test_macros.h"
namespace {
enum class HitType { Hit, Miss };
struct AllHitTypes : EnumValuesAsTuple<AllHitTypes, HitType, 2> {
static constexpr const char* Names[] = {"Hit", "Miss"};
};
enum class AccessPattern { Ordered, Random };
struct AllAccessPattern
: EnumValuesAsTuple<AllAccessPattern, AccessPattern, 2> {
static constexpr const char* Names[] = {"Ordered", "Random"};
};
void sortKeysBy(std::vector<uint64_t>& Keys, AccessPattern AP) {
if (AP == AccessPattern::Random) {
std::random_device R;
std::mt19937 M(R());
std::shuffle(std::begin(Keys), std::end(Keys), M);
}
}
struct TestSets {
std::vector<std::set<uint64_t> > Sets;
std::vector<uint64_t> Keys;
};
TestSets makeTestingSets(size_t TableSize, size_t NumTables, HitType Hit,
AccessPattern Access) {
TestSets R;
R.Sets.resize(1);
for (uint64_t I = 0; I < TableSize; ++I) {
R.Sets[0].insert(2 * I);
R.Keys.push_back(Hit == HitType::Hit ? 2 * I : 2 * I + 1);
}
R.Sets.resize(NumTables, R.Sets[0]);
sortKeysBy(R.Keys, Access);
return R;
}
struct Base {
size_t TableSize;
size_t NumTables;
Base(size_t T, size_t N) : TableSize(T), NumTables(N) {}
bool skip() const {
size_t Total = TableSize * NumTables;
return Total < 100 || Total > 1000000;
}
std::string baseName() const {
return "_TableSize" + std::to_string(TableSize) + "_NumTables" +
std::to_string(NumTables);
}
};
template <class Access>
struct Create : Base {
using Base::Base;
void run(benchmark::State& State) const {
std::vector<uint64_t> Keys(TableSize);
std::iota(Keys.begin(), Keys.end(), uint64_t{0});
sortKeysBy(Keys, Access());
while (State.KeepRunningBatch(TableSize * NumTables)) {
std::vector<std::set<uint64_t>> Sets(NumTables);
for (auto K : Keys) {
for (auto& Set : Sets) {
benchmark::DoNotOptimize(Set.insert(K));
}
}
}
}
std::string name() const {
return "BM_Create" + Access::name() + baseName();
}
};
template <class Hit, class Access>
struct Find : Base {
using Base::Base;
void run(benchmark::State& State) const {
auto Data = makeTestingSets(TableSize, NumTables, Hit(), Access());
while (State.KeepRunningBatch(TableSize * NumTables)) {
for (auto K : Data.Keys) {
for (auto& Set : Data.Sets) {
benchmark::DoNotOptimize(Set.find(K));
}
}
}
}
std::string name() const {
return "BM_Find" + Hit::name() + Access::name() + baseName();
}
};
template <class Hit, class Access>
struct FindNeEnd : Base {
using Base::Base;
void run(benchmark::State& State) const {
auto Data = makeTestingSets(TableSize, NumTables, Hit(), Access());
while (State.KeepRunningBatch(TableSize * NumTables)) {
for (auto K : Data.Keys) {
for (auto& Set : Data.Sets) {
benchmark::DoNotOptimize(Set.find(K) != Set.end());
}
}
}
}
std::string name() const {
return "BM_FindNeEnd" + Hit::name() + Access::name() + baseName();
}
};
template <class Access>
struct InsertHit : Base {
using Base::Base;
void run(benchmark::State& State) const {
auto Data = makeTestingSets(TableSize, NumTables, HitType::Hit, Access());
while (State.KeepRunningBatch(TableSize * NumTables)) {
for (auto K : Data.Keys) {
for (auto& Set : Data.Sets) {
benchmark::DoNotOptimize(Set.insert(K));
}
}
}
}
std::string name() const {
return "BM_InsertHit" + Access::name() + baseName();
}
};
template <class Access>
struct InsertMissAndErase : Base {
using Base::Base;
void run(benchmark::State& State) const {
auto Data = makeTestingSets(TableSize, NumTables, HitType::Miss, Access());
while (State.KeepRunningBatch(TableSize * NumTables)) {
for (auto K : Data.Keys) {
for (auto& Set : Data.Sets) {
benchmark::DoNotOptimize(Set.erase(Set.insert(K).first));
}
}
}
}
std::string name() const {
return "BM_InsertMissAndErase" + Access::name() + baseName();
}
};
struct IterateRangeFor : Base {
using Base::Base;
void run(benchmark::State& State) const {
auto Data = makeTestingSets(TableSize, NumTables, HitType::Miss,
AccessPattern::Ordered);
while (State.KeepRunningBatch(TableSize * NumTables)) {
for (auto& Set : Data.Sets) {
for (auto& V : Set) {
benchmark::DoNotOptimize(V);
}
}
}
}
std::string name() const { return "BM_IterateRangeFor" + baseName(); }
};
struct IterateBeginEnd : Base {
using Base::Base;
void run(benchmark::State& State) const {
auto Data = makeTestingSets(TableSize, NumTables, HitType::Miss,
AccessPattern::Ordered);
while (State.KeepRunningBatch(TableSize * NumTables)) {
for (auto& Set : Data.Sets) {
for (auto it = Set.begin(); it != Set.end(); ++it) {
benchmark::DoNotOptimize(*it);
}
}
}
}
std::string name() const { return "BM_IterateBeginEnd" + baseName(); }
};
} // namespace
int main(int argc, char** argv) {
benchmark::Initialize(&argc, argv);
if (benchmark::ReportUnrecognizedArguments(argc, argv))
return 1;
const std::vector<size_t> TableSize{1, 10, 100, 1000, 10000, 100000, 1000000};
const std::vector<size_t> NumTables{1, 10, 100, 1000, 10000, 100000, 1000000};
makeCartesianProductBenchmark<Create, AllAccessPattern>(TableSize, NumTables);
makeCartesianProductBenchmark<Find, AllHitTypes, AllAccessPattern>(
TableSize, NumTables);
makeCartesianProductBenchmark<FindNeEnd, AllHitTypes, AllAccessPattern>(
TableSize, NumTables);
makeCartesianProductBenchmark<InsertHit, AllAccessPattern>(
TableSize, NumTables);
makeCartesianProductBenchmark<InsertMissAndErase, AllAccessPattern>(
TableSize, NumTables);
makeCartesianProductBenchmark<IterateRangeFor>(TableSize, NumTables);
makeCartesianProductBenchmark<IterateBeginEnd>(TableSize, NumTables);
benchmark::RunSpecifiedBenchmarks();
}
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