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llvm-project/libcxx/test/benchmarks/ContainerBenchmarks.h
Louis Dionne 78b4b5cccb
[libc++] Move the benchmarks under libcxx/test (#99371) 
This is an intermediate and fairly mechanical step towards unifying the
benchmarks with the rest of the test suite. Moving this around requires
a few changes, notably making sure we don't throw a wrench into the
discovery process of the normal test suite. This won't be a problem
anymore once benchmarks are taken into account by the test setup out of
the box.
2024-07-31 11:18:32 -04:00

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// -*- C++ -*-
//===----------------------------------------------------------------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
#ifndef BENCHMARK_CONTAINER_BENCHMARKS_H
#define BENCHMARK_CONTAINER_BENCHMARKS_H
#include <cassert>
#include "Utilities.h"
#include "benchmark/benchmark.h"
namespace ContainerBenchmarks {
template <class Container>
void BM_ConstructSize(benchmark::State& st, Container) {
auto size = st.range(0);
for (auto _ : st) {
Container c(size);
DoNotOptimizeData(c);
}
}
template <class Container>
void BM_CopyConstruct(benchmark::State& st, Container) {
auto size = st.range(0);
Container c(size);
for (auto _ : st) {
auto v = c;
DoNotOptimizeData(v);
}
}
template <class Container>
void BM_Assignment(benchmark::State& st, Container) {
auto size = st.range(0);
Container c1;
Container c2(size);
for (auto _ : st) {
c1 = c2;
DoNotOptimizeData(c1);
DoNotOptimizeData(c2);
}
}
template <class Container>
void BM_ConstructSizeValue(benchmark::State& st, Container, typename Container::value_type const& val) {
const auto size = st.range(0);
for (auto _ : st) {
Container c(size, val);
DoNotOptimizeData(c);
}
}
template <class Container, class GenInputs>
void BM_ConstructIterIter(benchmark::State& st, Container, GenInputs gen) {
auto in = gen(st.range(0));
const auto begin = in.begin();
const auto end = in.end();
benchmark::DoNotOptimize(&in);
while (st.KeepRunning()) {
Container c(begin, end);
DoNotOptimizeData(c);
}
}
template <class Container, class GenInputs>
void BM_ConstructFromRange(benchmark::State& st, Container, GenInputs gen) {
auto in = gen(st.range(0));
benchmark::DoNotOptimize(&in);
while (st.KeepRunning()) {
Container c(std::from_range, in);
DoNotOptimizeData(c);
}
}
template <class Container>
void BM_Pushback_no_grow(benchmark::State& state, Container c) {
int count = state.range(0);
c.reserve(count);
while (state.KeepRunningBatch(count)) {
c.clear();
for (int i = 0; i != count; ++i) {
c.push_back(i);
}
benchmark::DoNotOptimize(c.data());
}
}
template <class Container, class GenInputs>
void BM_InsertValue(benchmark::State& st, Container c, GenInputs gen) {
auto in = gen(st.range(0));
const auto end = in.end();
while (st.KeepRunning()) {
c.clear();
for (auto it = in.begin(); it != end; ++it) {
benchmark::DoNotOptimize(&(*c.insert(*it).first));
}
benchmark::ClobberMemory();
}
}
template <class Container, class GenInputs>
void BM_InsertValueRehash(benchmark::State& st, Container c, GenInputs gen) {
auto in = gen(st.range(0));
const auto end = in.end();
while (st.KeepRunning()) {
c.clear();
c.rehash(16);
for (auto it = in.begin(); it != end; ++it) {
benchmark::DoNotOptimize(&(*c.insert(*it).first));
}
benchmark::ClobberMemory();
}
}
template <class Container, class GenInputs>
void BM_InsertDuplicate(benchmark::State& st, Container c, GenInputs gen) {
auto in = gen(st.range(0));
const auto end = in.end();
c.insert(in.begin(), in.end());
benchmark::DoNotOptimize(&c);
benchmark::DoNotOptimize(&in);
while (st.KeepRunning()) {
for (auto it = in.begin(); it != end; ++it) {
benchmark::DoNotOptimize(&(*c.insert(*it).first));
}
benchmark::ClobberMemory();
}
}
template <class Container, class GenInputs>
void BM_EmplaceDuplicate(benchmark::State& st, Container c, GenInputs gen) {
auto in = gen(st.range(0));
const auto end = in.end();
c.insert(in.begin(), in.end());
benchmark::DoNotOptimize(&c);
benchmark::DoNotOptimize(&in);
while (st.KeepRunning()) {
for (auto it = in.begin(); it != end; ++it) {
benchmark::DoNotOptimize(&(*c.emplace(*it).first));
}
benchmark::ClobberMemory();
}
}
template <class Container, class GenInputs>
static void BM_Find(benchmark::State& st, Container c, GenInputs gen) {
auto in = gen(st.range(0));
c.insert(in.begin(), in.end());
benchmark::DoNotOptimize(&(*c.begin()));
const auto end = in.data() + in.size();
while (st.KeepRunning()) {
for (auto it = in.data(); it != end; ++it) {
benchmark::DoNotOptimize(&(*c.find(*it)));
}
benchmark::ClobberMemory();
}
}
template <class Container, class GenInputs>
static void BM_FindRehash(benchmark::State& st, Container c, GenInputs gen) {
c.rehash(8);
auto in = gen(st.range(0));
c.insert(in.begin(), in.end());
benchmark::DoNotOptimize(&(*c.begin()));
const auto end = in.data() + in.size();
while (st.KeepRunning()) {
for (auto it = in.data(); it != end; ++it) {
benchmark::DoNotOptimize(&(*c.find(*it)));
}
benchmark::ClobberMemory();
}
}
template <class Container, class GenInputs>
static void BM_Rehash(benchmark::State& st, Container c, GenInputs gen) {
auto in = gen(st.range(0));
c.max_load_factor(3.0);
c.insert(in.begin(), in.end());
benchmark::DoNotOptimize(c);
const auto bucket_count = c.bucket_count();
while (st.KeepRunning()) {
c.rehash(bucket_count + 1);
c.rehash(bucket_count);
benchmark::ClobberMemory();
}
}
template <class Container, class GenInputs>
static void BM_Compare_same_container(benchmark::State& st, Container, GenInputs gen) {
auto in = gen(st.range(0));
Container c1(in.begin(), in.end());
Container c2 = c1;
benchmark::DoNotOptimize(&(*c1.begin()));
benchmark::DoNotOptimize(&(*c2.begin()));
while (st.KeepRunning()) {
bool res = c1 == c2;
benchmark::DoNotOptimize(&res);
benchmark::ClobberMemory();
}
}
template <class Container, class GenInputs>
static void BM_Compare_different_containers(benchmark::State& st, Container, GenInputs gen) {
auto in1 = gen(st.range(0));
auto in2 = gen(st.range(0));
Container c1(in1.begin(), in1.end());
Container c2(in2.begin(), in2.end());
benchmark::DoNotOptimize(&(*c1.begin()));
benchmark::DoNotOptimize(&(*c2.begin()));
while (st.KeepRunning()) {
bool res = c1 == c2;
benchmark::DoNotOptimize(&res);
benchmark::ClobberMemory();
}
}
} // end namespace ContainerBenchmarks
#endif // BENCHMARK_CONTAINER_BENCHMARKS_H
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