third_party_benchmark/test/benchmark_test.cc

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#include "benchmark/benchmark.h"
#include <assert.h>
#include <math.h>
#include <stdint.h>
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#include <cstdlib>
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#include <iostream>
#include <limits>
#include <list>
#include <map>
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#include <mutex>
#include <set>
#include <sstream>
#include <string>
#include <vector>
#if defined(__GNUC__)
# define BENCHMARK_NOINLINE __attribute__((noinline))
#else
# define BENCHMARK_NOINLINE
#endif
namespace {
int BENCHMARK_NOINLINE Factorial(uint32_t n) {
return (n == 1) ? 1 : n * Factorial(n - 1);
}
double CalculatePi(int depth) {
double pi = 0.0;
for (int i = 0; i < depth; ++i) {
double numerator = static_cast<double>(((i % 2) * 2) - 1);
double denominator = static_cast<double>((2 * i) - 1);
pi += numerator / denominator;
}
return (pi - 1.0) * 4;
}
std::set<int> ConstructRandomSet(int size) {
std::set<int> s;
for (int i = 0; i < size; ++i)
s.insert(i);
return s;
}
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std::mutex test_vector_mu;
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std::vector<int>* test_vector = nullptr;
} // end namespace
static void BM_Factorial(benchmark::State& state) {
int fac_42 = 0;
while (state.KeepRunning())
fac_42 = Factorial(8);
// Prevent compiler optimizations
std::stringstream ss;
ss << fac_42;
state.SetLabel(ss.str());
}
BENCHMARK(BM_Factorial);
BENCHMARK(BM_Factorial)->UseRealTime();
static void BM_CalculatePiRange(benchmark::State& state) {
double pi = 0.0;
while (state.KeepRunning())
pi = CalculatePi(state.range_x());
std::stringstream ss;
ss << pi;
state.SetLabel(ss.str());
}
BENCHMARK_RANGE(BM_CalculatePiRange, 1, 1024 * 1024);
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static void BM_CalculatePi(benchmark::State& state) {
static const int depth = 1024;
while (state.KeepRunning()) {
benchmark::DoNotOptimize(CalculatePi(depth));
}
}
BENCHMARK(BM_CalculatePi)->Threads(8);
BENCHMARK(BM_CalculatePi)->ThreadRange(1, 32);
BENCHMARK(BM_CalculatePi)->ThreadPerCpu();
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static void BM_SetInsert(benchmark::State& state) {
while (state.KeepRunning()) {
state.PauseTiming();
std::set<int> data = ConstructRandomSet(state.range_x());
state.ResumeTiming();
for (int j = 0; j < state.range_y(); ++j)
data.insert(rand());
}
state.SetItemsProcessed(state.iterations() * state.range_y());
state.SetBytesProcessed(state.iterations() * state.range_y() * sizeof(int));
}
BENCHMARK(BM_SetInsert)->RangePair(1<<10,8<<10, 1,10);
template<typename Container, typename ValueType = typename Container::value_type>
static void BM_Sequential(benchmark::State& state) {
ValueType v = 42;
while (state.KeepRunning()) {
Container c;
for (int i = state.range_x(); --i; )
c.push_back(v);
}
const size_t items_processed = state.iterations() * state.range_x();
state.SetItemsProcessed(items_processed);
state.SetBytesProcessed(items_processed * sizeof(v));
}
BENCHMARK_TEMPLATE2(BM_Sequential, std::vector<int>, int)->Range(1 << 0, 1 << 10);
BENCHMARK_TEMPLATE(BM_Sequential, std::list<int>)->Range(1 << 0, 1 << 10);
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// Test the variadic version of BENCHMARK_TEMPLATE in C++11 and beyond.
#if __cplusplus >= 201103L
BENCHMARK_TEMPLATE(BM_Sequential, std::vector<int>, int)->Arg(512);
#endif
static void BM_StringCompare(benchmark::State& state) {
std::string s1(state.range_x(), '-');
std::string s2(state.range_x(), '-');
while (state.KeepRunning())
benchmark::DoNotOptimize(s1.compare(s2));
}
BENCHMARK(BM_StringCompare)->Range(1, 1<<20);
static void BM_SetupTeardown(benchmark::State& state) {
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if (state.thread_index == 0) {
// No need to lock test_vector_mu here as this is running single-threaded.
test_vector = new std::vector<int>();
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}
int i = 0;
while (state.KeepRunning()) {
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std::lock_guard<std::mutex> l(test_vector_mu);
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if (i%2 == 0)
test_vector->push_back(i);
else
test_vector->pop_back();
++i;
}
if (state.thread_index == 0) {
delete test_vector;
}
}
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BENCHMARK(BM_SetupTeardown)->ThreadPerCpu();
static void BM_LongTest(benchmark::State& state) {
double tracker = 0.0;
while (state.KeepRunning()) {
for (int i = 0; i < state.range_x(); ++i)
benchmark::DoNotOptimize(tracker += i);
}
}
BENCHMARK(BM_LongTest)->Range(1<<16,1<<28);
static void BM_ParallelMemset(benchmark::State& state) {
int size = state.range_x() / sizeof(int);
int thread_size = size / state.threads;
int from = thread_size * state.thread_index;
int to = from + thread_size;
if (state.thread_index == 0) {
test_vector = new std::vector<int>(size);
}
while (state.KeepRunning()) {
for (int i = from; i < to; i++) {
// No need to lock test_vector_mu as ranges
// do not overlap between threads.
benchmark::DoNotOptimize(test_vector->at(i) = 1);
}
}
if (state.thread_index == 0) {
delete test_vector;
}
}
BENCHMARK(BM_ParallelMemset)->Arg(10 << 20)->ThreadRange(1, 4);
BENCHMARK_MAIN()