spdlog/bench/latency.cpp

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//
// Copyright(c) 2018 Gabi Melman.
// Distributed under the MIT License (http://opensource.org/licenses/MIT)
//
//
// latency.cpp : spdlog latency benchmarks
//
#include "spdlog/async.h"
#include "spdlog/sinks/basic_file_sink.h"
#include "spdlog/sinks/daily_file_sink.h"
#include "spdlog/sinks/null_sink.h"
#include "spdlog/sinks/rotating_file_sink.h"
#include "spdlog/spdlog.h"
#include "utils.h"
#include <atomic>
#include <cstdlib>
#include <iostream>
#include <memory>
#include <string>
#include <thread>
using namespace std;
using namespace std::chrono;
using namespace spdlog;
using namespace spdlog::sinks;
using namespace utils;
void bench(int howmany, std::shared_ptr<spdlog::logger> log);
void bench_mt(int howmany, std::shared_ptr<spdlog::logger> log, int thread_count);
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int main(int, char *[])
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{
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std::srand(static_cast<unsigned>(std::time(nullptr))); // use current time as seed for random generator
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int howmany = 1000000;
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int queue_size = howmany + 2;
int threads = 10;
size_t file_size = 30 * 1024 * 1024;
size_t rotating_files = 5;
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try
{
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cout << "******************************************************************"
"*************\n";
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cout << "Single thread\n";
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cout << "******************************************************************"
"*************\n";
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auto basic_st = spdlog::basic_logger_mt("basic_st", "logs/basic_st.log", true);
bench(howmany, basic_st);
auto rotating_st = spdlog::rotating_logger_st("rotating_st", "logs/rotating_st.log", file_size, rotating_files);
bench(howmany, rotating_st);
auto daily_st = spdlog::daily_logger_st("daily_st", "logs/daily_st.log");
bench(howmany, daily_st);
bench(howmany, spdlog::create<null_sink_st>("null_st"));
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cout << "\n****************************************************************"
"***************\n";
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cout << threads << " threads sharing same logger\n";
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cout << "******************************************************************"
"*************\n";
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auto basic_mt = spdlog::basic_logger_mt("basic_mt", "logs/basic_mt.log", true);
bench_mt(howmany, basic_mt, threads);
auto rotating_mt = spdlog::rotating_logger_mt("rotating_mt", "logs/rotating_mt.log", file_size, rotating_files);
bench_mt(howmany, rotating_mt, threads);
auto daily_mt = spdlog::daily_logger_mt("daily_mt", "logs/daily_mt.log");
bench_mt(howmany, daily_mt, threads);
bench(howmany, spdlog::create<null_sink_st>("null_mt"));
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cout << "\n****************************************************************"
"***************\n";
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cout << "async logging.. " << threads << " threads sharing same logger\n";
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cout << "******************************************************************"
"*************\n";
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for (int i = 0; i < 3; ++i)
{
spdlog::init_thread_pool(static_cast<size_t>(queue_size), 1);
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auto as = spdlog::basic_logger_mt<spdlog::async_factory>("async", "logs/basic_async.log", true);
bench_mt(howmany, as, threads);
spdlog::drop("async");
}
}
catch (std::exception &ex)
{
std::cerr << "Error: " << ex.what() << std::endl;
perror("Last error");
return EXIT_FAILURE;
}
return EXIT_SUCCESS;
}
void bench(int howmany, std::shared_ptr<spdlog::logger> log)
{
using namespace std::chrono;
using chrono::high_resolution_clock;
using chrono::milliseconds;
using chrono::nanoseconds;
cout << log->name() << "...\t\t" << flush;
nanoseconds total_nanos = nanoseconds::zero();
for (auto i = 0; i < howmany; ++i)
{
auto start = high_resolution_clock::now();
log->info("Hello logger: msg number {}", i);
auto delta_nanos = chrono::duration_cast<nanoseconds>(high_resolution_clock::now() - start);
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total_nanos += delta_nanos;
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}
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auto avg = total_nanos.count() / howmany;
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cout << format(avg) << " ns/call" << endl;
}
void bench_mt(int howmany, std::shared_ptr<spdlog::logger> log, int thread_count)
{
using namespace std::chrono;
using chrono::high_resolution_clock;
using chrono::milliseconds;
using chrono::nanoseconds;
cout << log->name() << "...\t\t" << flush;
vector<thread> threads;
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std::atomic<nanoseconds::rep> total_nanos{0};
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for (int t = 0; t < thread_count; ++t)
{
threads.push_back(std::thread([&]() {
for (int j = 0; j < howmany / thread_count; j++)
{
auto start = high_resolution_clock::now();
log->info("Hello logger: msg number {}", j);
auto delta_nanos = chrono::duration_cast<nanoseconds>(high_resolution_clock::now() - start);
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total_nanos += delta_nanos.count();
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}
}));
}
for (auto &t : threads)
{
t.join();
};
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auto avg = total_nanos / howmany;
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cout << format(avg) << " ns/call" << endl;
}