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// Copyright (c) 2015-2016 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#ifndef BITCOIN_BENCH_BENCH_H
#define BITCOIN_BENCH_BENCH_H
#include <functional>
#include <limits>
#include <map>
#include <string>
#include <vector>
#include <chrono>
#include <boost/preprocessor/cat.hpp>
#include <boost/preprocessor/stringize.hpp>
// Simple micro-benchmarking framework; API mostly matches a subset of the Google Benchmark
// framework (see https://github.com/google/benchmark)
// Why not use the Google Benchmark framework? Because adding Yet Another Dependency
// (that uses cmake as its build system and has lots of features we don't need) isn't
// worth it.
/*
* Usage:
static void CODE_TO_TIME(benchmark::State& state)
{
... do any setup needed...
while (state.KeepRunning()) {
... do stuff you want to time...
}
... do any cleanup needed...
}
// default to running benchmark for 5000 iterations
BENCHMARK(CODE_TO_TIME, 5000);
*/
namespace benchmark {
// In case high_resolution_clock is steady, prefer that, otherwise use steady_clock.
struct best_clock {
using hi_res_clock = std::chrono::high_resolution_clock;
using steady_clock = std::chrono::steady_clock;
using type = std::conditional<hi_res_clock::is_steady, hi_res_clock, steady_clock>::type;
};
using clock = best_clock::type;
using time_point = clock::time_point;
using duration = clock::duration;
class Printer;
class State
{
public:
std::string m_name;
uint64_t m_num_iters_left;
const uint64_t m_num_iters;
const uint64_t m_num_evals;
std::vector<double> m_elapsed_results;
time_point m_start_time;
bool UpdateTimer(time_point finish_time);
State(std::string name, uint64_t num_evals, double num_iters, Printer& printer) : m_name(name), m_num_iters_left(0), m_num_iters(num_iters), m_num_evals(num_evals)
{
}
inline bool KeepRunning()
{
if (m_num_iters_left--) {
return true;
}
bool result = UpdateTimer(clock::now());
// measure again so runtime of UpdateTimer is not included
m_start_time = clock::now();
return result;
}
};
typedef std::function<void(State&)> BenchFunction;
class BenchRunner
{
struct Bench {
BenchFunction func;
uint64_t num_iters_for_one_second;
};
typedef std::map<std::string, Bench> BenchmarkMap;
static BenchmarkMap& benchmarks();
public:
BenchRunner(std::string name, BenchFunction func, uint64_t num_iters_for_one_second);
static void RunAll(Printer& printer, uint64_t num_evals, double scaling, const std::string& filter, bool is_list_only);
};
// interface to output benchmark results.
class Printer
{
public:
virtual ~Printer() {}
virtual void header() = 0;
virtual void result(const State& state) = 0;
virtual void footer() = 0;
};
// default printer to console, shows min, max, median.
class ConsolePrinter : public Printer
{
public:
void header();
void result(const State& state);
void footer();
};
// creates box plot with plotly.js
class PlotlyPrinter : public Printer
{
public:
PlotlyPrinter(std::string plotly_url, int64_t width, int64_t height);
void header();
void result(const State& state);
void footer();
private:
std::string m_plotly_url;
int64_t m_width;
int64_t m_height;
};
}
// BENCHMARK(foo, num_iters_for_one_second) expands to: benchmark::BenchRunner bench_11foo("foo", num_iterations);
// Choose a num_iters_for_one_second that takes roughly 1 second. The goal is that all benchmarks should take approximately
// the same time, and scaling factor can be used that the total time is appropriate for your system.
#define BENCHMARK(n, num_iters_for_one_second) \
benchmark::BenchRunner BOOST_PP_CAT(bench_, BOOST_PP_CAT(__LINE__, n))(BOOST_PP_STRINGIZE(n), n, (num_iters_for_one_second));
#endif // BITCOIN_BENCH_BENCH_H
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