401 lines
No EOL
12 KiB
C++
401 lines
No EOL
12 KiB
C++
/*
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* Copyright (C) 2015 Christopher Gilbert.
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in all
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* copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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* SOFTWARE.
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*/
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#ifndef BENCHPRESS_HPP
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#define BENCHPRESS_HPP
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#include <algorithm> // max, min
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#include <atomic> // atomic_intmax_t
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#include <chrono> // high_resolution_timer, duration
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#include <functional> // function
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#include <iomanip> // setw
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#include <iostream> // cout
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#include <regex> // regex, regex_match
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#include <sstream> // stringstream
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#include <string> // string
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#include <thread> // thread
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#include <vector> // vector
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namespace benchpress {
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/*
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* The options class encapsulates all options for running benchmarks.
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*
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* When including benchpress, a main function can be emitted which includes a command-line parser for building an
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* options object. However from time-to-time it may be necessary for the developer to have to build their own main
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* stub and construct the options object manually.
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*
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* options opts;
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* opts
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* .bench(".*")
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* .benchtime(1)
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* .cpu(4);
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*/
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class options {
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std::string d_bench;
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size_t d_benchtime;
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size_t d_cpu;
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public:
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options()
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: d_bench(".*")
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, d_benchtime(1)
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, d_cpu(std::thread::hardware_concurrency())
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{}
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options& bench(const std::string& bench) {
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d_bench = bench;
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return *this;
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}
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options& benchtime(size_t benchtime) {
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d_benchtime = benchtime;
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return *this;
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}
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options& cpu(size_t cpu) {
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d_cpu = cpu;
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return *this;
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}
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std::string get_bench() const {
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return d_bench;
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}
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size_t get_benchtime() const {
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return d_benchtime;
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}
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size_t get_cpu() const {
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return d_cpu;
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}
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};
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class context;
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/*
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* The benchmark_info class is used to store a function name / pointer pair.
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*
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* benchmark_info bi("example", [](benchpress::context* b) {
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* // benchmark function
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* });
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*/
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class benchmark_info {
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std::string d_name;
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std::function<void(context*)> d_func;
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public:
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benchmark_info(std::string name, std::function<void(context*)> func)
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: d_name(name)
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, d_func(func)
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{}
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std::string get_name() const { return d_name; }
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std::function<void(context*)> get_func() const { return d_func; }
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};
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/*
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* The registration class is responsible for providing a single global point of reference for registering
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* benchmark functions.
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*
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* registration::get_ptr()->register_benchmark(info);
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*/
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class registration {
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static registration* d_this;
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std::vector<benchmark_info> d_benchmarks;
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public:
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static registration* get_ptr() {
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if (nullptr == d_this) {
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d_this = new registration();
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}
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return d_this;
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}
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void register_benchmark(benchmark_info& info) {
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d_benchmarks.push_back(info);
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}
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std::vector<benchmark_info> get_benchmarks() { return d_benchmarks; }
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};
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/*
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* The auto_register class is a helper used to register benchmarks.
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*/
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class auto_register {
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public:
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auto_register(const std::string& name, std::function<void(context*)> func) {
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benchmark_info info(name, func);
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registration::get_ptr()->register_benchmark(info);
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}
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};
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#define CONCAT(x, y) x ## y
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#define CONCAT2(x, y) CONCAT(x, y)
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// The BENCHMARK macro is a helper for creating benchmark functions and automatically registering them with the
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// registration class.
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#define BENCHMARK(x, f) benchpress::auto_register CONCAT2(register_, __LINE__)((x), (f));
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// This macro will prevent the compiler from removing a redundant code path which has no side-effects.
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#define DISABLE_REDUNDANT_CODE_OPT() { asm(""); }
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/*
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* The result class is responsible for producing a printable string representation of a benchmark run.
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*/
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class result {
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size_t d_num_iterations;
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std::chrono::nanoseconds d_duration;
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size_t d_num_bytes;
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public:
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result(size_t num_iterations, std::chrono::nanoseconds duration, size_t num_bytes)
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: d_num_iterations(num_iterations)
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, d_duration(duration)
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, d_num_bytes(num_bytes)
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{}
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size_t get_ns_per_op() const {
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if (d_num_iterations <= 0) {
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return 0;
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}
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return d_duration.count() / d_num_iterations;
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}
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double get_mb_per_s() const {
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if (d_num_iterations <= 0 || d_duration.count() <= 0 || d_num_bytes <= 0) {
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return 0;
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}
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return ((double(d_num_bytes) * double(d_num_iterations) / double(1e6)) /
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double(std::chrono::duration_cast<std::chrono::seconds>(d_duration).count()));
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}
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std::string to_string() const {
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std::stringstream tmp;
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tmp << std::setw(12) << std::right << d_num_iterations;
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size_t npo = get_ns_per_op();
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tmp << std::setw(12) << std::right << npo << std::setw(0) << " ns/op";
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double mbs = get_mb_per_s();
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if (mbs > 0.0) {
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tmp << std::setw(12) << std::right << mbs << std::setw(0) << " MB/s";
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}
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return std::string(tmp.str());
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}
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};
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/*
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* The parallel_context class is responsible for providing a thread-safe context for parallel benchmark code.
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*/
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class parallel_context {
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std::atomic_intmax_t d_num_iterations;
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public:
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parallel_context(size_t num_iterations)
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: d_num_iterations(num_iterations)
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{}
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bool next() {
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return (d_num_iterations.fetch_sub(1) > 0);
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}
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};
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/*
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* The context class is responsible for providing an interface for capturing benchmark metrics to benchmark functions.
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*/
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class context {
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bool d_timer_on;
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std::chrono::high_resolution_clock::time_point d_start;
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std::chrono::nanoseconds d_duration;
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std::chrono::seconds d_benchtime;
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size_t d_num_iterations;
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size_t d_num_threads;
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size_t d_num_bytes;
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benchmark_info d_benchmark;
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public:
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context(const benchmark_info& info, const options& opts)
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: d_timer_on(false)
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, d_start()
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, d_duration()
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, d_benchtime(std::chrono::seconds(opts.get_benchtime()))
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, d_num_iterations(1)
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, d_num_threads(opts.get_cpu())
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, d_num_bytes(0)
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, d_benchmark(info)
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{}
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size_t num_iterations() const { return d_num_iterations; }
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void set_num_threads(size_t n) { d_num_threads = n; }
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size_t num_threads() const { return d_num_threads; }
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void start_timer() {
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if (!d_timer_on) {
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d_start = std::chrono::high_resolution_clock::now();
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d_timer_on = true;
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}
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}
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void stop_timer() {
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if (d_timer_on) {
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d_duration += std::chrono::high_resolution_clock::now() - d_start;
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d_timer_on = false;
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}
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}
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void reset_timer() {
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if (d_timer_on) {
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d_start = std::chrono::high_resolution_clock::now();
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}
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d_duration = std::chrono::nanoseconds::zero();
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}
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void set_bytes(int64_t bytes) { d_num_bytes = bytes; }
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size_t get_ns_per_op() {
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if (d_num_iterations <= 0) {
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return 0;
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}
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return d_duration.count() / d_num_iterations;
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}
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void run_n(size_t n) {
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d_num_iterations = n;
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reset_timer();
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start_timer();
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d_benchmark.get_func()(this);
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stop_timer();
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}
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void run_parallel(std::function<void(parallel_context*)> f) {
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parallel_context pc(d_num_iterations);
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std::vector<std::thread> threads;
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for (size_t i = 0; i < d_num_threads; ++i) {
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threads.push_back(std::thread([&pc,&f]() -> void {
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f(&pc);
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}));
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}
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for(auto& thread : threads){
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thread.join();
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}
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}
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result run() {
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size_t n = 1;
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run_n(n);
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while (d_duration < d_benchtime && n < 1e9) {
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size_t last = n;
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if (get_ns_per_op() == 0) {
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n = 1e9;
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} else {
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n = d_duration.count() / get_ns_per_op();
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}
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n = std::max(std::min(n+n/2, 100*last), last+1);
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n = round_up(n);
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run_n(n);
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}
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return result(n, d_duration, d_num_bytes);
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}
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private:
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template<typename T>
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T round_down_10(T n) {
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int tens = 0;
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while (n > 10) {
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n /= 10;
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tens++;
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}
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int result = 1;
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for (int i = 0; i < tens; ++i) {
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result *= 10;
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}
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return result;
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}
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template<typename T>
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T round_up(T n) {
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T base = round_down_10(n);
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if (n < (2 * base)) {
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return 2 * base;
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}
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if (n < (5 * base)) {
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return 5 * base;
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}
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return 10 * base;
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}
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};
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/*
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* The run_benchmarks function will run the registered benchmarks.
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*/
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void run_benchmarks(const options& opts) {
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std::regex match_r(opts.get_bench());
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auto benchmarks = registration::get_ptr()->get_benchmarks();
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for (auto& info : benchmarks) {
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if (std::regex_match(info.get_name(), match_r)) {
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context c(info, opts);
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auto r = c.run();
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std::cout << std::setw(35) << std::left << info.get_name() << r.to_string() << std::endl;
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}
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}
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}
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} // namespace benchpress
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/*
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* If BENCHPRESS_CONFIG_MAIN is defined when the file is included then a main function will be emitted which provides a
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* command-line parser and then executes run_benchmarks.
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*/
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#ifdef BENCHPRESS_CONFIG_MAIN
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#include "cxxopts.hpp"
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benchpress::registration* benchpress::registration::d_this;
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int main(int argc, char** argv) {
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std::chrono::high_resolution_clock::time_point bp_start = std::chrono::high_resolution_clock::now();
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benchpress::options bench_opts;
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try {
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cxxopts::Options cmd_opts(argv[0], " - command line options");
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cmd_opts.add_options()
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("bench", "run benchmarks matching the regular expression", cxxopts::value<std::string>()
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->default_value(".*"))
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("benchtime", "run enough iterations of each benchmark to take t seconds", cxxopts::value<size_t>()
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->default_value("1"))
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("cpu", "specify the number of threads to use for parallel benchmarks", cxxopts::value<size_t>()
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->default_value(std::to_string(std::thread::hardware_concurrency())))
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("help", "print help")
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;
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cmd_opts.parse(argc, argv);
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if (cmd_opts.count("help")) {
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std::cout << cmd_opts.help({""}) << std::endl;
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exit(0);
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}
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if (cmd_opts.count("bench")) {
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bench_opts.bench(cmd_opts["bench"].as<std::string>());
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}
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if (cmd_opts.count("benchtime")) {
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bench_opts.benchtime(cmd_opts["benchtime"].as<size_t>());
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}
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if (cmd_opts.count("cpu")) {
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bench_opts.cpu(cmd_opts["cpu"].as<size_t>());
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}
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} catch (const cxxopts::OptionException& e) {
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std::cout << "error parsing options: " << e.what() << std::endl;
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exit(1);
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}
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benchpress::run_benchmarks(bench_opts);
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float duration = std::chrono::duration_cast<std::chrono::milliseconds>(
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std::chrono::high_resolution_clock::now() - bp_start
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).count() / 1000.f;
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std::cout << argv[0] << " " << duration << "s" << std::endl;
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return 0;
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}
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#endif
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#endif // BENCHPRESS_HPP
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