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116 lines
4.9 KiB
C++
116 lines
4.9 KiB
C++
/*
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* Created by Joachim on 16/04/2019.
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* Adapted from donated nonius code.
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*
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* Distributed under the Boost Software License, Version 1.0. (See accompanying
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* file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
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*/
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// Environment measurement
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#ifndef TWOBLUECUBES_CATCH_DETAIL_ESTIMATE_CLOCK_HPP_INCLUDED
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#define TWOBLUECUBES_CATCH_DETAIL_ESTIMATE_CLOCK_HPP_INCLUDED
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#include "../catch_clock.hpp"
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#include "../catch_environment.hpp"
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#include "catch_stats.hpp"
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#include "catch_measure.hpp"
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#include "catch_run_for_at_least.hpp"
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#include "../catch_clock.hpp"
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#include <algorithm>
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#include <iterator>
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#include <tuple>
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#include <vector>
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#include <cmath>
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namespace Catch {
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namespace Benchmark {
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namespace Detail {
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template <typename Clock>
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std::vector<double> resolution(int k) {
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std::vector<TimePoint<Clock>> times;
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times.reserve(k + 1);
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std::generate_n(std::back_inserter(times), k + 1, now<Clock>{});
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std::vector<double> deltas;
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deltas.reserve(k);
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std::transform(std::next(times.begin()), times.end(), times.begin(),
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std::back_inserter(deltas),
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[](TimePoint<Clock> a, TimePoint<Clock> b) { return static_cast<double>((a - b).count()); });
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return deltas;
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}
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const auto warmup_iterations = 10000;
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const auto warmup_time = std::chrono::milliseconds(100);
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const auto minimum_ticks = 1000;
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const auto warmup_seed = 10000;
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const auto clock_resolution_estimation_time = std::chrono::milliseconds(500);
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const auto clock_cost_estimation_time_limit = std::chrono::seconds(1);
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const auto clock_cost_estimation_tick_limit = 100000;
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const auto clock_cost_estimation_time = std::chrono::milliseconds(10);
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const auto clock_cost_estimation_iterations = 10000;
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template <typename Clock>
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int warmup() {
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return run_for_at_least<Clock>(std::chrono::duration_cast<ClockDuration<Clock>>(warmup_time), warmup_seed, &resolution<Clock>)
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.iterations;
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}
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template <typename Clock>
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EnvironmentEstimate<FloatDuration<Clock>> estimate_clock_resolution(int iterations) {
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auto r = run_for_at_least<Clock>(std::chrono::duration_cast<ClockDuration<Clock>>(clock_resolution_estimation_time), iterations, &resolution<Clock>)
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.result;
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return {
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FloatDuration<Clock>(mean(r.begin(), r.end())),
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classify_outliers(r.begin(), r.end()),
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};
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}
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template <typename Clock>
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EnvironmentEstimate<FloatDuration<Clock>> estimate_clock_cost(FloatDuration<Clock> resolution) {
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auto time_limit = (std::min)(
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resolution * clock_cost_estimation_tick_limit,
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FloatDuration<Clock>(clock_cost_estimation_time_limit));
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auto time_clock = [](int k) {
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return Detail::measure<Clock>([k] {
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for (int i = 0; i < k; ++i) {
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volatile auto ignored = Clock::now();
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(void)ignored;
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}
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}).elapsed;
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};
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time_clock(1);
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int iters = clock_cost_estimation_iterations;
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auto&& r = run_for_at_least<Clock>(std::chrono::duration_cast<ClockDuration<Clock>>(clock_cost_estimation_time), iters, time_clock);
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std::vector<double> times;
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int nsamples = static_cast<int>(std::ceil(time_limit / r.elapsed));
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times.reserve(nsamples);
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std::generate_n(std::back_inserter(times), nsamples, [time_clock, &r] {
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return static_cast<double>((time_clock(r.iterations) / r.iterations).count());
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});
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return {
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FloatDuration<Clock>(mean(times.begin(), times.end())),
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classify_outliers(times.begin(), times.end()),
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};
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}
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template <typename Clock>
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Environment<FloatDuration<Clock>> measure_environment() {
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static Environment<FloatDuration<Clock>>* env = nullptr;
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if (env) {
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return *env;
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}
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auto iters = Detail::warmup<Clock>();
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auto resolution = Detail::estimate_clock_resolution<Clock>(iters);
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auto cost = Detail::estimate_clock_cost<Clock>(resolution.mean);
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env = new Environment<FloatDuration<Clock>>{ resolution, cost };
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return *env;
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}
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} // namespace Detail
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} // namespace Benchmark
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} // namespace Catch
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#endif // TWOBLUECUBES_CATCH_DETAIL_ESTIMATE_CLOCK_HPP_INCLUDED
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