2022-12-24 00:52:53 +00:00
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// Copyright 2022 Dolphin Emulator Project
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// SPDX-License-Identifier: GPL-2.0-or-later
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#include "VideoCommon/PerformanceTracker.h"
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#include <algorithm>
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#include <cmath>
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#include <iomanip>
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2022-12-30 19:56:08 +00:00
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#include <mutex>
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#include <implot.h>
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2022-12-24 00:52:53 +00:00
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#include "Common/CommonTypes.h"
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#include "Common/FileUtil.h"
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#include "Common/Timer.h"
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#include "Core/Core.h"
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#include "VideoCommon/VideoConfig.h"
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static constexpr double SAMPLE_RC_RATIO = 0.25;
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PerformanceTracker::PerformanceTracker(const std::optional<std::string> log_name,
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const std::optional<s64> sample_window_us)
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: m_on_state_changed_handle{Core::AddOnStateChangedCallback([this](Core::State state) {
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if (state == Core::State::Paused)
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SetPaused(true);
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else if (state == Core::State::Running)
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SetPaused(false);
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})},
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m_log_name{log_name}, m_sample_window_us{sample_window_us}
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{
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Reset();
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}
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PerformanceTracker::~PerformanceTracker()
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{
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Core::RemoveOnStateChangedCallback(&m_on_state_changed_handle);
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}
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void PerformanceTracker::Reset()
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{
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std::unique_lock lock{m_mutex};
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QueueClear();
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m_last_time = Clock::now();
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m_hz_avg = 0.0;
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m_dt_avg = DT::zero();
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m_dt_std = std::nullopt;
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}
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void PerformanceTracker::Count()
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{
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std::unique_lock lock{m_mutex};
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if (m_paused)
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return;
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const DT window{GetSampleWindow()};
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const TimePoint time{Clock::now()};
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const DT diff{time - m_last_time};
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m_last_time = time;
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QueuePush(diff);
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m_dt_total += diff;
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if (m_dt_queue_begin == m_dt_queue_end)
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m_dt_total -= QueuePop();
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while (window <= m_dt_total - QueueTop())
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m_dt_total -= QueuePop();
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// Simple Moving Average Throughout the Window
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m_dt_avg = m_dt_total / QueueSize();
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const double hz = DT_s(1.0) / m_dt_avg;
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// Exponential Moving Average
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const DT_s rc = SAMPLE_RC_RATIO * std::min(window, m_dt_total);
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const double a = 1.0 - std::exp(-(DT_s(diff) / rc));
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// Sometimes euler averages can break when the average is inf/nan
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if (std::isfinite(m_hz_avg))
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m_hz_avg += a * (hz - m_hz_avg);
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else
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m_hz_avg = hz;
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m_dt_std = std::nullopt;
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LogRenderTimeToFile(diff);
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}
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DT PerformanceTracker::GetSampleWindow() const
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{
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// This reads a constant value and thus does not need a mutex
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return std::chrono::duration_cast<DT>(
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DT_us(m_sample_window_us.value_or(std::max(1, g_ActiveConfig.iPerfSampleUSec))));
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}
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double PerformanceTracker::GetHzAvg() const
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{
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std::shared_lock lock{m_mutex};
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return m_hz_avg;
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}
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DT PerformanceTracker::GetDtAvg() const
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{
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std::shared_lock lock{m_mutex};
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return m_dt_avg;
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}
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DT PerformanceTracker::GetDtStd() const
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{
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std::unique_lock lock{m_mutex};
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if (m_dt_std)
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return *m_dt_std;
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if (QueueEmpty())
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return *(m_dt_std = DT::zero());
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double total = 0.0;
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for (std::size_t i = m_dt_queue_begin; i != m_dt_queue_end; i = IncrementIndex(i))
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{
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double diff = DT_s(m_dt_queue[i] - m_dt_avg).count();
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total += diff * diff;
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}
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// This is a weighted standard deviation
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return *(m_dt_std = std::chrono::duration_cast<DT>(DT_s(std::sqrt(total / QueueSize()))));
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}
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DT PerformanceTracker::GetLastRawDt() const
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{
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std::shared_lock lock{m_mutex};
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if (QueueEmpty())
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return DT::zero();
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return QueueBottom();
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}
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void PerformanceTracker::ImPlotPlotLines(const char* label) const
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{
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static std::array<float, MAX_DT_QUEUE_SIZE + 2> x, y;
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std::shared_lock lock{m_mutex};
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if (QueueEmpty())
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return;
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// Decides if there are too many points to plot using rectangles
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const bool quality = QueueSize() < MAX_QUALITY_GRAPH_SIZE;
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const DT update_time = Clock::now() - m_last_time;
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const float predicted_frame_time = DT_ms(std::max(update_time, QueueBottom())).count();
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std::size_t points = 0;
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if (quality)
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{
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x[points] = 0.f;
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y[points] = predicted_frame_time;
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++points;
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}
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x[points] = DT_ms(update_time).count();
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y[points] = predicted_frame_time;
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++points;
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const std::size_t begin = DecrementIndex(m_dt_queue_end);
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const std::size_t end = DecrementIndex(m_dt_queue_begin);
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for (std::size_t i = begin; i != end; i = DecrementIndex(i))
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{
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const float frame_time_ms = DT_ms(m_dt_queue[i]).count();
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if (quality)
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{
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x[points] = x[points - 1];
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y[points] = frame_time_ms;
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++points;
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}
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x[points] = x[points - 1] + frame_time_ms;
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y[points] = frame_time_ms;
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++points;
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}
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ImPlot::PlotLine(label, x.data(), y.data(), static_cast<int>(points));
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}
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void PerformanceTracker::QueueClear()
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{
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m_dt_total = DT::zero();
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m_dt_queue_begin = 0;
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m_dt_queue_end = 0;
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}
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void PerformanceTracker::QueuePush(DT dt)
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{
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m_dt_queue[m_dt_queue_end] = dt;
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m_dt_queue_end = IncrementIndex(m_dt_queue_end);
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}
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const DT& PerformanceTracker::QueuePop()
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{
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const std::size_t top = m_dt_queue_begin;
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m_dt_queue_begin = IncrementIndex(m_dt_queue_begin);
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return m_dt_queue[top];
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}
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const DT& PerformanceTracker::QueueTop() const
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{
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return m_dt_queue[m_dt_queue_begin];
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}
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const DT& PerformanceTracker::QueueBottom() const
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{
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return m_dt_queue[DecrementIndex(m_dt_queue_end)];
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}
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std::size_t PerformanceTracker::QueueSize() const
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{
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return GetDifference(m_dt_queue_begin, m_dt_queue_end);
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}
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bool PerformanceTracker::QueueEmpty() const
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{
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return m_dt_queue_begin == m_dt_queue_end;
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}
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void PerformanceTracker::LogRenderTimeToFile(DT val)
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{
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if (!m_log_name || !g_ActiveConfig.bLogRenderTimeToFile)
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return;
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if (!m_bench_file.is_open())
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{
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File::OpenFStream(m_bench_file, File::GetUserPath(D_LOGS_IDX) + *m_log_name,
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std::ios_base::out);
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}
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m_bench_file << std::fixed << std::setprecision(8) << DT_ms(val).count() << std::endl;
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}
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void PerformanceTracker::SetPaused(bool paused)
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{
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std::unique_lock lock{m_mutex};
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m_paused = paused;
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if (m_paused)
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{
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m_last_time = TimePoint::max();
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}
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else
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{
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m_last_time = Clock::now();
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}
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}
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