mirror of
https://github.com/wolfpld/tracy.git
synced 2024-11-27 00:04:35 +00:00
260 lines
7.8 KiB
C++
260 lines
7.8 KiB
C++
#include "TracyImGui.hpp"
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#include "TracyPrint.hpp"
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#include "TracyTimelineContext.hpp"
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#include "TracyTimelineItemCpuData.hpp"
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#include "TracyUtility.hpp"
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#include "TracyView.hpp"
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#include "TracyWorker.hpp"
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namespace tracy
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{
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TimelineItemCpuData::TimelineItemCpuData( View& view, Worker& worker, void* key )
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: TimelineItem( view, worker, key, true )
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{
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}
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void TimelineItemCpuData::SetVisible( bool visible )
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{
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m_view.GetViewData().drawCpuData = visible;
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}
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bool TimelineItemCpuData::IsVisible() const
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{
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return m_view.GetViewData().drawCpuData;
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}
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bool TimelineItemCpuData::IsEmpty() const
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{
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return m_worker.GetCpuDataCpuCount() == 0;
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}
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int64_t TimelineItemCpuData::RangeBegin() const
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{
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return -1;
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}
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int64_t TimelineItemCpuData::RangeEnd() const
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{
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return -1;
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}
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bool TimelineItemCpuData::DrawContents( const TimelineContext& ctx, int& offset )
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{
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m_view.DrawCpuData( ctx, m_cpuDraw, m_ctxDraw, offset, m_hasCpuData );
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return true;
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}
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void TimelineItemCpuData::DrawFinished()
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{
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m_cpuDraw.clear();
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for( auto& v : m_ctxDraw ) v.clear();
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}
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void TimelineItemCpuData::Preprocess( const TimelineContext& ctx, TaskDispatch& td, bool visible, int yPos )
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{
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assert( m_cpuDraw.empty() );
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for( auto& v : m_ctxDraw ) assert( v.empty() );
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if( !visible ) return;
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const auto yMin = ctx.yMin;
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const auto yMax = ctx.yMax;
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const auto ty = ctx.ty;
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const auto sty = ctx.sty;
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const auto ostep = ty + 1;
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const auto sstep = sty + 1;
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bool hasCpuData = false;
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auto pos = yPos + ostep;
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#ifdef TRACY_NO_STATISTICS
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if( m_view.GetViewData().drawCpuUsageGraph )
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#else
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if( m_view.GetViewData().drawCpuUsageGraph && m_worker.IsCpuUsageReady() )
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#endif
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{
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#ifndef TRACY_NO_STATISTICS
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auto& ctxUsage = m_worker.GetCpuUsage();
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if( !ctxUsage.empty() )
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{
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hasCpuData = true;
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}
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else
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#endif
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{
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const auto cpuDataCount = m_worker.GetCpuDataCpuCount();
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const auto cpuData = m_worker.GetCpuData();
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for( int i=0; i<cpuDataCount; i++ )
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{
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if( !cpuData[i].cs.empty() )
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{
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hasCpuData = true;
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break;
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}
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}
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}
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if( hasCpuData )
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{
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const auto cpuUsageHeight = floor( 30.f * GetScale() );
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if( pos <= yMax && pos + cpuUsageHeight + 3 >= yMin )
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{
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td.Queue( [this, &ctx] {
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PreprocessCpuUsage( ctx );
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} );
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}
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pos += cpuUsageHeight + 3;
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}
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}
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m_hasCpuData = hasCpuData;
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auto cpuData = m_worker.GetCpuData();
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const auto cpuCnt = m_worker.GetCpuDataCpuCount();
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if( m_ctxDraw.size() != cpuCnt ) m_ctxDraw.resize( cpuCnt );
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for( int i=0; i<cpuCnt; i++ )
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{
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auto& cs = cpuData[i].cs;
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if( !cs.empty() && pos <= yMax && pos + sty >= yMin )
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{
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td.Queue( [this, &ctx, &cs, i] {
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PreprocessCpuCtxSwitches( ctx, cs, m_ctxDraw[i] );
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} );
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}
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pos += sstep;
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}
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}
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constexpr float MinVisSize = 3;
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void TimelineItemCpuData::PreprocessCpuCtxSwitches( const TimelineContext& ctx, const Vector<ContextSwitchCpu>& cs, std::vector<CpuCtxDraw>& out )
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{
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const auto vStart = ctx.vStart;
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const auto vEnd = ctx.vEnd;
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const auto nspx = ctx.nspx;
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auto it = std::lower_bound( cs.begin(), cs.end(), std::max<int64_t>( 0, vStart ), [] ( const auto& l, const auto& r ) { return ( l.IsEndValid() ? l.End() : l.Start() ) < r; } );
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if( it == cs.end() ) return;
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auto eit = std::lower_bound( it, cs.end(), vEnd, [] ( const auto& l, const auto& r ) { return l.Start() < r; } );
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if( it == eit ) return;
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const auto MinVisNs = int64_t( round( GetScale() * MinVisSize * nspx ) );
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while( it < eit )
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{
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const auto end = it->IsEndValid() ? it->End() : it->Start();
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const auto zsz = end - it->Start();
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if( zsz < MinVisNs )
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{
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auto nextTime = end + MinVisNs;
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auto next = it + 1;
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for(;;)
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{
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next = std::lower_bound( next, eit, nextTime, [] ( const auto& l, const auto& r ) { return ( l.IsEndValid() ? l.End() : l.Start() ) < r; } );
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if( next == eit ) break;
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auto prev = next - 1;
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const auto pt = prev->IsEndValid() ? prev->End() : prev->Start();
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const auto nt = next->IsEndValid() ? next->End() : next->Start();
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if( nt - pt >= MinVisNs ) break;
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nextTime = nt + MinVisNs;
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}
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out.emplace_back( CpuCtxDraw { uint32_t( it - cs.begin() ), uint32_t( next - it ) } );
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it = next;
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}
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else
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{
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out.emplace_back( CpuCtxDraw { uint32_t( it - cs.begin() ), 0 } );
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++it;
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}
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}
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}
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void TimelineItemCpuData::PreprocessCpuUsage( const TimelineContext& ctx )
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{
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const auto vStart = ctx.vStart;
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const auto nspx = ctx.nspx;
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const auto w = ctx.w;
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const auto num = size_t( w );
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if( vStart > m_worker.GetLastTime() || int64_t( vStart + nspx * num ) < 0 ) return;
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const auto lastTime = m_worker.GetLastTime();
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#ifndef TRACY_NO_STATISTICS
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auto& ctxUsage = m_worker.GetCpuUsage();
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if( !ctxUsage.empty() )
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{
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auto itBegin = ctxUsage.begin();
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for( size_t i=0; i<num; i++ )
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{
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const auto time = int64_t( vStart + nspx * i );
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if( time > lastTime ) return;
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if( time < 0 )
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{
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m_cpuDraw.emplace_back( CpuUsageDraw { 0, 0 } );
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}
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else
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{
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const auto test = ( time << 16 ) | 0xFFFF;
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auto it = std::upper_bound( itBegin, ctxUsage.end(), test, [] ( const auto& l, const auto& r ) { return l < r._time_other_own; } );
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if( it == ctxUsage.end() ) return;
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if( it == ctxUsage.begin() )
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{
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m_cpuDraw.emplace_back( CpuUsageDraw { 0, 0 } );
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}
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else
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{
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--it;
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m_cpuDraw.emplace_back( CpuUsageDraw { it->Own(), it->Other() } );
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}
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itBegin = it;
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}
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}
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}
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else
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#endif
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{
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m_cpuDraw.resize( num );
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memset( m_cpuDraw.data(), 0, sizeof( CpuUsageDraw ) * num );
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const auto pid = m_worker.GetPid();
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const auto cpuDataCount = m_worker.GetCpuDataCpuCount();
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const auto cpuData = m_worker.GetCpuData();
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for( int i=0; i<cpuDataCount; i++ )
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{
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auto& cs = cpuData[i].cs;
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if( !cs.empty() )
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{
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auto itBegin = cs.begin();
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auto ptr = m_cpuDraw.data();
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for( size_t i=0; i<num; i++ )
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{
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const auto time = int64_t( vStart + nspx * i );
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if( time > lastTime ) break;
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if( time >= 0 )
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{
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auto it = std::lower_bound( itBegin, cs.end(), time, [] ( const auto& l, const auto& r ) { return (uint64_t)l.End() < (uint64_t)r; } );
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if( it == cs.end() ) break;
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if( it->IsEndValid() && it->Start() <= time )
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{
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if( m_worker.GetPidFromTid( m_worker.DecompressThreadExternal( it->Thread() ) ) == pid )
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{
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ptr->own++;
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}
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else
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{
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ptr->other++;
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}
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}
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itBegin = it;
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}
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ptr++;
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}
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}
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}
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}
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}
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}
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