#include #include "TracyColor.hpp" #include "TracyImGui.hpp" #include "TracyMouse.hpp" #include "TracyPrint.hpp" #include "TracyTimelineDraw.hpp" #include "TracyTimelineItem.hpp" #include "TracyTimelineContext.hpp" #include "TracyView.hpp" constexpr float MinVisSize = 3; namespace tracy { bool View::DrawCpuData( const TimelineContext& ctx, const std::vector& cpuDraw, const std::vector>& ctxDraw, int& offset, bool hasCpuData ) { auto cpuData = m_worker.GetCpuData(); const auto cpuCnt = m_worker.GetCpuDataCpuCount(); assert( cpuCnt != 0 ); const auto& wpos = ctx.wpos; const auto w = ctx.w; const auto ty = ctx.ty; const auto sty = ctx.sty; const auto pxns = ctx.pxns; const auto nspx = ctx.nspx; const auto dpos = wpos + ImVec2( 0.5f, 0.5f ); const auto yMin = ctx.yMin; const auto yMax = ctx.yMax; const auto hover = ctx.hover; const auto vStart = ctx.vStart; auto draw = ImGui::GetWindowDrawList(); if( hasCpuData && m_vd.drawCpuUsageGraph ) { const auto cpuUsageHeight = floor( 30.f * GetScale() ); if( wpos.y + offset + cpuUsageHeight + 3 >= yMin && wpos.y + offset <= yMax ) { const float cpuCntRev = 1.f / cpuCnt; int pos = 0; for( auto& v : cpuDraw ) { float base; if( v.own != 0 ) { base = dpos.y + offset + ( 1.f - v.own * cpuCntRev ) * cpuUsageHeight; DrawLine( draw, ImVec2( dpos.x + pos, dpos.y + offset + cpuUsageHeight ), ImVec2( dpos.x + pos, base ), 0xFF55BB55 ); } else { base = dpos.y + offset + cpuUsageHeight; } if( v.other != 0 ) { int usageTotal = v.own + v.other; DrawLine( draw, ImVec2( dpos.x + pos, base ), ImVec2( dpos.x + pos, dpos.y + offset + ( 1.f - usageTotal * cpuCntRev ) * cpuUsageHeight ), 0xFF666666 ); } pos++; } DrawLine( draw, dpos + ImVec2( 0, offset+cpuUsageHeight+2 ), dpos + ImVec2( w, offset+cpuUsageHeight+2 ), 0x22DD88DD ); if( hover && ImGui::IsMouseHoveringRect( ImVec2( wpos.x, wpos.y + offset ), ImVec2( wpos.x + w, wpos.y + offset + cpuUsageHeight ), true ) ) { ImGui::BeginTooltip(); if( cpuDraw.size() > ( ImGui::GetIO().MousePos.x - wpos.x ) ) { const auto& usage = cpuDraw[ImGui::GetIO().MousePos.x - wpos.x]; TextFocused( "Cores used by profiled program:", RealToString( usage.own ) ); ImGui::SameLine(); char buf[64]; PrintStringPercent( buf, usage.own * cpuCntRev * 100 ); TextDisabledUnformatted( buf ); TextFocused( "Cores used by other programs:", RealToString( usage.other ) ); ImGui::SameLine(); PrintStringPercent( buf, usage.other * cpuCntRev * 100 ); TextDisabledUnformatted( buf ); TextFocused( "Number of cores:", RealToString( cpuCnt ) ); if( usage.own + usage.other != 0 ) { const auto mt = m_vd.zvStart + ( ImGui::GetIO().MousePos.x - wpos.x ) * nspx; ImGui::Separator(); for( int i=0; iStart() <= mt && it->End() >= mt ) { auto tt = m_worker.GetThreadTopology( i ); if( tt ) { ImGui::TextDisabled( "[%i:%i] CPU %i:", tt->package, tt->core, i ); } else { ImGui::TextDisabled( "CPU %i:", i ); } ImGui::SameLine(); const auto thread = m_worker.DecompressThreadExternal( it->Thread() ); bool local, untracked; const char* txt; auto label = GetThreadContextData( thread, local, untracked, txt ); if( local || untracked ) { uint32_t color; if( m_vd.dynamicColors != 0 ) { color = local ? GetThreadColor( thread, 0 ) : ( untracked ? 0xFF663333 : 0xFF444444 ); } else { color = local ? 0xFF334488 : ( untracked ? 0xFF663333 : 0xFF444444 ); } TextColoredUnformatted( HighlightColor<75>( color ), label ); ImGui::SameLine(); ImGui::TextDisabled( "(%s)", RealToString( thread ) ); } else { TextDisabledUnformatted( label ); } } } } } } else { TextFocused( "Cores used by profiled program:", "0" ); TextFocused( "Cores used by other programs:", "0" ); TextFocused( "Number of cores:", RealToString( cpuCnt ) ); } ImGui::EndTooltip(); } } offset += cpuUsageHeight + 3; } ImGui::PushFont( m_smallFont ); const auto sstep = sty + 1; const auto origOffset = offset; for( int i=0; i= yMin && wpos.y + offset <= yMax ) { auto& cs = cpuData[i].cs; for( auto& v : ctxDraw[i] ) { const auto& ev = cs[v.idx]; const auto t0 = ev.Start(); const auto px0 = ( t0 - vStart ) * pxns; if( v.num > 0 ) { const auto& eev = cs[v.idx + v.num - 1]; const auto t1 = eev.IsEndValid() ? eev.End() : eev.Start(); const auto px1 = ( t1 - vStart ) * pxns; DrawZigZag( draw, wpos + ImVec2( 0, offset + sty/2 ), std::max( px0, -10.0 ), std::min( std::max( px1, px0+MinVisSize ), double( w + 10 ) ), sty/4, 0xFF888888 ); if( hover && ImGui::IsMouseHoveringRect( wpos + ImVec2( px0, offset-1 ), wpos + ImVec2( std::max( px1, px0+MinVisSize ), offset + sty ) ) ) { ImGui::PopFont(); ImGui::BeginTooltip(); TextFocused( "CPU:", RealToString( i ) ); if( tt ) { ImGui::SameLine(); ImGui::Spacing(); ImGui::SameLine(); TextFocused( "Package:", RealToString( tt->package ) ); ImGui::SameLine(); TextFocused( "Core:", RealToString( tt->core ) ); } TextFocused( "Context switch regions:", RealToString( v.num ) ); ImGui::Separator(); TextFocused( "Start time:", TimeToString( t0 ) ); TextFocused( "End time:", TimeToString( t1 ) ); TextFocused( "Activity time:", TimeToString( t1 - t0 ) ); ImGui::EndTooltip(); ImGui::PushFont( m_smallFont ); if( IsMouseClicked( 2 ) ) { ZoomToRange( t0, t1 ); } } } else { const auto end = ev.IsEndValid() ? ev.End() : ev.Start(); const auto px1 = ( end - vStart ) * pxns; const auto thread = m_worker.DecompressThreadExternal( ev.Thread() ); bool local, untracked; const char* txt; auto label = GetThreadContextData( thread, local, untracked, txt ); uint32_t color; if( m_vd.dynamicColors != 0 ) { color = local ? GetThreadColor( thread, 0 ) : ( untracked ? 0xFF663333 : 0xFF444444 ); } else { color = local ? 0xFF334488 : ( untracked ? 0xFF663333 : 0xFF444444 ); } draw->AddRectFilled( wpos + ImVec2( px0, offset ), wpos + ImVec2( px1, offset + sty ), color ); if( m_drawThreadHighlight == thread ) { draw->AddRect( wpos + ImVec2( px0, offset ), wpos + ImVec2( px1, offset + sty ), 0xFFFFFFFF ); } else { const auto accentColor = HighlightColor( color ); const auto darkColor = DarkenColor( color ); DrawLine( draw, dpos + ImVec2( px0, offset + sty ), dpos + ImVec2( px0, offset ), dpos + ImVec2( px1-1, offset ), accentColor, 1.f ); DrawLine( draw, dpos + ImVec2( px0, offset + sty ), dpos + ImVec2( px1-1, offset + sty ), dpos + ImVec2( px1-1, offset ), darkColor, 1.f ); } const auto zsz = px1 - px0; auto tsz = ImGui::CalcTextSize( label ); if( tsz.x < zsz ) { const auto x = ( ev.Start() - m_vd.zvStart ) * pxns + ( ( end - ev.Start() ) * pxns - tsz.x ) / 2; if( x < 0 || x > w - tsz.x ) { ImGui::PushClipRect( wpos + ImVec2( px0, offset ), wpos + ImVec2( px1, offset + tsz.y * 2 ), true ); DrawTextContrast( draw, wpos + ImVec2( std::max( std::max( 0., px0 ), std::min( double( w - tsz.x ), x ) ), offset-1 ), local ? 0xFFFFFFFF : 0xAAFFFFFF, label ); ImGui::PopClipRect(); } else if( ev.Start() == ev.End() ) { DrawTextContrast( draw, wpos + ImVec2( px0 + ( px1 - px0 - tsz.x ) * 0.5, offset-1 ), local ? 0xFFFFFFFF : 0xAAFFFFFF, label ); } else { DrawTextContrast( draw, wpos + ImVec2( x, offset-1 ), local ? 0xFFFFFFFF : 0xAAFFFFFF, label ); } } else { ImGui::PushClipRect( wpos + ImVec2( px0, offset ), wpos + ImVec2( px1, offset + tsz.y * 2 ), true ); DrawTextContrast( draw, wpos + ImVec2( ( ev.Start() - vStart ) * pxns, offset-1 ), local ? 0xFFFFFFFF : 0xAAFFFFFF, label ); ImGui::PopClipRect(); } if( hover && ImGui::IsMouseHoveringRect( wpos + ImVec2( px0, offset-1 ), wpos + ImVec2( px1, offset + sty ) ) ) { m_drawThreadHighlight = thread; ImGui::PopFont(); ImGui::BeginTooltip(); TextFocused( "CPU:", RealToString( i ) ); if( tt ) { ImGui::SameLine(); ImGui::Spacing(); ImGui::SameLine(); TextFocused( "Package:", RealToString( tt->package ) ); ImGui::SameLine(); TextFocused( "Core:", RealToString( tt->core ) ); } if( local ) { TextFocused( "Program:", m_worker.GetCaptureProgram().c_str() ); ImGui::SameLine(); TextDisabledUnformatted( "(profiled program)" ); SmallColorBox( GetThreadColor( thread, 0 ) ); ImGui::SameLine(); TextFocused( "Thread:", m_worker.GetThreadName( thread ) ); ImGui::SameLine(); ImGui::TextDisabled( "(%s)", RealToString( thread ) ); m_drawThreadMigrations = thread; m_cpuDataThread = thread; } else { if( untracked ) { TextFocused( "Program:", m_worker.GetCaptureProgram().c_str() ); } else { TextFocused( "Program:", txt ); } ImGui::SameLine(); if( untracked ) { TextDisabledUnformatted( "(untracked thread in profiled program)" ); } else { TextDisabledUnformatted( "(external)" ); } TextFocused( "Thread:", m_worker.GetExternalName( thread ).second ); ImGui::SameLine(); ImGui::TextDisabled( "(%s)", RealToString( thread ) ); } ImGui::Separator(); TextFocused( "Start time:", TimeToStringExact( ev.Start() ) ); TextFocused( "End time:", TimeToStringExact( end ) ); TextFocused( "Activity time:", TimeToString( end - ev.Start() ) ); ImGui::EndTooltip(); ImGui::PushFont( m_smallFont ); if( local && IsMouseClicked( 0 ) ) { auto& item = m_tc.GetItem( m_worker.GetThreadData( thread ) ); item.SetVisible( true ); item.SetShowFull( true ); } if( IsMouseClicked( 2 ) ) { ZoomToRange( ev.Start(), end ); } } } } } char buf[64]; if( tt ) { sprintf( buf, "[%i:%i] CPU %i", tt->package, tt->core, i ); } else { sprintf( buf, "CPU %i", i ); } const auto txtx = ImGui::CalcTextSize( buf ).x; DrawTextSuperContrast( draw, wpos + ImVec2( ty, offset-1 ), 0xFFDD88DD, buf ); if( hover && ImGui::IsMouseHoveringRect( wpos + ImVec2( 0, offset-1 ), wpos + ImVec2( sty + txtx, offset + sty ) ) ) { ImGui::PopFont(); ImGui::BeginTooltip(); TextFocused( "CPU:", RealToString( i ) ); if( tt ) { ImGui::SameLine(); ImGui::Spacing(); ImGui::SameLine(); TextFocused( "Package:", RealToString( tt->package ) ); ImGui::SameLine(); TextFocused( "Core:", RealToString( tt->core ) ); } TextFocused( "Context switch regions:", RealToString( cpuData[i].cs.size() ) ); ImGui::EndTooltip(); ImGui::PushFont( m_smallFont ); } offset += sstep; } if( m_drawThreadMigrations != 0 ) { auto ctxSwitch = m_worker.GetContextSwitchData( m_drawThreadMigrations ); if( ctxSwitch ) { const auto color = HighlightColor( GetThreadColor( m_drawThreadMigrations, -8 ) ); auto& v = ctxSwitch->v; auto it = std::lower_bound( v.begin(), v.end(), m_vd.zvStart, [] ( const auto& l, const auto& r ) { return l.End() < r; } ); if( it != v.begin() ) --it; auto end = std::lower_bound( it, v.end(), m_vd.zvEnd, [] ( const auto& l, const auto& r ) { return l.Start() < r; } ); if( end == v.end() ) --end; const auto bgSize = GetScale() * 4.f; const auto lnSize = GetScale() * 2.f; while( it < end ) { const auto t0 = it->End(); const auto cpu0 = it->Cpu(); ++it; const auto t1 = it->Start(); const auto cpu1 = it->Cpu(); const auto px0 = ( t0 - m_vd.zvStart ) * pxns; const auto px1 = ( t1 - m_vd.zvStart ) * pxns; if( px1 - px0 < 2 ) { DrawLine( draw, dpos + ImVec2( px0, origOffset + sty * 0.5f + cpu0 * sstep ), dpos + ImVec2( px1, origOffset + sty * 0.5f + cpu1 * sstep ), color ); } else { DrawLine( draw, dpos + ImVec2( px0, origOffset + sty * 0.5f + cpu0 * sstep ), dpos + ImVec2( px1, origOffset + sty * 0.5f + cpu1 * sstep ), 0xFF000000, bgSize ); DrawLine( draw, dpos + ImVec2( px0, origOffset + sty * 0.5f + cpu0 * sstep ), dpos + ImVec2( px1, origOffset + sty * 0.5f + cpu1 * sstep ), color, lnSize ); } } } } ImGui::PopFont(); return true; } void View::DrawCpuDataWindow() { const auto scale = GetScale(); ImGui::SetNextWindowSize( ImVec2( 700 * scale, 800 * scale ), ImGuiCond_FirstUseEver ); ImGui::Begin( "CPU data", &m_showCpuDataWindow ); if( ImGui::GetCurrentWindowRead()->SkipItems ) { ImGui::End(); return; } struct PidData { std::vector tids; CpuThreadData data; }; const auto& ctd = m_worker.GetCpuThreadData(); unordered_flat_map pids; for( auto& v : ctd ) { uint64_t pid = m_worker.GetPidFromTid( v.first ); auto it = pids.find( pid ); if( it == pids.end() ) { it = pids.emplace( pid, PidData {} ).first; } it->second.tids.emplace_back( v.first ); it->second.data.runningTime += v.second.runningTime; it->second.data.runningRegions += v.second.runningRegions; it->second.data.migrations += v.second.migrations; } TextFocused( "Tracked threads:", RealToString( ctd.size() ) ); ImGui::SameLine(); TextFocused( "Tracked processes:", RealToString( pids.size() ) ); ImGui::Separator(); ImGui::BeginChild( "##cpudata" ); if( ImGui::BeginTable( "##cpudata", 5, ImGuiTableFlags_Resizable | ImGuiTableFlags_Reorderable | ImGuiTableFlags_Hideable | ImGuiTableFlags_Sortable | ImGuiTableFlags_BordersInnerV | ImGuiTableFlags_ScrollY ) ) { ImGui::TableSetupScrollFreeze( 0, 1 ); ImGui::TableSetupColumn( "PID/TID", ImGuiTableColumnFlags_WidthFixed | ImGuiTableColumnFlags_NoResize ); ImGui::TableSetupColumn( "Name" ); ImGui::TableSetupColumn( "Running time", ImGuiTableColumnFlags_PreferSortDescending ); ImGui::TableSetupColumn( "Slices", ImGuiTableColumnFlags_PreferSortDescending | ImGuiTableColumnFlags_WidthFixed | ImGuiTableColumnFlags_NoResize ); ImGui::TableSetupColumn( "Core jumps", ImGuiTableColumnFlags_PreferSortDescending | ImGuiTableColumnFlags_WidthFixed | ImGuiTableColumnFlags_NoResize ); ImGui::TableHeadersRow(); std::vector::iterator> psort; psort.reserve( pids.size() ); for( auto it = pids.begin(); it != pids.end(); ++it ) psort.emplace_back( it ); const auto& sortspec = *ImGui::TableGetSortSpecs()->Specs; switch( sortspec.ColumnIndex ) { case 0: if( sortspec.SortDirection == ImGuiSortDirection_Descending ) { pdqsort_branchless( psort.begin(), psort.end(), [] ( const auto& l, const auto& r ) { return l->first > r->first; } ); } else { pdqsort_branchless( psort.begin(), psort.end(), [] ( const auto& l, const auto& r ) { return l->first < r->first; } ); } break; case 1: if( sortspec.SortDirection == ImGuiSortDirection_Descending ) { pdqsort_branchless( psort.begin(), psort.end(), [this] ( const auto& l, const auto& r ) { return strcmp( m_worker.GetExternalName( l->second.tids[0] ).first, m_worker.GetExternalName( r->second.tids[0] ).first ) > 0; } ); } else { pdqsort_branchless( psort.begin(), psort.end(), [this] ( const auto& l, const auto& r ) { return strcmp( m_worker.GetExternalName( l->second.tids[0] ).first, m_worker.GetExternalName( r->second.tids[0] ).first ) < 0; } ); } break; case 2: if( sortspec.SortDirection == ImGuiSortDirection_Descending ) { pdqsort_branchless( psort.begin(), psort.end(), [] ( const auto& l, const auto& r ) { return l->second.data.runningTime > r->second.data.runningTime; } ); } else { pdqsort_branchless( psort.begin(), psort.end(), [] ( const auto& l, const auto& r ) { return l->second.data.runningTime < r->second.data.runningTime; } ); } break; case 3: if( sortspec.SortDirection == ImGuiSortDirection_Descending ) { pdqsort_branchless( psort.begin(), psort.end(), [] ( const auto& l, const auto& r ) { return l->second.data.runningRegions > r->second.data.runningRegions; } ); } else { pdqsort_branchless( psort.begin(), psort.end(), [] ( const auto& l, const auto& r ) { return l->second.data.runningRegions < r->second.data.runningRegions; } ); } break; case 4: if( sortspec.SortDirection == ImGuiSortDirection_Descending ) { pdqsort_branchless( psort.begin(), psort.end(), [] ( const auto& l, const auto& r ) { return l->second.data.migrations > r->second.data.migrations; } ); } else { pdqsort_branchless( psort.begin(), psort.end(), [] ( const auto& l, const auto& r ) { return l->second.data.migrations < r->second.data.migrations; } ); } break; default: assert( false ); break; } const auto thisPid = m_worker.GetPid(); const auto rtimespan = 1.0 / ( m_worker.GetLastTime() - m_worker.GetFirstTime() ); const auto ty = ImGui::GetTextLineHeight(); auto& style = ImGui::GetStyle(); const auto framePaddingY = style.FramePadding.y; bool drawSeparator = false; for( auto& pidit : psort ) { ImGui::TableNextRow(); ImGui::TableNextColumn(); if( drawSeparator ) ImGui::Separator(); char buf[128]; auto& pid = *pidit; const auto pidMatch = thisPid != 0 && thisPid == pid.first; auto name = m_worker.GetExternalName( pid.second.tids[0] ).first; if( pidMatch ) { name = m_worker.GetCaptureProgram().c_str(); ImGui::PushStyleColor( ImGuiCol_Text, ImVec4( 0.2f, 1.0f, 0.2f, 1.0f ) ); } const auto pidtxt = pid.first == 0 ? "Unknown" : RealToString( pid.first ); const auto expand = ImGui::TreeNode( pidtxt ); if( ImGui::IsItemHovered() ) { if( pidMatch ) { m_drawThreadMigrations = pid.first; m_cpuDataThread = pid.first; } m_drawThreadHighlight = pid.first; } const auto tsz = pid.second.tids.size(); if( tsz > 1 ) { ImGui::SameLine(); ImGui::TextDisabled( "(%s)", RealToString( tsz ) ); } ImGui::TableNextColumn(); if( drawSeparator ) ImGui::Separator(); ImGui::TextUnformatted( pid.first == 0 ? "???" : name ); if( ImGui::IsItemHovered() ) { if( pidMatch ) { m_drawThreadMigrations = pid.first; m_cpuDataThread = pid.first; } m_drawThreadHighlight = pid.first; } ImGui::TableNextColumn(); if( drawSeparator ) ImGui::Separator(); PrintStringPercent( buf, TimeToString( pid.second.data.runningTime ), double( pid.second.data.runningTime ) * rtimespan * 100 ); style.FramePadding.y = 0; ImGui::ProgressBar( double( pid.second.data.runningTime ) * rtimespan, ImVec2( -1, ty ), buf ); style.FramePadding.y = framePaddingY; ImGui::TableNextColumn(); if( drawSeparator ) ImGui::Separator(); ImGui::TextUnformatted( RealToString( pid.second.data.runningRegions ) ); ImGui::TableNextColumn(); if( drawSeparator ) { drawSeparator = false; ImGui::Separator(); } ImGui::TextUnformatted( RealToString( pid.second.data.migrations ) ); ImGui::SameLine(); PrintStringPercent( buf, double( pid.second.data.migrations ) / pid.second.data.runningRegions * 100 ); TextDisabledUnformatted( buf ); if( expand ) { switch( sortspec.ColumnIndex ) { case 0: if( sortspec.SortDirection == ImGuiSortDirection_Descending ) { pdqsort_branchless( pid.second.tids.begin(), pid.second.tids.end(), []( const auto& l, const auto& r ) { return l > r; } ); } else { pdqsort_branchless( pid.second.tids.begin(), pid.second.tids.end() ); } break; case 1: if( sortspec.SortDirection == ImGuiSortDirection_Descending ) { pdqsort_branchless( pid.second.tids.begin(), pid.second.tids.end(), [this] ( const auto& l, const auto& r ) { return strcmp( m_worker.GetExternalName( l ).second, m_worker.GetExternalName( r ).second ) > 0; } ); } else { pdqsort_branchless( pid.second.tids.begin(), pid.second.tids.end(), [this] ( const auto& l, const auto& r ) { return strcmp( m_worker.GetExternalName( l ).second, m_worker.GetExternalName( r ).second ) < 0; } ); } break; case 2: if( sortspec.SortDirection == ImGuiSortDirection_Descending ) { pdqsort_branchless( pid.second.tids.begin(), pid.second.tids.end(), [&ctd] ( const auto& l, const auto& r ) { return ctd.find( l )->second.runningTime > ctd.find( r )->second.runningTime; } ); } else { pdqsort_branchless( pid.second.tids.begin(), pid.second.tids.end(), [&ctd] ( const auto& l, const auto& r ) { return ctd.find( l )->second.runningTime < ctd.find( r )->second.runningTime; } ); } break; case 3: if( sortspec.SortDirection == ImGuiSortDirection_Descending ) { pdqsort_branchless( pid.second.tids.begin(), pid.second.tids.end(), [&ctd] ( const auto& l, const auto& r ) { return ctd.find( l )->second.runningRegions > ctd.find( r )->second.runningRegions; } ); } else { pdqsort_branchless( pid.second.tids.begin(), pid.second.tids.end(), [&ctd] ( const auto& l, const auto& r ) { return ctd.find( l )->second.runningRegions < ctd.find( r )->second.runningRegions; } ); } break; case 4: if( sortspec.SortDirection == ImGuiSortDirection_Descending ) { pdqsort_branchless( pid.second.tids.begin(), pid.second.tids.end(), [&ctd] ( const auto& l, const auto& r ) { return ctd.find( l )->second.migrations > ctd.find( r )->second.migrations; } ); } else { pdqsort_branchless( pid.second.tids.begin(), pid.second.tids.end(), [&ctd] ( const auto& l, const auto& r ) { return ctd.find( l )->second.migrations < ctd.find( r )->second.migrations; } ); } break; default: assert( false ); break; } drawSeparator = true; for( auto& tid : pid.second.tids ) { ImGui::TableNextRow(); ImGui::TableNextColumn(); if( drawSeparator ) ImGui::Separator(); const auto tidMatch = pidMatch && m_worker.IsThreadLocal( tid ); const char* tname; if( tidMatch ) { tname = m_worker.GetThreadName( tid ); ImGui::PushStyleColor( ImGuiCol_Text, ImVec4( 1.0f, 1.0f, 0.2f, 1.0f ) ); } else { tname = m_worker.GetExternalName( tid ).second; } const auto& tit = ctd.find( tid ); assert( tit != ctd.end() ); ImGui::TextUnformatted( RealToString( tid ) ); if( ImGui::IsItemHovered() ) { if( tidMatch ) { m_drawThreadMigrations = tid; m_cpuDataThread = tid; } m_drawThreadHighlight = tid; } ImGui::TableNextColumn(); if( drawSeparator ) ImGui::Separator(); if( tidMatch ) { SmallColorBox( GetThreadColor( tid, 0 ) ); ImGui::SameLine(); } ImGui::TextUnformatted( tname ); if( ImGui::IsItemHovered() ) { if( tidMatch ) { m_drawThreadMigrations = tid; m_cpuDataThread = tid; } m_drawThreadHighlight = tid; } ImGui::TableNextColumn(); if( drawSeparator ) ImGui::Separator(); PrintStringPercent( buf, TimeToString( tit->second.runningTime ), double( tit->second.runningTime ) * rtimespan * 100 ); style.FramePadding.y = 0; ImGui::ProgressBar( double( tit->second.runningTime ) * rtimespan, ImVec2( -1, ty ), buf ); style.FramePadding.y = framePaddingY; ImGui::TableNextColumn(); if( drawSeparator ) ImGui::Separator(); ImGui::TextUnformatted( RealToString( tit->second.runningRegions ) ); ImGui::TableNextColumn(); if( drawSeparator ) { drawSeparator = false; ImGui::Separator(); } ImGui::TextUnformatted( RealToString( tit->second.migrations ) ); ImGui::SameLine(); PrintStringPercent( buf, double( tit->second.migrations ) / tit->second.runningRegions * 100 ); TextDisabledUnformatted( buf ); if( tidMatch ) { ImGui::PopStyleColor(); } } ImGui::TreePop(); drawSeparator = true; } if( pidMatch ) { ImGui::PopStyleColor(); } } ImGui::EndTable(); } ImGui::EndChild(); ImGui::End(); } }