#include #include "TracyImGui.hpp" #include "TracyPrint.hpp" #include "TracyView.hpp" namespace tracy { extern double s_time; void View::DrawInfo() { const auto scale = GetScale(); ImGui::SetNextWindowSize( ImVec2( 400 * scale, 650 * scale ), ImGuiCond_FirstUseEver ); ImGui::Begin( "Trace information", &m_showInfo, ImGuiWindowFlags_NoScrollbar | ImGuiWindowFlags_NoScrollWithMouse ); if( ImGui::GetCurrentWindowRead()->SkipItems ) { ImGui::End(); return; } ImGui::PushFont( m_bigFont ); TextFocused( "Program:", m_worker.GetCaptureProgram().c_str() ); ImGui::PopFont(); const auto exectime = m_worker.GetExecutableTime(); if( exectime != 0 ) { char etmp[64]; time_t et = exectime; auto elt = localtime( &et ); strftime( etmp, 64, "%F %T", elt ); TextFocused( "Build time:", etmp ); } { char dtmp[64]; time_t date = m_worker.GetCaptureTime(); auto lt = localtime( &date ); strftime( dtmp, 64, "%F %T", lt ); TextFocused( "Capture time:", dtmp ); } if( !m_filename.empty() ) { TextFocused( "File:", m_filename.c_str() ); if( m_userData.Valid() ) { const auto save = m_userData.GetConfigLocation(); if( save ) { ImGui::SameLine(); if( ImGui::SmallButton( ICON_FA_FOLDER ) ) { ImGui::SetClipboardText( save ); } TooltipIfHovered( "Copy user settings location to clipboard." ); } } } { const auto& desc = m_userData.GetDescription(); const auto descsz = std::min( 255, desc.size() ); char buf[256]; buf[descsz] = '\0'; memcpy( buf, desc.c_str(), descsz ); ImGui::SetNextItemWidth( -1 ); if( ImGui::InputTextWithHint( "##traceDesc", "Enter description of the trace", buf, 256 ) ) { m_userData.SetDescription( buf ); } } ImGui::Separator(); ImGui::BeginChild( "##info" ); const auto ficnt = m_worker.GetFrameImageCount(); if( ImGui::TreeNode( "Trace statistics" ) ) { ImGui::TextDisabled( "Trace version:" ); ImGui::SameLine(); const auto version = m_worker.GetTraceVersion(); ImGui::Text( "%i.%i.%i", version >> 16, ( version >> 8 ) & 0xFF, version & 0xFF ); TextFocused( "Queue delay:", TimeToString( m_worker.GetDelay() ) ); TextFocused( "Timer resolution:", TimeToString( m_worker.GetResolution() ) ); TextFocused( "CPU zones:", RealToString( m_worker.GetZoneCount() ) ); ImGui::SameLine(); ImGui::Spacing(); ImGui::SameLine(); TextFocused( "Extra data:", RealToString( m_worker.GetZoneExtraCount() ) ); TooltipIfHovered( "Count of zones containing any of the following: call stack trace, custom name, user text" ); TextFocused( "GPU zones:", RealToString( m_worker.GetGpuZoneCount() ) ); TextFocused( "Lock events:", RealToString( m_worker.GetLockCount() ) ); TextFocused( "Plot data points:", RealToString( m_worker.GetPlotCount() ) ); TooltipIfHovered( "User plots" ); ImGui::SameLine(); TextFocused( "+", RealToString( m_worker.GetTracyPlotCount() ) ); TooltipIfHovered( "Automated Tracy plots" ); auto& memNameMap = m_worker.GetMemNameMap(); TextFocused( "Memory pools:", RealToString( memNameMap.size() ) ); uint64_t memTotalCnt = 0; for( auto v : memNameMap ) memTotalCnt += v.second->data.size(); TextFocused( "Memory allocations:", RealToString( memTotalCnt ) ); TextFocused( "Source locations:", RealToString( m_worker.GetSrcLocCount() ) ); TextFocused( "Strings:", RealToString( m_worker.GetStringsCount() ) ); TextFocused( "Symbols:", RealToString( m_worker.GetSymbolsCount() ) ); TextFocused( "Symbol code fragments:", RealToString( m_worker.GetSymbolCodeCount() ) ); TooltipIfHovered( MemSizeToString( m_worker.GetSymbolCodeSize() ) ); TextFocused( "Call stacks:", RealToString( m_worker.GetCallstackPayloadCount() ) ); if( m_worker.AreCallstackSamplesReady() ) { ImGui::SameLine(); TextFocused( "+", RealToString( m_worker.GetCallstackParentPayloadCount() ) ); TooltipIfHovered( "Parent call stacks for stack samples" ); } TextFocused( "Call stack frames:", RealToString( m_worker.GetCallstackFrameCount() ) ); if( m_worker.AreCallstackSamplesReady() ) { ImGui::SameLine(); TextFocused( "+", RealToString( m_worker.GetCallstackParentFrameCount() ) ); TooltipIfHovered( "Parent call stack frames for stack samples" ); } TextFocused( "Call stack samples:", RealToString( m_worker.GetCallstackSampleCount() ) ); TextFocused( "Ghost zones:", RealToString( m_worker.GetGhostZonesCount() ) ); #ifndef TRACY_NO_STATISTICS TextFocused( "Child sample symbols:", RealToString( m_worker.GetChildSamplesCountSyms() ) ); if( ImGui::IsItemHovered() ) { ImGui::BeginTooltip(); TextFocused( "Child samples:", RealToString( m_worker.GetChildSamplesCountFull() ) ); ImGui::EndTooltip(); } TextFocused( "Context switch samples:", RealToString( m_worker.GetContextSwitchSampleCount() ) ); #endif TextFocused( "Hardware samples:", RealToString( m_worker.GetHwSampleCount() ) ); if( ImGui::IsItemHovered() ) { ImGui::BeginTooltip(); TextFocused( "Unique addresses:", RealToString( m_worker.GetHwSampleCountAddress() ) ); ImGui::EndTooltip(); } TextFocused( "Frame images:", RealToString( ficnt ) ); if( ficnt != 0 && ImGui::IsItemHovered() ) { const auto bytes = m_worker.GetTextureCompressionBytes(); ImGui::BeginTooltip(); TextFocused( "Input data:", MemSizeToString( bytes.first ) ); TextFocused( "Compressed:", MemSizeToString( bytes.second ) ); char buf[64]; auto ptr = PrintFloat( buf, buf+62, 100. * bytes.second / bytes.first, 2 ); memcpy( ptr, "%", 2 ); TextFocused( "Ratio:", buf ); ImGui::EndTooltip(); } TextFocused( "Context switch regions:", RealToString( m_worker.GetContextSwitchCount() ) ); TooltipIfHovered( "Detailed context switch data regarding application threads" ); ImGui::SameLine(); TextFocused( "+", RealToString( m_worker.GetContextSwitchPerCpuCount() ) ); TooltipIfHovered( "Coarse CPU core context switch data" ); if( m_worker.GetSourceFileCacheCount() == 0 ) { TextFocused( "Source file cache:", "0" ); } else { ImGui::PushStyleColor( ImGuiCol_Text, GImGui->Style.Colors[ImGuiCol_TextDisabled] ); const bool expand = ImGui::TreeNode( "Source file cache:" ); ImGui::PopStyleColor(); ImGui::SameLine(); ImGui::TextUnformatted( RealToString( m_worker.GetSourceFileCacheCount() ) ); TooltipIfHovered( MemSizeToString( m_worker.GetSourceFileCacheSize() ) ); if( expand ) { auto& cache = m_worker.GetSourceFileCache(); std::vector vec; vec.reserve( cache.size() ); for( auto it = cache.begin(); it != cache.end(); ++it ) vec.emplace_back( it ); pdqsort_branchless( vec.begin(), vec.end(), []( const auto& lhs, const auto& rhs ) { return strcmp( lhs->first, rhs->first ) < 0; } ); for( auto& v : vec ) { ImGui::BulletText( "%s", v->first ); if( ImGui::IsItemClicked() ) ViewSource( v->first, 0 ); ImGui::SameLine(); ImGui::TextDisabled( "(%s)", MemSizeToString( v->second.len ) ); } ImGui::TreePop(); } } ImGui::TreePop(); } if( m_worker.AreFramesUsed() && ImGui::TreeNode( "Frame statistics" ) ) { auto fsz = m_worker.GetFullFrameCount( *m_frames ); if( fsz != 0 ) { TextFocused( "Frame set:", GetFrameSetName( *m_frames ) ); ImGui::SameLine(); ImGui::TextDisabled( "(%s)", m_frames->continuous ? "continuous" : "discontinuous" ); ImGui::SameLine(); ImGui::PushStyleVar( ImGuiStyleVar_FramePadding, ImVec2( 0, 0 ) ); if( ImGui::BeginCombo( "##frameCombo", nullptr, ImGuiComboFlags_NoPreview ) ) { auto& frames = m_worker.GetFrames(); for( auto& fd : frames ) { bool isSelected = m_frames == fd; if( ImGui::Selectable( GetFrameSetName( *fd ), isSelected ) ) { m_frames = fd; fsz = m_worker.GetFullFrameCount( *m_frames ); } if( isSelected ) { ImGui::SetItemDefaultFocus(); } ImGui::SameLine(); ImGui::TextDisabled( "(%s)", RealToString( fd->frames.size() ) ); } ImGui::EndCombo(); } ImGui::PopStyleVar(); ImGui::SameLine(); SmallCheckbox( "Limit to view", &m_frameSortData.limitToView ); if( m_frameSortData.limitToView ) { ImGui::SameLine(); TextColoredUnformatted( 0xFF00FFFF, ICON_FA_TRIANGLE_EXCLAMATION ); } const auto frameRange = m_worker.GetFrameRange( *m_frames, m_vd.zvStart, m_vd.zvEnd ); if( m_frameSortData.frameSet != m_frames || ( m_frameSortData.limitToView && m_frameSortData.limitRange != frameRange ) || ( !m_frameSortData.limitToView && m_frameSortData.limitRange.first != -1 ) ) { m_frameSortData.frameSet = m_frames; m_frameSortData.frameNum = 0; m_frameSortData.data.clear(); m_frameSortData.total = 0; } bool recalc = false; int64_t total = 0; if( !m_frameSortData.limitToView ) { if( m_frameSortData.frameNum != fsz || m_frameSortData.limitRange.first != -1 ) { auto& vec = m_frameSortData.data; vec.reserve( fsz ); const auto midSz = vec.size(); total = m_frameSortData.total; for( size_t i=m_frameSortData.frameNum; i 0 ) { vec.emplace_back( t ); total += t; } } auto mid = vec.begin() + midSz; pdqsort_branchless( mid, vec.end() ); std::inplace_merge( vec.begin(), mid, vec.end() ); recalc = true; m_frameSortData.limitRange.first = -1; } } else { if( m_frameSortData.limitRange != frameRange ) { auto& vec = m_frameSortData.data; assert( vec.empty() ); vec.reserve( frameRange.second - frameRange.first ); for( int i=frameRange.first; i 0 ) { vec.emplace_back( t ); total += t; } } pdqsort_branchless( vec.begin(), vec.end() ); recalc = true; m_frameSortData.limitRange = frameRange; } } if( recalc ) { auto& vec = m_frameSortData.data; const auto vsz = vec.size(); m_frameSortData.average = float( total ) / vsz; m_frameSortData.median = vec[vsz/2]; m_frameSortData.total = total; m_frameSortData.frameNum = fsz; } const auto profileSpan = m_worker.GetLastTime(); TextFocused( "Count:", RealToString( fsz ) ); TextFocused( "Total time:", TimeToString( m_frameSortData.total ) ); ImGui::SameLine(); ImGui::TextDisabled( "(%.2f%% of profile time span)", m_frameSortData.total / float( profileSpan ) * 100.f ); TextFocused( "Mean frame time:", TimeToString( m_frameSortData.average ) ); ImGui::SameLine(); ImGui::TextDisabled( "(%s FPS)", RealToString( round( 1000000000.0 / m_frameSortData.average ) ) ); if( ImGui::IsItemHovered() ) { ImGui::BeginTooltip(); ImGui::Text( "%s FPS", RealToString( 1000000000.0 / m_frameSortData.average ) ); ImGui::EndTooltip(); } TextFocused( "Median frame time:", TimeToString( m_frameSortData.median ) ); ImGui::SameLine(); ImGui::TextDisabled( "(%s FPS)", RealToString( round( 1000000000.0 / m_frameSortData.median ) ) ); if( ImGui::IsItemHovered() ) { ImGui::BeginTooltip(); ImGui::Text( "%s FPS", RealToString( 1000000000.0 / m_frameSortData.median ) ); ImGui::EndTooltip(); } if( ImGui::TreeNodeEx( "Histogram", ImGuiTreeNodeFlags_DefaultOpen ) ) { const auto ty = ImGui::GetTextLineHeight(); auto& frames = m_frameSortData.data; auto tmin = frames.front(); auto tmax = frames.back(); if( tmin != std::numeric_limits::max() ) { TextDisabledUnformatted( "Minimum values in bin:" ); ImGui::SameLine(); ImGui::SetNextItemWidth( ImGui::CalcTextSize( "123456890123456" ).x ); ImGui::PushStyleVar( ImGuiStyleVar_FramePadding, ImVec2( 1, 1 ) ); ImGui::InputInt( "##minBinVal", &m_frameSortData.minBinVal ); if( m_frameSortData.minBinVal < 1 ) m_frameSortData.minBinVal = 1; ImGui::SameLine(); if( ImGui::Button( "Reset" ) ) m_frameSortData.minBinVal = 1; ImGui::PopStyleVar(); SmallCheckbox( "Log values", &m_frameSortData.logVal ); ImGui::SameLine(); SmallCheckbox( "Log time", &m_frameSortData.logTime ); TextDisabledUnformatted( "FPS range:" ); ImGui::SameLine(); ImGui::Text( "%s FPS - %s FPS", RealToString( round( 1000000000.0 / tmin ) ), RealToString( round( 1000000000.0 / tmax ) ) ); if( tmax - tmin > 0 ) { const auto w = ImGui::GetContentRegionAvail().x; const auto numBins = int64_t( w - 4 ); if( numBins > 1 ) { if( numBins > m_frameSortData.numBins ) { m_frameSortData.numBins = numBins; m_frameSortData.bins = std::make_unique( numBins ); } const auto& bins = m_frameSortData.bins; memset( bins.get(), 0, sizeof( int64_t ) * numBins ); auto framesBegin = frames.begin(); auto framesEnd = frames.end(); while( framesBegin != framesEnd && *framesBegin == 0 ) ++framesBegin; if( m_frameSortData.minBinVal > 1 ) { if( m_frameSortData.logTime ) { const auto tMinLog = log10( tmin ); const auto zmax = ( log10( tmax ) - tMinLog ) / numBins; int64_t i; for( i=0; i= m_frameSortData.minBinVal ) break; framesBegin = nit; } for( int64_t j=numBins-1; j>i; j-- ) { const auto nextBinVal = int64_t( pow( 10.0, tMinLog + ( j-1 ) * zmax ) ); auto nit = std::lower_bound( framesBegin, framesEnd, nextBinVal ); const auto distance = std::distance( nit, framesEnd ); if( distance >= m_frameSortData.minBinVal ) break; framesEnd = nit; } } else { const auto zmax = tmax - tmin; int64_t i; for( i=0; i= m_frameSortData.minBinVal ) break; framesBegin = nit; } for( int64_t j=numBins-1; j>i; j-- ) { const auto nextBinVal = tmin + ( j-1 ) * zmax / numBins; auto nit = std::lower_bound( framesBegin, framesEnd, nextBinVal ); const auto distance = std::distance( nit, framesEnd ); if( distance >= m_frameSortData.minBinVal ) break; framesEnd = nit; } } tmin = *framesBegin; tmax = *(framesEnd-1); } if( m_frameSortData.logTime ) { const auto tMinLog = log10( tmin ); const auto zmax = ( log10( tmax ) - tMinLog ) / numBins; auto fit = framesBegin; for( int64_t i=0; iAddRectFilled( wpos, wpos + ImVec2( w, Height ), 0x22FFFFFF ); draw->AddRect( wpos, wpos + ImVec2( w, Height ), 0x88FFFFFF ); if( m_frameSortData.logVal ) { const auto hAdj = double( Height - 4 ) / log10( maxVal + 1 ); for( int i=0; i 0 ) { DrawLine( draw, dpos + ImVec2( 2+i, Height-3 ), dpos + ImVec2( 2+i, Height-3 - log10( val + 1 ) * hAdj ), 0xFF22DDDD ); } } } else { const auto hAdj = double( Height - 4 ) / maxVal; for( int i=0; i 0 ) { DrawLine( draw, dpos + ImVec2( 2+i, Height-3 ), dpos + ImVec2( 2+i, Height-3 - val * hAdj ), 0xFF22DDDD ); } } } const auto xoff = 2; const auto yoff = Height + 1; DrawHistogramMinMaxLabel( draw, tmin, tmax, wpos + ImVec2( 0, yoff ), w, ty ); const auto ty05 = round( ty * 0.5f ); const auto ty025 = round( ty * 0.25f ); if( m_frameSortData.logTime ) { const auto ltmin = log10( tmin ); const auto ltmax = log10( tmax ); const auto start = int( floor( ltmin ) ); const auto end = int( ceil( ltmax ) ); const auto range = ltmax - ltmin; const auto step = w / range; auto offset = start - ltmin; int tw = 0; int tx = 0; auto tt = int64_t( pow( 10, start ) ); static const double logticks[] = { log10( 2 ), log10( 3 ), log10( 4 ), log10( 5 ), log10( 6 ), log10( 7 ), log10( 8 ), log10( 9 ) }; for( int i=start; i<=end; i++ ) { const auto x = ( i - start + offset ) * step; if( x >= 0 ) { DrawLine( draw, dpos + ImVec2( x, yoff ), dpos + ImVec2( x, yoff + ty05 ), 0x66FFFFFF ); if( tw == 0 || x > tx + tw + ty * 1.1 ) { tx = x; auto txt = TimeToString( tt ); draw->AddText( wpos + ImVec2( x, yoff + ty05 ), 0x66FFFFFF, txt ); tw = ImGui::CalcTextSize( txt ).x; } } for( int j=0; j<8; j++ ) { const auto xoff = x + logticks[j] * step; if( xoff >= 0 ) { DrawLine( draw, dpos + ImVec2( xoff, yoff ), dpos + ImVec2( xoff, yoff + ty025 ), 0x66FFFFFF ); } } tt *= 10; } } else { const auto pxns = numBins / double( tmax - tmin ); const auto nspx = 1.0 / pxns; const auto scale = std::max( 0.0f, round( log10( nspx ) + 2 ) ); const auto step = pow( 10, scale ); const auto dx = step * pxns; double x = 0; int tw = 0; int tx = 0; const auto sstep = step / 10.0; const auto sdx = dx / 10.0; static const double linelen[] = { 0.5, 0.25, 0.25, 0.25, 0.25, 0.375, 0.25, 0.25, 0.25, 0.25 }; int64_t tt = int64_t( ceil( tmin / sstep ) * sstep ); const auto diff = tmin / sstep - int64_t( tmin / sstep ); const auto xo = ( diff == 0 ? 0 : ( ( 1 - diff ) * sstep * pxns ) ) + xoff; int iter = int( ceil( ( tmin - int64_t( tmin / step ) * step ) / sstep ) ); while( x < numBins ) { DrawLine( draw, dpos + ImVec2( xo + x, yoff ), dpos + ImVec2( xo + x, yoff + round( ty * linelen[iter] ) ), 0x66FFFFFF ); if( iter == 0 && ( tw == 0 || x > tx + tw + ty * 1.1 ) ) { tx = x; auto txt = TimeToString( tt ); draw->AddText( wpos + ImVec2( xo + x, yoff + ty05 ), 0x66FFFFFF, txt ); tw = ImGui::CalcTextSize( txt ).x; } iter = ( iter + 1 ) % 10; x += sdx; tt += sstep; } } if( m_frameSortData.drawAvgMed ) { float ta, tm; if( m_frameSortData.logTime ) { const auto ltmin = log10( tmin ); const auto ltmax = log10( tmax ); ta = ( log10( m_frameSortData.average ) - ltmin ) / float( ltmax - ltmin ) * numBins; tm = ( log10( m_frameSortData.median ) - ltmin ) / float( ltmax - ltmin ) * numBins; } else { ta = ( m_frameSortData.average - tmin ) / float( tmax - tmin ) * numBins; tm = ( m_frameSortData.median - tmin ) / float( tmax - tmin ) * numBins; } ta = round( ta ); tm = round( tm ); if( ta == tm ) { DrawLine( draw, ImVec2( dpos.x + ta, dpos.y ), ImVec2( dpos.x + ta, dpos.y+Height-2 ), 0xFFFF88FF ); } else { DrawLine( draw, ImVec2( dpos.x + ta, dpos.y ), ImVec2( dpos.x + ta, dpos.y+Height-2 ), 0xFF4444FF ); DrawLine( draw, ImVec2( dpos.x + tm, dpos.y ), ImVec2( dpos.x + tm, dpos.y+Height-2 ), 0xFFFF8844 ); } } if( hover && ImGui::IsMouseHoveringRect( wpos + ImVec2( 2, 2 ), wpos + ImVec2( w-2, Height + round( ty * 1.5 ) ) ) ) { const auto ltmin = log10( tmin ); const auto ltmax = log10( tmax ); auto& io = ImGui::GetIO(); DrawLine( draw, ImVec2( io.MousePos.x + 0.5f, dpos.y ), ImVec2( io.MousePos.x + 0.5f, dpos.y+Height-2 ), 0x33FFFFFF ); const auto bin = int64_t( io.MousePos.x - wpos.x - 2 ); int64_t t0, t1; if( m_frameSortData.logTime ) { t0 = int64_t( pow( 10, ltmin + double( bin ) / numBins * ( ltmax - ltmin ) ) ); // Hackfix for inability to select data in last bin. // A proper solution would be nice. if( bin+1 == numBins ) { t1 = tmax; } else { t1 = int64_t( pow( 10, ltmin + double( bin+1 ) / numBins * ( ltmax - ltmin ) ) ); } } else { t0 = int64_t( tmin + double( bin ) / numBins * ( tmax - tmin ) ); t1 = int64_t( tmin + double( bin+1 ) / numBins * ( tmax - tmin ) ); } ImGui::BeginTooltip(); TextDisabledUnformatted( "Time range:" ); ImGui::SameLine(); ImGui::Text( "%s - %s", TimeToString( t0 ), TimeToString( t1 ) ); ImGui::SameLine(); ImGui::TextDisabled( "(%s FPS - %s FPS)", RealToString( round( 1000000000.0 / t0 ) ), RealToString( round( 1000000000.0 / t1 ) ) ); TextFocused( "Count:", RealToString( bins[bin] ) ); ImGui::EndTooltip(); } if( m_frameHover != -1 ) { const auto frameTime = m_worker.GetFrameTime( *m_frames, m_frameHover ); float framePos; if( m_frameSortData.logTime ) { const auto ltmin = log10( tmin ); const auto ltmax = log10( tmax ); framePos = round( ( log10( frameTime ) - ltmin ) / float( ltmax - ltmin ) * numBins ); } else { framePos = round( ( frameTime - tmin ) / float( tmax - tmin ) * numBins ); } const auto c = uint32_t( ( sin( s_time * 10 ) * 0.25 + 0.75 ) * 255 ); const auto color = 0xFF000000 | ( c << 16 ) | ( c << 8 ) | c; DrawLine( draw, ImVec2( dpos.x + framePos, dpos.y ), ImVec2( dpos.x + framePos, dpos.y+Height-2 ), color ); m_wasActive = true; } } } } ImGui::TreePop(); } } ImGui::TreePop(); } auto& topology = m_worker.GetCpuTopology(); if( !topology.empty() ) { if( ImGui::TreeNode( "CPU topology" ) ) { char buf[128]; const auto ty = ImGui::GetFontSize(); ImGui::PushFont( m_smallFont ); const auto sty = ImGui::GetFontSize(); ImGui::PopFont(); const float margin = round( ty * 0.5 ); const float small = round( sty * 0.5 ); std::vector maxthreads( topology.size() ); float ptsz = 0; float ctsz = 0; float ttsz = 0; for( auto& package : topology ) { sprintf( buf, ICON_FA_BOX " Package %" PRIu32, package.first ); ImGui::PushFont( m_smallFont ); const auto psz = ImGui::CalcTextSize( buf ).x; if( psz > ptsz ) ptsz = psz; ImGui::PopFont(); size_t mt = 0; for( auto& core : package.second ) { sprintf( buf, ICON_FA_MICROCHIP "%" PRIu32, core.first ); const auto csz = ImGui::CalcTextSize( buf ).x; if( csz > ctsz ) ctsz = csz; const auto tnum = core.second.size(); if( tnum > mt ) mt = tnum; for( auto& thread : core.second ) { sprintf( buf, ICON_FA_SHUFFLE "%" PRIu32, thread ); const auto tsz = ImGui::CalcTextSize( buf ).x; if( tsz > ttsz ) ttsz = tsz; } } maxthreads[package.first] = (int)mt; } const auto remainingWidth = ImGui::GetContentRegionAvail().x; auto dpos = ImGui::GetCursorScreenPos() + ImVec2( margin, 0 ); const auto draw = ImGui::GetWindowDrawList(); float width = 0; float origy = dpos.y; std::vector tsort; tsort.reserve( topology.size() ); for( auto it = topology.begin(); it != topology.end(); ++it ) tsort.emplace_back( it ); std::sort( tsort.begin(), tsort.end(), [] ( const auto& l, const auto& r ) { return l->first < r->first; } ); for( auto& package : tsort ) { if( package->first != 0 ) dpos.y += ty; sprintf( buf, ICON_FA_BOX " Package %" PRIu32, package->first ); draw->AddText( dpos, 0xFFFFFFFF, buf ); dpos.y += ty; const auto inCoreWidth = ( ttsz + margin ) * maxthreads[package->first]; const auto coreWidth = inCoreWidth + 2 * margin; const auto inCoreHeight = margin + 2 * small + ty; const auto coreHeight = inCoreHeight + ty; const auto cpl = std::max( 1, (int)floor( ( remainingWidth - 2 * margin ) / coreWidth ) ); const auto cl = ( package->second.size() + cpl - 1 ) / cpl; const auto pw = cpl * coreWidth + 2 * margin; const auto ph = margin + cl * coreHeight; if( pw > width ) width = pw; draw->AddRect( dpos, dpos + ImVec2( margin + coreWidth * std::min( cpl, package->second.size() ), ph ), 0xFFFFFFFF ); std::vectorsecond.begin())> csort; csort.reserve( package->second.size() ); for( auto it = package->second.begin(); it != package->second.end(); ++it ) csort.emplace_back( it ); std::sort( csort.begin(), csort.end(), [] ( const auto& l, const auto& r ) { return l->first < r->first; } ); auto cpos = dpos + ImVec2( margin, margin ); int ll = cpl; for( auto& core : csort ) { sprintf( buf, ICON_FA_MICROCHIP "%" PRIu32, core->first ); draw->AddText( cpos, 0xFFFFFFFF, buf ); draw->AddRect( cpos + ImVec2( 0, ty ), cpos + ImVec2( inCoreWidth + small, inCoreHeight + small ), 0xFFFFFFFF ); for( int i=0; isecond.size(); i++ ) { sprintf( buf, ICON_FA_SHUFFLE "%" PRIu32, core->second[i] ); draw->AddText( cpos + ImVec2( margin + i * ( margin + ttsz ), ty + small ), 0xFFFFFFFF, buf ); } if( --ll == 0 ) { ll = cpl; cpos.x -= (cpl-1) * coreWidth; cpos.y += coreHeight; } else { cpos.x += coreWidth; } } dpos.y += ph; } ImGui::ItemSize( ImVec2( width, dpos.y - origy ) ); ImGui::TreePop(); } } if( ImGui::TreeNode( "Source location substitutions" ) ) { static char test[1024] = {}; ImGui::SetNextItemWidth( -1 ); ImGui::InputTextWithHint( "##srcSubstTest", "Enter example source location to test substitutions", test, 1024 ); if( m_sourceRegexValid ) { TextFocused( "Result:", SourceSubstitution( test ) ); } else { ImGui::TextColored( ImVec4( 255, 0, 0, 255 ), "Error in regular expression" ); } if( ImGui::SmallButton( "Add new substitution" ) ) m_sourceSubstitutions.emplace_back( SourceRegex {} ); int idx = 0, remove = -1; bool changed = false; ImGui::Columns( 2, nullptr, false ); for( auto& v : m_sourceSubstitutions ) { ImGui::PushID( idx ); if( ImGui::Button( ICON_FA_TRASH_CAN ) ) remove = idx; ImGui::SameLine(); char tmp[1024]; strncpy( tmp, v.pattern.c_str(), 1024 ); ImGui::SetNextItemWidth( -1 ); if( ImGui::InputTextWithHint( "##pattern", "Regex pattern", tmp, 1024 ) ) { v.pattern.assign( tmp ); changed = true; } ImGui::NextColumn(); strncpy( tmp, v.target.c_str(), 1024 ); ImGui::SetNextItemWidth( -1 ); if( ImGui::InputTextWithHint( "##replacement", "Regex replacement", tmp, 1024 ) ) v.target.assign( tmp ); ImGui::PopID(); ImGui::NextColumn(); idx++; } ImGui::EndColumns(); if( remove != -1 ) { m_sourceSubstitutions.erase( m_sourceSubstitutions.begin() + remove ); changed = true; } if( changed ) { bool regexValid = true; for( auto& v : m_sourceSubstitutions ) { try { v.regex.assign( v.pattern ); } catch( std::regex_error& ) { regexValid = false; break; } } m_sourceRegexValid = regexValid; } ImGui::TreePop(); } ImGui::Separator(); TextFocused( "PID:", RealToString( m_worker.GetPid() ) ); TextFocused( "Host info:", m_worker.GetHostInfo().c_str() ); const auto cpuId = m_worker.GetCpuId(); if( cpuId != 0 ) { const auto stepping = cpuId & 0xF; const auto baseModel = ( cpuId >> 4 ) & 0xF; const auto baseFamily = ( cpuId >> 8 ) & 0xF; const auto extModel = ( cpuId >> 12 ) & 0xF; const auto extFamily = ( cpuId >> 16 ); const uint32_t model = ( baseFamily == 6 || baseFamily == 15 ) ? ( ( extModel << 4 ) | baseModel ) : baseModel; const uint32_t family = baseFamily == 15 ? baseFamily + extFamily : baseFamily; TextFocused( "CPU:", m_worker.GetCpuManufacturer() ); ImGui::SameLine(); TextFocused( "Family", RealToString( family ) ); ImGui::SameLine(); TextFocused( "Model", RealToString( model ) ); ImGui::SameLine(); TextFocused( "Stepping", RealToString( stepping ) ); } auto& appInfo = m_worker.GetAppInfo(); if( !appInfo.empty() ) { ImGui::Separator(); TextDisabledUnformatted( "Application info:" ); for( auto& v : appInfo ) { ImGui::TextUnformatted( m_worker.GetString( v ) ); } } auto& crash = m_worker.GetCrashEvent(); if( crash.thread != 0 ) { ImGui::Separator(); TextColoredUnformatted( ImVec4( 1.f, 0.2f, 0.2f, 1.f ), ICON_FA_SKULL " Application has crashed. " ICON_FA_SKULL ); TextFocused( "Time of crash:", TimeToString( crash.time ) ); SmallColorBox( GetThreadColor( crash.thread, 0 ) ); ImGui::SameLine(); TextFocused( "Thread:", m_worker.GetThreadName( crash.thread ) ); ImGui::SameLine(); ImGui::TextDisabled( "(%s)", RealToString( crash.thread ) ); if( m_worker.IsThreadFiber( crash.thread ) ) { ImGui::SameLine(); TextColoredUnformatted( ImVec4( 0.2f, 0.6f, 0.2f, 1.f ), "Fiber" ); } TextDisabledUnformatted( "Reason:" ); ImGui::SameLine(); ImGui::TextWrapped( "%s", m_worker.GetString( crash.message ) ); if( ImGui::Button( ICON_FA_MICROSCOPE " Focus" ) ) { CenterAtTime( crash.time ); } if( crash.callstack != 0 ) { ImGui::SameLine(); bool hilite = m_callstackInfoWindow == crash.callstack; if( hilite ) { SetButtonHighlightColor(); } if( ImGui::Button( ICON_FA_ALIGN_JUSTIFY " Call stack" ) ) { m_callstackInfoWindow = crash.callstack; } if( hilite ) { ImGui::PopStyleColor( 3 ); } if( ImGui::IsItemHovered() ) { CallstackTooltip( crash.callstack ); } } } ImGui::EndChild(); ImGui::End(); } }