#include #include "TracyColor.hpp" #include "TracyPrint.hpp" #include "TracyUtility.hpp" #include "TracyWorker.hpp" namespace tracy { // Short list based on GetTypes() in TracySourceTokenizer.cpp constexpr const char* TypesList[] = { "bool ", "char ", "double ", "float ", "int ", "long ", "short ", "signed ", "unsigned ", "void ", "wchar_t ", "size_t ", "int8_t ", "int16_t ", "int32_t ", "int64_t ", "intptr_t ", "uint8_t ", "uint16_t ", "uint32_t ", "uint64_t ", "ptrdiff_t ", nullptr }; const char* ShortenZoneName( ShortenName type, const char* name, ImVec2& tsz, float zsz ) { assert( type != ShortenName::Never ); if( name[0] == '<' ) return name; if( type == ShortenName::Always ) zsz = 0; static char buf[64*1024]; char tmp[64*1024]; auto end = name; while( *end ) end++; auto ptr = name; auto dst = tmp; int cnt = 0; for(;;) { auto start = ptr; while( ptr < end && *ptr != '<' ) ptr++; memcpy( dst, start, ptr - start + 1 ); dst += ptr - start + 1; if( ptr == end ) break; cnt++; ptr++; while( cnt > 0 ) { if( ptr == end ) break; if( *ptr == '<' ) cnt++; else if( *ptr == '>' ) cnt--; ptr++; } *dst++ = '>'; } end = dst-1; ptr = tmp; dst = buf; cnt = 0; for(;;) { auto start = ptr; while( ptr < end && *ptr != '(' ) ptr++; memcpy( dst, start, ptr - start + 1 ); dst += ptr - start + 1; if( ptr == end ) break; cnt++; ptr++; while( cnt > 0 ) { if( ptr == end ) break; if( *ptr == '(' ) cnt++; else if( *ptr == ')' ) cnt--; ptr++; } *dst++ = ')'; } end = dst-1; if( end - buf > 6 && memcmp( end-6, " const", 6 ) == 0 ) { dst[-7] = '\0'; end -= 6; } ptr = buf; for(;;) { auto match = TypesList; while( *match ) { auto m = *match; auto p = ptr; while( *m ) { if( *m != *p ) break; m++; p++; } if( !*m ) { ptr = p; break; } match++; } if( !*match ) break; } tsz = ImGui::CalcTextSize( ptr, end ); if( type == ShortenName::OnlyNormalize || tsz.x < zsz ) return ptr; for(;;) { auto p = ptr; while( p < end && *p != ':' ) p++; if( p == end ) return ptr; p++; while( p < end && *p == ':' ) p++; ptr = p; tsz = ImGui::CalcTextSize( ptr, end ); if( tsz.x < zsz ) return ptr; } } void TooltipNormalizedName( const char* name, const char* normalized ) { if( ImGui::IsItemHovered() && normalized != name && strcmp( normalized, name ) != 0 ) { const auto scale = ImGui::GetTextLineHeight() / 15.f; if( ImGui::CalcTextSize( name ).x > 1400 * scale ) { ImGui::SetNextWindowSize( ImVec2( 1400 * scale, 0 ) ); ImGui::BeginTooltip(); ImGui::TextWrapped( "%s", name ); } else { ImGui::BeginTooltip(); ImGui::TextUnformatted( name ); } ImGui::EndTooltip(); } } uint32_t GetPlotColor( const PlotData& plot, const Worker& worker ) { switch( plot.type ) { case PlotType::User: if( plot.color != 0 ) return plot.color | 0xFF000000; return GetHsvColor( charutil::hash( worker.GetString( plot.name ) ), -10 ); case PlotType::Memory: return 0xFF2266CC; case PlotType::SysTime: return 0xFFBAB220; default: assert( false ); return 0; } } const char* FormatPlotValue( double val, PlotValueFormatting format ) { static char buf[64]; switch( format ) { case PlotValueFormatting::Number: return RealToString( val ); break; case PlotValueFormatting::Memory: return MemSizeToString( val ); break; case PlotValueFormatting::Percentage: sprintf( buf, "%.2f%%", val ); break; default: assert( false ); break; } return buf; } }