#ifdef _WIN32 # include #endif #include #include #include #include #include "json.hpp" #include "../../server/TracyFileWrite.hpp" #include "../../server/TracyWorker.hpp" using json = nlohmann::json; void Usage() { printf( "Usage: import-chrome input.json output.tracy\n\n" ); exit( 1 ); } int main( int argc, char** argv ) { #ifdef _WIN32 if( !AttachConsole( ATTACH_PARENT_PROCESS ) ) { AllocConsole(); SetConsoleMode( GetStdHandle( STD_OUTPUT_HANDLE ), 0x07 ); } #endif tracy::FileWrite::Compression clev = tracy::FileWrite::Compression::Fast; if( argc != 3 ) Usage(); const char* input = argv[1]; const char* output = argv[2]; printf( "Loading...\r" ); fflush( stdout ); std::ifstream is( input ); if( !is.is_open() ) { fprintf( stderr, "Cannot open input file!\n" ); exit( 1 ); } json j; is >> j; is.close(); printf( "\33[2KParsing...\r" ); fflush( stdout ); std::vector timeline; std::vector messages; if( j.is_object() && j.contains( "traceEvents" ) ) { j = j["traceEvents"]; } if( !j.is_array() ) { fprintf( stderr, "Input must be either an array of events or an object containing an array of events under \"traceEvents\" key.\n" ); exit( 1 ); } for( auto& v : j ) { const auto type = v["ph"].get(); if( type == "B" ) { timeline.emplace_back( tracy::Worker::ImportEventTimeline { v["tid"].get(), uint64_t( v["ts"].get() * 1000. ), v["name"].get(), false } ); } else if( type == "E" ) { timeline.emplace_back( tracy::Worker::ImportEventTimeline { v["tid"].get(), uint64_t( v["ts"].get() * 1000. ), "", true } ); } else if( type == "X" ) { const auto tid = v["tid"].get(); const auto ts0 = uint64_t( v["ts"].get() * 1000. ); const auto ts1 = v["dur"].is_object() ? ts0 + uint64_t( v["dur"].get() * 1000. ) : ts0; const auto name = v["name"].get(); timeline.emplace_back( tracy::Worker::ImportEventTimeline { tid, ts0, name, false } ); timeline.emplace_back( tracy::Worker::ImportEventTimeline { tid, ts1, "", true } ); } else if( type == "i" || type == "I" ) { messages.emplace_back( tracy::Worker::ImportEventMessages { v["tid"].get(), uint64_t( v["ts"].get() * 1000. ), v["name"].get() } ); } } std::stable_sort( timeline.begin(), timeline.end(), [] ( const auto& l, const auto& r ) { return l.timestamp < r.timestamp; } ); std::stable_sort( messages.begin(), messages.end(), [] ( const auto& l, const auto& r ) { return l.timestamp < r.timestamp; } ); uint64_t mts = 0; if( !timeline.empty() ) { mts = timeline[0].timestamp; } if( !messages.empty() ) { if( mts > messages[0].timestamp ) mts = messages[0].timestamp; } for( auto& v : timeline ) v.timestamp -= mts; for( auto& v : messages ) v.timestamp -= mts; printf( "\33[2KProcessing...\r" ); fflush( stdout ); auto program = input; while( *program ) program++; program--; while( program > input && ( *program != '/' || *program != '\\' ) ) program--; tracy::Worker worker( program, timeline, messages ); auto w = std::unique_ptr( tracy::FileWrite::Open( output, clev ) ); if( !w ) { fprintf( stderr, "Cannot open output file!\n" ); exit( 1 ); } printf( "\33[2KSaving...\r" ); fflush( stdout ); worker.Write( *w ); printf( "\33[2KCleanup...\n" ); fflush( stdout ); return 0; }