mirror of
https://github.com/wolfpld/tracy.git
synced 2024-11-10 10:41:50 +00:00
496 lines
14 KiB
C++
496 lines
14 KiB
C++
#ifdef TRACY_ENABLE
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#ifdef _MSC_VER
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# include <winsock2.h>
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# include <windows.h>
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#else
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# include <sys/time.h>
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#endif
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#ifdef _GNU_SOURCE
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# include <errno.h>
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#endif
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#include <atomic>
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#include <assert.h>
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#include <chrono>
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#include <limits>
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#include <memory>
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#include <string.h>
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#include "../common/TracyProtocol.hpp"
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#include "../common/TracySocket.hpp"
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#include "../common/TracySystem.hpp"
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#include "tracy_rpmalloc.hpp"
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#include "TracyScoped.hpp"
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#include "TracyProfiler.hpp"
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#include "TracyThread.hpp"
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#ifdef __GNUC__
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#define init_order( val ) __attribute__ ((init_priority(val)))
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#else
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#define init_order(x)
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#endif
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namespace tracy
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{
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struct RPMallocInit
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{
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RPMallocInit() { rpmalloc_initialize(); }
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};
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struct RPMallocThreadInit
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{
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RPMallocThreadInit() { rpmalloc_thread_initialize(); }
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};
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struct InitTimeWrapper
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{
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int64_t val;
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};
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static const char* GetProcessName()
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{
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#if defined _MSC_VER
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static char buf[_MAX_PATH];
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GetModuleFileNameA( nullptr, buf, _MAX_PATH );
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const char* ptr = buf;
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while( *ptr != '\0' ) ptr++;
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while( ptr > buf && *ptr != '\\' && *ptr != '/' ) ptr--;
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if( ptr > buf ) ptr++;
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return ptr;
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#elif defined _GNU_SOURCE
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return program_invocation_short_name;
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#else
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return "unknown";
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#endif
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}
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enum { QueuePrealloc = 256 * 1024 };
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// MSVC static initialization order solution. gcc/clang uses init_order() to avoid all this.
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static Profiler* s_instance = nullptr;
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static Thread* s_thread = nullptr;
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static unsigned int __dontcare_cpu;
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// 1a. But s_queue is needed for initialization of variables in point 2.
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extern moodycamel::ConcurrentQueue<QueueItem> s_queue;
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static thread_local RPMallocThreadInit init_order(106) s_rpmalloc_thread_init;
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// 2. If these variables would be in the .CRT$XCB section, they would be initialized only in main thread.
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static thread_local moodycamel::ProducerToken init_order(107) s_token_detail( s_queue );
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thread_local ProducerWrapper init_order(108) s_token { s_queue.get_explicit_producer( s_token_detail ) };
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#ifdef _MSC_VER
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// 1. Initialize these static variables before all other variables.
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# pragma warning( disable : 4075 )
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# pragma init_seg( ".CRT$XCB" )
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#endif
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static InitTimeWrapper init_order(101) s_initTime { Profiler::GetTime( __dontcare_cpu ) };
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static RPMallocInit init_order(102) s_rpmalloc_init;
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moodycamel::ConcurrentQueue<QueueItem> init_order(103) s_queue( QueuePrealloc );
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std::atomic<uint32_t> init_order(104) s_lockCounter( 0 );
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static Profiler init_order(105) s_profiler;
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Profiler::Profiler()
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: m_timeBegin( 0 )
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, m_mainThread( GetThreadHandle() )
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, m_epoch( std::chrono::duration_cast<std::chrono::seconds>( std::chrono::system_clock::now().time_since_epoch() ).count() )
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, m_shutdown( false )
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, m_sock( nullptr )
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, m_stream( LZ4_createStream() )
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, m_buffer( (char*)tracy_malloc( TargetFrameSize*3 ) )
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, m_bufferOffset( 0 )
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{
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assert( !s_instance );
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s_instance = this;
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#ifdef _MSC_VER
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// 3. But these variables need to be initialized in main thread within the .CRT$XCB section. Do it here.
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s_token_detail = moodycamel::ProducerToken( s_queue );
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s_token = ProducerWrapper { s_queue.get_explicit_producer( s_token_detail ) };
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#endif
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CalibrateTimer();
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CalibrateDelay();
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s_thread = (Thread*)tracy_malloc( sizeof( Thread ) );
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new(s_thread) Thread( LaunchWorker, this );
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SetThreadName( s_thread->Handle(), "Tracy Profiler" );
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uint32_t cpu;
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m_timeBegin.store( GetTime( cpu ), std::memory_order_relaxed );
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}
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Profiler::~Profiler()
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{
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m_shutdown.store( true, std::memory_order_relaxed );
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s_thread->~Thread();
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tracy_free( s_thread );
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tracy_free( m_buffer );
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LZ4_freeStream( m_stream );
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if( m_sock )
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{
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m_sock->~Socket();
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tracy_free( m_sock );
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}
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assert( s_instance );
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s_instance = nullptr;
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}
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bool Profiler::ShouldExit()
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{
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return s_instance->m_shutdown.load( std::memory_order_relaxed );
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}
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enum { BulkSize = TargetFrameSize / QueueItemSize };
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void Profiler::Worker()
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{
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rpmalloc_thread_initialize();
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const auto procname = GetProcessName();
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const auto pnsz = std::min<size_t>( strlen( procname ), WelcomeMessageProgramNameSize - 1 );
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while( m_timeBegin.load( std::memory_order_relaxed ) == 0 ) std::this_thread::sleep_for( std::chrono::milliseconds( 10 ) );
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WelcomeMessage welcome;
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#ifdef TRACY_DISABLE_LZ4
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// notify client that lz4 compression is disabled
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welcome.lz4 = 0;
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#else
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welcome.lz4 = 1;
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#endif
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welcome.timerMul = m_timerMul;
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welcome.initBegin = s_initTime.val;
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welcome.initEnd = m_timeBegin.load( std::memory_order_relaxed );
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welcome.delay = m_delay;
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welcome.resolution = m_resolution;
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welcome.epoch = m_epoch;
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memcpy( welcome.programName, procname, pnsz );
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memset( welcome.programName + pnsz, 0, WelcomeMessageProgramNameSize - pnsz );
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moodycamel::ConsumerToken token( s_queue );
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ListenSocket listen;
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listen.Listen( "8086", 8 );
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for(;;)
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{
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for(;;)
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{
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#ifndef TRACY_NO_EXIT
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if( ShouldExit() ) return;
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#endif
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m_sock = listen.Accept();
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if( m_sock ) break;
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}
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m_sock->Send( &welcome, sizeof( welcome ) );
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LZ4_resetStream( m_stream );
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for(;;)
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{
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const auto status = Dequeue( token );
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if( status == ConnectionLost )
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{
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break;
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}
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else if( status == QueueEmpty )
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{
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if( ShouldExit() ) break;
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std::this_thread::sleep_for( std::chrono::milliseconds( 10 ) );
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}
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while( m_sock->HasData() )
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{
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if( !HandleServerQuery() ) break;
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}
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}
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if( ShouldExit() ) break;
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}
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QueueItem terminate;
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terminate.hdr.type = QueueType::Terminate;
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if( !SendData( (const char*)&terminate, 1 ) ) return;
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for(;;)
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{
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if( m_sock->HasData() )
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{
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while( m_sock->HasData() ) if( !HandleServerQuery() ) return;
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while( Dequeue( token ) == Success ) {}
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}
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else
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{
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std::this_thread::sleep_for( std::chrono::milliseconds( 10 ) );
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}
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}
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}
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Profiler::DequeueStatus Profiler::Dequeue( moodycamel::ConsumerToken& token )
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{
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QueueItem item[BulkSize];
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const auto sz = s_queue.try_dequeue_bulk( token, item, BulkSize );
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if( sz > 0 )
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{
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auto buf = m_buffer + m_bufferOffset;
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auto ptr = buf;
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for( size_t i=0; i<sz; i++ )
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{
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const auto dsz = QueueDataSize[item[i].hdr.idx];
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memcpy( ptr, item+i, dsz );
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ptr += dsz;
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}
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if( !SendData( buf, ptr - buf ) ) return ConnectionLost;
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m_bufferOffset += int( ptr - buf );
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if( m_bufferOffset > TargetFrameSize * 2 ) m_bufferOffset = 0;
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}
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else
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{
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return QueueEmpty;
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}
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return Success;
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}
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bool Profiler::SendData( const char* data, size_t len )
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{
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#ifdef TRACY_DISABLE_LZ4
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if( m_sock->Send( data, (int)len ) == -1 ) return false;
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#else
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char lz4[LZ4Size + sizeof( lz4sz_t )];
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const lz4sz_t lz4sz = LZ4_compress_fast_continue( m_stream, data, lz4 + sizeof( lz4sz_t ), (int)len, LZ4Size, 1 );
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memcpy( lz4, &lz4sz, sizeof( lz4sz ) );
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if( m_sock->Send( lz4, lz4sz + sizeof( lz4sz_t ) ) == -1 ) return false;
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#endif
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return true;
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}
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bool Profiler::SendString( uint64_t str, const char* ptr, QueueType type )
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{
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assert( type == QueueType::StringData || type == QueueType::ThreadName || type == QueueType::CustomStringData || type == QueueType::PlotName || type == QueueType::MessageData );
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QueueItem item;
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item.hdr.type = type;
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item.stringTransfer.ptr = str;
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const auto isz = QueueDataSize[item.hdr.idx];
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auto buf = m_buffer + m_bufferOffset;
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memcpy( buf, &item, isz );
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auto len = strlen( ptr );
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assert( len < TargetFrameSize - isz - sizeof( uint16_t ) );
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assert( len <= std::numeric_limits<uint16_t>::max() );
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auto l16 = uint16_t( len );
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memcpy( buf + isz, &l16, sizeof( l16 ) );
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memcpy( buf + isz + sizeof( l16 ), ptr, l16 );
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m_bufferOffset += int( isz + sizeof( l16 ) + l16 );
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if( m_bufferOffset > TargetFrameSize * 2 ) m_bufferOffset = 0;
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return SendData( buf, isz + sizeof( l16 ) + l16 );
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}
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void Profiler::SendSourceLocation( uint64_t ptr )
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{
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auto srcloc = (const SourceLocation*)ptr;
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QueueItem item;
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item.hdr.type = QueueType::SourceLocation;
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item.srcloc.ptr = ptr;
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item.srcloc.file = (uint64_t)srcloc->file;
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item.srcloc.function = (uint64_t)srcloc->function;
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item.srcloc.line = srcloc->line;
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item.srcloc.r = ( srcloc->color ) & 0xFF;
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item.srcloc.g = ( srcloc->color >> 8 ) & 0xFF;
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item.srcloc.b = ( srcloc->color >> 16 ) & 0xFF;
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s_token.ptr->enqueue<moodycamel::CanAlloc>( std::move( item ) );
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}
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static bool DontExit() { return false; }
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bool Profiler::HandleServerQuery()
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{
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timeval tv;
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tv.tv_sec = 0;
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tv.tv_usec = 10000;
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uint8_t type;
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if( !m_sock->Read( &type, sizeof( type ), &tv, DontExit ) ) return false;
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uint64_t ptr;
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if( !m_sock->Read( &ptr, sizeof( ptr ), &tv, DontExit ) ) return false;
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switch( type )
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{
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case ServerQueryString:
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SendString( ptr, (const char*)ptr, QueueType::StringData );
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break;
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case ServerQueryThreadString:
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if( ptr == m_mainThread )
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{
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SendString( ptr, "Main thread", QueueType::ThreadName );
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}
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else
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{
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SendString( ptr, GetThreadName( ptr ), QueueType::ThreadName );
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}
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break;
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case ServerQueryCustomString:
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SendString( ptr, (const char*)ptr, QueueType::CustomStringData );
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tracy_free( (void*)ptr );
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break;
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case ServerQuerySourceLocation:
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SendSourceLocation( ptr );
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break;
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case ServerQueryPlotName:
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SendString( ptr, (const char*)ptr, QueueType::PlotName );
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break;
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case ServerQueryMessage:
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SendString( ptr, (const char*)ptr, QueueType::MessageData );
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tracy_free( (void*)ptr );
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break;
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case ServerQueryTerminate:
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return false;
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default:
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assert( false );
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break;
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}
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return true;
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}
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void Profiler::CalibrateTimer()
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{
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#ifdef TRACY_RDTSCP_SUPPORTED
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uint32_t cpu;
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std::atomic_signal_fence( std::memory_order_acq_rel );
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const auto t0 = std::chrono::high_resolution_clock::now();
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const auto r0 = tracy_rdtscp( cpu );
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std::atomic_signal_fence( std::memory_order_acq_rel );
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std::this_thread::sleep_for( std::chrono::milliseconds( 100 ) );
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std::atomic_signal_fence( std::memory_order_acq_rel );
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const auto t1 = std::chrono::high_resolution_clock::now();
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const auto r1 = tracy_rdtscp( cpu );
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std::atomic_signal_fence( std::memory_order_acq_rel );
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const auto dt = std::chrono::duration_cast<std::chrono::nanoseconds>( t1 - t0 ).count();
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const auto dr = r1 - r0;
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m_timerMul = double( dt ) / double( dr );
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#else
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m_timerMul = 1.;
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#endif
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}
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class FakeZone
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{
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public:
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FakeZone( const SourceLocation* srcloc ) : m_id( (uint64_t)srcloc ) {}
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~FakeZone() {}
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private:
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volatile uint64_t m_id;
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};
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void Profiler::CalibrateDelay()
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{
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enum { Iterations = 50000 };
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enum { Events = Iterations * 2 }; // start + end
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static_assert( Events * 2 < QueuePrealloc, "Delay calibration loop will allocate memory in queue" );
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uint32_t cpu;
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moodycamel::ProducerToken ptoken_detail( s_queue );
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moodycamel::ConcurrentQueue<QueueItem>::ExplicitProducer* ptoken = s_queue.get_explicit_producer( ptoken_detail );
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for( int i=0; i<Iterations; i++ )
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{
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static const tracy::SourceLocation __tracy_source_location { __FUNCTION__, __FILE__, (uint32_t)__LINE__, 0 };
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{
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Magic magic;
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auto& tail = ptoken->get_tail_index();
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auto item = ptoken->enqueue_begin<moodycamel::CanAlloc>( magic );
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item->hdr.type = QueueType::ZoneBegin;
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item->zoneBegin.thread = GetThreadHandle();
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item->zoneBegin.time = GetTime( item->zoneBegin.cpu );
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item->zoneBegin.srcloc = (uint64_t)&__tracy_source_location;
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tail.store( magic + 1, std::memory_order_release );
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}
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{
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Magic magic;
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auto& tail = ptoken->get_tail_index();
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auto item = ptoken->enqueue_begin<moodycamel::CanAlloc>( magic );
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item->hdr.type = QueueType::ZoneEnd;
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item->zoneEnd.thread = 0;
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item->zoneEnd.time = GetTime( item->zoneEnd.cpu );
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tail.store( magic + 1, std::memory_order_release );
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}
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}
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const auto f0 = GetTime( cpu );
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for( int i=0; i<Iterations; i++ )
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{
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static const tracy::SourceLocation __tracy_source_location { __FUNCTION__, __FILE__, (uint32_t)__LINE__, 0 };
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FakeZone ___tracy_scoped_zone( &__tracy_source_location );
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}
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const auto t0 = GetTime( cpu );
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for( int i=0; i<Iterations; i++ )
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{
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static const tracy::SourceLocation __tracy_source_location { __FUNCTION__, __FILE__, (uint32_t)__LINE__, 0 };
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{
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Magic magic;
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auto& tail = ptoken->get_tail_index();
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auto item = ptoken->enqueue_begin<moodycamel::CanAlloc>( magic );
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item->hdr.type = QueueType::ZoneBegin;
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item->zoneBegin.thread = GetThreadHandle();
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item->zoneBegin.time = GetTime( item->zoneBegin.cpu );
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item->zoneBegin.srcloc = (uint64_t)&__tracy_source_location;
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tail.store( magic + 1, std::memory_order_release );
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}
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{
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Magic magic;
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auto& tail = ptoken->get_tail_index();
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auto item = ptoken->enqueue_begin<moodycamel::CanAlloc>( magic );
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item->hdr.type = QueueType::ZoneEnd;
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item->zoneEnd.thread = 0;
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item->zoneEnd.time = GetTime( item->zoneEnd.cpu );
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tail.store( magic + 1, std::memory_order_release );
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}
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}
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const auto t1 = GetTime( cpu );
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const auto dt = t1 - t0;
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const auto df = t0 - f0;
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m_delay = ( dt - df ) / Events;
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auto mindiff = std::numeric_limits<int64_t>::max();
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for( int i=0; i<Iterations * 10; i++ )
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{
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const auto t0 = GetTime( cpu );
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const auto t1 = GetTime( cpu );
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const auto dt = t1 - t0;
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if( dt > 0 && dt < mindiff ) mindiff = dt;
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}
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m_resolution = mindiff;
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enum { Bulk = 1000 };
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moodycamel::ConsumerToken token( s_queue );
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int left = Events * 2;
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QueueItem item[Bulk];
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while( left != 0 )
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{
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const auto sz = s_queue.try_dequeue_bulk( token, item, std::min( left, (int)Bulk ) );
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assert( sz > 0 );
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left -= (int)sz;
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}
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}
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}
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#endif
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