mirror of
https://github.com/wolfpld/tracy.git
synced 2024-11-10 10:41:50 +00:00
d7914439e9
Previously each data packet was compressed independently. After this change all new packets reference the previously sent data, which achieves better compression.
339 lines
8.6 KiB
C++
Executable File
339 lines
8.6 KiB
C++
Executable File
#ifdef _MSC_VER
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# include <winsock2.h>
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#else
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# include <sys/time.h>
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#endif
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#include <algorithm>
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#include <assert.h>
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#include <limits>
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#include "../common/TracyProtocol.hpp"
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#include "../common/TracySystem.hpp"
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#include "../common/TracyQueue.hpp"
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#include "../imgui/imgui.h"
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#include "TracyView.hpp"
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namespace tracy
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{
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static View* s_instance = nullptr;
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View::View( const char* addr )
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: m_addr( addr )
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, m_shutdown( false )
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, m_mbps( 64 )
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, m_stream( LZ4_createStreamDecode() )
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, m_buffer( new char[TargetFrameSize*3] )
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, m_bufferOffset( 0 )
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{
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assert( s_instance == nullptr );
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s_instance = this;
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m_thread = std::thread( [this] { Worker(); } );
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SetThreadName( m_thread, "Tracy View" );
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}
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View::~View()
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{
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m_shutdown.store( true, std::memory_order_relaxed );
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m_thread.join();
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delete[] m_buffer;
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LZ4_freeStreamDecode( m_stream );
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assert( s_instance != nullptr );
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s_instance = nullptr;
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}
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bool View::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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void View::Worker()
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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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for(;;)
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{
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if( m_shutdown.load( std::memory_order_relaxed ) ) return;
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if( !m_sock.Connect( m_addr.c_str(), "8086" ) ) continue;
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std::chrono::time_point<std::chrono::high_resolution_clock> t0;
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uint8_t lz4;
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uint64_t bytes = 0;
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uint64_t timeStart;
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if( !m_sock.Read( &timeStart, sizeof( timeStart ), &tv, ShouldExit ) ) goto close;
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if( !m_sock.Read( &lz4, sizeof( lz4 ), &tv, ShouldExit ) ) goto close;
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m_frames.push_back( timeStart );
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LZ4_setStreamDecode( m_stream, nullptr, 0 );
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t0 = std::chrono::high_resolution_clock::now();
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for(;;)
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{
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if( m_shutdown.load( std::memory_order_relaxed ) ) return;
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if( lz4 )
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{
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auto buf = m_buffer + m_bufferOffset;
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char lz4buf[LZ4Size];
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lz4sz_t lz4sz;
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if( !m_sock.Read( &lz4sz, sizeof( lz4sz ), &tv, ShouldExit ) ) goto close;
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if( !m_sock.Read( lz4buf, lz4sz, &tv, ShouldExit ) ) goto close;
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bytes += sizeof( lz4sz ) + lz4sz;
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auto sz = LZ4_decompress_safe_continue( m_stream, lz4buf, buf, lz4sz, TargetFrameSize );
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assert( sz >= 0 );
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const char* ptr = buf;
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const char* end = buf + sz;
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while( ptr < end )
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{
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auto ev = (QueueItem*)ptr;
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DispatchProcess( *ev, ptr );
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}
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m_bufferOffset += sz;
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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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QueueItem ev;
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if( !m_sock.Read( &ev.hdr, sizeof( QueueHeader ), &tv, ShouldExit ) ) goto close;
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const auto payload = QueueDataSize[ev.hdr.idx] - sizeof( QueueHeader );
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if( payload > 0 )
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{
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if( !m_sock.Read( ((char*)&ev) + sizeof( QueueHeader ), payload, &tv, ShouldExit ) ) goto close;
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}
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bytes += sizeof( QueueHeader ) + payload; // ignores string transfer
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DispatchProcess( ev );
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}
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auto t1 = std::chrono::high_resolution_clock::now();
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auto td = std::chrono::duration_cast<std::chrono::milliseconds>( t1 - t0 ).count();
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enum { MbpsUpdateTime = 200 };
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if( td > MbpsUpdateTime )
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{
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std::lock_guard<std::mutex> lock( m_mbpslock );
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m_mbps.erase( m_mbps.begin() );
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m_mbps.emplace_back( bytes / ( td * 125.f ) );
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t0 = t1;
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bytes = 0;
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}
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}
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close:
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m_sock.Close();
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}
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}
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void View::DispatchProcess( const QueueItem& ev )
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{
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if( ev.hdr.type == QueueType::StringData )
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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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char buf[TargetFrameSize];
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uint16_t sz;
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m_sock.Read( &sz, sizeof( sz ), &tv, ShouldExit );
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m_sock.Read( buf, sz, &tv, ShouldExit );
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AddString( ev.hdr.id, std::string( buf, buf+sz ) );
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}
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else
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{
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Process( ev );
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}
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}
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void View::DispatchProcess( const QueueItem& ev, const char*& ptr )
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{
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ptr += QueueDataSize[ev.hdr.idx];
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if( ev.hdr.type == QueueType::StringData )
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{
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uint16_t sz;
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memcpy( &sz, ptr, sizeof( sz ) );
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ptr += sizeof( sz );
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AddString( ev.hdr.id, std::string( ptr, ptr+sz ) );
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ptr += sz;
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}
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else
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{
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Process( ev );
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}
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}
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void View::Process( const QueueItem& ev )
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{
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switch( ev.hdr.type )
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{
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case QueueType::ZoneBegin:
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ProcessZoneBegin( ev.hdr.id, ev.zoneBegin );
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break;
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case QueueType::ZoneEnd:
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ProcessZoneEnd( ev.hdr.id, ev.zoneEnd );
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break;
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case QueueType::FrameMark:
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ProcessFrameMark( ev.hdr.id );
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break;
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default:
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assert( false );
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break;
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}
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}
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void View::ProcessZoneBegin( uint64_t id, const QueueZoneBegin& ev )
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{
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auto it = m_pendingEndZone.find( id );
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auto zone = m_slab.Alloc<Event>();
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CheckString( ev.filename );
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CheckString( ev.function );
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zone->start = ev.time;
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std::unique_lock<std::mutex> lock( m_lock );
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if( it == m_pendingEndZone.end() )
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{
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zone->end = -1;
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NewZone( zone );
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lock.unlock();
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m_openZones.emplace( id, zone );
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}
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else
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{
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assert( ev.time <= it->second.time );
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zone->end = it->second.time;
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NewZone( zone );
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lock.unlock();
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m_pendingEndZone.erase( it );
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}
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}
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void View::ProcessZoneEnd( uint64_t id, const QueueZoneEnd& ev )
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{
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auto it = m_openZones.find( id );
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if( it == m_openZones.end() )
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{
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m_pendingEndZone.emplace( id, ev );
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}
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else
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{
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auto zone = it->second;
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std::unique_lock<std::mutex> lock( m_lock );
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assert( ev.time >= zone->start );
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zone->end = ev.time;
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UpdateZone( zone );
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lock.unlock();
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m_openZones.erase( it );
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}
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}
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void View::ProcessFrameMark( uint64_t id )
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{
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assert( !m_frames.empty() );
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const auto lastframe = m_frames.back();
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if( lastframe < id )
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{
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std::unique_lock<std::mutex> lock( m_lock );
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m_frames.push_back( id );
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}
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else
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{
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auto it = std::lower_bound( m_frames.begin(), m_frames.end(), id );
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std::unique_lock<std::mutex> lock( m_lock );
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m_frames.insert( it, id );
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}
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}
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void View::CheckString( uint64_t ptr )
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{
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if( m_strings.find( ptr ) != m_strings.end() ) return;
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if( m_pendingStrings.find( ptr ) != m_pendingStrings.end() ) return;
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m_pendingStrings.emplace( ptr );
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m_sock.Send( &ptr, sizeof( ptr ) );
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}
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void View::AddString( uint64_t ptr, std::string&& str )
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{
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assert( m_strings.find( ptr ) == m_strings.end( ptr ) );
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auto it = m_pendingStrings.find( ptr );
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assert( it != m_pendingStrings.end() );
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m_pendingStrings.erase( it );
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std::lock_guard<std::mutex> lock( m_lock );
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m_strings.emplace( ptr, std::move( str ) );
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}
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void View::NewZone( Event* zone )
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{
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if( !m_timeline.empty() )
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{
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const auto lastend = m_timeline.back()->end;
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if( lastend != -1 && lastend < zone->start )
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{
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m_timeline.push_back( zone );
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}
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else
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{
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}
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}
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else
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{
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m_timeline.push_back( zone );
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}
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}
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void View::UpdateZone( Event* zone )
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{
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assert( zone->end != -1 );
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}
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void View::Draw()
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{
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s_instance->DrawImpl();
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}
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void View::DrawImpl()
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{
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// Connection window
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ImGui::Begin( m_addr.c_str(), nullptr, ImGuiWindowFlags_AlwaysAutoResize | ImGuiWindowFlags_ShowBorders );
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{
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std::lock_guard<std::mutex> lock( m_mbpslock );
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const auto mbps = m_mbps.back();
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char buf[64];
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if( mbps < 0.1f )
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{
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sprintf( buf, "%6.2f Kbps", mbps * 1000.f );
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}
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else
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{
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sprintf( buf, "%6.2f Mbps", mbps );
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}
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ImGui::PlotLines( buf, m_mbps.data(), m_mbps.size(), 0, nullptr, 0, std::numeric_limits<float>::max(), ImVec2( 160, 0 ) );
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}
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ImGui::Text( "Memory usage: %.2f MB", memUsage.load( std::memory_order_relaxed ) / ( 1024.f * 1024.f ) );
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std::lock_guard<std::mutex> lock( m_lock );
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{
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const auto sz = m_frames.size();
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if( sz > 1 )
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{
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const auto dt = m_frames[sz-1] - m_frames[sz-2];
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const auto dtm = dt / 1000000.f;
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const auto fps = 1000.f / dtm;
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ImGui::Text( "FPS: %6.1f Frame time: %.2f ms", fps, dtm );
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}
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}
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ImGui::End();
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}
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}
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