tracy/server/TracyEvent.hpp

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#ifndef __TRACYEVENT_HPP__
#define __TRACYEVENT_HPP__
#include <assert.h>
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#include <limits>
#include <stdint.h>
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#include <string.h>
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#include "TracyCharUtil.hpp"
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#include "TracyVector.hpp"
#include "tracy_flat_hash_map.hpp"
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namespace tracy
{
#pragma pack( 1 )
struct StringRef
{
enum Type { Ptr, Idx };
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StringRef() : str( 0 ), __data( 0 ) {}
StringRef( Type t, uint64_t data )
: str( data )
, __data( 0 )
{
isidx = t == Idx;
active = 1;
}
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uint64_t str;
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union
{
struct
{
uint8_t isidx : 1;
uint8_t active : 1;
};
uint8_t __data;
};
};
struct StringIdx
{
StringIdx() : __data( 0 ) {}
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StringIdx( uint32_t _idx )
: __data( 0 )
{
idx = _idx;
active = 1;
}
union
{
struct
{
uint32_t idx : 31;
uint32_t active : 1;
};
uint32_t __data;
};
};
struct SourceLocation
{
StringRef name;
StringRef function;
StringRef file;
uint32_t line;
uint32_t color;
};
enum { SourceLocationSize = sizeof( SourceLocation ) };
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struct ZoneEvent
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{
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int64_t Start() const { return int64_t( _start_srcloc ) >> 16; }
void SetStart( int64_t start ) { assert( start < ( 1ll << 47 ) ); _start_srcloc = ( _start_srcloc & 0xFFFF ) | uint64_t( start << 16 ); }
int16_t SrcLoc() const { return int16_t( _start_srcloc & 0xFFFF ); }
void SetSrcLoc( int16_t srcloc ) { _start_srcloc = ( _start_srcloc & 0xFFFFFFFFFFFF0000 ) | uint16_t( srcloc ); }
uint64_t _start_srcloc;
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int64_t end;
StringIdx text;
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uint32_t callstack;
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StringIdx name;
Store children vectors in a separate data collection. This reduces per-zone memory cost by 9 bytes if there are no children and increases it by 4 bytes, if there are children. This is universally a better solution, as the following data shows: +++ /home/wolf/desktop/tracy-old/android.tracy +++ Vectors: 2794480 Size 0: 2373070 (84.92%) Size 1: 70237 (2.51%) Size 2+: 351173 (12.57%) +++ /home/wolf/desktop/tracy-old/asset-new.tracy +++ Vectors: 1799227 Size 0: 1482691 (82.41%) Size 1: 93272 (5.18%) Size 2+: 223264 (12.41%) +++ /home/wolf/desktop/tracy-old/asset-new-id.tracy +++ Vectors: 1977996 Size 0: 1640817 (82.95%) Size 1: 97198 (4.91%) Size 2+: 239981 (12.13%) +++ /home/wolf/desktop/tracy-old/asset-old.tracy +++ Vectors: 1782395 Size 0: 1471437 (82.55%) Size 1: 88813 (4.98%) Size 2+: 222145 (12.46%) +++ /home/wolf/desktop/tracy-old/big.tracy +++ Vectors: 180794047 Size 0: 172696094 (95.52%) Size 1: 2799772 (1.55%) Size 2+: 5298181 (2.93%) +++ /home/wolf/desktop/tracy-old/darkrl.tracy +++ Vectors: 12014129 Size 0: 11611324 (96.65%) Size 1: 134980 (1.12%) Size 2+: 267825 (2.23%) +++ /home/wolf/desktop/tracy-old/mem.tracy +++ Vectors: 383097 Size 0: 321932 (84.03%) Size 1: 854 (0.22%) Size 2+: 60311 (15.74%) +++ /home/wolf/desktop/tracy-old/new.tracy +++ Vectors: 77536 Size 0: 63035 (81.30%) Size 1: 8886 (11.46%) Size 2+: 5615 (7.24%) +++ /home/wolf/desktop/tracy-old/selfprofile.tracy +++ Vectors: 22940871 Size 0: 22704868 (98.97%) Size 1: 73000 (0.32%) Size 2+: 163003 (0.71%) +++ /home/wolf/desktop/tracy-old/tbrowser.tracy +++ Vectors: 962682 Size 0: 695380 (72.23%) Size 1: 43007 (4.47%) Size 2+: 224295 (23.30%) +++ /home/wolf/desktop/tracy-old/virtualfile_hc.tracy +++ Vectors: 529170 Size 0: 449386 (84.92%) Size 1: 15694 (2.97%) Size 2+: 64090 (12.11%) +++ /home/wolf/desktop/tracy-old/zfile_hc.tracy +++ Vectors: 264849 Size 0: 220589 (83.29%) Size 1: 9386 (3.54%) Size 2+: 34874 (13.17%)
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int32_t child;
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};
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enum { ZoneEventSize = sizeof( ZoneEvent ) };
static_assert( std::is_standard_layout<ZoneEvent>::value, "ZoneEvent is not standard layout" );
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struct LockEvent
{
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enum class Type : uint8_t
{
Wait,
Obtain,
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Release,
WaitShared,
ObtainShared,
ReleaseShared
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};
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int64_t Time() const { return int64_t( _time_srcloc ) >> 16; }
void SetTime( int64_t time ) { assert( time < ( 1ll << 47 ) ); _time_srcloc = ( _time_srcloc & 0xFFFF ) | uint64_t( time << 16 ); }
int16_t SrcLoc() const { return int16_t( _time_srcloc & 0xFFFF ); }
void SetSrcLoc( int16_t srcloc ) { _time_srcloc = ( _time_srcloc & 0xFFFFFFFFFFFF0000 ) | uint16_t( srcloc ); }
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uint64_t _time_srcloc;
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uint8_t thread;
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Type type;
};
struct LockEventShared : public LockEvent
{
uint64_t waitShared;
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uint64_t sharedList;
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};
struct LockEventPtr
{
LockEvent* ptr;
uint8_t lockingThread;
uint8_t lockCount;
uint64_t waitList;
};
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enum { LockEventSize = sizeof( LockEvent ) };
enum { LockEventSharedSize = sizeof( LockEventShared ) };
enum { LockEventPtrSize = sizeof( LockEventPtr ) };
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enum { MaxLockThreads = sizeof( LockEventPtr::waitList ) * 8 };
static_assert( std::numeric_limits<decltype(LockEventPtr::lockCount)>::max() >= MaxLockThreads, "Not enough space for lock count." );
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struct GpuEvent
{
int64_t cpuStart;
int64_t cpuEnd;
int64_t gpuStart;
int64_t gpuEnd;
int16_t srcloc;
uint32_t callstack;
uint16_t thread;
int32_t child;
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};
enum { GpuEventSize = sizeof( GpuEvent ) };
static_assert( std::is_standard_layout<GpuEvent>::value, "GpuEvent is not standard layout" );
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struct MemEvent
{
int64_t TimeAlloc() const { return int64_t( _time_thread_alloc ) >> 16; }
void SetTimeAlloc( int64_t time ) { assert( time < ( 1ll << 47 ) ); _time_thread_alloc = ( _time_thread_alloc & 0xFFFF ) | uint64_t( time << 16 ); }
int64_t TimeFree() const { return int64_t( _time_thread_free ) >> 16; }
void SetTimeFree( int64_t time ) { assert( time < ( 1ll << 47 ) ); _time_thread_free = ( _time_thread_free & 0xFFFF ) | uint64_t( time << 16 ); }
uint16_t ThreadAlloc() const { return uint16_t( _time_thread_alloc ); }
void SetThreadAlloc( uint16_t thread ) { _time_thread_alloc = ( _time_thread_alloc & 0xFFFFFFFFFFFF0000 ) | thread; }
uint16_t ThreadFree() const { return uint16_t( _time_thread_free ); }
void SetThreadFree( uint16_t thread ) { _time_thread_free = ( _time_thread_free & 0xFFFFFFFFFFFF0000 ) | thread; }
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uint64_t ptr;
uint64_t size;
uint32_t csAlloc;
uint32_t csFree;
uint64_t _time_thread_alloc;
uint64_t _time_thread_free;
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};
enum { MemEventSize = sizeof( MemEvent ) };
static_assert( std::is_standard_layout<MemEvent>::value, "MemEvent is not standard layout" );
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struct CallstackFrame
{
StringIdx name;
StringIdx file;
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uint32_t line;
};
enum { CallstackFrameSize = sizeof( CallstackFrame ) };
struct CallstackFrameData
{
CallstackFrame* data;
uint8_t size;
};
enum { CallstackFrameDataSize = sizeof( CallstackFrameData ) };
// This union exploits the fact that the current implementations of x64 and arm64 do not provide
// full 64 bit address space. The high bits must be bit-extended, so 0x80... is an invalid pointer.
// This allows using the highest bit as a selector between a native pointer and a table index here.
union CallstackFrameId
{
struct
{
uint64_t idx : 63;
uint64_t sel : 1;
};
uint64_t data;
};
enum { CallstackFrameIdSize = sizeof( CallstackFrameId ) };
struct CallstackFrameTree
{
CallstackFrameId frame;
uint64_t alloc;
uint32_t count;
flat_hash_map<uint64_t, CallstackFrameTree, nohash<uint64_t>> children;
flat_hash_set<uint32_t, nohash<uint32_t>> callstacks;
};
enum { CallstackFrameTreeSize = sizeof( CallstackFrameTree ) };
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struct CrashEvent
{
uint64_t thread = 0;
int64_t time = 0;
uint64_t message = 0;
uint32_t callstack = 0;
};
enum { CrashEventSize = sizeof( CrashEvent ) };
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struct ContextSwitchData
{
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enum : int8_t { NoState = 100 };
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enum : int8_t { Wakeup = -2 };
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int64_t Start() const { return int64_t( _start_cpu ) >> 8; }
void SetStart( int64_t start ) { assert( start < ( 1ll << 47 ) ); _start_cpu = ( _start_cpu & 0xFF ) | uint64_t( start << 8 ); }
int64_t End() const { return int64_t( _end_reason_state ) >> 16; }
void SetEnd( int64_t end ) { assert( end < ( 1ll << 47 ) ); _end_reason_state = ( _end_reason_state & 0xFFFF ) | uint64_t( end << 16 ); }
uint8_t Cpu() const { return uint8_t( _start_cpu & 0xFF ); }
void SetCpu( uint8_t cpu ) { _start_cpu = ( _start_cpu & 0xFFFFFFFFFFFFFF00 ) | uint8_t( cpu ); }
int8_t Reason() const { return int8_t( (_end_reason_state >> 8) & 0xFF ); }
void SetReason( int8_t reason ) { _end_reason_state = ( _end_reason_state & 0xFFFFFFFFFFFF00FF ) | ( uint64_t( reason ) << 8 ); }
int8_t State() const { return int8_t( _end_reason_state & 0xFF ); }
void SetState( int8_t state ) { _end_reason_state = ( _end_reason_state & 0xFFFFFFFFFFFFFF00 ) | uint8_t( state ); }
uint64_t _start_cpu;
uint64_t _end_reason_state;
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int64_t wakeup;
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};
enum { ContextSwitchDataSize = sizeof( ContextSwitchData ) };
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// Thread can't be compressed here, because we want to ignore external threads and we can't
// determine whether thread is local or external when context information arrives (thread data
// might come after context switch data).
struct ContextSwitchCpu
{
int64_t Start() const { return int64_t( _start_thread ) >> 16; }
void SetStart( int64_t start ) { assert( start < ( 1ll << 47 ) ); _start_thread = ( _start_thread & 0xFFFF ) | uint64_t( start << 16 ); }
int64_t End() const { return _end; }
void SetEnd( int64_t end ) { assert( end < ( 1ll << 47 ) ); _end = end; }
uint16_t Thread() const { return uint16_t( _start_thread ); }
void SetThread( uint16_t thread ) { _start_thread = ( _start_thread & 0xFFFFFFFFFFFF0000 ) | thread; }
uint64_t _start_thread;
uint64_t _end;
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};
enum { ContextSwitchCpuSize = sizeof( ContextSwitchCpu ) };
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struct MessageData
{
int64_t time;
StringRef ref;
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uint64_t thread;
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uint32_t color;
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};
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enum { MessageDataSize = sizeof( MessageData ) };
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#pragma pack()
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struct ThreadData
{
uint64_t id;
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uint64_t count;
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Vector<ZoneEvent*> timeline;
Vector<ZoneEvent*> stack;
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Vector<MessageData*> messages;
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uint32_t nextZoneId;
Vector<uint32_t> zoneIdStack;
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};
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struct GpuCtxData
{
int64_t timeDiff;
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uint64_t thread;
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uint64_t count;
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Vector<GpuEvent*> timeline;
Vector<GpuEvent*> stack;
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uint8_t accuracyBits;
float period;
GpuEvent* query[64*1024];
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};
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struct LockMap
{
struct TimeRange
{
int64_t start = std::numeric_limits<int64_t>::max();
int64_t end = std::numeric_limits<int64_t>::min();
};
int16_t srcloc;
Vector<LockEventPtr> timeline;
flat_hash_map<uint64_t, uint8_t, nohash<uint64_t>> threadMap;
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std::vector<uint64_t> threadList;
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LockType type;
int64_t timeAnnounce;
int64_t timeTerminate;
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bool valid;
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bool isContended;
TimeRange range[64];
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};
struct LockHighlight
{
int64_t id;
int64_t begin;
int64_t end;
uint8_t thread;
bool blocked;
};
struct PlotItem
{
int64_t time;
double val;
};
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enum class PlotType : uint8_t
{
User,
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Memory,
SysTime
};
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struct PlotData
{
uint64_t name;
double min;
double max;
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Vector<PlotItem> data;
Vector<PlotItem> postpone;
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uint64_t postponeTime;
PlotType type;
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};
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struct MemData
{
Vector<MemEvent> data;
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Vector<uint64_t> frees;
flat_hash_map<uint64_t, size_t, nohash<uint64_t>> active;
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uint64_t high = std::numeric_limits<uint64_t>::min();
uint64_t low = std::numeric_limits<uint64_t>::max();
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uint64_t usage = 0;
PlotData* plot = nullptr;
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};
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struct FrameEvent
{
int64_t start;
int64_t end;
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int32_t frameImage;
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};
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enum { FrameEventSize = sizeof( FrameEvent ) };
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struct FrameData
{
uint64_t name;
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Vector<FrameEvent> frames;
uint8_t continuous;
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};
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struct StringLocation
{
const char* ptr;
uint32_t idx;
};
struct SourceLocationHasher
{
size_t operator()( const SourceLocation* ptr ) const
{
return charutil::hash( (const char*)ptr, sizeof( SourceLocation ) );
}
typedef tracy::power_of_two_hash_policy hash_policy;
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};
struct SourceLocationComparator
{
bool operator()( const SourceLocation* lhs, const SourceLocation* rhs ) const
{
return memcmp( lhs, rhs, sizeof( SourceLocation ) ) == 0;
}
};
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struct FrameImage
{
const char* ptr;
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uint32_t csz;
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uint16_t w, h;
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uint32_t frameRef;
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uint8_t flip;
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};
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enum { FrameImageSize = sizeof( FrameImage ) };
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struct ContextSwitch
{
Vector<ContextSwitchData> v;
int64_t runningTime = 0;
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};
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struct CpuData
{
Vector<ContextSwitchCpu> cs;
};
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struct CpuThreadData
{
int64_t runningTime = 0;
uint32_t runningRegions = 0;
uint32_t migrations = 0;
};
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enum { CpuThreadDataSize = sizeof( CpuThreadData ) };
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}
#endif