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tracy/client/TracyLock.hpp

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#ifndef __TRACYLOCK_HPP__
#define __TRACYLOCK_HPP__
#include <atomic>
#include <limits>
#include "../common/TracySystem.hpp"
#include "../common/TracyAlign.hpp"
#include "TracyProfiler.hpp"
namespace tracy
{
class LockableCtx
{
public:
tracy_force_inline LockableCtx( const SourceLocationData* srcloc )
: m_id( GetLockCounter().fetch_add( 1, std::memory_order_relaxed ) )
#ifdef TRACY_ON_DEMAND
, m_lockCount( 0 )
, m_active( false )
#endif
{
assert( m_id != std::numeric_limits<uint32_t>::max() );
TracyLfqPrepare( QueueType::LockAnnounce );
MemWrite( &item->lockAnnounce.id, m_id );
MemWrite( &item->lockAnnounce.time, Profiler::GetTime() );
MemWrite( &item->lockAnnounce.lckloc, (uint64_t)srcloc );
MemWrite( &item->lockAnnounce.type, LockType::Lockable );
#ifdef TRACY_ON_DEMAND
GetProfiler().DeferItem( *item );
#endif
TracyLfqCommit;
}
LockableCtx( const LockableCtx& ) = delete;
LockableCtx& operator=( const LockableCtx& ) = delete;
tracy_force_inline ~LockableCtx()
{
TracyLfqPrepare( QueueType::LockTerminate );
MemWrite( &item->lockTerminate.id, m_id );
MemWrite( &item->lockTerminate.time, Profiler::GetTime() );
MemWrite( &item->lockTerminate.type, LockType::Lockable );
#ifdef TRACY_ON_DEMAND
GetProfiler().DeferItem( *item );
#endif
TracyLfqCommit;
}
tracy_force_inline bool BeforeLock()
{
#ifdef TRACY_ON_DEMAND
bool queue = false;
const auto locks = m_lockCount.fetch_add( 1, std::memory_order_relaxed );
const auto active = m_active.load( std::memory_order_relaxed );
if( locks == 0 || active )
{
const bool connected = GetProfiler().IsConnected();
if( active != connected ) m_active.store( connected, std::memory_order_relaxed );
if( connected ) queue = true;
}
if( !queue ) return false;
#endif
auto item = Profiler::QueueSerial();
MemWrite( &item->hdr.type, QueueType::LockWait );
MemWrite( &item->lockWait.thread, GetThreadHandle() );
MemWrite( &item->lockWait.id, m_id );
MemWrite( &item->lockWait.time, Profiler::GetTime() );
MemWrite( &item->lockWait.type, LockType::Lockable );
Profiler::QueueSerialFinish();
return true;
}
tracy_force_inline void AfterLock()
{
auto item = Profiler::QueueSerial();
MemWrite( &item->hdr.type, QueueType::LockObtain );
MemWrite( &item->lockObtain.thread, GetThreadHandle() );
MemWrite( &item->lockObtain.id, m_id );
MemWrite( &item->lockObtain.time, Profiler::GetTime() );
Profiler::QueueSerialFinish();
}
tracy_force_inline void AfterUnlock()
{
#ifdef TRACY_ON_DEMAND
m_lockCount.fetch_sub( 1, std::memory_order_relaxed );
if( !m_active.load( std::memory_order_relaxed ) ) return;
if( !GetProfiler().IsConnected() )
{
m_active.store( false, std::memory_order_relaxed );
return;
}
#endif
auto item = Profiler::QueueSerial();
MemWrite( &item->hdr.type, QueueType::LockRelease );
MemWrite( &item->lockRelease.thread, GetThreadHandle() );
MemWrite( &item->lockRelease.id, m_id );
MemWrite( &item->lockRelease.time, Profiler::GetTime() );
Profiler::QueueSerialFinish();
}
tracy_force_inline void AfterTryLock( bool acquired )
{
#ifdef TRACY_ON_DEMAND
if( !acquired ) return;
bool queue = false;
const auto locks = m_lockCount.fetch_add( 1, std::memory_order_relaxed );
const auto active = m_active.load( std::memory_order_relaxed );
if( locks == 0 || active )
{
const bool connected = GetProfiler().IsConnected();
if( active != connected ) m_active.store( connected, std::memory_order_relaxed );
if( connected ) queue = true;
}
if( !queue ) return;
#endif
if( acquired )
{
auto item = Profiler::QueueSerial();
MemWrite( &item->hdr.type, QueueType::LockObtain );
MemWrite( &item->lockObtain.thread, GetThreadHandle() );
MemWrite( &item->lockObtain.id, m_id );
MemWrite( &item->lockObtain.time, Profiler::GetTime() );
Profiler::QueueSerialFinish();
}
}
tracy_force_inline void Mark( const SourceLocationData* srcloc )
{
#ifdef TRACY_ON_DEMAND
const auto active = m_active.load( std::memory_order_relaxed );
if( !active ) return;
const auto connected = GetProfiler().IsConnected();
if( !connected )
{
if( active ) m_active.store( false, std::memory_order_relaxed );
return;
}
#endif
auto item = Profiler::QueueSerial();
MemWrite( &item->hdr.type, QueueType::LockMark );
MemWrite( &item->lockMark.thread, GetThreadHandle() );
MemWrite( &item->lockMark.id, m_id );
MemWrite( &item->lockMark.srcloc, (uint64_t)srcloc );
Profiler::QueueSerialFinish();
}
tracy_force_inline void CustomName( const char* name, size_t size )
{
auto ptr = (char*)tracy_malloc( size+1 );
memcpy( ptr, name, size );
ptr[size] = '\0';
TracyLfqPrepare( QueueType::LockName );
MemWrite( &item->lockName.id, m_id );
MemWrite( &item->lockName.name, (uint64_t)ptr );
#ifdef TRACY_ON_DEMAND
GetProfiler().DeferItem( *item );
#endif
TracyLfqCommit;
}
private:
uint32_t m_id;
#ifdef TRACY_ON_DEMAND
std::atomic<uint32_t> m_lockCount;
std::atomic<bool> m_active;
#endif
};
template<class T>
class Lockable
{
public:
tracy_force_inline Lockable( const SourceLocationData* srcloc )
: m_ctx( srcloc )
{
}
Lockable( const Lockable& ) = delete;
Lockable& operator=( const Lockable& ) = delete;
tracy_force_inline void lock()
{
const auto runAfter = m_ctx.BeforeLock();
m_lockable.lock();
if( runAfter ) m_ctx.AfterLock();
}
tracy_force_inline void unlock()
{
m_lockable.unlock();
m_ctx.AfterUnlock();
}
tracy_force_inline bool try_lock()
{
const auto acquired = m_lockable.try_lock();
m_ctx.AfterTryLock( acquired );
return acquired;
}
tracy_force_inline void Mark( const SourceLocationData* srcloc )
{
m_ctx.Mark( srcloc );
}
tracy_force_inline void CustomName( const char* name, size_t size )
{
m_ctx.CustomName( name, size );
}
private:
T m_lockable;
LockableCtx m_ctx;
};
class SharedLockableCtx
{
public:
tracy_force_inline SharedLockableCtx( const SourceLocationData* srcloc )
: m_id( GetLockCounter().fetch_add( 1, std::memory_order_relaxed ) )
#ifdef TRACY_ON_DEMAND
, m_lockCount( 0 )
, m_active( false )
#endif
{
assert( m_id != std::numeric_limits<uint32_t>::max() );
TracyLfqPrepare( QueueType::LockAnnounce );
MemWrite( &item->lockAnnounce.id, m_id );
MemWrite( &item->lockAnnounce.time, Profiler::GetTime() );
MemWrite( &item->lockAnnounce.lckloc, (uint64_t)srcloc );
MemWrite( &item->lockAnnounce.type, LockType::SharedLockable );
#ifdef TRACY_ON_DEMAND
GetProfiler().DeferItem( *item );
#endif
TracyLfqCommit;
}
SharedLockableCtx( const SharedLockableCtx& ) = delete;
SharedLockableCtx& operator=( const SharedLockableCtx& ) = delete;
tracy_force_inline ~SharedLockableCtx()
{
TracyLfqPrepare( QueueType::LockTerminate );
MemWrite( &item->lockTerminate.id, m_id );
MemWrite( &item->lockTerminate.time, Profiler::GetTime() );
MemWrite( &item->lockTerminate.type, LockType::SharedLockable );
#ifdef TRACY_ON_DEMAND
GetProfiler().DeferItem( *item );
#endif
TracyLfqCommit;
}
tracy_force_inline bool BeforeLock()
{
#ifdef TRACY_ON_DEMAND
bool queue = false;
const auto locks = m_lockCount.fetch_add( 1, std::memory_order_relaxed );
const auto active = m_active.load( std::memory_order_relaxed );
if( locks == 0 || active )
{
const bool connected = GetProfiler().IsConnected();
if( active != connected ) m_active.store( connected, std::memory_order_relaxed );
if( connected ) queue = true;
}
if( !queue ) return false;
#endif
auto item = Profiler::QueueSerial();
MemWrite( &item->hdr.type, QueueType::LockWait );
MemWrite( &item->lockWait.thread, GetThreadHandle() );
MemWrite( &item->lockWait.id, m_id );
MemWrite( &item->lockWait.time, Profiler::GetTime() );
MemWrite( &item->lockWait.type, LockType::SharedLockable );
Profiler::QueueSerialFinish();
return true;
}
tracy_force_inline void AfterLock()
{
auto item = Profiler::QueueSerial();
MemWrite( &item->hdr.type, QueueType::LockObtain );
MemWrite( &item->lockObtain.thread, GetThreadHandle() );
MemWrite( &item->lockObtain.id, m_id );
MemWrite( &item->lockObtain.time, Profiler::GetTime() );
Profiler::QueueSerialFinish();
}
tracy_force_inline void AfterUnlock()
{
#ifdef TRACY_ON_DEMAND
m_lockCount.fetch_sub( 1, std::memory_order_relaxed );
if( !m_active.load( std::memory_order_relaxed ) ) return;
if( !GetProfiler().IsConnected() )
{
m_active.store( false, std::memory_order_relaxed );
return;
}
#endif
auto item = Profiler::QueueSerial();
MemWrite( &item->hdr.type, QueueType::LockRelease );
MemWrite( &item->lockRelease.thread, GetThreadHandle() );
MemWrite( &item->lockRelease.id, m_id );
MemWrite( &item->lockRelease.time, Profiler::GetTime() );
Profiler::QueueSerialFinish();
}
tracy_force_inline void AfterTryLock( bool acquired )
{
#ifdef TRACY_ON_DEMAND
if( !acquired ) return;
bool queue = false;
const auto locks = m_lockCount.fetch_add( 1, std::memory_order_relaxed );
const auto active = m_active.load( std::memory_order_relaxed );
if( locks == 0 || active )
{
const bool connected = GetProfiler().IsConnected();
if( active != connected ) m_active.store( connected, std::memory_order_relaxed );
if( connected ) queue = true;
}
if( !queue ) return;
#endif
if( acquired )
{
auto item = Profiler::QueueSerial();
MemWrite( &item->hdr.type, QueueType::LockObtain );
MemWrite( &item->lockObtain.thread, GetThreadHandle() );
MemWrite( &item->lockObtain.id, m_id );
MemWrite( &item->lockObtain.time, Profiler::GetTime() );
Profiler::QueueSerialFinish();
}
}
tracy_force_inline bool BeforeLockShared()
{
#ifdef TRACY_ON_DEMAND
bool queue = false;
const auto locks = m_lockCount.fetch_add( 1, std::memory_order_relaxed );
const auto active = m_active.load( std::memory_order_relaxed );
if( locks == 0 || active )
{
const bool connected = GetProfiler().IsConnected();
if( active != connected ) m_active.store( connected, std::memory_order_relaxed );
if( connected ) queue = true;
}
if( !queue ) return false;
#endif
auto item = Profiler::QueueSerial();
MemWrite( &item->hdr.type, QueueType::LockSharedWait );
MemWrite( &item->lockWait.thread, GetThreadHandle() );
MemWrite( &item->lockWait.id, m_id );
MemWrite( &item->lockWait.time, Profiler::GetTime() );
MemWrite( &item->lockWait.type, LockType::SharedLockable );
Profiler::QueueSerialFinish();
return true;
}
tracy_force_inline void AfterLockShared()
{
auto item = Profiler::QueueSerial();
MemWrite( &item->hdr.type, QueueType::LockSharedObtain );
MemWrite( &item->lockObtain.thread, GetThreadHandle() );
MemWrite( &item->lockObtain.id, m_id );
MemWrite( &item->lockObtain.time, Profiler::GetTime() );
Profiler::QueueSerialFinish();
}
tracy_force_inline void AfterUnlockShared()
{
#ifdef TRACY_ON_DEMAND
m_lockCount.fetch_sub( 1, std::memory_order_relaxed );
if( !m_active.load( std::memory_order_relaxed ) ) return;
if( !GetProfiler().IsConnected() )
{
m_active.store( false, std::memory_order_relaxed );
return;
}
#endif
auto item = Profiler::QueueSerial();
MemWrite( &item->hdr.type, QueueType::LockSharedRelease );
MemWrite( &item->lockRelease.thread, GetThreadHandle() );
MemWrite( &item->lockRelease.id, m_id );
MemWrite( &item->lockRelease.time, Profiler::GetTime() );
Profiler::QueueSerialFinish();
}
tracy_force_inline void AfterTryLockShared( bool acquired )
{
#ifdef TRACY_ON_DEMAND
if( !acquired ) return;
bool queue = false;
const auto locks = m_lockCount.fetch_add( 1, std::memory_order_relaxed );
const auto active = m_active.load( std::memory_order_relaxed );
if( locks == 0 || active )
{
const bool connected = GetProfiler().IsConnected();
if( active != connected ) m_active.store( connected, std::memory_order_relaxed );
if( connected ) queue = true;
}
if( !queue ) return;
#endif
if( acquired )
{
auto item = Profiler::QueueSerial();
MemWrite( &item->hdr.type, QueueType::LockSharedObtain );
MemWrite( &item->lockObtain.thread, GetThreadHandle() );
MemWrite( &item->lockObtain.id, m_id );
MemWrite( &item->lockObtain.time, Profiler::GetTime() );
Profiler::QueueSerialFinish();
}
}
tracy_force_inline void Mark( const SourceLocationData* srcloc )
{
#ifdef TRACY_ON_DEMAND
const auto active = m_active.load( std::memory_order_relaxed );
if( !active ) return;
const auto connected = GetProfiler().IsConnected();
if( !connected )
{
if( active ) m_active.store( false, std::memory_order_relaxed );
return;
}
#endif
auto item = Profiler::QueueSerial();
MemWrite( &item->hdr.type, QueueType::LockMark );
MemWrite( &item->lockMark.thread, GetThreadHandle() );
MemWrite( &item->lockMark.id, m_id );
MemWrite( &item->lockMark.srcloc, (uint64_t)srcloc );
Profiler::QueueSerialFinish();
}
tracy_force_inline void CustomName( const char* name, size_t size )
{
auto ptr = (char*)tracy_malloc( size+1 );
memcpy( ptr, name, size );
ptr[size] = '\0';
TracyLfqPrepare( QueueType::LockName );
MemWrite( &item->lockName.id, m_id );
MemWrite( &item->lockName.name, (uint64_t)ptr );
#ifdef TRACY_ON_DEMAND
GetProfiler().DeferItem( *item );
#endif
TracyLfqCommit;
}
private:
uint32_t m_id;
#ifdef TRACY_ON_DEMAND
std::atomic<uint32_t> m_lockCount;
std::atomic<bool> m_active;
#endif
};
template<class T>
class SharedLockable
{
public:
tracy_force_inline SharedLockable( const SourceLocationData* srcloc )
: m_ctx( srcloc )
{
}
SharedLockable( const SharedLockable& ) = delete;
SharedLockable& operator=( const SharedLockable& ) = delete;
tracy_force_inline void lock()
{
const auto runAfter = m_ctx.BeforeLock();
m_lockable.lock();
if( runAfter ) m_ctx.AfterLock();
}
tracy_force_inline void unlock()
{
m_lockable.unlock();
m_ctx.AfterUnlock();
}
tracy_force_inline bool try_lock()
{
const auto acquired = m_lockable.try_lock();
m_ctx.AfterTryLock( acquired );
return acquired;
}
tracy_force_inline void lock_shared()
{
const auto runAfter = m_ctx.BeforeLockShared();
m_lockable.lock_shared();
if( runAfter ) m_ctx.AfterLockShared();
}
tracy_force_inline void unlock_shared()
{
m_lockable.unlock_shared();
m_ctx.AfterUnlockShared();
}
tracy_force_inline bool try_lock_shared()
{
const auto acquired = m_lockable.try_lock_shared();
m_ctx.AfterTryLockShared( acquired );
return acquired;
}
tracy_force_inline void Mark( const SourceLocationData* srcloc )
{
m_ctx.Mark( srcloc );
}
tracy_force_inline void CustomName( const char* name, size_t size )
{
m_ctx.CustomName( name, size );
}
private:
T m_lockable;
SharedLockableCtx m_ctx;
};
}
#endif
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