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AuroraRuntime/Source/Threading/Primitives/AuConditionEx.cpp

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/***
Copyright (C) 2021 J Reece Wilson (a/k/a "Reece"). All rights reserved.
File: AuConditionEx.cpp
Date: 2021-6-12
Author: Reece
***/
#include <Source/RuntimeInternal.hpp>
#include "AuConditionEx.hpp"
#include "AuSemaphore.Generic.hpp"
namespace Aurora::Threading::Primitives
{
struct SemaphoreConditionVariableImpl : ConditionEx
{
SemaphoreConditionVariableImpl();
void WaitForSignal(const AuSPtr<IWaitable> &pWaitable) override;
void WaitForSignal() override;
bool WaitForSignalNS(AuUInt64 uRelativeNanoseconds) override;
bool WaitForSignalNS(const AuSPtr<IWaitable> &waitable, AuUInt64 uRelativeNanoseconds) override;
bool WaitForSignalAbsNS(AuUInt64 uAbsNanoseconds) override;
bool WaitForSignalAbsNS(const AuSPtr<IWaitable> &pWaitable, AuUInt64 uAbsNanoseconds) override;
void Signal() override;
void Broadcast() override;
private:
SemaphoreImpl s_;
AuAUInt32 uWaiters_;
};
SemaphoreConditionVariableImpl::SemaphoreConditionVariableImpl() :
s_(0),
uWaiters_(0)
{
}
bool SemaphoreConditionVariableImpl::WaitForSignalNS(AuUInt64 uRelativeNanoseconds)
{
return WaitForSignalNS(nullptr, uRelativeNanoseconds);
}
bool SemaphoreConditionVariableImpl::WaitForSignalAbsNS(const AuSPtr<IWaitable> &pWaitable,
AuUInt64 uNanoseconds)
{
AuAtomicAdd(&this->uWaiters_, 1u);
if (pWaitable)
{
pWaitable->Unlock();
}
auto bSuccess = this->s_.LockAbsNS(uNanoseconds);
if (!bSuccess)
{
auto uWaiters = this->uWaiters_;
auto uWaitCount = 1;
while (uWaiters &&
AuAtomicCompareExchange(&this->uWaiters_, uWaiters - uWaitCount, uWaiters) != uWaiters)
{
uWaiters = this->uWaiters_;
if (uWaiters == 0)
{
break;
}
}
}
if (pWaitable)
{
pWaitable->Lock();
}
return bSuccess;
}
bool SemaphoreConditionVariableImpl::WaitForSignalNS(const AuSPtr<IWaitable> &pWaitable,
AuUInt64 uAbsNanoseconds)
{
return this->WaitForSignalAbsNS(pWaitable,
uAbsNanoseconds ? AuTime::SteadyClockNS() + uAbsNanoseconds : 0);
}
void SemaphoreConditionVariableImpl::WaitForSignal(const AuSPtr<IWaitable> &pWaitable)
{
AuAtomicAdd(&this->uWaiters_, 1u);
if (pWaitable)
{
pWaitable->Unlock();
}
this->s_.Lock();
if (pWaitable)
{
pWaitable->Lock();
}
}
void SemaphoreConditionVariableImpl::WaitForSignal()
{
WaitForSignal(nullptr);
}
bool SemaphoreConditionVariableImpl::WaitForSignalAbsNS(AuUInt64 uAbsNanoseconds)
{
return this->WaitForSignalAbsNS({}, uAbsNanoseconds);
}
void SemaphoreConditionVariableImpl::Signal()
{
AuUInt32 uWaitCount {};
AuUInt32 uWaiters {};
uWaiters = AuAtomicLoad(&this->uWaiters_);
if (uWaiters == 0)
{
return;
}
this->s_.Unlock();
while (uWaiters &&
AuAtomicCompareExchange(&this->uWaiters_, uWaiters - 1u, uWaiters) != uWaiters)
{
uWaiters = this->uWaiters_;
if (uWaiters == 0)
{
return;
}
}
}
void SemaphoreConditionVariableImpl::Broadcast()
{
AuUInt32 uWaitCount {};
AuUInt32 uWaiters {};
while ((uWaiters = AuAtomicLoad(&this->uWaiters_)))
{
this->s_.Unlock(uWaiters);
uWaitCount = uWaiters;
while (uWaiters &&
AuAtomicCompareExchange(&this->uWaiters_, uWaiters - uWaitCount, uWaiters) != uWaiters)
{
uWaiters = this->uWaiters_;
if (uWaiters <= uWaitCount)
{
uWaitCount = uWaiters;
}
}
}
}
AUKN_SYM ConditionEx *FlexibleConditionVariableNew()
{
return _new SemaphoreConditionVariableImpl();
}
AUKN_SYM void FlexibleConditionVariableRelease(ConditionEx *pCVEx)
{
AuSafeDelete<SemaphoreConditionVariableImpl *>(pCVEx);
}
AUROXTL_INTERFACE_SOO_SRC_EX(AURORA_SYMBOL_EXPORT, FlexibleConditionVariable, SemaphoreConditionVariableImpl)
}
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