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@ -51,75 +51,75 @@ NAMESPACE_PRIVATE_END
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#endif
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#endif
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template <typename T, bool bIsRef = false> requires (CTriviallyCopyable<T>
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NAMESPACE_PRIVATE_BEGIN
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&& CCopyConstructible<T> && CMoveConstructible<T>
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&& CCopyAssignable<T> && CMoveAssignable<T>)
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template <typename T, bool bIsRef>
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struct TAtomic : FSingleton
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struct TAtomicImpl : FSingleton
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{
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{
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protected:
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protected:
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using ElementType = TConditional<bIsRef, NAMESPACE_STD::atomic_ref<T>, NAMESPACE_STD::atomic<T>>;
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using NativeAtomicType = TConditional<bIsRef, NAMESPACE_STD::atomic_ref<T>, NAMESPACE_STD::atomic<T>>;
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public:
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public:
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using ValueType = T;
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using ValueType = T;
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static constexpr bool bIsAlwaysLockFree = ElementType::is_always_lock_free;
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static constexpr bool bIsAlwaysLockFree = NativeAtomicType::is_always_lock_free;
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static constexpr size_t RequiredAlignment = NAMESPACE_STD::atomic_ref<T>::required_alignment;
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static constexpr size_t RequiredAlignment = NAMESPACE_STD::atomic_ref<T>::required_alignment;
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constexpr TAtomic() requires (!bIsRef) : Element() { };
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constexpr TAtomicImpl() requires (!bIsRef) : NativeAtomic() { };
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constexpr TAtomic(ValueType Desired) requires (!bIsRef) : Element(Desired) { };
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constexpr TAtomicImpl(ValueType Desired) requires (!bIsRef) : NativeAtomic(Desired) { };
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FORCEINLINE explicit TAtomic(ValueType& Desired) requires (bIsRef) : Element(Desired) { check(Memory::IsAligned(&Desired, RequiredAlignment)); };
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FORCEINLINE explicit TAtomicImpl(ValueType& Desired) requires (bIsRef) : NativeAtomic(Desired) { check(Memory::IsAligned(&Desired, RequiredAlignment)); };
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FORCEINLINE TAtomic(TAtomic& InValue) requires (bIsRef) : Element(InValue) { };
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FORCEINLINE TAtomicImpl(TAtomicImpl& InValue) requires (bIsRef) : NativeAtomic(InValue) { };
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FORCEINLINE ValueType operator=(ValueType Desired) { return Element = Desired; }
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FORCEINLINE ValueType operator=(ValueType Desired) { return NativeAtomic = Desired; }
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FORCEINLINE ValueType operator=(ValueType Desired) volatile requires (bIsAlwaysLockFree) { return Element = Desired; }
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FORCEINLINE ValueType operator=(ValueType Desired) volatile requires (bIsAlwaysLockFree) { return NativeAtomic = Desired; }
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FORCEINLINE void Store(ValueType Desired, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) { MEMORY_ORDER_CHECK(Order, 0x01 | 0x08 | 0x20); Element.store(Desired, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE void Store(ValueType Desired, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) { MEMORY_ORDER_CHECK(Order, 0x01 | 0x08 | 0x20); NativeAtomic.store(Desired, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE void Store(ValueType Desired, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (bIsAlwaysLockFree) { MEMORY_ORDER_CHECK(Order, 0x01 | 0x08 | 0x20); Element.store(Desired, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE void Store(ValueType Desired, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (bIsAlwaysLockFree) { MEMORY_ORDER_CHECK(Order, 0x01 | 0x08 | 0x20); NativeAtomic.store(Desired, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType Load(EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) const { MEMORY_ORDER_CHECK(Order, 0x01 | 0x02 | 0x04 | 0x20); return Element.load(static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType Load(EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) const { MEMORY_ORDER_CHECK(Order, 0x01 | 0x02 | 0x04 | 0x20); return NativeAtomic.load(static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType Load(EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) const volatile requires (bIsAlwaysLockFree) { MEMORY_ORDER_CHECK(Order, 0x01 | 0x02 | 0x04 | 0x20); return Element.load(static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType Load(EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) const volatile requires (bIsAlwaysLockFree) { MEMORY_ORDER_CHECK(Order, 0x01 | 0x02 | 0x04 | 0x20); return NativeAtomic.load(static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE operator ValueType() const { return static_cast<ValueType>(Element); }
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FORCEINLINE operator ValueType() const { return static_cast<ValueType>(NativeAtomic); }
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FORCEINLINE operator ValueType() const volatile requires (bIsAlwaysLockFree) { return static_cast<ValueType>(Element); }
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FORCEINLINE operator ValueType() const volatile requires (bIsAlwaysLockFree) { return static_cast<ValueType>(NativeAtomic); }
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FORCEINLINE ValueType Exchange(ValueType Desired, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) { return Element.exchange(Desired, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType Exchange(ValueType Desired, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) { return NativeAtomic.exchange(Desired, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType Exchange(ValueType Desired, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (bIsAlwaysLockFree) { return Element.exchange(Desired, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType Exchange(ValueType Desired, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (bIsAlwaysLockFree) { return NativeAtomic.exchange(Desired, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE bool CompareExchange(ValueType& Expected, ValueType Desired, EMemoryOrder Success, EMemoryOrder Failure, bool bIsWeak = false)
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FORCEINLINE bool CompareExchange(ValueType& Expected, ValueType Desired, EMemoryOrder Success, EMemoryOrder Failure, bool bIsWeak = false)
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{
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{
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MEMORY_ORDER_CHECK(Failure, 0x01 | 0x02 | 0x04 | 0x20);
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MEMORY_ORDER_CHECK(Failure, 0x01 | 0x02 | 0x04 | 0x20);
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if (bIsWeak) return Element.compare_exchange_weak(Expected, Desired, static_cast<NAMESPACE_STD::memory_order>(Success), static_cast<NAMESPACE_STD::memory_order>(Failure));
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if (bIsWeak) return NativeAtomic.compare_exchange_weak(Expected, Desired, static_cast<NAMESPACE_STD::memory_order>(Success), static_cast<NAMESPACE_STD::memory_order>(Failure));
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else return Element.compare_exchange_strong(Expected, Desired, static_cast<NAMESPACE_STD::memory_order>(Success), static_cast<NAMESPACE_STD::memory_order>(Failure));
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else return NativeAtomic.compare_exchange_strong(Expected, Desired, static_cast<NAMESPACE_STD::memory_order>(Success), static_cast<NAMESPACE_STD::memory_order>(Failure));
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}
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}
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FORCEINLINE bool CompareExchange(ValueType& Expected, ValueType Desired, EMemoryOrder Success, EMemoryOrder Failure, bool bIsWeak = false) volatile requires (bIsAlwaysLockFree)
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FORCEINLINE bool CompareExchange(ValueType& Expected, ValueType Desired, EMemoryOrder Success, EMemoryOrder Failure, bool bIsWeak = false) volatile requires (bIsAlwaysLockFree)
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{
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{
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MEMORY_ORDER_CHECK(Failure, 0x01 | 0x02 | 0x04 | 0x20);
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MEMORY_ORDER_CHECK(Failure, 0x01 | 0x02 | 0x04 | 0x20);
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if (bIsWeak) return Element.compare_exchange_weak(Expected, Desired, static_cast<NAMESPACE_STD::memory_order>(Success), static_cast<NAMESPACE_STD::memory_order>(Failure));
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if (bIsWeak) return NativeAtomic.compare_exchange_weak(Expected, Desired, static_cast<NAMESPACE_STD::memory_order>(Success), static_cast<NAMESPACE_STD::memory_order>(Failure));
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else return Element.compare_exchange_strong(Expected, Desired, static_cast<NAMESPACE_STD::memory_order>(Success), static_cast<NAMESPACE_STD::memory_order>(Failure));
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else return NativeAtomic.compare_exchange_strong(Expected, Desired, static_cast<NAMESPACE_STD::memory_order>(Success), static_cast<NAMESPACE_STD::memory_order>(Failure));
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}
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}
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FORCEINLINE bool CompareExchange(ValueType& Expected, ValueType Desired, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent, bool bIsWeak = false)
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FORCEINLINE bool CompareExchange(ValueType& Expected, ValueType Desired, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent, bool bIsWeak = false)
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{
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{
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if (bIsWeak) return Element.compare_exchange_weak(Expected, Desired, static_cast<NAMESPACE_STD::memory_order>(Order));
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if (bIsWeak) return NativeAtomic.compare_exchange_weak(Expected, Desired, static_cast<NAMESPACE_STD::memory_order>(Order));
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else return Element.compare_exchange_strong(Expected, Desired, static_cast<NAMESPACE_STD::memory_order>(Order));
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else return NativeAtomic.compare_exchange_strong(Expected, Desired, static_cast<NAMESPACE_STD::memory_order>(Order));
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}
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}
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FORCEINLINE bool CompareExchange(ValueType& Expected, ValueType Desired, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent, bool bIsWeak = false) volatile requires (bIsAlwaysLockFree)
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FORCEINLINE bool CompareExchange(ValueType& Expected, ValueType Desired, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent, bool bIsWeak = false) volatile requires (bIsAlwaysLockFree)
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{
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{
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if (bIsWeak) return Element.compare_exchange_weak(Expected, Desired, static_cast<NAMESPACE_STD::memory_order>(Order));
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if (bIsWeak) return NativeAtomic.compare_exchange_weak(Expected, Desired, static_cast<NAMESPACE_STD::memory_order>(Order));
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else return Element.compare_exchange_strong(Expected, Desired, static_cast<NAMESPACE_STD::memory_order>(Order));
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else return NativeAtomic.compare_exchange_strong(Expected, Desired, static_cast<NAMESPACE_STD::memory_order>(Order));
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}
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}
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FORCEINLINE void Wait(ValueType Old, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) { MEMORY_ORDER_CHECK(Order, 0x01 | 0x02 | 0x04 | 0x20); Element.wait(Old, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE void Wait(ValueType Old, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) { MEMORY_ORDER_CHECK(Order, 0x01 | 0x02 | 0x04 | 0x20); NativeAtomic.wait(Old, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE void Wait(ValueType Old, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile { MEMORY_ORDER_CHECK(Order, 0x01 | 0x02 | 0x04 | 0x20); Element.wait(Old, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE void Wait(ValueType Old, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile { MEMORY_ORDER_CHECK(Order, 0x01 | 0x02 | 0x04 | 0x20); NativeAtomic.wait(Old, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE void Notify(bool bIsAll = false) { if (bIsAll) Element.notify_all(); else Element.notify_one(); }
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FORCEINLINE void Notify(bool bIsAll = false) { if (bIsAll) NativeAtomic.notify_all(); else NativeAtomic.notify_one(); }
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FORCEINLINE void Notify(bool bIsAll = false) volatile { if (bIsAll) Element.notify_all(); else Element.notify_one(); }
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FORCEINLINE void Notify(bool bIsAll = false) volatile { if (bIsAll) NativeAtomic.notify_all(); else NativeAtomic.notify_one(); }
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template <typename F> requires (CInvocableResult<ValueType, F, ValueType>)
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template <typename F> requires (CInvocableResult<ValueType, F, ValueType>)
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FORCEINLINE ValueType FetchFn(F&& Func, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent)
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FORCEINLINE ValueType FetchFn(F&& Func, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent)
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@ -137,17 +137,17 @@ public:
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return Temp;
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return Temp;
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}
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}
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FORCEINLINE ValueType FetchAdd(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CIntegral<T> || CFloatingPoint<T>) { return Element.fetch_add(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchAdd(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CIntegral<T> || CFloatingPoint<T>) { return NativeAtomic.fetch_add(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchAdd(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CIntegral<T> || CFloatingPoint<T>) && bIsAlwaysLockFree { return Element.fetch_add(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchAdd(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CIntegral<T> || CFloatingPoint<T>) && bIsAlwaysLockFree { return NativeAtomic.fetch_add(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchAdd(ptrdiff InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CPointer<T> ) { return Element.fetch_add(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchAdd(ptrdiff InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CPointer<T> ) { return NativeAtomic.fetch_add(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchAdd(ptrdiff InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CPointer<T> && bIsAlwaysLockFree) { return Element.fetch_add(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchAdd(ptrdiff InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CPointer<T> && bIsAlwaysLockFree) { return NativeAtomic.fetch_add(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchSub(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CIntegral<T> || CFloatingPoint<T>) { return Element.fetch_sub(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchSub(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CIntegral<T> || CFloatingPoint<T>) { return NativeAtomic.fetch_sub(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchSub(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CIntegral<T> || CFloatingPoint<T>) && bIsAlwaysLockFree { return Element.fetch_sub(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchSub(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CIntegral<T> || CFloatingPoint<T>) && bIsAlwaysLockFree { return NativeAtomic.fetch_sub(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchSub(ptrdiff InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CPointer<T> ) { return Element.fetch_sub(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchSub(ptrdiff InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CPointer<T> ) { return NativeAtomic.fetch_sub(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchSub(ptrdiff InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CPointer<T> && bIsAlwaysLockFree) { return Element.fetch_sub(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchSub(ptrdiff InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CPointer<T> && bIsAlwaysLockFree) { return NativeAtomic.fetch_sub(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchMul(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CIntegral<T> || CFloatingPoint<T>) { return FetchFn([InValue](ValueType Old) -> ValueType { return Old * InValue; }); }
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FORCEINLINE ValueType FetchMul(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CIntegral<T> || CFloatingPoint<T>) { return FetchFn([InValue](ValueType Old) -> ValueType { return Old * InValue; }); }
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FORCEINLINE ValueType FetchMul(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CIntegral<T> || CFloatingPoint<T>) && bIsAlwaysLockFree { return FetchFn([InValue](ValueType Old) -> ValueType { return Old * InValue; }); }
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FORCEINLINE ValueType FetchMul(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CIntegral<T> || CFloatingPoint<T>) && bIsAlwaysLockFree { return FetchFn([InValue](ValueType Old) -> ValueType { return Old * InValue; }); }
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@ -158,14 +158,14 @@ public:
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FORCEINLINE ValueType FetchMod(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CIntegral<T> ) { return FetchFn([InValue](ValueType Old) -> ValueType { return Old % InValue; }); }
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FORCEINLINE ValueType FetchMod(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CIntegral<T> ) { return FetchFn([InValue](ValueType Old) -> ValueType { return Old % InValue; }); }
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FORCEINLINE ValueType FetchMod(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return FetchFn([InValue](ValueType Old) -> ValueType { return Old % InValue; }); }
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FORCEINLINE ValueType FetchMod(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return FetchFn([InValue](ValueType Old) -> ValueType { return Old % InValue; }); }
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FORCEINLINE ValueType FetchAnd(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CIntegral<T> ) { return Element.fetch_and(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchAnd(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CIntegral<T> ) { return NativeAtomic.fetch_and(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchAnd(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return Element.fetch_and(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchAnd(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return NativeAtomic.fetch_and(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchOr(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CIntegral<T> ) { return Element.fetch_or(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchOr(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CIntegral<T> ) { return NativeAtomic.fetch_or(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchOr(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return Element.fetch_or(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchOr(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return NativeAtomic.fetch_or(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchXor(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CIntegral<T> ) { return Element.fetch_xor(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchXor(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CIntegral<T> ) { return NativeAtomic.fetch_xor(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchXor(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return Element.fetch_xor(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchXor(ValueType InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return NativeAtomic.fetch_xor(InValue, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE ValueType FetchLsh(size_t InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CIntegral<T> ) { return FetchFn([InValue](ValueType Old) -> ValueType { return Old << InValue; }); }
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FORCEINLINE ValueType FetchLsh(size_t InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CIntegral<T> ) { return FetchFn([InValue](ValueType Old) -> ValueType { return Old << InValue; }); }
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FORCEINLINE ValueType FetchLsh(size_t InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return FetchFn([InValue](ValueType Old) -> ValueType { return Old << InValue; }); }
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FORCEINLINE ValueType FetchLsh(size_t InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return FetchFn([InValue](ValueType Old) -> ValueType { return Old << InValue; }); }
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@ -173,29 +173,29 @@ public:
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FORCEINLINE ValueType FetchRsh(size_t InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CIntegral<T> ) { return FetchFn([InValue](ValueType Old) -> ValueType { return Old >> InValue; }); }
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FORCEINLINE ValueType FetchRsh(size_t InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) requires (CIntegral<T> ) { return FetchFn([InValue](ValueType Old) -> ValueType { return Old >> InValue; }); }
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FORCEINLINE ValueType FetchRsh(size_t InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return FetchFn([InValue](ValueType Old) -> ValueType { return Old >> InValue; }); }
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FORCEINLINE ValueType FetchRsh(size_t InValue, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return FetchFn([InValue](ValueType Old) -> ValueType { return Old >> InValue; }); }
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FORCEINLINE ValueType operator++() requires ((CIntegral<T> || CPointer<T>) ) { return ++Element; }
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FORCEINLINE ValueType operator++() requires ((CIntegral<T> || CPointer<T>) ) { return ++NativeAtomic; }
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FORCEINLINE ValueType operator++() volatile requires ((CIntegral<T> || CPointer<T>) && bIsAlwaysLockFree) { return ++Element; }
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FORCEINLINE ValueType operator++() volatile requires ((CIntegral<T> || CPointer<T>) && bIsAlwaysLockFree) { return ++NativeAtomic; }
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FORCEINLINE ValueType operator++(int) requires ((CIntegral<T> || CPointer<T>) ) { return Element++; }
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FORCEINLINE ValueType operator++(int) requires ((CIntegral<T> || CPointer<T>) ) { return NativeAtomic++; }
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FORCEINLINE ValueType operator++(int) volatile requires ((CIntegral<T> || CPointer<T>) && bIsAlwaysLockFree) { return Element++; }
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FORCEINLINE ValueType operator++(int) volatile requires ((CIntegral<T> || CPointer<T>) && bIsAlwaysLockFree) { return NativeAtomic++; }
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FORCEINLINE ValueType operator--() requires ((CIntegral<T> || CPointer<T>) ) { return --Element; }
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FORCEINLINE ValueType operator--() requires ((CIntegral<T> || CPointer<T>) ) { return --NativeAtomic; }
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FORCEINLINE ValueType operator--() volatile requires ((CIntegral<T> || CPointer<T>) && bIsAlwaysLockFree) { return --Element; }
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FORCEINLINE ValueType operator--() volatile requires ((CIntegral<T> || CPointer<T>) && bIsAlwaysLockFree) { return --NativeAtomic; }
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FORCEINLINE ValueType operator--(int) requires ((CIntegral<T> || CPointer<T>) ) { return Element--; }
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FORCEINLINE ValueType operator--(int) requires ((CIntegral<T> || CPointer<T>) ) { return NativeAtomic--; }
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FORCEINLINE ValueType operator--(int) volatile requires ((CIntegral<T> || CPointer<T>) && bIsAlwaysLockFree) { return Element--; }
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FORCEINLINE ValueType operator--(int) volatile requires ((CIntegral<T> || CPointer<T>) && bIsAlwaysLockFree) { return NativeAtomic--; }
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FORCEINLINE ValueType operator+=(ValueType InValue) requires ((CIntegral<T> || CFloatingPoint<T>) ) { return Element += InValue; }
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FORCEINLINE ValueType operator+=(ValueType InValue) requires ((CIntegral<T> || CFloatingPoint<T>) ) { return NativeAtomic += InValue; }
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FORCEINLINE ValueType operator+=(ValueType InValue) volatile requires ((CIntegral<T> || CFloatingPoint<T>) && bIsAlwaysLockFree) { return Element += InValue; }
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FORCEINLINE ValueType operator+=(ValueType InValue) volatile requires ((CIntegral<T> || CFloatingPoint<T>) && bIsAlwaysLockFree) { return NativeAtomic += InValue; }
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FORCEINLINE ValueType operator+=(ptrdiff InValue) requires (CPointer<T> ) { return Element += InValue; }
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FORCEINLINE ValueType operator+=(ptrdiff InValue) requires (CPointer<T> ) { return NativeAtomic += InValue; }
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FORCEINLINE ValueType operator+=(ptrdiff InValue) volatile requires (CPointer<T> && bIsAlwaysLockFree) { return Element += InValue; }
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FORCEINLINE ValueType operator+=(ptrdiff InValue) volatile requires (CPointer<T> && bIsAlwaysLockFree) { return NativeAtomic += InValue; }
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FORCEINLINE ValueType operator-=(ValueType InValue) requires ((CIntegral<T> || CFloatingPoint<T>) ) { return Element -= InValue; }
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FORCEINLINE ValueType operator-=(ValueType InValue) requires ((CIntegral<T> || CFloatingPoint<T>) ) { return NativeAtomic -= InValue; }
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FORCEINLINE ValueType operator-=(ValueType InValue) volatile requires ((CIntegral<T> || CFloatingPoint<T>) && bIsAlwaysLockFree) { return Element -= InValue; }
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FORCEINLINE ValueType operator-=(ValueType InValue) volatile requires ((CIntegral<T> || CFloatingPoint<T>) && bIsAlwaysLockFree) { return NativeAtomic -= InValue; }
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FORCEINLINE ValueType operator-=(ptrdiff InValue) requires (CPointer<T> ) { return Element -= InValue; }
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FORCEINLINE ValueType operator-=(ptrdiff InValue) requires (CPointer<T> ) { return NativeAtomic -= InValue; }
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FORCEINLINE ValueType operator-=(ptrdiff InValue) volatile requires (CPointer<T> && bIsAlwaysLockFree) { return Element -= InValue; }
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FORCEINLINE ValueType operator-=(ptrdiff InValue) volatile requires (CPointer<T> && bIsAlwaysLockFree) { return NativeAtomic -= InValue; }
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FORCEINLINE ValueType operator*=(ValueType InValue) requires ((CIntegral<T> || CFloatingPoint<T>) ) { return FetchMul(InValue) * InValue; }
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FORCEINLINE ValueType operator*=(ValueType InValue) requires ((CIntegral<T> || CFloatingPoint<T>) ) { return FetchMul(InValue) * InValue; }
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FORCEINLINE ValueType operator*=(ValueType InValue) volatile requires ((CIntegral<T> || CFloatingPoint<T>) && bIsAlwaysLockFree) { return FetchMul(InValue) * InValue; }
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FORCEINLINE ValueType operator*=(ValueType InValue) volatile requires ((CIntegral<T> || CFloatingPoint<T>) && bIsAlwaysLockFree) { return FetchMul(InValue) * InValue; }
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@ -206,14 +206,14 @@ public:
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FORCEINLINE ValueType operator%=(ValueType InValue) requires (CIntegral<T> ) { return FetchMod(InValue) % InValue; }
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FORCEINLINE ValueType operator%=(ValueType InValue) requires (CIntegral<T> ) { return FetchMod(InValue) % InValue; }
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FORCEINLINE ValueType operator%=(ValueType InValue) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return FetchMod(InValue) % InValue; }
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FORCEINLINE ValueType operator%=(ValueType InValue) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return FetchMod(InValue) % InValue; }
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FORCEINLINE ValueType operator&=(ValueType InValue) requires (CIntegral<T> ) { return Element &= InValue; }
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FORCEINLINE ValueType operator&=(ValueType InValue) requires (CIntegral<T> ) { return NativeAtomic &= InValue; }
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FORCEINLINE ValueType operator&=(ValueType InValue) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return Element &= InValue; }
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FORCEINLINE ValueType operator&=(ValueType InValue) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return NativeAtomic &= InValue; }
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FORCEINLINE ValueType operator|=(ValueType InValue) requires (CIntegral<T> ) { return Element |= InValue; }
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FORCEINLINE ValueType operator|=(ValueType InValue) requires (CIntegral<T> ) { return NativeAtomic |= InValue; }
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FORCEINLINE ValueType operator|=(ValueType InValue) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return Element |= InValue; }
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FORCEINLINE ValueType operator|=(ValueType InValue) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return NativeAtomic |= InValue; }
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FORCEINLINE ValueType operator^=(ValueType InValue) requires (CIntegral<T> ) { return Element ^= InValue; }
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FORCEINLINE ValueType operator^=(ValueType InValue) requires (CIntegral<T> ) { return NativeAtomic ^= InValue; }
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FORCEINLINE ValueType operator^=(ValueType InValue) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return Element ^= InValue; }
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FORCEINLINE ValueType operator^=(ValueType InValue) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return NativeAtomic ^= InValue; }
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FORCEINLINE ValueType operator<<=(size_t InValue) requires (CIntegral<T> ) { return FetchLsh(InValue) << InValue; }
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FORCEINLINE ValueType operator<<=(size_t InValue) requires (CIntegral<T> ) { return FetchLsh(InValue) << InValue; }
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FORCEINLINE ValueType operator<<=(size_t InValue) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return FetchLsh(InValue) << InValue; }
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FORCEINLINE ValueType operator<<=(size_t InValue) volatile requires (CIntegral<T> && bIsAlwaysLockFree) { return FetchLsh(InValue) << InValue; }
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@ -223,40 +223,50 @@ public:
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protected:
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protected:
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ElementType Element;
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NativeAtomicType NativeAtomic;
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};
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};
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NAMESPACE_PRIVATE_END
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template <typename T>
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template <typename T>
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using TAtomicRef = TAtomic<T, true>;
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struct TAtomic : STRONG_INHERIT(NAMESPACE_PRIVATE::TAtomicImpl<T, false>);
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template <typename T>
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struct TAtomicRef : STRONG_INHERIT(NAMESPACE_PRIVATE::TAtomicImpl<T, true>);
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template <typename T>
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template <typename T>
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TAtomic(T) -> TAtomic<T>;
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TAtomic(T) -> TAtomic<T>;
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template <typename T>
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TAtomicRef(T&) -> TAtomicRef<T>;
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static_assert(sizeof(TAtomic<int32>) == sizeof(int32), "The byte size of TAtomic is unexpected");
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struct FAtomicFlag : FSingleton
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struct FAtomicFlag : FSingleton
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{
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{
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public:
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public:
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constexpr FAtomicFlag() : Element() { };
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constexpr FAtomicFlag() : NativeAtomic() { };
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FORCEINLINE void Clear(EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) { MEMORY_ORDER_CHECK(Order, 0x01 | 0x08 | 0x20); Element.clear(static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE void Clear(EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) { MEMORY_ORDER_CHECK(Order, 0x01 | 0x08 | 0x20); NativeAtomic.clear(static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE void Clear(EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile { MEMORY_ORDER_CHECK(Order, 0x01 | 0x08 | 0x20); Element.clear(static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE void Clear(EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile { MEMORY_ORDER_CHECK(Order, 0x01 | 0x08 | 0x20); NativeAtomic.clear(static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE bool TestAndSet(EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) { return Element.test_and_set(static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE bool TestAndSet(EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) { return NativeAtomic.test_and_set(static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE bool TestAndSet(EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile { return Element.test_and_set(static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE bool TestAndSet(EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) volatile { return NativeAtomic.test_and_set(static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE bool Test(EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) const { MEMORY_ORDER_CHECK(Order, 0x01 | 0x02 | 0x04 | 0x20); return Element.test(static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE bool Test(EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) const { MEMORY_ORDER_CHECK(Order, 0x01 | 0x02 | 0x04 | 0x20); return NativeAtomic.test(static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE bool Test(EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) const volatile { MEMORY_ORDER_CHECK(Order, 0x01 | 0x02 | 0x04 | 0x20); return Element.test(static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE bool Test(EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) const volatile { MEMORY_ORDER_CHECK(Order, 0x01 | 0x02 | 0x04 | 0x20); return NativeAtomic.test(static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE void Wait(bool Old, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) const { MEMORY_ORDER_CHECK(Order, 0x01 | 0x02 | 0x04 | 0x20); const_cast<const NAMESPACE_STD::atomic_flag&>(Element).wait(Old, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE void Wait(bool Old, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) const { MEMORY_ORDER_CHECK(Order, 0x01 | 0x02 | 0x04 | 0x20); const_cast<const NAMESPACE_STD::atomic_flag&>(NativeAtomic).wait(Old, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE void Wait(bool Old, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) const volatile { MEMORY_ORDER_CHECK(Order, 0x01 | 0x02 | 0x04 | 0x20); const_cast<const NAMESPACE_STD::atomic_flag&>(Element).wait(Old, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE void Wait(bool Old, EMemoryOrder Order = EMemoryOrder::SequentiallyConsistent) const volatile { MEMORY_ORDER_CHECK(Order, 0x01 | 0x02 | 0x04 | 0x20); const_cast<const NAMESPACE_STD::atomic_flag&>(NativeAtomic).wait(Old, static_cast<NAMESPACE_STD::memory_order>(Order)); }
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FORCEINLINE void Notify(bool bIsAll = false) { if (bIsAll) const_cast<NAMESPACE_STD::atomic_flag&>(Element).notify_all(); else const_cast<NAMESPACE_STD::atomic_flag&>(Element).notify_one(); }
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FORCEINLINE void Notify(bool bIsAll = false) { if (bIsAll) const_cast<NAMESPACE_STD::atomic_flag&>(NativeAtomic).notify_all(); else const_cast<NAMESPACE_STD::atomic_flag&>(NativeAtomic).notify_one(); }
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FORCEINLINE void Notify(bool bIsAll = false) volatile { if (bIsAll) const_cast<NAMESPACE_STD::atomic_flag&>(Element).notify_all(); else const_cast<NAMESPACE_STD::atomic_flag&>(Element).notify_one(); }
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FORCEINLINE void Notify(bool bIsAll = false) volatile { if (bIsAll) const_cast<NAMESPACE_STD::atomic_flag&>(NativeAtomic).notify_all(); else const_cast<NAMESPACE_STD::atomic_flag&>(NativeAtomic).notify_one(); }
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protected:
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private:
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NAMESPACE_STD::atomic_flag Element;
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|
NAMESPACE_STD::atomic_flag NativeAtomic;
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};
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};
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