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/*
* Copyright ( c ) 2018 - 2020 , Andreas Kling < kling @ serenityos . org >
*
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* SPDX - License - Identifier : BSD - 2 - Clause
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*/
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# pragma once
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# include <AK/Concepts.h>
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# include <AK/Platform.h>
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# include <AK/Types.h>
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namespace AK {
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static inline void atomic_signal_fence ( MemoryOrder order ) noexcept
{
return __atomic_signal_fence ( order ) ;
}
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static inline void atomic_thread_fence ( MemoryOrder order ) noexcept
{
return __atomic_thread_fence ( order ) ;
}
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static inline void full_memory_barrier ( ) noexcept
{
atomic_signal_fence ( AK : : MemoryOrder : : memory_order_acq_rel ) ;
atomic_thread_fence ( AK : : MemoryOrder : : memory_order_acq_rel ) ;
}
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template < typename T >
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static inline T atomic_exchange ( T volatile * var , T desired , MemoryOrder order = memory_order_seq_cst ) noexcept
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{
return __atomic_exchange_n ( var , desired , order ) ;
}
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template < typename T , typename V = RemoveVolatile < T > >
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static inline V * atomic_exchange ( T volatile * * var , V * desired , MemoryOrder order = memory_order_seq_cst ) noexcept
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{
return __atomic_exchange_n ( var , desired , order ) ;
}
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template < typename T , typename V = RemoveVolatile < T > >
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static inline V * atomic_exchange ( T volatile * * var , nullptr_t , MemoryOrder order = memory_order_seq_cst ) noexcept
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{
return __atomic_exchange_n ( const_cast < V * * > ( var ) , nullptr , order ) ;
}
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template < typename T >
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[ [ nodiscard ] ] static inline bool atomic_compare_exchange_strong ( T volatile * var , T & expected , T desired , MemoryOrder order = memory_order_seq_cst ) noexcept
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{
if ( order = = memory_order_acq_rel | | order = = memory_order_release )
return __atomic_compare_exchange_n ( var , & expected , desired , false , memory_order_release , memory_order_acquire ) ;
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return __atomic_compare_exchange_n ( var , & expected , desired , false , order , order ) ;
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}
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template < typename T , typename V = RemoveVolatile < T > >
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[ [ nodiscard ] ] static inline bool atomic_compare_exchange_strong ( T volatile * * var , V * & expected , V * desired , MemoryOrder order = memory_order_seq_cst ) noexcept
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{
if ( order = = memory_order_acq_rel | | order = = memory_order_release )
return __atomic_compare_exchange_n ( var , & expected , desired , false , memory_order_release , memory_order_acquire ) ;
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return __atomic_compare_exchange_n ( var , & expected , desired , false , order , order ) ;
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}
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template < typename T , typename V = RemoveVolatile < T > >
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[ [ nodiscard ] ] static inline bool atomic_compare_exchange_strong ( T volatile * * var , V * & expected , nullptr_t , MemoryOrder order = memory_order_seq_cst ) noexcept
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{
if ( order = = memory_order_acq_rel | | order = = memory_order_release )
return __atomic_compare_exchange_n ( const_cast < V * * > ( var ) , & expected , nullptr , false , memory_order_release , memory_order_acquire ) ;
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return __atomic_compare_exchange_n ( const_cast < V * * > ( var ) , & expected , nullptr , false , order , order ) ;
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}
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template < typename T >
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static inline T atomic_fetch_add ( T volatile * var , T val , MemoryOrder order = memory_order_seq_cst ) noexcept
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{
return __atomic_fetch_add ( var , val , order ) ;
}
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template < typename T >
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static inline T atomic_fetch_sub ( T volatile * var , T val , MemoryOrder order = memory_order_seq_cst ) noexcept
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{
return __atomic_fetch_sub ( var , val , order ) ;
}
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template < typename T >
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static inline T atomic_fetch_and ( T volatile * var , T val , MemoryOrder order = memory_order_seq_cst ) noexcept
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{
return __atomic_fetch_and ( var , val , order ) ;
}
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template < typename T >
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static inline T atomic_fetch_or ( T volatile * var , T val , MemoryOrder order = memory_order_seq_cst ) noexcept
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{
return __atomic_fetch_or ( var , val , order ) ;
}
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template < typename T >
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static inline T atomic_fetch_xor ( T volatile * var , T val , MemoryOrder order = memory_order_seq_cst ) noexcept
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{
return __atomic_fetch_xor ( var , val , order ) ;
}
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template < typename T >
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static inline T atomic_load ( T volatile * var , MemoryOrder order = memory_order_seq_cst ) noexcept
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{
return __atomic_load_n ( var , order ) ;
}
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template < typename T , typename V = RemoveVolatile < T > >
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static inline V * atomic_load ( T volatile * * var , MemoryOrder order = memory_order_seq_cst ) noexcept
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{
return __atomic_load_n ( const_cast < V * * > ( var ) , order ) ;
}
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template < typename T >
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static inline void atomic_store ( T volatile * var , T desired , MemoryOrder order = memory_order_seq_cst ) noexcept
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{
__atomic_store_n ( var , desired , order ) ;
}
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template < typename T , typename V = RemoveVolatile < T > >
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static inline void atomic_store ( T volatile * * var , V * desired , MemoryOrder order = memory_order_seq_cst ) noexcept
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{
__atomic_store_n ( var , desired , order ) ;
}
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template < typename T , typename V = RemoveVolatile < T > >
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static inline void atomic_store ( T volatile * * var , nullptr_t , MemoryOrder order = memory_order_seq_cst ) noexcept
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{
__atomic_store_n ( const_cast < V * * > ( var ) , nullptr , order ) ;
}
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template < typename T >
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static inline bool atomic_is_lock_free ( T volatile * ptr = nullptr ) noexcept
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{
return __atomic_is_lock_free ( sizeof ( T ) , ptr ) ;
}
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template < typename T , MemoryOrder DefaultMemoryOrder = AK : : MemoryOrder : : memory_order_seq_cst >
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class Atomic {
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// FIXME: This should work through concepts/requires clauses, but according to the compiler,
// "IsIntegral is not more specialized than IsFundamental".
// Additionally, Enums are not fundamental types except that they behave like them in every observable way.
static_assert ( IsFundamental < T > | IsEnum < T > , " Atomic doesn't support non-primitive types, because it relies on compiler intrinsics. If you put non-primitives into it, you'll get linker errors like \" undefined reference to __atomic_store \" . " ) ;
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T m_value { 0 } ;
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public :
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Atomic ( ) noexcept = default ;
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Atomic & operator = ( Atomic const & ) volatile = delete ;
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Atomic & operator = ( Atomic & & ) volatile = delete ;
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Atomic ( Atomic const & ) = delete ;
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Atomic ( Atomic & & ) = delete ;
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constexpr Atomic ( T val ) noexcept
: m_value ( val )
{
}
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T volatile * ptr ( ) noexcept
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{
return & m_value ;
}
T exchange ( T desired , MemoryOrder order = DefaultMemoryOrder ) volatile noexcept
{
// We use this hack to prevent unnecessary initialization, even if T has a default constructor.
// NOTE: Will need to investigate if it pessimizes the generated assembly.
alignas ( T ) u8 buffer [ sizeof ( T ) ] ;
T * ret = reinterpret_cast < T * > ( buffer ) ;
__atomic_exchange ( & m_value , & desired , ret , order ) ;
return * ret ;
}
[ [ nodiscard ] ] bool compare_exchange_strong ( T & expected , T desired , MemoryOrder order = DefaultMemoryOrder ) volatile noexcept
{
if ( order = = memory_order_acq_rel | | order = = memory_order_release )
return __atomic_compare_exchange ( & m_value , & expected , & desired , false , memory_order_release , memory_order_acquire ) ;
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return __atomic_compare_exchange ( & m_value , & expected , & desired , false , order , order ) ;
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}
ALWAYS_INLINE operator T ( ) const volatile noexcept
{
return load ( ) ;
}
ALWAYS_INLINE T load ( MemoryOrder order = DefaultMemoryOrder ) const volatile noexcept
{
alignas ( T ) u8 buffer [ sizeof ( T ) ] ;
T * ret = reinterpret_cast < T * > ( buffer ) ;
__atomic_load ( & m_value , ret , order ) ;
return * ret ;
}
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// NOLINTNEXTLINE(misc-unconventional-assign-operator) We want operator= to exchange the value, so returning an object of type Atomic& here does not make sense
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ALWAYS_INLINE T operator = ( T desired ) volatile noexcept
{
store ( desired ) ;
return desired ;
}
ALWAYS_INLINE void store ( T desired , MemoryOrder order = DefaultMemoryOrder ) volatile noexcept
{
__atomic_store ( & m_value , & desired , order ) ;
}
ALWAYS_INLINE bool is_lock_free ( ) const volatile noexcept
{
return __atomic_is_lock_free ( sizeof ( m_value ) , & m_value ) ;
}
} ;
template < Integral T , MemoryOrder DefaultMemoryOrder >
class Atomic < T , DefaultMemoryOrder > {
T m_value { 0 } ;
public :
Atomic ( ) noexcept = default ;
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Atomic & operator = ( Atomic const & ) volatile = delete ;
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Atomic & operator = ( Atomic & & ) volatile = delete ;
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Atomic ( Atomic const & ) = delete ;
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Atomic ( Atomic & & ) = delete ;
constexpr Atomic ( T val ) noexcept
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: m_value ( val )
{
}
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T volatile * ptr ( ) noexcept
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{
return & m_value ;
}
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T exchange ( T desired , MemoryOrder order = DefaultMemoryOrder ) volatile noexcept
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{
return __atomic_exchange_n ( & m_value , desired , order ) ;
}
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[ [ nodiscard ] ] bool compare_exchange_strong ( T & expected , T desired , MemoryOrder order = DefaultMemoryOrder ) volatile noexcept
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{
if ( order = = memory_order_acq_rel | | order = = memory_order_release )
return __atomic_compare_exchange_n ( & m_value , & expected , desired , false , memory_order_release , memory_order_acquire ) ;
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return __atomic_compare_exchange_n ( & m_value , & expected , desired , false , order , order ) ;
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}
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ALWAYS_INLINE T operator + + ( ) volatile noexcept
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{
return fetch_add ( 1 ) + 1 ;
}
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ALWAYS_INLINE T operator + + ( int ) volatile noexcept
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{
return fetch_add ( 1 ) ;
}
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ALWAYS_INLINE T operator + = ( T val ) volatile noexcept
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{
return fetch_add ( val ) + val ;
}
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ALWAYS_INLINE T fetch_add ( T val , MemoryOrder order = DefaultMemoryOrder ) volatile noexcept
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{
return __atomic_fetch_add ( & m_value , val , order ) ;
}
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ALWAYS_INLINE T operator - - ( ) volatile noexcept
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{
return fetch_sub ( 1 ) - 1 ;
}
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ALWAYS_INLINE T operator - - ( int ) volatile noexcept
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{
return fetch_sub ( 1 ) ;
}
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ALWAYS_INLINE T operator - = ( T val ) volatile noexcept
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{
return fetch_sub ( val ) - val ;
}
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ALWAYS_INLINE T fetch_sub ( T val , MemoryOrder order = DefaultMemoryOrder ) volatile noexcept
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{
return __atomic_fetch_sub ( & m_value , val , order ) ;
}
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ALWAYS_INLINE T operator & = ( T val ) volatile noexcept
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{
return fetch_and ( val ) & val ;
}
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ALWAYS_INLINE T fetch_and ( T val , MemoryOrder order = DefaultMemoryOrder ) volatile noexcept
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{
return __atomic_fetch_and ( & m_value , val , order ) ;
}
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ALWAYS_INLINE T operator | = ( T val ) volatile noexcept
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{
return fetch_or ( val ) | val ;
}
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ALWAYS_INLINE T fetch_or ( T val , MemoryOrder order = DefaultMemoryOrder ) volatile noexcept
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{
return __atomic_fetch_or ( & m_value , val , order ) ;
}
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ALWAYS_INLINE T operator ^ = ( T val ) volatile noexcept
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{
return fetch_xor ( val ) ^ val ;
}
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ALWAYS_INLINE T fetch_xor ( T val , MemoryOrder order = DefaultMemoryOrder ) volatile noexcept
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{
return __atomic_fetch_xor ( & m_value , val , order ) ;
}
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ALWAYS_INLINE operator T ( ) const volatile noexcept
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{
return load ( ) ;
}
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ALWAYS_INLINE T load ( MemoryOrder order = DefaultMemoryOrder ) const volatile noexcept
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{
return __atomic_load_n ( & m_value , order ) ;
}
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// NOLINTNEXTLINE(misc-unconventional-assign-operator) We want operator= to exchange the value, so returning an object of type Atomic& here does not make sense
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ALWAYS_INLINE T operator = ( T desired ) volatile noexcept
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{
store ( desired ) ;
return desired ;
}
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ALWAYS_INLINE void store ( T desired , MemoryOrder order = DefaultMemoryOrder ) volatile noexcept
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{
__atomic_store_n ( & m_value , desired , order ) ;
}
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ALWAYS_INLINE bool is_lock_free ( ) const volatile noexcept
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{
return __atomic_is_lock_free ( sizeof ( m_value ) , & m_value ) ;
}
} ;
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template < typename T , MemoryOrder DefaultMemoryOrder >
class Atomic < T * , DefaultMemoryOrder > {
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T * m_value { nullptr } ;
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public :
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Atomic ( ) noexcept = default ;
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Atomic & operator = ( Atomic const & ) volatile = delete ;
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Atomic & operator = ( Atomic & & ) volatile = delete ;
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Atomic ( Atomic const & ) = delete ;
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Atomic ( Atomic & & ) = delete ;
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constexpr Atomic ( T * val ) noexcept
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: m_value ( val )
{
}
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T * volatile * ptr ( ) noexcept
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{
return & m_value ;
}
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T * exchange ( T * desired , MemoryOrder order = DefaultMemoryOrder ) volatile noexcept
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{
return __atomic_exchange_n ( & m_value , desired , order ) ;
}
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[ [ nodiscard ] ] bool compare_exchange_strong ( T * & expected , T * desired , MemoryOrder order = DefaultMemoryOrder ) volatile noexcept
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{
if ( order = = memory_order_acq_rel | | order = = memory_order_release )
return __atomic_compare_exchange_n ( & m_value , & expected , desired , false , memory_order_release , memory_order_acquire ) ;
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return __atomic_compare_exchange_n ( & m_value , & expected , desired , false , order , order ) ;
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}
T * operator + + ( ) volatile noexcept
{
return fetch_add ( 1 ) + 1 ;
}
T * operator + + ( int ) volatile noexcept
{
return fetch_add ( 1 ) ;
}
T * operator + = ( ptrdiff_t val ) volatile noexcept
{
return fetch_add ( val ) + val ;
}
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T * fetch_add ( ptrdiff_t val , MemoryOrder order = DefaultMemoryOrder ) volatile noexcept
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{
return __atomic_fetch_add ( & m_value , val * sizeof ( * m_value ) , order ) ;
}
T * operator - - ( ) volatile noexcept
{
return fetch_sub ( 1 ) - 1 ;
}
T * operator - - ( int ) volatile noexcept
{
return fetch_sub ( 1 ) ;
}
T * operator - = ( ptrdiff_t val ) volatile noexcept
{
return fetch_sub ( val ) - val ;
}
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T * fetch_sub ( ptrdiff_t val , MemoryOrder order = DefaultMemoryOrder ) volatile noexcept
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{
return __atomic_fetch_sub ( & m_value , val * sizeof ( * m_value ) , order ) ;
}
operator T * ( ) const volatile noexcept
{
return load ( ) ;
}
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T * load ( MemoryOrder order = DefaultMemoryOrder ) const volatile noexcept
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{
return __atomic_load_n ( & m_value , order ) ;
}
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// NOLINTNEXTLINE(misc-unconventional-assign-operator) We want operator= to exchange the value, so returning an object of type Atomic& here does not make sense
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T * operator = ( T * desired ) volatile noexcept
{
store ( desired ) ;
return desired ;
}
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void store ( T * desired , MemoryOrder order = DefaultMemoryOrder ) volatile noexcept
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{
__atomic_store_n ( & m_value , desired , order ) ;
}
bool is_lock_free ( ) const volatile noexcept
{
return __atomic_is_lock_free ( sizeof ( m_value ) , & m_value ) ;
}
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} ;
}
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# if USING_AK_GLOBALLY
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using AK : : Atomic ;
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using AK : : full_memory_barrier ;
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# endif