std::atomic_...<std::shared_ptr>

template< class T > bool atomic_is_lock_free( const std::shared_ptr<T>* p );	(1)	(since C++11) (deprecated in C++20)
template< class T > std::shared_ptr<T> atomic_load( const std::shared_ptr<T>* p );	(2)	(since C++11) (deprecated in C++20)
template< class T > std::shared_ptr<T> atomic_load_explicit( const std::shared_ptr<T>* p, std::memory_order mo );	(3)	(since C++11) (deprecated in C++20)
template< class T > void atomic_store( std::shared_ptr<T>* p, std::shared_ptr<T> r );	(4)	(since C++11) (deprecated in C++20)
template< class T > void atomic_store_explicit( std::shared_ptr<T>* p, std::shared_ptr<T> r, std::memory_order mo);	(5)	(since C++11) (deprecated in C++20)
template< class T > std::shared_ptr<T> atomic_exchange( std::shared_ptr<T>* p, std::shared_ptr<T> r);	(6)	(since C++11) (deprecated in C++20)
template<class T> std::shared_ptr<T> atomic_exchange_explicit( std::shared_ptr<T>* p, std::shared_ptr<T> r, std::memory_order mo);	(7)	(since C++11) (deprecated in C++20)
template< class T > bool atomic_compare_exchange_weak( std::shared_ptr<T>* p, std::shared_ptr<T>* expected, std::shared_ptr<T> desired);	(8)	(since C++11) (deprecated in C++20)
template<class T> bool atomic_compare_exchange_strong( std::shared_ptr<T>* p, std::shared_ptr<T>* expected, std::shared_ptr<T> desired);	(9)	(since C++11) (deprecated in C++20)
template< class T > bool atomic_compare_exchange_strong_explicit( std::shared_ptr<T>* p, std::shared_ptr<T>* expected, std::shared_ptr<T> desired, std::memory_order success, std::memory_order failure);	(10)	(since C++11) (deprecated in C++20)
template< class T > bool atomic_compare_exchange_weak_explicit( std::shared_ptr<T>* p, std::shared_ptr<T>* expected, std::shared_ptr<T> desired, std::memory_order success, std::memory_order failure);	(11)	(since C++11) (deprecated in C++20)

If multiple threads of execution access the same std::shared_ptr object without synchronization and any of those accesses uses a non-const member function of shared_ptr then a data race will occur unless all such access is performed through these functions, which are overloads of the corresponding atomic access functions (std::atomic_load, std::atomic_store, etc.)

Note that the control block of a shared_ptr is thread-safe: different std::shared_ptr objects can be accessed using mutable operations, such as operator= or reset, simultaneously by multiple threads, even when these instances are copies, and share the same control block internally.

1) Determines whether atomic access to the shared pointer pointed-to by p is lock-free.

2) Equivalent to atomic_load_explicit(p, std::memory_order_seq_cst)

3) Returns the shared pointer pointed-to by p. As with the non-specialized std::atomic_load_explicit, mo cannot be std::memory_order_release or std::memory_order_acq_rel

4) Equivalent to atomic_store_explicit(p, r, memory_order_seq_cst)

5) Stores the shared pointer r in the shared pointer pointed-to by p atomically, effectively executing p->swap(r). As with the non-specialized std::atomic_store_explicit, mo cannot be std::memory_order_acquire or std::memory_order_acq_rel.

6) Equivalent to atomic_exchange_explicit(p, r, memory_order_seq_cst)

7) Stores the shared pointer r in the shared pointer pointed to by p and returns the value formerly pointed-to by p, atomically. Effectively executes p->swap(r) and returns a copy of r after the swap.

8) Equivalent to atomic_compare_exchange_weak_explicit(p, expected, desired, std::memory_order_seq_cst, std::memory_order_seq_cst)

9) Equivalent to atomic_compare_exchange_strong_explicit(p, expected, desired, std::memory_order_seq_cst, std::memory_order_seq_cst)

10) Compares the shared pointers pointed-to by p and expected. If they are equivalent (store the same pointer value, and either share ownership of the same object or are both empty), assigns desired into *p using the memory ordering constraints specified by success and returns true. If they are not equivalent, assigns *p into *expected using the memory ordering constraints specified by failure and returns false.

11) Same as 10), but may fail spuriously.

All these functions invoke undefined behavior if p is a null pointer.

Parameters

p, expected	-	a pointer to a std::shared_ptr
r, desired	-	a std::shared_ptr
mo, success, failure	-	memory ordering selectors of type std::memory_order

Exceptions

These functions do not throw exceptions.

Return value

1) true if atomic access is implemented using lock-free instructions

2,3) A copy of the pointed-to shared pointer.

4,5) (none)

6,7) A copy of the formerly pointed-to shared pointer

8,9,10,11) true if the shared pointers were equivalent and the exchange was performed, false otherwise.

Notes

These functions are typically implemented using mutexes, stored in a global hash table where the pointer value is used as the key.

To avoid data races, once a shared pointer is passed to any of these functions, it cannot be accessed non-atomically. In particular, you cannot dereference such a shared_ptr without first atomically loading it into another shared_ptr object, and then dereferencing through the second object.

The Concurrency TS offers atomic smart pointer classes atomic_shared_ptr and atomic_weak_ptr as a replacement for the use of these functions.

These functions were deprecated in favor of the specializations of the std::atomic template: std::atomic<std::shared_ptr> and std::atomic<std::weak_ptr>.

(since C++20)

Example

Defect reports

The following behavior-changing defect reports were applied retroactively to previously published C++ standards.

DR	Applied to	Behavior as published	Correct behavior
LWG 2980	C++11	empty `shared_ptr`s are never equivalent	equivalent if they store the same pointer value

Language
Standard Library Headers
Freestanding and hosted implementations
Named requirements
Language support library
Concepts library (C++20)
Diagnostics library
Utilities library
Strings library
Containers library
Iterators library
Ranges library (C++20)
Algorithms library
Numerics library
Input/output library
Localizations library
Regular expressions library (C++11)
Atomic operations library (C++11)
Thread support library (C++11)
Filesystem library (C++17)
Technical Specifications

Member functions
shared_ptr::shared_ptr
shared_ptr::~shared_ptr
shared_ptr::operator=
Modifiers
shared_ptr::reset
shared_ptr::swap
Observers
shared_ptr::get
shared_ptr::operator*shared_ptr::operator->
shared_ptr::operator[] (C++17)
shared_ptr::use_count
shared_ptr::unique (until C++20)
shared_ptr::operator bool
shared_ptr::owner_before
Non-member functions
std::swap
make_sharedmake_shared_default_init (C++20)
allocate_sharedallocate_shared_default_init (C++20)
static_pointer_castdynamic_pointer_castconst_pointer_castreinterpret_pointer_cast (C++17)
get_deleter
operator==operator\|=operator<operator<=operator>operator>=
operator<<
atomic_xxx functions (deprecated in C++20)
std::atomic<std::shared_ptr> (C++20)
std::hash
Deduction guides(C++17)

atomic_is_lock_free (C++11)	checks if the atomic type's operations are lock-free (function template)
atomic_storeatomic_store_explicit (C++11)(C++11)	atomically replaces the value of the atomic object with a non-atomic argument (function template)
atomic_loadatomic_load_explicit (C++11)(C++11)	atomically obtains the value stored in an atomic object (function template)
atomic_exchangeatomic_exchange_explicit (C++11)(C++11)	atomically replaces the value of the atomic object with non-atomic argument and returns the old value of the atomic (function template)
atomic_compare_exchange_weakatomic_compare_exchange_weak_explicitatomic_compare_exchange_strongatomic_compare_exchange_strong_explicit (C++11)(C++11)(C++11)(C++11)	atomically compares the value of the atomic object with non-atomic argument and performs atomic exchange if equal or atomic load if not (function template)