table of contents
std::weak_ptr< _Tp >(3cxx) | std::weak_ptr< _Tp >(3cxx) |
NAME¶
std::weak_ptr< _Tp > - A non-owning observer for a pointer owned by a shared_ptr.
SYNOPSIS¶
#include <memory>
Inherits std::__weak_ptr< _Tp, _Lp >.
Public Types¶
using element_type = typename
remove_extent< _Tp >::type
Public Member Functions¶
template<typename _Yp , typename =
_Constructible<const shared_ptr<_Yp>&>> weak_ptr
(const shared_ptr< _Yp > &__r) noexcept
weak_ptr (const weak_ptr &) noexcept=default
template<typename _Yp , typename =
_Constructible<const weak_ptr<_Yp>&>> weak_ptr
(const weak_ptr< _Yp > &__r) noexcept
weak_ptr (weak_ptr &&) noexcept=default
template<typename _Yp , typename =
_Constructible<weak_ptr<_Yp>>> weak_ptr
(weak_ptr< _Yp > &&__r) noexcept
bool expired () const noexcept
shared_ptr< _Tp > lock () const noexcept
template<typename _Yp > _Assignable< const
shared_ptr< _Yp > & > operator=
(const shared_ptr< _Yp > &__r) noexcept
weak_ptr & operator= (const weak_ptr &__r)
noexcept=default
template<typename _Yp > _Assignable< const
weak_ptr< _Yp > & > operator=
(const weak_ptr< _Yp > &__r) noexcept
weak_ptr & operator= (weak_ptr &&__r)
noexcept=default
template<typename _Yp > _Assignable<
weak_ptr< _Yp > > operator=
(weak_ptr< _Yp > &&__r) noexcept
template<typename _Tp1 > bool owner_before
(const __shared_ptr< _Tp1, _Lp >
&__rhs) const noexcept
template<typename _Tp1 > bool owner_before
(const __weak_ptr< _Tp1, _Lp > &__rhs)
const noexcept
void reset () noexcept
void swap (__weak_ptr &__s) noexcept
long use_count () const noexcept
Related Symbols¶
(Note that these are not member symbols.)
template<typename _Tp > void swap
(weak_ptr< _Tp > &__a, weak_ptr< _Tp >
&__b) noexcept
Swap overload for weak_ptr.
Detailed Description¶
template<typename _Tp>¶
class std::weak_ptr< _Tp >"A non-owning observer for a pointer owned by a shared_ptr.
Since
A weak_ptr provides a safe alternative to a raw pointer when you want a non-owning reference to an object that is managed by a shared_ptr.
Unlike a raw pointer, a weak_ptr can be converted to a new shared_ptr that shares ownership with every other shared_ptr that already owns the pointer. In other words you can upgrade from a non-owning 'weak' reference to an owning shared_ptr, without having access to any of the existing shared_ptr objects.
Also unlike a raw pointer, a weak_ptr does not become 'dangling' after the object it points to has been destroyed. Instead, a weak_ptr becomes expired and can no longer be converted to a shared_ptr that owns the freed pointer, so you cannot accidentally access the pointed-to object after it has been destroyed.
Author¶
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