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weak_ptr Class

Wraps a weakly linked pointer.

Syntax

template<class T> class weak_ptr;

Parameters

T
The type controlled by the weak pointer.

Remarks

The class template describes an object that points to a resource that is managed by one or more shared_ptr objects. The weak_ptr objects that point to a resource don't affect the resource's reference count. When the last shared_ptr object that manages that resource is destroyed, the resource will be freed, even if there are weak_ptr objects pointing to that resource. This behavior is essential for avoiding cycles in data structures.

A weak_ptr object points to a resource if it was constructed from a shared_ptr object that owns that resource, if it was constructed from a weak_ptr object that points to that resource, or if that resource was assigned to it with operator=. A weak_ptr object doesn't provide direct access to the resource that it points to. Code that needs to use the resource does so through a shared_ptr object that owns that resource, created by calling the member function lock. A weak_ptr object has expired when the resource that it points at has been freed because all of the shared_ptr objects that own the resource have been destroyed. Calling lock on a weak_ptr object that has expired creates an empty shared_ptr object.

An empty weak_ptr object doesn't point to any resources and has no control block. Its member function lock returns an empty shared_ptr object.

A cycle occurs when two or more resources controlled by shared_ptr objects hold mutually referencing shared_ptr objects. For example, a circular linked list with three elements has a head node N0; that node holds a shared_ptr object that owns the next node, N1; that node holds a shared_ptr object that owns the next node, N2; that node, in turn, holds a shared_ptr object that owns the head node, N0, closing the cycle. In this situation, the reference counts never become zero, and the nodes in the cycle are never freed. To eliminate the cycle, the last node N2 should hold a weak_ptr object pointing to N0 instead of a shared_ptr object. Since the weak_ptr object doesn't own N0 it doesn't affect N0's reference count, and when the program's last reference to the head node is destroyed the nodes in the list will also be destroyed.

Members

Name Description
Constructors
weak_ptr Constructs a weak_ptr.
Destructors
~weak_ptr Destroys a weak_ptr.
Typedefs
element_type The type of the element.
Member functions
expired Tests if ownership has expired.
lock Obtains exclusive ownership of a resource.
owner_before Returns true if this weak_ptr is ordered before (or less than) the provided pointer.
reset Releases owned resource.
swap Swaps two weak_ptr objects.
use_count Counts number of shared_ptr objects.
Operators
operator= Replaces owned resource.

element_type

The type of the element.

typedef T element_type; // through C++17
using element_type = remove_extent_t<T>; // C++20

Remarks

The type is a synonym for the template parameter T.

Example

// std__memory__weak_ptr_element_type.cpp
// compile with: /EHsc
#include <memory>
#include <iostream>

int main()
{
    std::shared_ptr<int> sp0(new int(5));
    std::weak_ptr<int> wp0(sp0);
    std::weak_ptr<int>::element_type val = *wp0.lock();

    std::cout << "*wp0.lock() == " << val << std::endl;

    return (0);
}
*wp0.lock() == 5

expired

Tests if ownership has expired, that is, the referenced object has been deleted.

bool expired() const noexcept;

Remarks

The member function returns true if *this has expired, otherwise false.

Example

// std__memory__weak_ptr_expired.cpp
// compile with: /EHsc
#include <memory>
#include <iostream>

int main()
{
    std::weak_ptr<int> wp;

    {
        std::shared_ptr<int> sp(new int(10));
        wp = sp;
        std::cout << "wp.expired() == " << std::boolalpha
            << wp.expired() << std::endl;
        std::cout << "*wp.lock() == " << *wp.lock() << std::endl;
    }

    // check expired after sp is destroyed
    std::cout << "wp.expired() == " << std::boolalpha
        << wp.expired() << std::endl;
    std::cout << "(bool)wp.lock() == " << std::boolalpha
        << (bool)wp.lock() << std::endl;

    return (0);
}
wp.expired() == false
*wp.lock() == 10
wp.expired() == true
(bool)wp.lock() == false

lock

Obtains a shared_ptr that shares ownership of a resource.

shared_ptr<T> lock() const noexcept;

Remarks

The member function returns an empty shared_ptr object if *this has expired; otherwise it returns a shared_ptr<T> object that owns the resource that *this points to. Returns a value equivalent to the atomic execution of expired() ? shared_ptr<T>() : shared_ptr<T>(*this).

Example

// std__memory__weak_ptr_lock.cpp
// compile with: /EHsc
#include <memory>
#include <iostream>

int main()
{
    std::weak_ptr<int> wp;

    {
        std::shared_ptr<int> sp(new int(10));
        wp = sp;
        std::cout << "wp.expired() == " << std::boolalpha
            << wp.expired() << std::endl;
        std::cout << "*wp.lock() == " << *wp.lock() << std::endl;
    }

    // check expired after sp is destroyed
    std::cout << "wp.expired() == " << std::boolalpha
        << wp.expired() << std::endl;
    std::cout << "(bool)wp.lock() == " << std::boolalpha
        << (bool)wp.lock() << std::endl;

    return (0);
}
wp.expired() == false
*wp.lock() == 10
wp.expired() == true
(bool)wp.lock() == false

operator=

Replaces owned resource.

weak_ptr& operator=(const weak_ptr& ptr) noexcept;

template <class Other>
weak_ptr& operator=(const weak_ptr<Other>& ptr) noexcept;

template <class Other>
weak_ptr& operator=(const shared_ptr<Other>& ptr) noexcept;

Parameters

Other
The type controlled by the argument shared or weak pointer.

ptr
The weak pointer or shared pointer to copy.

Remarks

The operators all release the resource currently pointed to by *this and assign ownership of the resource named by ptr to *this. If an operator fails, it leaves *this unchanged. Each operator has an effect equivalent to weak_ptr(ptr).swap(*this).

Example

// std__memory__weak_ptr_operator_as.cpp
// compile with: /EHsc
#include <memory>
#include <iostream>

int main()
{
    std::shared_ptr<int> sp0(new int(5));
    std::weak_ptr<int> wp0(sp0);
    std::cout << "*wp0.lock() == " << *wp0.lock() << std::endl;

    std::shared_ptr<int> sp1(new int(10));
    wp0 = sp1;
    std::cout << "*wp0.lock() == " << *wp0.lock() << std::endl;

    std::weak_ptr<int> wp1;
    wp1 = wp0;
    std::cout << "*wp1.lock() == " << *wp1.lock() << std::endl;

    return (0);
}
*wp0.lock() == 5
*wp0.lock() == 10
*wp1.lock() == 10

owner_before

Returns true if this weak_ptr is ordered before (or less than) the provided pointer.

template <class Other>
bool owner_before(const shared_ptr<Other>& ptr) const noexcept;

template <class Other>
bool owner_before(const weak_ptr<Other>& ptr) const noexcept;

Parameters

ptr
An lvalue reference to either a shared_ptr or a weak_ptr.

Remarks

The template member function returns true if *this is ordered before ptr.

reset

Releases the owned resource.

void reset() noexcept;

Remarks

The member function releases the resource pointed to by *this and converts *this to an empty weak_ptr object.

Example

// std__memory__weak_ptr_reset.cpp
// compile with: /EHsc
#include <memory>
#include <iostream>

int main()
{
    std::shared_ptr<int> sp(new int(5));
    std::weak_ptr<int> wp(sp);
    std::cout << "*wp.lock() == " << *wp.lock() << std::endl;
    std::cout << "wp.expired() == " << std::boolalpha
        << wp.expired() << std::endl;

    wp.reset();
    std::cout << "wp.expired() == " << std::boolalpha
        << wp.expired() << std::endl;

    return (0);
}
*wp.lock() == 5
wp.expired() == false
wp.expired() == true

swap

Swaps two weak_ptr objects.

void swap(weak_ptr& wp) noexcept;

Also includes the specialization:

template<class T>
void swap(weak_ptr<T>& a, weak_ptr<T>& b) noexcept;

Parameters

wp
The weak pointer to swap with.

Remarks

After a swap, the resource originally pointed to by *this is pointed to by wp, and the resource originally pointed to by wp is pointed to by *this. The function doesn't change the reference counts for the two resources and it doesn't throw any exceptions. The effect of the template specialization is the equivalent of a.swap(b).

Example

// std__memory__weak_ptr_swap.cpp
// compile with: /EHsc
#include <memory>
#include <iostream>

int main()
{
    std::shared_ptr<int> sp1(new int(5));
    std::shared_ptr<int> sp2(new int(10));
    std::cout << "*sp1 == " << *sp1 << std::endl;

    sp1.swap(sp2);
    std::cout << "*sp1 == " << *sp1 << std::endl;

    swap(sp1, sp2);
    std::cout << "*sp1 == " << *sp1 << std::endl;
    std::cout << std::endl;

    std::weak_ptr<int> wp1(sp1);
    std::weak_ptr<int> wp2(sp2);
    std::cout << "*wp1 == " << *wp1.lock() << std::endl;

    wp1.swap(wp2);
    std::cout << "*wp1 == " << *wp1.lock() << std::endl;

    swap(wp1, wp2);
    std::cout << "*wp1 == " << *wp1.lock() << std::endl;

    return (0);
}
*sp1 == 5
*sp1 == 10
*sp1 == 5

*wp1 == 5
*wp1 == 10
*wp1 == 5

use_count

Counts the number of shared_ptr objects that own the shared resource.

long use_count() const noexcept;

Remarks

The member function returns the number of shared_ptr objects that own the resource pointed to by *this.

Example

// std__memory__weak_ptr_use_count.cpp
// compile with: /EHsc
#include <memory>
#include <iostream>

int main()
{
    std::shared_ptr<int> sp1(new int(5));
    std::weak_ptr<int> wp(sp1);
    std::cout << "wp.use_count() == "
        << wp.use_count() << std::endl;

    std::shared_ptr<int> sp2(sp1);
    std::cout << "wp.use_count() == "
        << wp.use_count() << std::endl;

    return (0);
}
wp.use_count() == 1
wp.use_count() == 2

weak_ptr

Constructs a weak_ptr.

constexpr weak_ptr() noexcept;

weak_ptr(const weak_ptr& wp) noexcept;

weak_ptr(weak_ptr&& wp) noexcept;

template <class Other>
weak_ptr(const weak_ptr<Other>& wp) noexcept;

template <class Other>
weak_ptr(weak_ptr<Other>&& sp) noexcept;

template <class Other>
weak_ptr(const shared_ptr<Other>& sp) noexcept;

Parameters

Other
The type controlled by the argument shared/weak pointer. These constructors don't participate in overload resolution unless Other* is compatible with element_type*.

wp
The weak pointer to copy.

sp
The shared pointer to copy.

Remarks

The default constructor constructs an empty weak_ptr object. The constructors that take an argument each construct an empty weak_ptr object if the argument pointer is empty. Otherwise, they construct a weak_ptr object that points to the resource named by the argument. The reference count of the shared object isn't changed.

Example

// std__memory__weak_ptr_construct.cpp
// compile with: /EHsc
#include <memory>
#include <iostream>

int main()
{
    std::weak_ptr<int> wp0;
    std::cout << "wp0.expired() == " << std::boolalpha
        << wp0.expired() << std::endl;

    std::shared_ptr<int> sp1(new int(5));
    std::weak_ptr<int> wp1(sp1);
    std::cout << "*wp1.lock() == "
        << *wp1.lock() << std::endl;

    std::weak_ptr<int> wp2(wp1);
    std::cout << "*wp2.lock() == "
        << *wp2.lock() << std::endl;

    return (0);
}
wp0.expired() == true
*wp1.lock() == 5
*wp2.lock() == 5

~weak_ptr

Destroys a weak_ptr.

~weak_ptr();

Remarks

The destructor destroys this weak_ptr but has no effect on the reference count of the object its stored pointer points at.

See also

Header Files Reference
<memory>
shared_ptr class