std::weak_ptr::owner_before

From cppreference.com
< cpp‎ | memory‎ | weak ptr
 
 
 
 
 
template< class Y >
bool owner_before( const weak_ptr<Y>& other) const;
template< class Y >
bool owner_before( const std::shared_ptr<Y>& other) const;

Checks whether this weak_ptr precedes other in implementation defined owner-based (as opposed to value-based) order. The order is such that two smart pointers compare equivalent only if they are both empty or if they both own the same object, even if the values of the pointers obtained by get() are different (e.g. because they point at different subobjects within the same object)

This ordering is used to make shared and weak pointers usable as keys in associative containers, typically through std::owner_less.

Contents

[edit] Parameters

other - the std::shared_ptr or std::weak_ptr to be compared

[edit] Return value

true if *this precedes other, false otherwise. Common implementations compare the addresses of the control blocks.

[edit] Example

#include <iostream>
#include <memory>
 
struct Foo {
    int n1;
    int n2; 
    Foo(int a, int b) : n1(a), n2(b) {}
};
int main()
{   
    auto p1 = std::make_shared<Foo>(1, 2);
    std::shared_ptr<int> p2(p1, &p1->n1);
    std::shared_ptr<int> p3(p1, &p1->n2);
 
    std::cout << std::boolalpha
              << "p2 < p3 " << (p2 < p3) << '\n'
              << "p3 < p2 " << (p3 < p2) << '\n'
              << "p2.owner_before(p3) " << p2.owner_before(p3) << '\n'
              << "p3.owner_before(p2) " << p3.owner_before(p2) << '\n';
 
    std::weak_ptr<int> w2(p2);
    std::weak_ptr<int> w3(p3);
    std::cout 
//              << "w2 < w3 " << (w2 < w3) << '\n'  // won't compile 
//              << "w3 < w2 " << (w3 < w2) << '\n'  // won't compile
              << "w2.owner_before(w3) " << w2.owner_before(w3) << '\n'
              << "w3.owner_before(w2) " << w3.owner_before(w2) << '\n';
 
}

Output:

p2 < p3 true
p3 < p2 false
p2.owner_before(p3) false
p3.owner_before(p2) false
w2.owner_before(w3) false
w3.owner_before(w2) false

[edit] See also

(C++11)
provides mixed-type owner-based ordering of shared and weak pointers
(class template)