I was experimenting with std::exchange today. According to the cppreference page about std::exchange, this function can be used in both move constructor and move assignment operator. The example from the cppreference is this:
struct S
{
int* p;
int n;
S(S&& other)
:p{std::exchange(other.p, nullptr)}
,n{std::exchange(other.n, 0)}
{}
S& operator=(S&& other) {
p = std::exchange(other.p, nullptr); // move p, while leaving nullptr in other.p
n = std::exchange(other.n, 0); // move n, while leaving zero in other.n
return *this;
}
};
I don't understand something. The usage of std::exchange in move constructor is OK, because the new (constructed) object will take over the guts of already existing (old) object, and the old object's resource pointer will be assigned nullptr value, so after the move ctor, the old object will be destroyed but the resource will continue to live within the new object.
But in case of the move assignment operator it should work differently, I think. The assignee object should take over the assigned object's resource, and the assigned object should take over the assignee object's resource. After this, when the assigned object is destroyed, it will destroy the resource previously used by the assignee. In other words, the mechanism should swap the resources. In this code, when the assigned object's resouce pointer will be assigned nullptr then we'll have a leak of resource (the one that used to live in the assignee). Do I understand this correctly? Or am I missing something?
I guess there is something more that I don't know of, since this code is used in the official documentation. Can someone help me understand what is going on here?
delete
. But this is not a necessity, the struct S only observe the pointed to object. This may not be the best example I have seen.