In this page (http://www.cplusplus.com/reference/memory/shared_ptr/), paragraph 5, it says:

Additionally, shared_ptr objects can share ownership over a pointer while at the same time pointing to another object. This ability is known as aliasing (see constructors), and is commonly used to point to member objects while owning the object they belong to. Because of this, a shared_ptr may relate to two pointers:

  • A stored pointer, which is the pointer it is said to point to, and the one it dereferences with operator*.

  • An owned pointer (possibly shared), which is the pointer the ownership group is in charge of deleting at some point, and for which it counts as a use.

Generally, the stored pointer and the owned pointer refer to the same object, but alias shared_ptr objects (those constructed with the alias constructor and their copies) may refer to different objects.

Then I read this page (http://www.cplusplus.com/reference/memory/shared_ptr/shared_ptr/) about the aliasing constructor of shared_ptr. But I still think this "aliasing" behavior confusing. Why is it here? What is it for? In what situation would I want this feature?

  • 8
    From your own quote: "[aliasing] is commonly used to point to member objects while owning the object they belong to."
    – user743382
    Nov 24 '14 at 16:23
  • you should be already familiar with aliasing because both C and C++ allow aliasing by default, even without considering shared_ptr you are already using a language which allows aliasing by default. Nov 24 '14 at 16:27
  • 1
    @hvd yes. I noticed this later after I posted this question. But it is still not specific enough.
    – lqr
    Nov 25 '14 at 1:14

Simple example:

struct Bar { 
    // some data that we want to point to

struct Foo {
    Bar bar;

shared_ptr<Foo> f = make_shared<Foo>(some, args, here);
shared_ptr<Bar> specific_data(f, &f->bar);

// ref count of the object pointed to by f is 2

// the Foo still exists (ref cnt == 1)
// so our Bar pointer is still valid, and we can use it for stuff

Aliasing is for when we really want to point to Bar, but we also don't want the Foo to get deleted out from under us.

As Johannes points out in the comments, there is a somewhat equivalent language feature:

Bar const& specific_data = Foo(...).bar;
Bar&& also_specific_data = Foo(...).bar;

We're taking a reference to a member of a temporary, but the temporary Foo is still kept alive as long as specific_data is. As with the shared_ptr example, what we have is a Bar whose lifetime is tied to a Foo - a Foo that we cannot access.

  • but we also don't want the Foo to get deleted out from under us that's a job for your shared_ptr, nothing really close to what the aliasing is for . Nov 24 '14 at 18:02
  • 2
    @user2485710 I think you're misunderstanding the question? The shared_ptr<Bar> I created is actually sharing ownership with the shared_ptr<Foo>. There's just one underlying object in all of this, but the aliasing constructor lets us have a shared_ptr that points to a member instead.
    – Barry
    Nov 24 '14 at 18:10
  • So, you mean in case you want to reset f but you don't want the object pointed by f destroyed because you're going to need its member object? Oh. Thanks a lot. I get it. q^.^p
    – lqr
    Nov 25 '14 at 3:22
  • 6
    Perhaps you can compare this with struct A { int x; }; const int& x = A().x;. In this case, the A object is kept alive aswell as long as the reference x exists. Feb 27 '16 at 12:21
  • 3
    Please bear in mind that const is necessary here. Regular reference won't extend temprorary's lifetime
    – Patryk
    Nov 15 '16 at 15:36

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