How do shared pointers know how many pointers point to that object? (shared_ptr, in this case)
When you copy a
The weak reference count is used to support
Effectively, as long as the strong reference count is greater than zero, the shared object will not be deleted. As long as the strong reference count or the weak reference count is not zero, the reference count struct will not be deleted.
There are at least three well-known mechanisms.
When the first shared pointer to an object is created, a separate reference count object is created and initialized to 1. When the pointer is copied, the reference count is increased; when a pointer is destroyed it is decreased. Pointer assignment increases one count and decreases another (in that order, or else self-assignment
An internal counter requires that the object pointed to has a counter field. This is usually achieved by deriving from a specific base class. In exchange, this saves a heap allocation of the reference count, and it allows repeated creation of shared pointers from raw pointers (with external counters, you'd end up with two counts for one object)
Instead of using a counter, you can keep all shared pointers to an object in a circular graph. The first pointer created points to itself. When you copy a pointer, you insert the copy in the circle. When you delete it, you remove it from the circle. But when the destroyed pointer pointed to itself, i.e. when it's the only pointer, you delete the pointed-to object.
The downside is that removing a node from a circular single-linked list is rather expensive as you have to iterate over all nodes to find the predecessor. This can be especially painful due to poor locality of reference.
The 2nd and 3rd idea can be combined: the base class can be part of that circular graph, instead of containing a count. Of course, this means that the object can be deleted only when it points to itself (cycle length 1, no remaining pointers to it). Again, the advantage is that you can create smart pointers from weak pointers, but the poor performance of deleting a pointer from the chain remains an issue.
The exact graph structure for idea 3 doesn't matter too much. You could also create a binary tree structure, with the pointed-to object at the root. Again, the hard operation is removing a shared pointer node from that graph. The benefit is that if you have many pointers on many threads, growing part of the graph is not a highly contended operation.
I generally agree with James McNellis's answer. However there's one more point that should be mentioned.
As you may know,
This will compile & work. Unlike many other implementations of smart pointers, which actually demand the encapsulated type to be fully defined in order to use them. This is related to the fact that the smart pointer is supposed to know to delete the encapsulated object when it's no more referenced, and in order to delete an object one must know what it is.
This is achieved by the following trick:
The above factory is a helper object with a single virtual function, which is supposed to delete your object in a correct way.
This factory is actually created when you assign a value to your shared pointer.
That is, the following code
This is where this factory is allocated.
Note also: if you actually create an object of a derived type (derived from
So that shared_ptr is a pretty sophisticated variant of a smart pointer. It gives an awesome flexibility. However you should know that this flexibility comes at a price of an extremely bad performance compared to other possible implementations of the smart pointer.
On the other hand - there're so-called "intrusive" smart pointers. They don't have all that flexibility, however in contrast they give the best performance.
The above will crash.
They hold an internal reference count that is incremented in the shared_ptr copy constructor/assignment operator and decremented in the destructor. When the count reaches zero, the held pointer is deleted.
Here's the Boost library documentation for smart pointers. I think the TR1 implementation is mostly the same as
"Shared pointer is a smart pointer (a C++ object wih overloaded operator*() and operator->()) that keeps a pointer to an object and a pointer to a shared reference count. Every time a copy of the smart pointer is made using the copy constructor, the reference count is incremented. When a shared pointer is destroyed, the reference count for its object is decremented. Shared pointers constructed from raw pointers initially have a reference count of 1. When the reference count reaches 0, the pointed object is destroyed, and the memory it occupies is freed. You do not need to explicitly destroy objects: it will be done automatically when the last pointer's destructor runs. " From here.