How to intentionally delete a boost::shared_ptr?
I have many boost::shared_ptr<MyClass>
objects, and at some point I intentionally want to delete
some of them to free some memory. (I know at that point that I will never need the pointed-to MyClass
objects anymore.) How can I do that?
I guess you can't just call delete()
with the raw pointer that I get with get()
.
I've seen a function get_deleter(shared_ptr<T> const & p)
in boost::shared_ptr
, but I'm not sure how to use it, and also it says experimental right next to it. (I think I have Boost 1.38.)
Maybe just assign a new empty boost::shared_ptr
to the variable? That should throw away the old value and delete it.
You just do
ptr.reset();
See the shared_ptr manual. It is equivalent to
shared_ptr<T>().swap(ptr)
You call reset
on every smart pointer that should not reference the object anymore. The last such reset
(or any other action that causes the reference count drop to zero, actually) will cause the object to be free'ed using the deleter automatically.
Maybe you are interested in the Smart Pointer Programming Techniques. It has an entry about delayed deallocation.
If you want to be able to intentionally delete objects (I do all the time) then you have to use single ownership. You have been lured into using shared_ptr when it is not appropriate to your design.
The whole point of boost::shared_ptr<T>
is that the pointee object will be deleted exactly at the moment when no shared_ptr<T>
s point at it -- that is, when the last shared_ptr<T>
pointing at this object goes out of scope or is reassigned to point to a different object. So, all you have to do to delete an object is make sure there are no shared_ptr<T>
s pointing at it. E.g. if you only have a single shared_ptr<T>
called p
pointing at an object, either let it fall out of scope, or call p.reset()
(equivalent to p = NULL
for a plain pointer), or assign it to point at something else.
If you have two shared_ptr<T>
s pointing at the object, you'll need to reassign both of them.
EDIT: Thanks to dehmann for pointing out that p = NULL;
is not actually valid code for a shared_ptr<T>
... :)