Because of my noob reputation, I cannot reply to this Thread, in specific the accepted answer:
I never used boost::intrusive smart pointers, but if you would use shared_ptr smart pointers, you could use weak_ptr objects for your cache.
Those weak_ptr pointers do not count as a reference when the system decides to free their memory, but can be used to retrieve a shared_ptr as long as the object has not been deleted yet.
This is certainly an intuitive idea, however, the C++ standard does not support comparison of weak_ptrs, so it cannot be used as key for associative containers. This could be circumvented by implementing a comparison operator for weak_ptrs:
template<class Ty1, class Ty2> bool operator<( const weak_ptr<Ty1>& _Left, const weak_ptr<Ty2>& _Right );
The problem with this solution is that
(1) the comparison operator has to obtain ownership for every comparison (i.e. creating shared_ptrs from the weak_ptr refs)
(2) the weak_ptr is not erased from the cache when the last shared_ptr that manages the resource is destroyed, but an expired weak_ptr is kept in the cache.
For (2), we could provide a custom destructor (DeleteThread), however, this would require again to create a weak_ptr from the T* that is to delete, which can then be used to erase the weak_ptr from the cache.
My question would be if there is any better approach to a cache using smart pointers (I am using the VC100 compiler, no boost), or do I simply not get it?