As the counter and the object share the same allocation, they also share the same deallocation.
The counter has to persist until the last shared_ptr
and weak_ptr
go away. If you have a large object (or many small objects) with long-lasting weak_ptr
s, this can cause memory contention if you allocate the shared_ptr
s via make_shared
.
Second, if you have a 3rd party API that hands you a pointer or a resource handle, and possibly has its own dispose functionality, make_shared
is neither appropriate nor possible to use in every case. Creating your own make_
functions can keep the messy details out of the way lets you deal with this problem, and deals with the exception corner case as well.
Finally, while shared pointers are awesome, they are also overly powerful. Quite often I want a unique_ptr
or even a boost::scoped_ptr
, or an intrusive reference counting pointer, or the like to represent ownership. shared_ptr
should be used only when the situation actually involves shared ownership of the resource: using it willy nilly because it is "easy" tends to end up with the resource equivalent of spaghetti code.
shared_ptr<int>(new int)
won't leak memory if theshared_ptr
constructor throws; which is what your second point seems to imply to me.