I'm not sure if this is possible.
I need to prevent a all classes derived from X from being instantiated as local stack or member variables. I made all their destructors protected and this did the trick as far as outside scopes are concerned. However I need to prevent them from being instantiated by themselves, too. I mean if Y has member variables of type Z or instantiates local variables of type Z in its methods, thid doesn't cut it.
Now I could create private destructors in all the leaves of the hierarchy tree, but the problem is that every not should be allowed to be a (heap) variable. In the case X <- Y <- Z, all three should be instantiated but X and Y cannot have private destructors. Moreover even that doesn't stop me from having local variables of type Z in the methods of Z.
I guess by making their constructors private and adding operator new as friend to all of them will do the trick, but this is a LOT of extra work (since we use several versions of operator new) and the hierarchy is big.
So, is there a way of having a (preferably) compile-time, or a runtime error for stack instantiation of these objects, whithout resorting to the private-constructors-friend-new-way?
The thing is that the previous programmers of this project wrote a ton of code and all classes in this hierarchy have terribly complicated destructors. And also, the authors indiscriminately called virtual methods in those destructros, which lead to a lot of unexplicable (to them) crashes and memory corruptions. Now converted all destructors to a
obj->Release() pattern and in the top-most Release I have
delete this. Obviously this wont work for stack objects and now I introduced some crashes of my own. Also I'm kinda short of time and the run/wait for crash/fix this specific crash method is very very slow