std::list<Node *> lst; //.... Node * node = /* get from somewhere pointer on my node */; lst.remove(node);
Does std::list::remove method call destructor(and free memory) of each removed element? If yes, how I can avoid it?
Yes, removing a
Deleting a pointer only makes sense if the pointee was actually allocated dynamically, but how could the runtime possibly know whether that is the case when the pointer variable is destroyed? Pointers can also point to static and automatic variables, and deleting one of those yields undefined behavior.
There is no way to figure out whether the pointee has already been released in the past. Deleting the same pointer twice yields undefined behavior. (It becomes a dangling pointer after the first delete.)
It is also impossible to detect whether a pointer variable has been initialized at all. Guess what happens when you try to delete such a pointer? Once again, the answer is undefined behavior.
The type system does not distinguish between a pointer to a single object (
Since the runtime cannot do anything sensible with the pointee, destroying a pointer variable is always a no-op. Doing nothing is definitely better than causing undefined behavior due to an uninformed guess :-)
Instead of raw pointers, consider using smart pointers as the value type of your container, because they take responsibility for releasing the pointee when it is no longer needed. Depending on your need, use
Never, I repeat, NEVER EVER use
It calls the destructor of each of the items in the
So it doesnt delete the
Does that make sense?
It does call the destructor of the data in the list. That means,
In your case, it would call the destructor of
Yes, though in this case, Node* has no destructor. Depending on its internals though, the various Node* values are either deleted or destroyed by scoping rules. If Node* where some non-fundamental type, a destructor would be called.
Is the destructor called on the Node? No, but 'Node' is not the element type in the list.
As to your other question, you can't. The standard list container (in fact ALL standard containers) adopt ownership of their content and will clean it up. If you don't want this to happen, the standard containers are not a good choice.
Since you are putting pointers into a
If you want to store heap allocated objects in STL containers and have them be destructed upon removal, wrap them in a smart pointer like