Is it OK to use “delete this” to delete the current object?

元气小坏坏 提交于 2019-11-28 01:09:05

If the Node destructor is being called, then it's already in the process of being deleted. So a delete doesn't make sense inside your Node destructor.

Also this is wrong:

while (temp->next() != NULL)
{
     delete temp;
     temp = temp->next();
}

Instead you should get temp->next() into a temp variable. Otherwise you are accessing deleted memory.

So more like this:

DoublyLinkedList::~DoublyLinkedList
{
  Node *temp = first();
  while (temp != NULL)
  {
       Node *temp2 = temp->next();
       delete temp;
       temp = temp2;
  }
}

No you should not delete this from the destructor. The destructor gets called because of a delete statement (or goes out of scope) and this would most likely lead to some sort of crash.

You also have a couple problems in the DoublyLinkedList desturctor. One, you delete temp then access temp after its been deleted. Second, the code will not actually delete the last element in the linked list.

Currently, your code would cause an access violation, since the second of the following lines clearly accesses freed memory:

delete temp;
temp = temp->next();

If you want to recursively delete the structure, you want something like this:

DoublyLinkedList::~DoublyLinkedList
{
    Node *temp = first();
    delete temp;
}

Node::~Node
{
   if(this->next() != NULL) delete this->next();
}

Before anything else: I really, really hope this is homework assigned to you in order to understand a doubly linked list. Otherwise there is no reason to use this instead of std::list. With this out of the way:

No, delete this in a dtor is always wrong, as the dtor is called when this is in the state of being deleted.

Also, while

delete temp;
temp = temp->next();

incidentally might work, it's certainly wrong, since, where you attempt to access temp->next(), temp is already deleted, so you should call a member function on it. Doing so invokes so-called "undefined behavior". (In short: It might do what you want, but it might just as well fail always or sporadically or only when Friday, 13th, collides with new moon. It migh also invoke very nasty nasal demons on you.)

Note that you could solve both problems by deleting the next node in your node's dtor:

Node::~Node()
{
   delete next();
}

That way, your list dtor becomes very easy, too:

DoublyLinkedList::~DoublyLinkedList()
{
    delete first();
}

To me, this seems what dtors were invented for, so, except for the fact that nobody should write their own linked list types anymore nowadays, to me this seem to be the C++ solution to your problem.

delete this; would call the destructor of the current object. In that case, if you are calling delete this; in the destructor, then the destructor would be called infinitely till the crash.

Code above will call Node::~Node() twice. (in "delete temp" and in Node::~Node())

Node::~Node() should not call "delete this" (or your program will crash)

ps. while loop in your code will not work. It will dereference invalid pointer. You should first copy the value of temp->next, and then destroy temp pointer.

In general, a destructor should just worry about delete-ing (or free-ing if you're using C or malloc) any memory allocated specifically for your object. Deleting a pointer to your object will always be managed by the OS and you don't have to worry about a thing about that part.

One thing worth keeping in mind is that, on construction, you create the object first (as control flow enters the constructor's body), THEN the objects inside; for destruction, you have to do that in reverse, because if you delete the outer object first you would have no way to access the inner pointers to delete those. Instead, you delete inner objects using the destructor, then the OS manages the actual freeing up of memory when control flow falls out of the destructor.

Incidentally, the same sort of thing happens with subclassing-- if you have class A, and class B : public A, then when you do a new B(), the A constructor executes first, then the B's constructor; on destruction, the B's destructor executes first, followed by A's. I'm fairly sure that you do NOT have to worry about this, though-- C++ takes care of it for you. So don't try to figure out a way to call delete on the superclass.

Both should never be done.

This

DoublyLinkedList::~DoublyLinkedList
{
    Node *temp = first();
    while (temp->next() != NULL)
    {
        delete temp;
        temp = temp->next();
    }
}

will cause undefined behaviour - you're not allowed to access memory that you've returned to the heap. Instead it shoud be:

DoublyLinkedList::~DoublyLinkedList
{
    Node *temp = first();
    while( temp != NULL)
    {
        Node* next = temp->next();
        delete temp;
        temp = next;
    }
}

Calling delete this will lead to so-called double free which will also cause undefined behaviour. The destructor should only call delete for pointer member variables, never for this. Calling delete this is reasonable from other methods to deallocate the current object, but not from the destructor.

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