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I am a computer science student with the task of creating a dynamic data structure, linked lists. I am currently working on a singly linked list and have successfully built the functionality to add, remove and dump all node data.

However, remembering that my 'advanced programming' lecturer stated that in order to avoid confusion and other problems, when deleting nodes from a list, or releasing any object's memory, you should have it happen inside its deconstructor. So I moved:

delete[] _del;

Which worked fine and moved it to the nodes' deconstructor:

#include "Node.h"

// Node.cpp

Node::Node(const int &inData, const int &inId)
{
    _id = inId;
    _data = inData;
    nextNode = NULL;
}

// Deconstructor to delete the node when using List.Del()
Node::~Node()
{
    delete[] this;
}

In my List the node's deconstructor is called via a pointer like so:

_del->~Node();

Which gives me an assertion error. I'm assuming it is my usage of 'this' in the node's deconstructor?

Thanks for your time.

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4 Answers 4

up vote 2 down vote accepted

First of all, you should not call an objects destructor directly, unless you're writing an allocator and used placement new when creating it. Second, you should delete and not delete[] unless you also used new[]. And finally, delete this is a bad habit, but legal according to the standard. Why don't you just call delete theNode instead of all of this?

EDIT: Addressing some comments/additional questions.

To allocate a single instance on heap, you use theNode = new Node. The returned pointer must be freed with delete theNode. Calling new will allocate memory and then call Node::Node(), the constructor, so that it can setup it's internal state. Calling delete will call Node::~Node() and then free the allocated memory. The destructor is responsible for cleaning up anything Node uses, but not the memory used by Node itself.

To allocate an array of nodes, you use theNodes = new Node[10];. You delete these with delete[] theNodes. Mixing new/delete with new[]/delete[] is undefined behaviour.

Placement new is a method where you want to construct an object in already allocated memory. In this case, you have the only good reason for calling a destructor directly, you want to deconstruct an object (aka letting it clean itself up) without also freeing the memory allocated for it.

Calling delete this is legal in e.g. a Suicide() function, as long as you do not refer to "this" or any members of the deleted instance after the call to delete this. This is a valid technique e.g. in reference counted objects, but is often considered something you should avoid unless you really need it.

The correct solution for you is pretty plain, where you now call ~Node, simply call delete theNode instead.

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I have called new. This is a dynamic data structure. Each node is instantiated with new. Maybe I should have pasted the rest of my code. Originally I did call delete[] theNode but thought it improper due to remembering my lecturer speaking about using deconstructors to make life more simple. –  Lee Feb 19 '11 at 9:42
    
Thanks Erik. I'll use delete from now on for single objects. –  Lee Feb 19 '11 at 10:03

How is an object deleted from within its deconstructor, correctly?

It's not. A destructor cleans up the resources owned by an object, not the object itself.

You should remove the use of delete and whatever allocated the Node (your list class?) had better be responsible to deallocate it. The easiest way to do this is have exactly one point in your list class that allocates and adds nodes to the list, and exactly one point that removes and deallocates nodes (the mentioned Del method). Have your list class' destructor call Del repeatedly until the list is empty.

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I see. So a separate List method dealing with the delete would be a better solution. Thanks. –  Lee Feb 19 '11 at 9:33
Node::~Node()
{
    delete[] this;
}

Undefined behavior. Most likely will crash your program!

By the way, there is a difference between delete this and delete[] this. While delete this might be okay sometime, but delete[] this is not, as this can never be allocated using new[]. It's not a pointer to an array. It's a pointer to ONE object!

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So I was correct in assuming my 'this' usage was incorrect? How is an object deleted from within its deconstructor, correctly? –  Lee Feb 19 '11 at 9:28
    
@Fred: the behavior after this is not defined, so technically it should be UB. No? –  Nawaz Feb 19 '11 at 9:31
    
@Fred: Interesting. How exactly? –  Nawaz Feb 19 '11 at 9:35
1  
@Nawaz: I was thinking of something else; you're right. –  Fred Nurk Feb 19 '11 at 9:39
    
@Lee: You call delete on pointers which are member of your class, not on this pointer itself. If your class doesn't have pointers allocated with memory, then your destructor should do nothing. Of course, if there is any resource other than memory, you should release them. –  Nawaz Feb 19 '11 at 9:45

As a previous answer suggests your deconstructor is undefined behaviour. For the following reason:

When

delete[] _del;

is executed. it attempts to delete the same object, which you are trying to delete in its deconstructor

delete[] this;

What your course text means is that, IF you want to clear up any memory associated tothe object being deleted that should be released in this object's deconstructor as well. For example if id and/or data were pointers:

Node::~Node()
{
   delete _id;
   delete _data;
}
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1  
_id and _data are not pointers! –  Nawaz Feb 19 '11 at 9:37
1  
Nawaz is correct, id and data are private member variables each node holds. Am I confusing deletion with memory releasing? I'm sure there is some importance to doing something with deconstructor for ease of use. If it is more appropriate for the List class itself to deal with the deletion, I will just construct another method for it. –  Lee Feb 19 '11 at 9:41
    
I wrote For example before that. I have now specified it further by writing 'if id and/or data were pointers'. The intention was to elaborate what the course text probably means. –  Ozair Kafray Feb 19 '11 at 9:47
    
Hm, interesting. Each of my nodes contain a pointer to the next. Would this is relevant to this post Ozair? I assign a node's *nextNode as NULL when it is the _tail node, but what if I delete a node in the middle? Would delete also delete the nextNode pointer as well as the node it's within? –  Lee Feb 19 '11 at 10:09
    
@Lee: No it won't. That part should be dealt in the code that has called the destructor before it attempts to delete this object. Ideally since the data and id were passed to this object in constructor, I would deal with the memory release in the caller's body. I would only delete 'new'/memory allocations in a destructor if they were allocated in my constructor. –  Ozair Kafray Feb 19 '11 at 10:15

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