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Suppose I have a doubly-linked list such as

class list

    struct node
       node* prev;
       node* next;
       int* value;

    node* first; //NULL if none
    node* last; //NULL if none


If I want to write a function that removes the first node and returns a pointer to its value, will this implementation leak memory?

int* returnFrontValue()
        throw -1;
        node* v = first;
        int* returnMe = v->value;

        first = first->next;
            last = NULL;

        delete v;
        first->prev = NULL;

        return returnMe;

I'm curious if this implementation leaks memory because returnMe points to an int that is dynamically allocated. Would it be better to have an int returnMe = *(v->value); and return &returnMe; at the end instead?

Do I have to delete v->value; explicitly before I delete v;? I'm confused as to how deleting memory works when you have various pointers.

share|improve this question
Returning the address of a local variable? Definitely not better. – chris Dec 9 '12 at 10:39
Why does each node have a pointer to a dynamically allocated int, instead of simply an int member? – interjay Dec 9 '12 at 10:41
@interjay if it is a member, delete v will destroy it – TeaOverflow Dec 9 '12 at 10:44
@Evgeni so? Copy it before it is deleted. – jalf Dec 9 '12 at 10:44
@jalf yes, return-by-value would be a solution. – TeaOverflow Dec 9 '12 at 10:47

We can't see how the int was allocated, but I'll take your word for it that it was dynamically allocated (as a separate allocation from the node, which you delete).

In that case no, you haven't leaked anything yet, but you're tempting fate. It's not a leak because a pointer to the int still exists, so it can still be deleted. But now the responsibility rests with the caller. If I call returnFrontCaller, I get a pointer to a value, which I then have to call delete on when I'm done with it.

That's not very intuitive. Generally new/delete calls should be matched in the same place. If I call new, I also call delete. If the new call happened elsewhere, I wouldn't expect that calling delete was my responsibility.

But why is the value dynamically allocated at allWhy do you store anint*instead of anint`? Why does the function return a pointer to the int, instead of a copy of it?

If you made that change, no memory management would be necessary. The caller would get an int, and wouldn't have to worry about "who calls delete".

Alternatively, you could use a smart pointer class to wrap it, and to handle the memory management.

share|improve this answer
So in this example, what actually happens when I delete a node? It contains three pointers, do I have to delete them all individually? – Bob John Dec 9 '12 at 10:48
When you delete a node, then, as mentioned, the pointer to the int* within is left hanging. If the caller loses it and didn't delete, there's a leak. The other pointers refer to existing nodes that are not going to be removed by this delete operation, so they do not need to be (and should not be, by this delete call) deleted. – mike4ty4 Dec 9 '12 at 10:56
When you delete a node, first the class' destructor is called, and then every member of the node class has its destructor called. For raw pointers, this has no effect (in particular, it will not delete whatever the pointer is pointing to). – jalf Dec 9 '12 at 13:35

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