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I have a simple problem like this!

class1 *a = new class1();
class1 *b = a;

delete a;
a= NULL;

Now I want to check if b is NULL (or is deleted) also, but b always point to where a point previously. This is problematic when I want to use b, but a already deleted before!

if (b){
    //do something here

Thanks for reading!

share|improve this question
up vote 4 down vote accepted

As some have suggested, using a shared pointer will make this easier.

If you want to do it the raw way, here is why *b still points to the original value of a

When you say class1 *b=a you are taking a copy of the pointer value of a. So regardless of what you do to a itself, b hangs on to this original value.

If you wanted it to change along with a, you would need to assign a reference to a, or a pointer to the a pointer

class1 **b = &a;

So now, think what happens when you dereference b, what value is that pointing to?

it will point to your original class1 *. So, once you set a=NULL, you now have a pointer b that points to the value of a, or NULL

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I think this is better than the shared pointer, as it preserves the flow of the original code. A shared pointer would alter the lifetime of the object to not match the original code. – Ryan Witmer May 9 '13 at 18:42
this is true, though it requires more memory management than a shared pointer would require. – 75inchpianist May 9 '13 at 18:45
Yeah I think this approach work really well, but it will make the code look more Pointer-Way, a is already pointer, now b is a pointer of pointer ^^. Never try this before, but i think i will try to use it from now in some case! Thanks! – greenpig83 Nov 29 '13 at 4:21

There is no way to have b update automatically after a has been NULLd. The question code also illustrates why setting a pointer to NULL after it's object has been deleted is partial, at best, and that a non-NULL pointer does not guarantee that a pointer is pointing to a valid object.

Use a std::shared_ptr<class1> instead, as there is shared ownership of the pointed-to object:

std::shared_ptr<class1> a = std::make_shared<class1>();
std::shared_ptr<class1> b = a;

the dynamically allocated object will be destructed with both a and b go out of scope.

See What C++ Smart Pointer Implementations are available? for an overview of available smart pointers.

share|improve this answer
so it's true we must use smart pointer in this case! No other solution for naked pointer ! – greenpig83 May 9 '13 at 18:37
@greenpig83 Yes, it is true. That's probably why smart pointers are created. – taocp May 9 '13 at 18:39
You don't HAVE to use smart pointers at all. See solution below. Some cases call for ease of use of smart pointers. – 75inchpianist May 9 '13 at 18:42
Shouldn't b be weak_ptr? – Lol4t0 May 9 '13 at 18:43
@Lol4t0, guess so. Depends really if it is essential that it exists for the other function, but the code suggests that is not the case so you are right. – hmjd May 9 '13 at 18:45

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