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I'm new to the concept so don't be hard on me. why doesn't this code produce a destructor call ? The names of the classes are self-explanatory. The SString will print a message in ~SString(). It only prints one destructor message.

int main(int argc, TCHAR* argv[])
smart_ptr<SString> smt(new SString("not lost"));
 new smart_ptr<SString>(new SString("but lost")); 
return 0;

Is this a memory leak? The impl. for smart_ptr is from here


//copy ctor
    smart_ptr(const smart_ptr<T>& ptrCopy) 
        m_AutoPtr = new T(ptrCopy.get());
    //overloading = operator
    smart_ptr<T>& operator=(smart_ptr<T>& ptrCopy) 
            delete m_AutoPtr;
        m_AutoPtr = new T(*ptrCopy.get());
        return *this;
share|improve this question
What is new'd, must be delete'd. – DCoder Sep 14 '12 at 14:26
the dynamic memory is getting stored nowhere...!!! – Coding Mash Sep 14 '12 at 14:30
Whatever you do, don't use that implementation for anything other than a learning exercise. Even after correcting the obsolete header names and fixing the obvious errors, its copy semantics are hopelessly broken. Use std::unique_ptr and std::shared_ptr in real code. – Mike Seymour Sep 14 '12 at 14:36
I've noticed that it's copy semantics are broken, but what if I change them in the following way, would that suffice for using in a production environment? or where can I find a complete and correct implementation? – Alexandru C. Sep 14 '12 at 14:39
@LCDFire: You'll need delete rather than free, and copying will be new T(*ptrCopy) after checking for null, and you'll slice the object if it's actually a subtype of T. It's rather tricky to get a smart pointer to correctly copy its target, which is why the standard library only provides a non-copyable unique_ptr and a reference-counting shared_ptr. – Mike Seymour Sep 14 '12 at 15:05
up vote 8 down vote accepted

By new smart_ptr<SString>(new SString("but lost")); you are creating a new, dynamically allocated smart pointer. You don't store the result of the allocation (a pointer to a shared_ptr to a SString) anywhere, it's dangling... since you don't store the result, you also can not call delete for it - therefore it's destructor won't be called, and in turn also the SString destructor of the contained object won't be called!

If you try

smart_ptr<SString> *p = new smart_ptr<SString>(new SString("but lost")); 
delete p;

instead, you will see the destructor called also for this case.

However, that's no sensible use of a smart_ptr. smart_ptr were created so that you don't need to call delete manually; therefore, don't use them that way; use them as in your first statement!

share|improve this answer

The point of a smart pointer is that you're supposed to have only automatic smart pointer objects:

    smart_ptr<Foo> p(new Foo);
// bye bye Foo

Your second line, however, creates a dynamic smart pointer, whose life never ends! Thus it never gets a chance to destroy the object it's in charge of.

You would have to delete the smart pointer itself manually, so that it can in turn clean up the object:

auto sp = new smart_ptr<Foo>(new Foo);
//                           ^^^^^^^
//        ^^^^^^^^^^^^^^           +------< dynamic Foo, handled by the SP
//                     |
//                     +---------------< dynamic smart pointer, handled by YOU

delete sp;
share|improve this answer
"You would have to delete the smart pointer itself manually" - or put it in a smart... oh, never mind ;-) – Steve Jessop Sep 14 '12 at 14:31
@SteveJessop: I see what you did there... – Kerrek SB Sep 14 '12 at 14:44

Yes, the smart point itself is leaked. (And anything it holds a reference to).

I cannot think of a good reason to new a smart pointer...

share|improve this answer

Yes, it is a memory leak, you're leaking the second smart pointer and its contents.

The reason is that the first smart pointer is created on the stack, so its life-time is scoped to the block it is declared in, after that it will be automatically destroyed.

The second one is created on the heap, which means it will live until you destroy it with delete at which point its destructor will be called (and with that the destructor of the SString it is holding).

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