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Will the smart pointer or scoped pointers delete an object when the class has no destructor If not, why not just leave the scope and let the object be deleted by itself?

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What do you mean by "be deleted by itself" ? – ereOn Feb 24 '12 at 7:30
if no destructor is explicitly written, C++ will create a default one for you. So the smart pointer will always have a destructor to call. – Default Feb 24 '12 at 7:38
up vote 1 down vote accepted

All class members are deleted even if you don't have a destructor when the instance is deleted. Memory leaks occur when you deal with pointers:

class A
   B* b;

In this case, b itself will be destroyed when the instance of A is deleted, but the memory it points to will not.

class A
   SmartPtr<B> b;

In the case of smart pointers, which usually have some reference counting and memory cleanup in the destructor, the memory it points to will be explicitly destroyed by its destructor, and the destructor of the smart pointer will be implicitly called when the instance of the containing class is destroyed.

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Yes, smart pointer deletes the object irrespective of whether class has destructor or not. Note that smart pointers are used with objects allocated on heap (using new) and these object won't release memory when they go out of scope, you need to explicitly delete them. Smart pointers will remove this process of explicitly deleting them.

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The pointer to the object itself will be deleted. However if there is any dynamically allocated data in the class it will not get freed. The idea of having a destructor is to be able to post-process the class object and mainly - free any resources taken.

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new and delete do two things.

new allocates memory and gets an object to construct itself in that memory space. delete first gets the object to destruct itself then releases the memory.

Note that some smart pointers can be given a custom deleter which doesn't call delete on the object but whatever you ask it to do. There may be occasions when you wish to pass it a no-op.

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Your point is well taken; there aren't that many uses for smart pointers in C++, since most of the time where they might be relevant, you'd be better off using value semantics, and copying. In the case of scoped_ptr, the most frequent use is when the actual object is polymorphic:

scoped_ptr<Base> pObj = condition 
                        ? static_cast<Base*>( new Derived1 )
                        : static_cast<Base*>( new Derived2 );

(Regretfully, at least one of the static_cast is necessary.)

If you are dealing with a container of polymorphic objects, you'll need shared_ptr instead, and if you're returning a polymorphic object, or otherwise passing it around, you will use unique_ptr if you can guarantee its availability, and auto_ptr otherwise—in some cases where you're passing it around, shared_ptr might be more appropriate.

In the case of returning an object or passing it around, the cost of copying it might also be a motive for using a smart pointer, even if the object isn't polymorphic. In such cases, I'd still use value semantics (i.e. copying and assigning the object itself) unless I had a performance problem.

Note that smart pointers aren't only used for memory management. I regularly use auto_ptr in the interface of queues between threads: once the object has been inserted into the queue, it no longer belongs to the sending thread; auto_ptr expresses these semantics exactly, with the auto_ptr in the sending thread becoming invalid. Or a modifiable singleton (something which should be very, very rare) might acquire a lock in its instance function, and return a shared_ptr which frees the lock in its final destructor. I've also used smart pointers in one or two cases to ensure transactional semantics: in one case, for example, the objects were in a number of different sets (which held pointers to them, of course), ordered according to different criteria. To modify an object, you acquired a shared pointer to it; the function which returned this shared pointer also removed the objects from the sets, so that you could safely modify the key values as well, and the final destructor reinserted them into the sets according to the new keys. And so on—there are any number of uses for smart pointers that have nothing to do with memory management or object lifetime.

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