I would like my class to have a static pointer to a dynamically allocated region of memory. I understand how to initialize it - in my case I will initialize it when the first object needs it. However, I don't know when/where in the code to free it. I'd like to free it when the program terminates.

I might be able to free the pointer in my objects' destructor, but then I'd have to maintain an object count to see if it's safe to free when the object is the last object in use.

Is there a more elegant way to do this?

Please let me know.

Thanks, jbu

  • 1
    SOunds like you are trying to reinvent smart pointers? Mar 12 '10 at 0:09
  • This issue is one of the issues that occur when implementing singletons (en.wikipedia.org/wiki/Singleton_pattern). @Klaim's code sample below is an example of one. They can be a good thing or crutch. Don't abuse them. :)
    – Void
    Mar 12 '10 at 0:12

You have two solutions here:

  1. Don't delete delete it (you're in C++, you use new and delete, right? ;) ). Almost all OSes today will "free" the memory allocated by the application anyway once it's finished. But that's not a good solution, that make memory leaks hard to detect for example.
  2. Encapsulate your pointer into a class (as member), then use this class as the type of your static. That way, you know the class destructor will be called at the end of the application. You then just delete your data in the destructor and the work is done and clean. That's the power of RAII.

I suggest you do 2, that's a really clean way to do it.

Here is a simple example. Instead of doing this

static Thing* things = new Thing(); // or whatever way to initialize, here or in a specific function

You will do that :

class ThingManager // or whatever name you like
   ThingManager( Thing* thing ) : m_thing( thing ) { }//or create it here? whatever solution suits your way of creating the data

   ~ThingManager() { delete m_thing; } // THAT's the important part!

    Thing* instance() const { return m_thing; } // or whatever accessor you need, if you need one

    Thing* m_thing;

and then

static ManagedThing thing; // now i can access it via thing.instance() 

When the program ends, the static variable (that is not pointer anymore) will be destroyed and it's destructor will be called to do that.

It's written just to give you an idea of how you can do that.

  • Sorry, I'm very new to C++. When you say "the class destructor will be called at the end of the application" are you saying there's an object destructor and a static class destructor? Also, what's RAII?
    – jbu
    Mar 11 '10 at 23:35
  • RAII : en.wikipedia.org/wiki/Resource_Acquisition_Is_Initialization You should learn about the default functions of all classes.
    – Klaim
    Mar 11 '10 at 23:41
  • 4
    RAII is an unfortunate term, because it isn't very descriptive; see en.wikipedia.org/wiki/RAII Mar 11 '10 at 23:42
  • +1 We really should start to use another term for that, it would help adopting the paradigm for newbies.
    – Klaim
    Mar 11 '10 at 23:45

Throw it in a smart pointer. It will have static lifetime and be destroyed after main returns:

static std::auto_ptr<T> thePointer;

Another option is to register your own atexit function:

// static
void YourClass::freePointer(void)
    delete getPointer();

// static
T* YourClass::getPointer(void)
    if (!thePointer)
        thePointer = new T;

    return thePointer;

Which will have the same effect. Another option you already mention is to keep a static counter. Note you can actually wrap that up pretty effectively.

  • 1
    Alexandrescu uses atexit in the implementation of his Loki::Singleton. This way he ensures that the methods that frees the pointer also resets its state to 0 so that it can be reallocated if necessary (case of the Phoenix lifetime policy). Personally I think an auto_ptr or even better unique_ptr much less trouble. Mar 12 '10 at 11:57
  • This is not good, there is only a small limited number of at_exit cleanup functions, sometimes as low as 32 (the minimum defined in the standard)
    – Lothar
    Dec 14 '17 at 15:13

From the OS perspective, there's no real point in freeing memory as your program terminates, all that does is slow termination down. Termination of your application tears down your entire address space, it will free everything you allocate on the heap all at once. explicitly calling free on app shutdown is just shuffling pointers in the heap that will get thrown away anyway.

The main reason why we try so hard to free everything explicitly is to be sure that we aren't leaking memory and our memory footprint doesn't grow forever.

But if you can be certain that this is static, that there will be only one, and that you can't safely free it until all of your other objects have been freed, this is a case where it might be better just to let application termination take care of it for you.

  • Thanks for the response. I always thought that memory leaks will make the OS hold on to reserved/unfreed memory even after program termination.
    – jbu
    Mar 11 '10 at 23:37
  • 2
    Althought that will mask other memory leaks with some memory-leak detection tools, so it's not recommanded anyway.
    – Klaim
    Mar 11 '10 at 23:44
  • 2
    There is still a benefit to releasing memory before shutdown - it makes real memory leaks easier to find. If you use a tool to track allocations, anything you don't delete will be noise you have to wade through. Mar 11 '10 at 23:47
  • 1
    @John: This argument only holds true for OSes with virtual memory managers. Some real-time/embedded OSes, for example, have no such manager. Leaking at termination would definitely be a problem on those platforms. Relying on the OSes VMM to do the cleanup is a bad habit to develop, IMO.
    – Void
    Mar 12 '10 at 0:03
  • @Void: it doesn't technically rely on the OS having a VMM. I have used a system with no virtual memory, but where malloc and free added/removed the block to a list of allocations. Cost 8 bytes and an interrupt off/on cycle per allocation, but allowed the OS to free them all on process termination. Per-process heaps can achieve the same thing (I think the reason this system didn't use one was because they make it much harder to release freed memory back to the OS for use by other processes, which was desirable on this system). Mar 12 '10 at 0:26

You can declare you static variable as a smart pointer, then when the program finish the pointer allocated will be freed.


i would define a static counter in the class to track object instances count as the destructor get execute it decrement the counter and if counter== 0 free the memory too .. just as you


I just came upon this old post when trying to get my own static pointer to get freed up at exit.

The proper C++ (C++11) solution is to use a smart pointer, either std::unique_ptr<T> or std::shared_ptr<T> where T is the type of the object you're initializing. These templates manage the lifetime of the objects and will delete the objects when they go out of scope or become the last reference in memory, respectively.

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