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I have a stateless, abstract base class from which various concrete classes inherit. Some of these derived classes are stateless as well. Because many of them are created during a run, I'd like to save memory and overhead by having all stateless derived classes emulate a singleton, by overriding operator new()/delete(). A simplified example would look something like this:

#include <memory>

struct Base {
  virtual ~Base() {}
  Base() {}   // prevent concrete Base objects

struct D1 : public Base {  // stateful object--default behavior
  int dummy;

struct D2 : public Base {  // stateless object--don't allocate memory
  void* operator new(size_t size)
    static D2 d2;
    return &d2;
  void operator delete(void *p) {}

int main() {
  Base* p1 = new D1();
  Base* p2 = new D1();
  Base* s1 = new D2();
  Base* s2 = new D2();
  delete p1;
  delete p2;
  delete s1;
  delete s2;
  return 0;

This example doesn't work: delete s2; fails because delete s1; called ~Base(), which deallocated the shared Base in d2. This can be addressed by adding the same trick with new/delete overloading to Base. But I'm not sure this is the cleanest solution, or even a correct one (valgrind doesn't complain, FWIW). I'd appreciate advice or critique.

edit: actually, the situation is worse. The Base class in this example isn't abstract, as I claimed. If it's made abstract, through the addition of a pure virtual method, then I can no longer apply the new/delete overriding trick, because I cannot have a static variable of type Base. So I don't have any solution for this problem!

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Have you actually measured how much memory this "trick" is saving you? – Nemo Jun 22 '11 at 5:03
Why use new at all for a stateless object? – Bo Persson Jun 22 '11 at 5:04
@Bo Persson: Even when the object is stateless it can have a specific type and different objects having different types can be important. – sharptooth Jun 22 '11 at 5:07
@Martinho Fernandes: Could you please elaborate why an object without data members isn't stateless? – sharptooth Jun 22 '11 at 5:07
@Eitan: Overloaded new/delete handles only memory allocation/deallocation. The corresponding constructor/destructor call is generated by the compiler automatically. So if there are statements like Base* s1 = new D2(); Base* s2 = new D2();, the memory allocated for D2 will be constructed twice without the destruction for the D2 object constructed previously. This will cause problems unless D2 is plain-old-data. – Ise Wisteria Jun 22 '11 at 13:33
up vote 1 down vote accepted

I would say the best solution here is to make your derived class an actual singleton. Make your derived constructor private and just provide a static Base* getInstance() method that either creates the required object or returns the static instance. This way the only way to get a D1 object would be via this method since calling new D1 would be illegal.

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I actually started with something similar. Instead of getInstance(), however, I used a create() method (and deallocate()) in each derived class that returned a pointer to an object of the respective type, which would be new'ed in the stateful objects and static in the stateless ones. This worked fine, but I am wondering if I can make this cleaner using the language mechanisms (i.e., new() and delete()). – Eitan Jun 22 '11 at 5:42
its not cleaner using the language mechanisms, since many people will make certain assertions when using those, and those assertions (e.g. new indeed allocates a new object, and addresses of 2 objects created with new compare unequal). Even the method name create could create these misinterpretations, so i would go with get and release, or simply allocate a new stateless object everytime a user needs one, this shouldnt be a problem unless those are used in very performance critical code sections. – smerlin Jun 22 '11 at 10:20
@smerlin: thanks for the insight into user expectations. I think your naming scheme is better. As for performance, I measured it and posted in an earlier comment, that the effect of this is trick is a reduction of ~25% of overall application run time, so significant enough. – Eitan Jun 22 '11 at 17:45

You just can't do that - that would violate "object identity" requirement that states that each object must have its own address. You have to allocate distinct memory block to each object - this can be done rather fast if you override operator new to use a fast block allocator specifically tailored for objects of fixed size.

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Thanks for the link--it's a good thread. I think the subtle difference between that question and mine is that I do want all the objects returned from D2::operator new() to be the same object. As I mentioned above, implementing this as a singleton or a separate create/deallocate method works fine, but I was hoping to do it in a less kludge-y way (using new()/delete() is arguably that) – Eitan Jun 22 '11 at 5:44

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