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I'm using a C++ base class and subclasses (let's call them A and B for the sake of clarity) in my embedded system.

It's time- and space-critical, so I really need it to be kind of minimal.

The compiler complains about lack of a virtual destructor, which I understand, because that can get you into trouble if you allocate a B* and later delete the pointer as an instance of A*.

But I'm never going to allocate any instances of this class. Is there a way I can overload operator new() such that it compiles if there's no dynamic allocation of either class, but causes a compiler error if an end user tries to allocate new instances of A or B?

I'm looking for a similar approach to the common technique of "poisoning" automatic compiler copy constructors via private constructors. (e.g. http://channel9.msdn.com/Forums/TechOff/252214-Private-copy-constructor-and-private-operator-C)

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The last part of your post makes me wonder if you're in need of a Singleton Pattern implementation.en.wikipedia.org/wiki/Singleton_pattern –  Rycul Jun 7 '11 at 21:05
    
@Rycul: Thanks, they're not singletons, it's just that in small embedded systems we tend to do almost everything with static or stack allocation. –  Jason S Jun 7 '11 at 23:26

3 Answers 3

up vote 9 down vote accepted

You can poison operator new in just the same way as you can a copy constructor. Just be sure not to poison placement new. A virtual destructor would still be a fine recommendation.

int main() {
    char data[sizeof(Derived)];
    if (condition)
        new (data) Derived();
    else
        new (data) Base();
    Base* ptr = reinterpret_cast<Base*>(&data[0]);
    ptr->~Base();
}
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"A virtual destructor would still be a fine recommendation." -- it would be, except that w/o dynamic memory allocation it won't be used, and the memory costs in this one class are too high. (otherwise I'd just stick an empty virtual destructor there and be done with it.) –  Jason S Jun 7 '11 at 21:08
    
@Jason S: I wouldn't be so sure about that. Dynamic allocation does not always mean just the heap - it can also mean placement new. I could easily create an example which wouldn't use any dynamic memory allocation and still depended on a virtual destructor. If you absolutely can't use one, then poison placement new too. –  Puppy Jun 7 '11 at 21:11
    
do you know any "simple" cases that use placement new w/o dynamic memory allocation? This is a processor with relatively limited memory + no standard library (so STL isn't here; we're not using stacks or queues or things). –  Jason S Jun 7 '11 at 21:23
    
@Jason: Just posted one. I guess that if you know for sure that you're writing every line in your program, you could avoid it, or just poison placement new, but that code is undefined without a virtual destructor. –  Puppy Jun 7 '11 at 21:47
    
Well, I suppose I could make the destructor private also. –  Jason S Jun 7 '11 at 22:27
class A
{
private:
    void *operator new(size_t);
    ...
};

The elipses are for the other overrides of operator new and the rest of the class.

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Just make operator new private

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