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I am trying to understand virtual destructors. The following is a copy paste from this page When to use virtual destructors?

Here, you'll notice that I didn't declare Base's destructor to be virtual. Now, let's have a look at the following snippet:

Base *b = new Derived(); // use b 
delete b; // Here's the problem!

[...] If you want to prevent the deletion of an instance through a base class pointer, you can make the base class destructor protected and non-virtual; by doing so, the compiler won't let you call delete on a base class pointer.

I don't understand why the deletion is prevented by having a protected non-virtual base class destructor. Doesn't the compiler think that we're trying to call delete from a base class object? What does protected have to do with that?

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2 Answers 2

up vote 5 down vote accepted

The C++ Standard has this to say about delete (section 5.3.5p10):

Access and ambiguity control are done for both the deallocation function and the destructor (12.4, 12.5).

Therefore, only code that has access to the destructor is able to use delete. Since the destructor is protected, that means that no one can call delete on a pointer of type Base*. Only subclasses can use the destructor at all (and the only thing that will is the subclass's own destructor, as part of the subobject destruction process).

Of course, the subclass should make its own destructor public, allowing you to delete objects through the subclass type (assuming that is the correct actual type).

NOTE: Actually, other members of Base can do delete (Base*)p; since they have access. But C++ assumes that someone using this construct will not be doing that -- C++ access control only provides guidance to code outside your class.

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delete b; effectively performs b->~Base(); deallocate(b);. The first part - calling the destructor - would fail to compile if the destructor is inaccessible (in the same way that calling any other inaccessible method fails).

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"function", please. It's not virtual and isn't dispatched like a method. –  Ben Voigt Oct 25 '13 at 1:16
@BenVoigt: I don't quite see how the term "method" is more apt when applied to a virtual member function than a non-virtual one. I must admit I fail to appreciate the difference. I could understand the objection that there are no methods at all in C++, only member functions (though I'd think of it as perhaps overly pedantic). But I don't understand this particular division. –  Igor Tandetnik Oct 25 '13 at 1:20
@BenVoigt: no less an authority than Wikipedia defines "method" merely as "a subroutine (or procedure) associated with a class", and even talks about "virtual methods" and "non-virtual methods". I rest my case. –  Igor Tandetnik Oct 25 '13 at 1:23
There are no methods, only member functions. But virtual member functions can be dispatched like a method. ("method" is defined in OOP theory, and definitely involves dispatch. Think about the expanded case of "multimethods".) –  Ben Voigt Oct 25 '13 at 1:27
@BenVoigt: Java has static methods. Are those "dispatched"? I suspect that, even if there once was a strict definition of the term "method" along the lines you insist upon, colloquial use has departed from such definition significantly, for better or worse. –  Igor Tandetnik Oct 25 '13 at 1:30
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