14

In a freestanding context (no standard libraries, e.g. in operating system development) using g++ the following phenomenon occurs:

class Base {
public:
   virtual ~Base() {}
};

class Derived : public Base {
public:
    ~Derived() {}
};

int main() {
    Derived d;
}

When linking it states something like this: undefined reference to operator delete(void*)

Which clearly means that g++ is generating calls to delete operator even though there are zero dynamic memory allocations. This doesn't happen if destructor isn't virtual.

I suspect this has to do with the generated vtable for the class but I'm not entirely sure. Why does this happen?

If I must not declare a delete operator due to the lack of dynamic memory allocation routines, is there a work around?

EDIT1:

To successfully reproduce the problem in g++ 5.1 I used:

g++ -ffreestanding -nostdlib foo.cpp

7
  • I can’t reproduce the problem for this simple example. Are you sure you’re not missing something? Jul 28, 2015 at 20:34
  • @RobinKrahl did you try adding -ffreestanding to the g++ command line. Check on the disassembly dump if there are any calls to delete operator.
    – felknight
    Jul 28, 2015 at 20:36
  • Compiles using g++ 4.8.4 on my Linux Mint. Used g++ Testing.cpp -ffreestanding. But with clang 3.5.0 I am getting a bunch of linker errors.
    – ChajusSaib
    Jul 28, 2015 at 20:49
  • Maybe a stupid question: What does -nostdlib do ??? (remove operator delete(void*) ? )
    – user2249683
    Jul 28, 2015 at 20:57
  • @DieterLücking It skips linking standard C++ library (STL, default operators, personalities, exception handling, stack unwinding and so on)
    – StenSoft
    Jul 28, 2015 at 21:03

2 Answers 2

15

Because of deleting destructors. That are functions that are actually called when you call delete obj on an object with virtual destructors. It calls the complete object destructor (which chains base object destructors — the ones that you actually define) and then calls operator delete. This is so that in all places where delete obj is used, only one call needs to be emitted, and is also used to call operator delete with the same pointer that was returned from operator new as required by ISO C++ (although this could be done more costly via dynamic_cast as well).

It's part of the Itanium ABI that GCC uses.

I don't think you can disable this.

9
  • Thanks for the answer. Agree with @Yakk. Now I get what happens. You think is there a workaround
    – felknight
    Jul 28, 2015 at 20:47
  • 1
    @Felipe since the deleting destructor will only be called from a delete, and since you don't have one, you could implement your own delete(void*) and have it do nothing or generate a runtime error. Jul 28, 2015 at 20:56
  • 2
    @Felipe No, deleting destructors are called only with delete
    – StenSoft
    Jul 28, 2015 at 21:00
  • 1
    @Ediac the idea is to provide a dummy function to eliminate the linker error, since the function should never be called anyway. I suggested having it generate an error so that it's easy to detect if someone modifies the code and tries to use delete in the future. Jul 29, 2015 at 0:22
  • 4
    I think there is an additional reason you didn't mention (explicitly): It is possible to overload operator delete in a derived class; the standard [class.free]p4 requires that delete is dispatched dynamically (effectively) if the static type of the delete operand has a virtual dtor. That is, if you define a virtual destructor, you'll effectively also get a virtual operator delete. Live example
    – dyp
    Jul 29, 2015 at 10:16
1

In C++20 there is now a fix: P0722R3. The static void operator delete(T*, std::destroying_delete_t) deallocation function. It essentially maps to the destroying destructor.

You can just make it not call ::operator delete, like:

class Base {
public:
    void operator delete(Base* p, std::destroying_delete_t) {
        // Shouldn't ever call this function
        std::terminate();  // Or whatever abort-like function you have on your platform

        // The default implemenation without any overrides basically looks like:
        // p->~Base(); ::operator delete(p);
        // Which is why the call to `operator delete` is generated
    }
    virtual ~Base() {}
};

class Derived : public Base {
public:
    // Calls Base::operator delete in deleting destructor, so no changes needed
    ~Derived() {}
};

int main() {
    Derived d;
}

The deleting destructor is the one called when you do delete ptr_to_obj;. It can only be called by delete expressions, so if you have none in your code, this should be fine. If you do, you can replace them with ::delete ptr_to_obj; and the deleting destructor will no longer be called (it's purpose is to call overriden operator delete's for classes, and ::delete will only call the global ::operator delete)

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