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I'm trying to write an abstract class with some pure virtual binary operators, which should be implemented by the derived class in order to accomplish operator polymorphism. Here's a simplified example:

class Base {
public:
    virtual const Base& operator+ (const Base&) const = 0;
};

class Derived : public Base {
public:
    const Derived& operator+ (const Derived&) const;
};

const Derived& Derived::operator+ (const Derived& rvalue) const {
    return Derived();
}

It doesn't matter right now what the operator does, the important part is what it returns: it returns a temporary Derived object, or a reference to it. Now, if I try to compile, I get this:

test.cpp: In member function ‘virtual const Derived& Derived::operator+(const Derived&) const’:
test.cpp:12:17: error: cannot allocate an object of abstract type ‘Derived’
test.cpp:6:7: note:   because the following virtual functions are pure within ‘Derived’:
test.cpp:3:22: note:    virtual const Base& Base::operator+(const Base&) const

What's wrong? Isn't operator+ (the only pure virtual function in Base) being overriden? Why should Derived be abstract as well?

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Looks like it's because the functions have different signatures. const Derived& Derived::operator+ (const Derived& rvalue) const vs virtual const Base& Derived::operator+ (const Base&) const –  Geoff Montee Oct 21 '12 at 14:17
    
By the way, you must not return a reference to a temporary object, because the referand's lifetime is over as soon as the function returns. operator+ needs to return by value, which rules out returning a Derived when your caller expects a Base. –  Steve Jessop Oct 21 '12 at 15:37

2 Answers 2

up vote 0 down vote accepted

This kind of overloading is not possible with a normal abstract class in a clean way. First: you should declare + as non member Overload operators as member function or non-member (friend) function?.

The best you can get is to inherit from a templated interface if you really need this functionality:

template<typename T>
class AddEnabled {
  public:
    friend T operator+ (T const& left, T const& right) {
      return left+=right;
    }
};

Now you write

class Foo: public AddEnabled<Foo>{
  Foo():mVal(0){
  }

  Foo& operator+=(Foo const& foo){
    mVal+=foo.mVal;
  }

 private:
  int mVal;
}

If you comment out Foo& operator+=(Foo const& foo){ you will get a compiler error saying that the operator is not implemented. If you want to know more about the principles involved lookup http://en.wikipedia.org/wiki/Barton%E2%80%93Nackman_trick and http://en.wikipedia.org/wiki/Curiously_recurring_template_pattern

HTH, Martin

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Although the return type in Derived can be co-variant to the base one, you can't do the same with the argument types. I.e., the overriding function should look like this:

class Derived : public Base 
{ 
public: 
    const Derived& operator+ (const Base&) const; 
}; 
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