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Here is the code that I do not understand:

class Base

    Base operator=(Base ob2)
        std::cout << "Using Base operator=() " << '\n';
        return *this;

class Derived : public Base
    Derived operator=(Base ob2)
        std::cout << "Using Derived operator=() " << '\n';
        return *this;

int main()
    Derived derived1, derived2;
    Base base1;

    derived1 = derived2;  // Uses base operator=()

    derived1 = base1;  // Uses derived operator=()

    return 0;

What are the language rules that determine, that the first assignment uses the operator of the Base class and the second the operator of the Derived class?

Yes and I know that one normally does not declare an assignment operator like this. That is why I called it accademical.

share|improve this question
First of all you should change return values for assignment operators to references, but congratulation for a good question – Slava Jul 16 '14 at 20:07
'Correct' assignment operator signatures should look like Base& operator=(const Base/ ob2) and Derived& operator=(const Derived& ob2) – πάντα ῥεῖ Jul 16 '14 at 20:07
up vote 14 down vote accepted

Short version: Overload resolution didn't select Base::operator=(Base). It selected the implicitly declared Derived::operator=(const Derived &), which calls Base::operator=(Base) to copy-assign the base-class subobject.

Long version with standard quotes:

First, copy assignment operator is defined in the standard in §12.8 [class.copy]/p17:

A user-declared copy assignment operator X::operator= is a non-static non-template member function of class X with exactly one parameter of type X, X&, const X&, volatile X& or const volatile X&.

Second, if you don't provide a copy assignment operator, one will always be implicitly declared for you. From §12.8 [class.copy]/p18:

If the class definition does not explicitly declare a copy assignment operator, one is declared implicitly. If the class definition declares a move constructor or move assignment operator, the implicitly declared copy assignment operator is defined as deleted; otherwise, it is defined as defaulted (8.4). The latter case is deprecated if the class has a user-declared copy constructor or a user-declared destructor. The implicitly-declared copy assignment operator for a class X will have the form

X& X::operator=(const X&) 


  • each direct base class B of X has a copy assignment operator whose parameter is of type const B&, const volatile B& or B, and
  • for all the non-static data members of X that are of a class type M (or array thereof), each such class type has a copy assignment operator whose parameter is of type const M&, const volatile M& or M.

Otherwise, the implicitly-declared copy assignment operator will have the form

X& X::operator=(X&)

Note that one of the results of these rules is that (§12.8 [class.copy]/p24):

Because a copy/move assignment operator is implicitly declared for a class if not declared by the user, a base class copy/move assignment operator is always hidden by the corresponding assignment operator of a derived class.

In other words, overload resolution can never select the copy assignment operator of Base for an assignment from one Derived to another. It is always hidden and isn't even in the set of candidate functions.

Finally, §12.8 [class.copy]/p28 provides that

The implicitly-defined copy/move assignment operator for a non-union class X performs memberwise copy-/move assignment of its subobjects.

In the case in the question, no copy assignment operator is provided for Derived, so one will be implicitly declared as defaulted (since Derived has no user-declared move constructor or move assignment operator). This implicit copy assignment operator will be selected by overload resolution, and performs copy assignment of, among other things, the base class subobject, which calls the copy assignment operator you defined for Base.

share|improve this answer
Doesn't the inclusion of an explicit operator= suppress the implicitly generated one? Or is that only for constructors? – Mark Ransom Jul 16 '14 at 20:16
@MarkRansom: Cf. 12.8/18. – Kerrek SB Jul 16 '14 at 20:19
@MarkRansom See the standard quote above. One will always be declared. – T.C. Jul 16 '14 at 20:28
@MarkRansom Since the operator= in the derived class didn't have a Derived argument, it doesn't suppress the implicitly generated one. (the argument is not X to match the first quote) – Per Johansson Jul 16 '14 at 20:35
@MarkRansom Derived operator=(Base) is not a copy-assignment operator. It is an assignment operator. – M.M Jul 16 '14 at 23:08

When you create a class, compiler implicitly generates following functions (unless you specify some of them explicitly see ):

  • default constructor
  • copy constructor
  • move constructor (since c++11)
  • copy assignment operator
  • move assignment operator (since c++11)
  • destructor

In your case copy assignment operator signature is:

struct Foo {
   Foo &operator=( const Foo &f ); // either this
   Foo &operator=( Foo f ); // does not make much sense but will work too

When you create assignment operator for class Derived, you do not explicitly replace implicit copy assignment operator but create a new one. To understand the issue easier modify your code to this:

class Derived : public Base
    Derived &operator=(const Base &ob2)
        std::cout << "Using Derived operator=(Base) " << '\n';
        return *this;
    Derived &operator=(const Derived &ob2)
        std::cout << "Using Derived operator=(Derived) " << '\n';
        return *this;

Issue should become obvious.

share|improve this answer
"When you create a class, compiler implicitly generates following functions" not necessarily. For example, the default constructor is not implicitly generated if you declare another ctor. – T.C. Jul 16 '14 at 20:37
@T.C. modified answer, I think fully describe all rules of implicit member declaration is out of scope of this question – Slava Jul 16 '14 at 20:42

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