Derived& operator=(Derived copy)
doesn't declare a copy assignment operator for the base class (it has the wrong signature). So the default generated assignment operator in
Foo will not use this operator.
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&.) [Note: an
overloaded assignment operator must be declared to have only one
parameter; see 13.5.3. ] [Note: more than one form of copy assignment
operator may be declared for a class. ] [Note: if a class X only has a
copy assignment operator with a parameter of type X&, an expression of
type const X cannot be assigned to an object of type X.
EDIT don't do this (can you see why ?):
You can do:
void operator=(const copy_and_swap& copy)
Derived copy(static_cast<const Derived&>(copy));
but you lose the potential copy elision optimization.
Indeed, this would assign twice the members of derived classes: once via
copy_and_swap<Derived> assignment operator, and once via the derived class' generated assignment operator. To correct the situation, you'd have to do (and not forget to do):
struct Foo : copy_and_swap<Foo>
Foo& operator=(const Foo& x)
static_cast<copy_and_swap<Foo>&>(*this) = x;
// Some stateful members here
The moral of the story: don't write a CRTP class for the copy and swap idiom.