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I want to bind() to my base class's version of a function from the derived class. The function is marked protected in the base. When I do so, the code compiles happily in Clang (Apple LLVM Compiler 4.1) but gives an error in both g++ 4.7.2 and in Visual Studio 2010. The error is along the lines of: "'Base::foo' : cannot access protected member."

The implication is that the context for the reference is actually within bind(), where of course the function is seen as protected. But shouldn't bind() inherit the context of the calling function--in this case, Derived::foo()--and therefore see the base method as accessible?

The following program illustrates the issue.

struct Base
protected: virtual void foo() {}

struct Derived : public Base
    virtual void foo() override
        Base::foo();                        // Legal

        auto fn = std::bind( &Derived::foo, 
            std::placeholders::_1 );        // Legal but unwanted.
        fn( this );

        auto fn2 = std::bind( &Base::foo, 
            std::placeholders::_1 );        // ILLEGAL in G++ 4.7.2 and VS2010.
        fn2( this );

Why the discrepancy in behavior? Which is correct? What workaround is available for the error-giving compilers?

share|improve this question
Is it intentional that Derived::foo calls itself, or is that just a result of simplifying to an example? – aschepler Jan 24 '13 at 20:32
@aschepler That's the "unwanted" part of "legal but unwanted." – OldPeculier Jan 24 '13 at 22:05
up vote 8 down vote accepted

Answer: see boost::bind with protected members & context which quotes this part of the Standard

An additional access check beyond those described earlier in clause 11 is applied when a non-static data member or nonstatic member function is a protected member of its naming class (11.2)105) As described earlier, access to a protected member is granted because the reference occurs in a friend or member of some class C. If the access is to form a pointer to member (5.3.1), the nested-name-specifier shall name C or a class derived from C. All other accesses involve a (possibly implicit) object expression (5.2.5). In this case, the class of the object expression shall be C or a class derived from C.

Workaround: make foo a public member function

#include <functional>

struct Base
public: virtual void foo() {}
share|improve this answer
If you can't change Base, adapt it with a Derived method (eg, void basefoo(){ Base::foo(); }). Surprisingly and confusingly in Visual C++ (Express 2010), you can actually use &Derived::Base::foo to bypass this error but it basically ignores your second argument (ie, it always uses this). – Apprentice Queue Jan 24 '13 at 22:01

This has nothing to do with bind. Because of the piece of the Standard @rhalbersma already quoted, the expression &Base::foo is illegal in a non-friended member of Derived, in every context.

But if your intent was to do something equivalent to calling Base::foo();, you have a bigger issue: pointers to member functions always invoke a virtual override.

#include <iostream>

class B {
    virtual void f() { std::cout << "B::f" << std::endl; }

class D : public B {
    virtual void f() { std::cout << "D::f" << std::endl; }

int main() {
    D d;
    d.B::f();   // Prints B::f

    void (B::*ptr)() = &B::f;
    (d.*ptr)(); // Prints D::f!
share|improve this answer

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