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In the CRTP pattern, we run into problems if we want to keep the implementation function in the derived class as protected. We must either declare the base class as a friend of the derived class or use something like this (I have not tried the method on the linked article). Is there some other (simple) way that allows keeping the implementation function in the derived class as protected?

Edit: Here is a simple code example:

template<class D> 
class C {
    void base_foo()

class D:  public C<D> {
protected: //ERROR!
    void foo() {

int main() {
    D d;
    return 0;

The above code gives error: ‘void D::foo()’ is protected with g++ 4.5.1 but compiles if protected is replaced by public.

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Are you talking about something other than public interface/protected implementation, which would be my first suggestion? Can you provide a more concrete example of the higher-level problem you're trying to solve with CRTP? –  Mark B Dec 15 '11 at 17:09
Isn't this what virtual functions are for? –  Bo Persson Dec 15 '11 at 17:12
@BoPersson, virtual functions are for run-time polymorphism, CRTP is for compile-time polymorphism. There's room in the world for both. See en.wikipedia.org/wiki/Curiously_recurring_template_pattern –  Mark Ransom Dec 15 '11 at 18:14
@Mark - There sure is, but if the requirement is to call a protected function in a derived class, virtuals look like a good fit. :-) –  Bo Persson Dec 15 '11 at 18:57

1 Answer 1

It's not a problem at all and is solved with one line in derived class:

friend class Base< Derived >;

#include <iostream>

template< typename PDerived >
class TBase
  void Foo( void )
   static_cast< PDerived* > ( this )->Bar();

class TDerived : public TBase< TDerived >
  friend class TBase< TDerived > ;
  void Bar( void )
   std::cout << "in Bar" << std::endl;

int main( void )
 TDerived lD;


 return ( 0 );
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