I am surprised that in the following example declaring Middle's base class private makes that name unavailable as a type in a subsequent derivation.

class Base {
  Base(Base const& b) : i(b.i) {}

  int i;

class Middle : private Base {            //<<<<<<<<<<<
  Middle(Base const* p) : Base(*p) {}

class Upper : public Middle {
  Upper(Base const* p) : Middle(p) {}    //<<<<<<<<<<<

Compiling thusly with g++ (Debian 6.3.0-18+deb9u1) 6.3.0 20170516...

g++ -std=c++11 privateBase.cpp

I get the following diagnostics:

privateBase.cpp:15:9: error: ‘class Base Base::Base’ is inaccessible within this context
   Upper(Base const* p) : Middle(p) {}
privateBase.cpp:1:12: note: declared here
 class Base {

Clearly at the point that Base was used as Middle's base class its name was available as a type. I can understand that when Base is used to denote base class storage that should be private. But having a declaration of a private base class render a type name inaccessible seems, at the very least, unexpected.


This is intended; see core issue 175, which even added an example illustrating this in [class.access.spec]p5:

[ Note: In a derived class, the lookup of a base class name will find the injected-class-name instead of the name of the base class in the scope in which it was declared. The injected-class-name might be less accessible than the name of the base class in the scope in which it was declared. — end note ] [ Example:

class A { };
class B : private A { };
class C : public B {
  A* p;             // error: injected-class-name A is inaccessible
  ::A* q;           // OK

— end example ]

This falls out of the interaction between class name injection (for rationale, see Why is there an injected class name?) and the fact that in C++ access control applies after name lookup, not before.

  • 2
    You forgot to explain why. – Robert Harvey Dec 27 '18 at 18:59
  • 1
    @RobertHarvey - is this cppreference explanation sufficient: "In a class scope, the name of the current class is treated as if it were a public member name; this is called injected-class-name. The point of declaration of the name is immediately following the opening brace of the class definition. Like other members, injected-class-names are inherited. In the presence of private or protected inheritance, the injected-class-name of an indirect base class might end up being inaccessible in a derived class." (Italics added.) – davidbak Dec 27 '18 at 19:04
  • Yes, that will suffice. – Robert Harvey Dec 27 '18 at 19:06
  • As a guess, the issue is about preventing names from changing when an access specifier changes. Suppose there are both A in global scope and ns::A in the namespace ns, and the base is specified as ns::A. In that case, A in the derived class refers to ns::A. Making the base private shouldn't turn that into ::A. – Pete Becker Dec 27 '18 at 19:11
  • A related but O.T. question: Are there languages where access control applies during name lookup rather than after? (Just curious. I find access control an interesting part of C++/Java/C#. It seems to be an invention for software engineering purposes as it is not part of O-O theory - at least not so far as Theory of Objects (Abadi, Cardelli) is concerned. And the ur-pure O-O language Smalltalk doesn't have access modifiers...) – davidbak Dec 27 '18 at 19:13

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.