11 Member access control [class.access]

11.1 Access specifiers [class.access.spec]

Member declarations can be labeled by an access-specifier (Clause [class.derived]):

access-specifier : member-specificationopt

An access-specifier specifies the access rules for members following it until the end of the class or until another access-specifier is encountered. [ Example:

class X {
  int a;            // X::a is private by default: class used
public:
  int b;            // X::b is public
  int c;            // X::c is public
};

 — end example ]

Any number of access specifiers is allowed and no particular order is required. [ Example:

struct S {
  int a;            // S::a is public by default: struct used
protected:
  int b;            // S::b is protected
private:
  int c;            // S::c is private
public:
  int d;            // S::d is public
};

 — end example ]

Note: The effect of access control on the order of allocation of data members is described in [class.mem]. — end note ]

When a member is redeclared within its class definition, the access specified at its redeclaration shall be the same as at its initial declaration. [ Example:

struct S {
  class A;
  enum E : int;
private:
  class A { };        // error: cannot change access
  enum E: int { e0 }; // error: cannot change access
};

 — end example ]

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 ]