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I read in a code sample something strange. There is a base class and a derived class. Derived class is derived from the base class with public inheritance.

class baseClass
{
public:
    void foo();
}

class derivedClass : public baseClass
{
protected:
    void foo();
}

The derived class also overrides the accessor of the method foo(). foo() is public in baseClass and protected in derivedClass. It builds and works, but I don't see why anyone would do this and also to which extent this is allowed. For instance, protected narrows the access, so it is allowed but you can't override a base class protected method with public? I don't know.

4
  • 2
    It doesn't override, it hides.
    – leslie.yao
    Aug 4, 2015 at 8:43
  • Sorry, I apparently used a wrong term. Can you please explain the difference?
    – lulijeta
    Aug 4, 2015 at 8:46
  • In derivedClass a new foo() is defined, and the foo() of the base class is hided, i.e. can't be called from the derived class. The new foo() in derivedClass has nothing to do with the base class's one, i.e. has nothing to do with the access of the base class member foo().
    – leslie.yao
    Aug 4, 2015 at 8:49
  • And only virtual member function could be overrided.
    – leslie.yao
    Aug 4, 2015 at 8:55

2 Answers 2

3

What you wrote is a little tricky. The result of your code won't be what you expect. If you create and use derivedClass instance you just can't call foo() cause it's protected:

derivedClass object;
object.foo(); // Compilation error. Cannot access.

But if you create a pointer to a derivedClass class object and calls the foo() function it will call baseClass's foo() not derivedClass's foo() cause it's not a virtual a function in the base class.

baseClass* object = new derivedClass;
object->foo(); // This will call baseClass::foo();

This is the case when you hide the function. If you add the virtual keyword to foo() then derivedClass's foo() will be called.

class baseClass
{
public:
    virtual void foo();
}

class derivedClass : public baseClass
{
protected:
    virtual void foo() override;
}

Usage:

baseClass* object = new derivedClass;
object->foo(); // This will call derivedClass::foo();
1
  • 1
    Note the use of the C++11 keyword override here. It will actually generate an error message if, by accident, you're hiding instead of overriding a base class function. (This is what it was introduced for.)
    – DevSolar
    Aug 4, 2015 at 9:01
1

Virtual functions can be overridden. That is one of the points of virtual functions.

In your example, however, derivedClass::foo() hides baseClass::foo(). It does not override it.

This can be demonstrated as follows

//  your class definitions here
int main()
{
     baseClass b;
     derivedClass c;
     baseClass *pb = &b;
     baseClass *pc = &c;

     b.foo();     // will call baseClass::foo()
     pb->foo();   // will also call baseClass::foo()
     pc->foo();   // will also call baseClass::foo()  (not derivedClass::foo() which would be the case if baseClass::foo() was virtual)

     c.foo();     //  will attempt to call derivedClass::foo(), which the compiler will reject since it is protected                      
}

The statement c.foo() will compile if derivedClass::foo() was public, and will call derivedClass::foo(). Depending on compiler and compiler settings, the compiler may issue a warning about baseClass::foo() being hidden.

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