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I wrote the below code in order to explain my issue. If I comment the line 11 (with the keyword "using"), the compiler does not compile the file and displays this error: invalid conversion from 'char' to 'const char*'. It seems to not see the method void action(char) of the Parent class in the Son class.

Why the compiler behave this way? Or have I done something wrong?

class Parent
        virtual void action( const char how ){ this->action( &how ); }
        virtual void action( const char * how ) = 0;

class Son : public Parent
        using Parent::action; // Why should i write this line?
        void action( const char * how ){ printf( "Action: %c\n", *how ); }

int main( int argc, char** argv )
    Son s = Son();
    s.action( 'a' );
    return 0;
share|improve this question
Please tell me: what if you remove const in "const char how"? – Pavel Radzivilovsky Dec 13 '09 at 15:38
You don't need to type Son s = Son();. That just creates a temporary and then calls the copy constructor. Just type Son s; – Charles Salvia Dec 13 '09 at 15:42
Why is C++ designed like that version:… – Ciro Santilli 巴拿馬文件 六四事件 法轮功 Jun 18 '15 at 13:38
up vote 43 down vote accepted

The action declared in the derived class hides the action declared in the base class. If you use action on a Son object the compiler will search in the methods declared in Son, find one called action, and use that. It won't go on to search in the base class's methods, since it already found a matching name.

Then that method doesn't match the parameters of the call and you get an error.

See also the C++ FAQ for more explanations on this topic.

share|improve this answer
@sth Good to know that. but is this, may i say, a feature of c++ or some kind of a bug? doesn't this spoil the whole idea of inheritance? just asking.. – Anubis Jan 8 '13 at 10:12
Is the name matching done using the mangled name, does method overloading play a role here, or is the first function called that has the name "action" and that's it? – tmaric Jan 8 '13 at 10:52
@Anubis: The rule simplifies name lookup. Without it, the compiler would need to walk over the complete inheritance tree when it needs to resolve the name of a member function (there could be overloads of the function in some base class). With the rule, the compiler can stop looking at the rest of the inheritance tree once it found a class containing a fitting name. The programmer is in the same situation. Looking at the derived class he can be sure that the function defined there will be called, without having to know if some base class might contain a different function of the same name. – sth Jan 10 '13 at 5:31
Warning: the link is dead. – BenC Jun 3 '15 at 5:04

Surprisingly this is standard behavior. If a derived class declares a method with the same name as a method defined by the base class, the derived class' method hides the base class' one.

See C++ FAQ

share|improve this answer

A note of caution: The need to use a "using" in this situation is a red flag that your code may be confusing for other developers (after all it confused the compiler!). It is likely that you should rename one of the two methods to make the distinction clear to other programmers.

One possibility:

void action( const char how )
  takeAction( &how ); 
void action( const char * how )
virtual void takeAction(const char * how) = 0;
share|improve this answer

If in a derived class any over loaded function is redefined then all the overloaded function in the base class is hidden. One way to include both the functionality is to avoid function overloading in classes. or You can use using keyword, as used.

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