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Here is a test code :

#include <iostream>
#define OPTION 1

template<typename T>
class Base
        Base() : _x() 

        Base(const T& source) : _x(source) 
        {std::cout<<"Base(const T& source)"<<std::endl;}

        Base(const Base<T>& source) : _x(source.x) 
        {std::cout<<"Base(const Base<T>& source)"<<std::endl;}

        inline void set(const T& source) 
        {std::cout<<"Base::set(const T& source)"<<std::endl; 
        this->_x = source;}

        inline T get() const 
        {std::cout<<"Base::get(const T& source)"<<std::endl; return _x;}

        T _x;

template<typename T>
class Derived : public Base<T>
        Derived() : Base<T>() 

        Derived(const T& source) : Base<T>(source) 
        {std::cout<<"Derived(const T& source)"<<std::endl;}

        Derived(const Derived<T>& source) : Base<T>(source) 
        {std::cout<<"Derived(const Derived<T>& source)"<<std::endl;}

        #if OPTION == 0
        inline void set(const T& source) 
        {std::cout<<"Derived::set(const T& source)"<<std::endl; 
        this->_x = source;}

        inline void set(const Base<T>& source) 
        {std::cout<<"Derived::set(const Base<T>& source)"<<std::endl; 
        this->_x = source.get();}

int main(int argc, char* argv[])
    Derived<double> d;
    double x = 4.5;
    return 0;

For me OPTION 0 and OPTION 1 would be equivalent but they are not and I would like to understand why.

With OPTION 0, when the main calls d.set(x) the compiler has the choice between Derived<T>::set(const T& source) and Derived<T>::set(const Base<T>& source) and of course, for T x he chooses Derived<T>::set(const T& source).

Now with OPTION 1, when the main calls d.set(x), I would think that the compiler has the choice between Base<T>::set(const T& source) and Derived<T>::set(const Base<T>& source).

But instead of choosing Base<T>::set(const T& source), the compiler (GCC 4.6.3 here) implicitely converts x to Base<T> and calls Derived<T>::set(const Base<T>& source).

Is it normal ?

And what is the common technique (if it exists) to avoid that (without changing the constructors) in order to have OPTION 0 and OPTION 1 equivalent ?

share|improve this question
You should stop using std::endl unless you really mean to flush the stream. –  Dietmar Kühl Dec 9 '12 at 7:04
Of course I don't use std::endl when I need performances, but it is not my point here. But you are right... (nevertheless, for things like log files, std::endl may be more convenient than "\n") –  Vincent Dec 9 '12 at 7:08

1 Answer 1

up vote 4 down vote accepted

When overloading a function from a base class in a derived class, the base class function is hidden and never chosen by overload resolution unless a using declaration is used. That is, to allow the compiler to choose Base<T>::set(const T&), you'd added

using Base<T>::set;

in your derived class.

share|improve this answer
Is this syntax from C++11 or from C++03 ? (get() method solved) –  Vincent Dec 9 '12 at 7:00
I think using declarations where introduced with C++ 98. –  Dietmar Kühl Dec 9 '12 at 7:01
Is it working with template functions too ? (and in this case, should I specify the template parameters in the using line ?) –  Vincent Dec 9 '12 at 7:17
The using declaration makes a name visible, not a signature. I'm not sure if it is possible to make specific signatures visible. It is quite possible that it isn't possible because if you had typed the signature, adding the delegation to the base wouldn't be much of an inconvenience. –  Dietmar Kühl Dec 9 '12 at 7:21
one can apply a trick to avoid bringing up other signatures. struct Base { void set(int) { cout << "int"; } void set(float) { cout << "float"; } void set(long) { cout << "long"; } }; struct A : Base { using Base::set; void set(int a) { set((float)a); } void set(float a) { /*...*/ }; int main() { A a; a.set(0); a.set(0.f); a.set(0L); }. This outputs "long", instead of "intlong" (the derived function will hide rather than conflict). –  Johannes Schaub - litb Dec 9 '12 at 13:33

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