I have this code:

template<typename T>
class Listoid{

  private:
    std::vector<T> list;

  public:
    typedef typename std::vector<T>::iterator iterator;

    iterator begin() {return list.begin();}
    iterator end() {return list.end();}

  public:
    Listoid(T t) {
      list.push_back(t);
    }

  const T operator [](int i){
    return list[i];
  }

  void addElem(T ne){
    list.push_back(ne);
  }

  friend T cons(T new_elem, Listoid<T> list);

};

template<typename T>
Listoid<T> cons(T new_elem, Listoid<T> list){

  Listoid<T> new_list(new_elem);
  for(typename Listoid<T>::iterator it = list.begin(), e = list.end();
        it != e; ++it){
          new_list.addElem(*it);
        }
  return new_list;
}


int main(){

  Listoid<int> lista(312);
  lista.addElem(22);

  Listoid<int> lista2 = cons(21, lista);

  return EXIT_SUCCESS;
}

But i cannot compile it; i get the following error:

/tmp/listoid-3kYCmd.o: In function `main':
listoid.cpp:(.text+0xda): undefined reference to `cons(int, Listoid<int>)'
clang: error: linker command failed with exit code 1 (use -v to see invocation)

Maybe it's really simple, but i cannot solve it. Can someone help?

  • 1
    Your friend function's return type is wrong, it should be Listoid<T>, not T. Though that's not the source of your problem. – Lily Ballard Sep 17 '12 at 20:09
  • You are right, thank you. – Aslan986 Sep 17 '12 at 20:20
up vote 5 down vote accepted

You must tell the compiler that cons is function template not simple function. Use this syntax:

friend T cons <>(T new_elem, Listoid<T> list);

Note <> after function name.

Otherwise it is searching for simple function, not function template. That is linker telling you.

[UPDATE]

And do not forget to add forward declaration of your function before its friend class, so your class will know what is the friend.

template<typename T>
Listoid<T> cons(T new_elem, Listoid<T> list);

[UPDATE2]

And change your type of your function template, and add forward declaration of your class. See:

template<typename T>
class Listoid;
template<typename T>
Listoid<T> cons(T new_elem, Listoid<T> list);

template<typename T>
class Listoid{
...

  friend Listoid<T> cons <>(T new_elem, Listoid<T> list);

};

That works for me: ideone

  • 1
    Curiously, this change makes my compiler (clang++) claim that friends can only be classes or functions. – Lily Ballard Sep 17 '12 at 20:07
  • Yes, i also tried with g++ and i got the same error (friend can only be classes or functions) – Aslan986 Sep 17 '12 at 20:11
  • See my update. I forget that function template forward declaration is needed. – PiotrNycz Sep 17 '12 at 20:11
  • Yes, perfect. Now it works, thank you. – Aslan986 Sep 17 '12 at 20:22
  • Perfect! But, C++ is really difficult to me :( – cmcromance Jul 10 '17 at 16:26

friend T cons(T new_elem, Listoid<T> list); is not a template, your later template<typename T> Listoid<T> cons(T new_elem, Listoid<T> list) is different overload of the cons() function. See FAQ.

Try to re-handle your function declaration with a template declaration and a correct return type :

   template<typename U> friend Listoid<U> cons(U new_elem, Listoid<U> list);

And rename your typename so it does not shadow the template type in your class template.

  • That will make any cons<U> function template specializations to be friend of any Listoid<T> class template specialization. This is not what OP wants. OP wants that for the same T Listoid<T> be friend to cons<T>. – PiotrNycz Sep 17 '12 at 20:43
  • ok nice point. :-) did not see that. – yves Baumes Sep 17 '12 at 20:50

The problem is that you have two different declarations of cons, one in the friend declaration, another outside at namespace level. Friendship in templates is not as straightforward as it might look at the beginning, I recommend that you read this other answer with a long explanation of the different options. In particular, if you want (as it seems) to befriend only a particular specialization of the template you will need to provide the declaration upfront, before the class template:

template<typename T>
class Listoid;
template<typename T>
T cons(T new_elem, Listoid<T> list);
template<typename T>
class Listoid{
   friend T cons<T>(T,Listoid<T>);
...

In the current form you are declaring a non-template function to be a friend. That non-template function will be a better match than the template (non-templates are preferred over templates when the types match) and the compiler will generate a dependency towards the non-teplated function:

int const(int,Listoid<int>);

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