I want to declare std::make_unique function as a friend of my class. The reason is that I want to declare my constructor protected and provide an alternative method of creating the object using unique_ptr. Here is a sample code:

#include <memory>

template <typename T>
class A
    // Somehow I want to declare make_unique as a friend
    friend std::unique_ptr<A<T>> std::make_unique<A<T>>();

    static std::unique_ptr<A> CreateA(T x)
        //return std::unique_ptr<A>(new A(x)); // works
        return std::make_unique<A>(x);         // doesn't work

    A(T x) { (void)x; }

int main()
    std::unique_ptr<A<int>> a = A<int>::CreateA(5);
    return 0;

Right now I get this error:

In file included from prog.cc:1:
/usr/local/libcxx-head/include/c++/v1/memory:3152:32: error: calling a protected constructor of class 'A<int>'
return unique_ptr<_Tp>(new _Tp(_VSTD::forward<_Args>(__args)...));
prog.cc:13:21: note: in instantiation of function template specialization 'std::__1::make_unique<A<int>, int &>' requested here
    return std::make_unique<A>(x);     // doesn't work
prog.cc:22:41: note: in instantiation of member function 'A<int>::CreateA' requested here
std::unique_ptr<A<int>> a = A<int>::CreateA(5);
prog.cc:17:5: note: declared protected here
A(T x) { (void)x; }
1 error generated.

What is the correct way to declare std::make_unique as a friend of my class?

  • try compiling with clang - it complains: main.cpp:17:39: error: friends can only be classes or functions - friend std::unique_ptr<A<T>> std::make_unique<A<T>>();` with the error location being the template instantiation. – marko Nov 24 '15 at 22:43
  • Interestingly, compiler with -std=c++14 and this one disappears, and the errors point towards @Praetorian's answer below. – marko Nov 24 '15 at 22:48
  • @marko The above error is with clang. I am on MSVC (vs 2013) now though. Doesn't work there either. – TheCrafter Nov 24 '15 at 22:52
  • Ok. my bad - different standards versions. Besides this trick being hard to pull off, I question this as a contract design - it seems you are conflating rather that separating concerns here. – marko Nov 24 '15 at 23:03
  • 1
    I would agree with the advice given that it is implementation dependant and that you can't rely on it working. Probably time for a redesign :/ – marko Nov 24 '15 at 23:17

make_unique perfect forwards the arguments you pass to it; in your example you're passing an lvalue (x) to the function, so it'll deduce the argument type as int&. Your friend function declaration needs to be

friend std::unique_ptr<A> std::make_unique<A>(T&);

Similarly, if you were to move(x) within CreateA, the friend declaration would need to be

friend std::unique_ptr<A> std::make_unique<A>(T&&);

This will get the code to compile, but is in no way a guarantee that it'll compile on another implementation because for all you know, make_unique forwards its arguments to another internal helper function that actually instantiates your class, in which case the helper would need to be a friend.

  • Indeed that works! But what if I want to pass more arguments to my constructor? If my constructor is for example A(const std::string& str1, const std::shared_ptr& ptr1) which is more complex than an integer. – TheCrafter Nov 24 '15 at 22:50
  • 4
    @TheCrafter I think you'll have to befriend the corresponding make_unique signature, I don't think you get more generic because partial specialization of function templates is not allowed. My suggestion is to forget about make_unique and have CreateA return unique_ptr<A>(new A(...)). Unlike make_shared, make_unique doesn't buy you very many advantages. – Praetorian Nov 24 '15 at 22:58
  • Ok I got it. I just wanted to know if there is a workaround!! Thanks for your answer :) – TheCrafter Nov 24 '15 at 23:00
  • Is a varadic template friend not allowed? – paulm Jun 3 '16 at 13:15
  • 1
    @paulm Yes, in general that's possible. But in this case, if you write template<typename... Args> friend std::unique_ptr<A> std::make_unique<A>(Args&&...);, that's partial specialization of a function template, which is not allowed. – Praetorian Jun 3 '16 at 17:14

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