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Lets say I have the following code in what we expect to become the next C++ standard:

int f(int x) 
  std::cout << x;
  return x * x; 

struct A
  A(int x) : m_x(x) {}
  int m_x;

struct B : A
  using A::A;
  B() : m_y(f(m_x)) {}
  int m_y;

int main()

Would this call the default constructor of B and print out 5 and set m_y = 25? Or will the default constructor of B not run, and leave m_y uninitialized?

And if the latter, what is the rationale behind not calling the B default constructor? It is quite clear that the A(int) B inherits only initialises A, and leaves B in an indeterminate state. Why would C++ choose undefined behaviour over simply calling the default constructor of B()? It largely defeats the purpose of the inheriting constructors feature.


Perhaps this should be allowed:

using A::A : m_y(...) { std::cout << "constructing..." << std::endl; ...; }
share|improve this question
m_y will be uninitialized, by using A::A, you will get something like this: B::B(int x) : A::m_x(x) {}. Or something:) – hidayat Mar 23 '11 at 10:18
C++ actually chooses to compile you code with error as you don't provide default constructor for A. It is not an undefined behaviour :) – user396672 Mar 23 '11 at 12:43
up vote 4 down vote accepted

using A::A; implicitly declares B(int) in the derived class. That is it.

The rest of your program should not work as you expect. Because you're invoking B(int) with B(5), and that leaves m_y uninitialized.

See this example from Bjarne Stroustrup's site:

struct B1 {
    B1(int) { }

struct D1 : B1 {
    using B1::B1; // implicitly declares D1(int)
    int x;

void test()
    D1 d(6);    // Oops: d.x is not initialized
    D1 e;       // error: D1 has no default constructor

Another example from the same link:

struct D1 : B1 {
        using B1::B1;   // implicitly declares D1(int)
        int x{0};   // note: x is initialized

    void test()
        D1 d(6);    // d.x is zero
share|improve this answer
If D1 had a default constructor, would it be run when running the line "D1 d(6);"? – Clinton Mar 23 '11 at 10:19
His example did not declare a default constructor for D1. Of course x is going to be not initialised, regardless of the "using B1:B1". My example however declares a default constructor. – Clinton Mar 23 '11 at 10:28
@Clinton: Yes. But the default constructor is not invoked in your example. So it doesn't matter whether you define it or not, you invoke the implicitly declared constructor which is B(int) in your example. – Nawaz Mar 23 '11 at 10:30
@Nawaz: Why? What is the rationale behind not calling the default constructor? In no other instance in C++ can you create an object without calling its constructor. – Clinton Mar 23 '11 at 10:34
+1 @Clinton: It might be simpler to understand if you think on what the using B1::B1 means for the compiler. The construct is translated (in this particular case) to D1( int __x ) : B1(__x) {}. Note that it does not mean call the B1 constructor but rather, create a D1 constructor that will call the B1 constructor. That constructor is not explicitly modifying the member x and because it is of type int that means that it is uninitialized. Unless, as per the last code snippet, it uses the initialization syntax in the declaration, in which case it will be correctly initialized. – David Rodríguez - dribeas Mar 23 '11 at 11:57

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