Why the output is 0003212 ?

#include <iostream>
using namespace std;

template<typename X> class C
    C() { cout<<"0";}
    template<class T> C(const C<T>& c) { cout<<"1";}
    C(const C<int>& c) { cout<<"2";}
    template<class T> C(const C<T*>& c) { cout<<"3";}

int main(int argc, char* args[])
    C<int> c1;          // 0
    C<double> c2;       // 0
    C<int*> c3;         // 0

    C<int> c4(c3);      // 3
    C<int> c5(c1);      // 2
    C<int> c6(c2);      // 1
    C<float> c7(c1);    // 2
    C<double> c8(c2);   // ?

    return 0;

What is invoked in the last meaning line?

I can suppose that it's some auto-created ctor but can't figure out which one.

  • @H2CO3: Nope, a template constructor can never displace the copy constructor. And the default copy constructor C<X>::C(const C<X>&) is a better match for the c8 initialization than any of the templates. – Ben Voigt Jan 18 '14 at 21:58
  • Your C<X>::C(const C<X>&) and my template<class T> C(const C<T>& c) { cout<<"1";} are not the same thing? – papirosnik Jan 18 '14 at 22:12
  • No they are not. I'll add an answer explaining why. – Ben Voigt Jan 18 '14 at 22:15

There are several C++ language rules in play here.

  1. A template cannot be a copy constructor. (Standard rule 12.8p2)

    A non-template constructor for class X is a copy constructor if its first parameter is of type X&, const X&, volatile X& or const volatile X&, and either there are no other parameters or else all other parameters have default arguments.

  2. If no copy constructor is defined, the compiler generates a default one (if possible). (Standard rule 12.8p7)

    If the class definition does not explicitly declare a copy constructor, one is declared implicitly. If the class definition declares a move constructor or move assignment operator, the implicitly declared copy constructor is defined as deleted; otherwise, it is defined as defaulted (8.4). The latter case is deprecated if the class has a user-declared copy assignment operator or a user-declared destructor. Thus, for the class definition

    struct X {
       X(const X&, int);

    a copy constructor is implicitly-declared. If the user-declared constructor is later defined as X::X(const X& x, int i =0) { /∗ ... ∗/ } then any use of X's copy constructor is ill-formed because of the ambiguity; no diagnostic is required.

  3. If a template and non-template are an equally good match for the arguments, the non-template wins. (Standard rule 13.3.3) The rule is a big hard-to-digest mess, I'll show just the important part:

    [...] a viable function F1 is defined to be a better function than another viable function F2 if [...rules about argument matching...] or, if not that, F1 is a non-template function and F2 is a function template specialization [...]

From the code you provided, only

C<int>::C(const C<int>&)

is a user-defined copy-constructor that prints 2. All X other than int don't define a copy-constructor, so the compiler creates one.

See also

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  • Your rules sound like true ) I continued to experiment and now understand which of ctors is used. Rules that you've written explain my case nice, but one small question... Are they in c++ standratd? – papirosnik Jan 18 '14 at 22:33
  • @user2032538: I've paraphrased the Standard to make it easier to understand, but I can find the actual wording in the Standard. – Ben Voigt Jan 18 '14 at 22:34
  • This answer is far better than the accepted one... :( Too few upvotes, too much ignorance... :( – user529758 Jan 18 '14 at 22:38
  • I liked this answer better when my summary of the rules was together :( – Ben Voigt Jan 18 '14 at 22:53
  • Thanks for your nice detailed explanation.Now I'm trying to understand this mistery: what is the reason that template constructor cannot be copy-constructor. Why was this condition included into c++ standard... – papirosnik Jan 18 '14 at 23:15

It's copy constructor generated for you by compiler, and since it's best match it's selected in last case.

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  • c6 is of type C<int> and c2 is of type C<double>. These are to completely separate classes as far as compiler is concerned. So to find which ctor to use, compiler needs to consider C<int> ctors (generate list of possible matches). First one is obviously not ok. Second one might work. Third one takes different type (C<int>) from actuall parameter (C<double>) so is not ok. Last one also is not ok, since it takes things of form C<T*> which is not matching C<double>. So there is only one possible match for this case. – tumdum Jan 18 '14 at 22:10
  • You're right I managed to see the trails of that generated constructor in asm listing. and now I understand what happens under hood ) Thanks a lot – papirosnik Jan 18 '14 at 22:20

In last case you call default copy constructor.

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