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c++ - How to differentiate fill constructor and range constructor in C++11?

I suspect the prototypes of fill constructor and range constructor of std::vector (and many other STL types) given in this webpage are not right, so I implement a NaiveVector to mimic these two prototypes.

My code is:

#include <iostream>
#include <vector>
using namespace std;

template <typename T>
struct NaiveVector {
  vector<T> v;
  NaiveVector(size_t num, const T &val) : v(num, val) { // fill
    cout << "(int num, const T &val)" << endl;
  }

  template <typename InputIterator>
  NaiveVector(InputIterator first, InputIterator last) : v(first, last) { // range
    cout << "(InputIterator first, InputIterator last)" << endl;
  }

  size_t size() const { return v.size(); }
};

int main() {
  NaiveVector<int> myVec1(5,1);                   // A
  cout << "size = " << myVec1.size() << endl;
  for (auto n : myVec1.v) { cout << n << " "; }
  cout << endl;

  cout << "-----" << endl;

  vector<int> vec({1,2,3,4,5});               
  NaiveVector<int> myVec2(vec.begin(), vec.end());// B
  cout << "size = " << myVec2.size() << endl;
  for (auto n : myVec2.v) { cout << n << " "; }
  cout << endl;
}

And the output is:

$ g++ overload.cc -o overload -std=c++11
$ ./overload
(InputIterator first, InputIterator last) // should be: (int num, const T &val)
size = 5
1 1 1 1 1
-----
(InputIterator first, InputIterator last)
size = 5
1 2 3 4 5

As I suspected from the beginning, the compiler cannot differentiate the two constructors properly. Then my question is: how does std::vector's fill constructor and range constructor differentiate from each other?

Rephrase: how to implement the two constructors of this NaiveVector?

This question seems to be a duplicate of this question but the answer is not satisfying. Additionally, C++11 itself doesn't provide a is_iterator<>.. (MSVC has lots of hacks).

Edit: it is allowed to bind an rvalue to a constant lvalue reference, so the first constructor of NaiveVector is valid for A.

See Question&Answers more detail:os

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C++03

[lib.sequence.reqmts]/9

For every sequence defined in this clause and in clause 21:

  • the constructor

    template <class InputIterator>
    X(InputIterator f, InputIterator l, const Allocator& a = Allocator())
    

    shall have the same effect as:

    X(static_cast<typename X::size_type>(f),
      static_cast<typename X::value_type>(l),
      a)
    

    if InputIterator is an integral type.

...

[lib.sequence.reqmts]/11

One way that sequence implementors can satisfy this requirement is to specialize the member template for every integral type. Less cumbersome implementation techniques also exist.

In other words, the standard says that if the range constructor gets selected by overload resolution but the "iterator" type is actually an integral type, it has to delegate to the fill constructor by casting its argument types to force the latter to be an exact match.

C++11/C++14

[sequence.reqmts]/14

For every sequence container defined in this clause and in clause 21:

  • If the constructor

    template <class InputIterator>
    X(InputIterator first, InputIterator last,
      const allocator_type& alloc = allocator_type())
    

    is called with a type InputIterator that does not qualify as an input iterator, then the constructor shall not participate in overload resolution. ...

[sequence.reqmts]/15

The extent to which an implementation determines that a type cannot be an input iterator is unspecified, except that as a minimum integral types shall not qualify as input iterators.

This is more or less the way the standard hints to you to use SFINAE (which works reliably in C++11 as opposed to C++03).

C++17

The wording is similar, except that the paragraph about integral types not being iterators has been moved to [container.requirements.general]/17.

Conclusion

You can write your range constructor to look something like this:

template <typename InputIterator,
          typename = std::enable_if<is_likely_iterator<InputIterator>>::type>
NaiveVector(InputIterator first, InputIterator last)

The is_iterator helper template might simply disqualify integral types and accept all other types, or it might do something more sophisticated such as checking whether there is an std::iterator_traits specialization that indicates that the type is an input iterator (or stricter). See libstdc++ source, libc++ source

Both approaches are consistent with the standard's mandated behaviour of std::vector in C++11 and later. The latter approach is recommended (and will be consistent with what the real std::vector is likely to do on typical implementations), because if you pass arguments that are implicitly convertible to the types expected by the fill constructor, you would hope that the class would "do the right thing" and not select the range constructor only to have it fail to compile. (Although I suspect this is fairly uncommon.) Relative to the C++03 std::vector, it is a "conforming extension" since in that case the constructor call would not compile.


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