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Given a simple template <typename T> struct X { T x, y; };, I want to provide conversion constructors such that user can write:

X<double> a;
X<int16_t> b = a; // uses implicit conversion ctr (compiles with warning)
X<int16_t> c(a);  // uses explicit conversion ctr (compiles w/o warning)
X<int32_t> d = c; // uses implicit conversion ctr (compiles w/o warning)

I believe that to achieve this goal, I need to implement both, an implicit and an explicit conversion constructor from type U. But it's not possible to overload on "implicit" and explicit:

template <typename T> struct X {
     X(T x = T(), T y = T()) : x(x), y(y) {}

     // implicit conversion
     template <typename U> 
     X(const X<U>& other) : x(other.x), y(other.y) {}

     // not possible!
     template <typename U> 
     explicit X(const X<U>& other)
         : x(static_cast<T>(other.x))
         , y(static_cast<T>(other.y)) 

     T x, y;

How could I achieve this goal (I guess I can't...)?

My initial thought was that I need to enable/disable the one or other depending on is_lossless_convertible. So is there a suitable type trait?

I would like to test if a scalar type U is convertible to type T without loss of precision:

using namespace std;
static_assert(is_lossless_convertible<int16_t, int32_t>::value == true);
static_assert(is_lossless_convertible<int32_t, int16_t>::value == false);
static_assert(is_lossless_convertible<int16_t, uint32_t>::value == false);
static_assert(is_lossless_convertible<int32_t, double>::value == true);
static_assert(is_lossless_convertible<double, int32_t>::value == false);

In short, it should yield true if std::is_convertible<U, T>::value == true and if U x; T y = x; would not issue a compiler warning regarding loss of information.

share|improve this question
No, there isn't one. You have to build your own. Note that you cannot control warnings emitted without resorting to compiler extensions (is there a compiler with such an extension? I don't know of any). –  R. Martinho Fernandes Dec 13 '12 at 9:15
In fact, I realize that I'm looking at the problem the wrong way. I'll update my question. –  Daniel Gehriger Dec 13 '12 at 9:17
@R.MartinhoFernandes: You're right - the only problematic requirement is the warning, which I cannot control. If I drop this, then I only need to implement the explicit conversion ctr. –  Daniel Gehriger Dec 13 '12 at 9:40

1 Answer 1

up vote 5 down vote accepted

You can't overload on explicitness, but you can provide an explicit converting constructor and implicit conversion operator:

#include <iostream>
template<typename T> struct S {
   S() {}
   template<typename U> explicit S(const S<U> &) { std::cout << "explicit\n"; }
   template<typename U> operator S<U>() { return S<U>(this); }
   template<typename U> friend struct S;
   template<typename U> S(const S<U> *) { std::cout << "implicit\n"; }

int main() {
   S<double> sd;
   S<int> si1(sd);
   S<int> si2 = sd;



Tested with gcc and clang.

The explicit converting constructor is preferred to the implicit conversion operator because in the latter case there is an additional (possibly elided) call to the copy constructor of S<int>.

share|improve this answer
That's very very nice! Thanks! –  Daniel Gehriger Dec 13 '12 at 10:02

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