static_assert on initializer_list::size()
"Initializer lists" are just horrible kludges.
Don't:
#include <initializer_list>
template<typename T>
void Dont(std::initializer_list<T> list) { // Bad!
static_assert(list.size() == 3, "Exactly three elements are required.");
}
void Test() { Dont({1,2,3}); }
Do:
template<typename T, std::size_t N>
void Do(const T(&list)[N]) { // Good!
static_assert(N == 3, "Exactly three elements are required.");
}
void Test() { Do({1,2,3}); }
The compiler says that init is the problem, not init.size().
I guess that the constructor could be called from different places with different length initializers.
(To elaborate: You're trying to write a static_assert that depends on the run-time value of the variable init, namely how many elements it has. static_asserts have to be evaluable at the time the function is compiled. Your code is analogous to this trivially invalid example:)
void foo(int i) { static_assert(i == 42, ""); }
int main() { foo(42); } // but what if there's a caller in another translation unit?
From my discussion with @Evgeny, I realized that this just works (with gcc 4.8 c++11) and may as well do the size check by only accepting a compatible size in the initializer list (in main).
(code link: http://coliru.stacked-crooked.com/a/746e0ae99c518cd6)
#include<array>
template<class T, int Length>
class Point
{
public:
Point(std::array<T, Length> init)
{
//not needed// static_assert(init.size() == Length, "Wrong number of dimensions");
}
};
int main()
{
Point<int, 3> q({1,2,3}); //ok
// Point<int, 3> q2({1,2,3,4}); //compile error (good!)
Point<int, 3> q2({1,2}); // ok, compiles, same as {1,2,0}, feature?
return 0;
}