Given any std::array< T, 0 >, why is it not empty? I mean "empty" as in:

 std::is_empty< std::array< int, 0 > >::value

returning false and

 #include <iostream>
 #include <tuple>
 #include <array>

 struct Empty {};

 int main()
     std::cout << sizeof(std::tuple<int>) << std::endl;
     std::cout << sizeof(std::tuple<int,Empty>) << std::endl;
     std::cout << sizeof(std::tuple<int,std::array<int,0>>) << std::endl;



which means, that for std::array<int,0>, the empty base optimization (EBO) is not applied.

This seem especially strange to me given that std::tuple<> (note: no template parameters) is empty, i.e., std::is_empty<std::tuple<>>::value does yield true.

Question: Why is that, given that size 0 is already a special case for std::array? Is it intentional or an oversight in the standard?


The standard doesn't say anything about whether tuple or array should be empty, what you're seeing are implementation details, but there's no reason to make tuple<> non-empty, whereas there is a good reason for array<T, 0> being non-empty, consider:

std::array<int, sizeof...(values)> = { { values... } };

When the parameter pack is empty you'd get:

std::array<int, 0> = { { } };

For the initializer to be valid the object needs a member, which cannot be int[0] because you can't have zero-sized arrays as members, so a possible implementation is int[1]

An implementation doesn't have to special case the whole array, it can just do:

T m_data[N == 0 ? 1 : N];

and all other members work exactly the same way (assuming end() is defined as begin()+N)

| improve this answer | |
  • GCC 4.8 seems to do it differently (or the libstdc++ coming with it), since sizeof(std::array<int,0>) == 1. But I realize you said "one possible implementation" and I accept the reasoning, so thanks! – Daniel Frey Mar 20 '13 at 0:17
  • GCC does value_type _M_instance[_Nm ? _Nm : 1]; and I see sizeof(array<int,0>) == sizeof(int) – Jonathan Wakely Mar 20 '13 at 0:25
  • I see sizeof(std::array<int,0>) == 1 for GCC 4.8 on LiveWorkSpace.org. Strange. – Daniel Frey Mar 20 '13 at 0:29
  • 5
    Ah yes, I forgot it changed for GCC 4.8 to allow zero-sized arrays of non-DefaultConstructible types, see gcc.gnu.org/PR53248 (when gcc.gnu.org is back online). It now has an empty struct member instead of value_type[1]. – Jonathan Wakely Mar 20 '13 at 0:33
  • I just found § from the standard. Doesn't that mean that it's not just an implementation detail and that the standard does say something about std::array<T,0>'s emptiness (although indirectly)? As a consequence, if I read it correctly, an empty implementation would even be illegal, wouldn't it? – Daniel Frey Mar 20 '13 at 19:41

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