std::cout << std::boolalpha;
std::cout << std::is_trivially_copyable< std::pair<const int,int> >::value;
std::cout << std::is_trivially_copyable< std::pair<int,int> >::value;

When I use GCC 9.2 the output is true false.

When I use Clang 5.0 or GCC 5.2 the output is false false.

Why the difference?


std::pair has a non-trivial copy-assignment and move-assignment operator. This prevents it from being trivially copyable.

Since C++17, if one of the two contained types is not assignable, then the copy/move assignment operator is defined as deleted, which lifts this restriction on being trivially copyable. This is the case here because const int is not copy-assignable or move-assignable.

C++17 also states that if the two types have trivial destructors, then the pair will also have a trivial destructor, which is another requirement for being trivially copyable.

The older compilers you tested probably do not have full support for C++17, which prevents the pair from being trivially copyable even for pair<const int, int>.

| improve this answer | |
  • I wonder why assignment operators are not =defaulted, unlike copy/move constructors. – HolyBlackCat Oct 8 '19 at 9:49
  • @HolyBlackCat That's a good question, I can't think of a reason. – interjay Oct 8 '19 at 9:54
  • Unfortunately, that still doesn't make pair required to be trivially move/copy assignable when both types are trivially move/copy assignable. The standard would have to explicitly say that. – Nevin Aug 26 at 15:51

In the first case the copy assignment operator and the move assignment operator are deleted. So the class is trivially-copyable.

In the second case at least the copy assignment operator is not deleted and is not trivial.

From the C++ 20 (11.1 Properties of classes)

1 A trivially copyable class is a class:

(1.1) — where each copy constructor, move constructor, copy assignment operator, and move assignment operator (,11.3.5) is either deleted or trivial, ...

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  • 1
    You did not address at all the fact that the output differs between implementations, which I believe is the core point of the question. – Lightness Races in Orbit Oct 8 '19 at 11:15
  • @LightnessRacesinOrbit I pointed out what are the current valid results of the expressions relative to the used objects. – Vlad from Moscow Oct 8 '19 at 11:25
  • And that's great but the question is "why that difference?" not "what are the current valid results" – Lightness Races in Orbit Oct 8 '19 at 11:25
  • @LightnessRacesinOrbit It means that other compilers do not satisfy the current C++ Standard.:) – Vlad from Moscow Oct 8 '19 at 11:26

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