Assuming my current rule when programming with range-based loops says

Use for(auto const &e :...) or for(auto &e:...) when possible over for(auto a: ...).

I base this on my own experience and this question for example.

But after reading about the new terse for loops I wonder, should I not replace my & in my rule with &&? As written here this looks like the Meyers' Universal References.

So, I ask myself, should my new rule either be

Use for(auto const &&e :...) or for(auto &&e:...) when possible ...

or does that not always work and therefore should rather be the quite complicated one

Check if for(auto const &&e :...) or for(auto &&e:...) is possible, then consider for(auto const &e :...) or for(auto &e:...), and only when needed do not use references.


1 Answer 1


When and if you should use auto&& in for loops has been explained very nicely by Howard Hinnant here.

This leaves the question what x in

auto &&x = ...expr...

actually is. And it is handled as if there there were a function template definition

template <class U> void f(U&& u);

and the type of x is deduced by the same rules as u [§].

This means it is not handled as a RValue Reference, but as a "Universal/Forwarding Reference" -- the "Reference Collapsing Rules" apply.

This also holds for

const auto &&x = ...expr...

as the example in § states, at least for const auto &x.

But, as PiotrS says in the questions comments, any qualifiers nullifies the URef-ness:

no, because neither T in template<class T> void f(const T&&) is a forwarding reference, nor const auto&& is. The fact that T&& occurs in parameter declaration does not imply it is forwarding reference. Only pure T&& with no qualifiers like const or volatile is forwarding reference, meaning it has to be template<class T> void f(T&&) or auto&&, and never const T&& or const auto&&

  • 2
    For Forward reference, it should be template <class U> void f(U&& u); not template <class U> void f(const U& u);
    – abhiarora
    May 9, 2020 at 8:23
  • "nullifies the URef-ness" is highly misleading... reference collapsing happens for const T&& just as it does for T&&. It is no longer "universal" because half the types in the universe (the ones not const qualified) cannot be matched, but it behaves much the same.
    – Ben Voigt
    Oct 20, 2020 at 15:00
  • @BenVoigt It's not just qualification. A const auto&& declarator or the u in template<class U> void f(const U&& u); can never automatically deduce type from any lvalue. The special rule which makes it valid for a true forwarding reference (and indirectly for the exact type auto&&) no longer applies.
    – aschepler
    Jan 30, 2021 at 20:52

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.