I'm learning about structured binding declarations. My understanding was that in auto& [x, y] = expr; variables x and y are introduced of types "reference to std::tuple_element<i, E>::type" (for i=0, 1 and E is the type of the invisible variable e). Moreover, these variables are initialized with get<i>(e).

So, if I use auto& and get<> returns a value (not a reference), it should not compile, as you cannot bind an lvalue to a temporary. However, the following example builds for me in some versions of GCC, Clang, and Visual Studio:

#include <cstddef>
#include <tuple>
#include <type_traits>

struct Foo {
    template<std::size_t i>
    int get() { return 123; }

namespace std {
    template<> struct tuple_size<Foo> : integral_constant<size_t, 1> {};
    template<std::size_t i> struct tuple_element<i, Foo> { using type = int; };

int main() {
    Foo f;
    auto& [x] = f;

Moreover, C++ Insights clearly shows that clang expands the structured binding to:

Foo f = Foo();
Foo & __f17 = f;
std::tuple_element<0, Foo>::type x = __f17.get<0>();

Here, it declares x not as a reference, but as a value. Why is that?

I expected lvalue references and compilation error: e (__f17 in the example above) is an lvalue reference.


That is because auto& does not apply to the structured bindings. It is applied to the underlying entity that refers to the structure. In your cppinsights snippet, that would be __f17.

If you were to use auto [x] instead, the snippet would expand to something like this

Foo f = Foo();
Foo __f17 = f; // Difference here
std::tuple_element<0, Foo>::type x = __f17.get<0>();

The bindings themselves are always a sort of reference into an underlying object. The cppinsights code doesn't accurately represent that however. The relevant passages in the C++ standard say this


3 Otherwise, if the qualified-id std​::​tuple_­size<E> names a complete type, the expression std​::​tuple_­size<E>​::​value shall be a well-formed integral constant expression and the number of elements in the identifier-list shall be equal to the value of that expression. The unqualified-id get is looked up in the scope of E by class member access lookup, and if that finds at least one declaration, the initializer is e.get<i>(). Otherwise, the initializer is get<i>(e), where get is looked up in the associated namespaces. In either case, get<i> is interpreted as a template-id. [ Note: Ordinary unqualified lookup is not performed.  — end note ] In either case, e is an lvalue if the type of the entity e is an lvalue reference and an xvalue otherwise. Given the type Ti designated by std​::​tuple_­element<i, E>​::​type, each vi is a variable of type “reference to Ti” initialized with the initializer, where the reference is an lvalue reference if the initializer is an lvalue and an rvalue reference otherwise; the referenced type is Ti.

  • While this makes sence, doesn't the quoted text state that vi must be a reference (to something in this underlying e, whenever it is a reference or not)? Apr 21 '20 at 11:06
  • @LapshinDmitry - It does. Like I mentioned, CPP insights does not correctly represent that. Apr 21 '20 at 11:17
  • If bindings are references into an underlying object, how can they be bound to a temporary object? They should be lvalue-references because __f17 is a lvalue.
    – yeputons
    Apr 21 '20 at 11:50
  • 1
    The lvalue-ness of __f17 has little to do with this. The initializer for the binding is __f17.get<0>(), that's an rvalue, so the reference type is an rvalue reference (clearly stated in the text). As far as binding references to temporaries, are you at all familiar with reference lifetime extension? That's how. Apr 21 '20 at 11:55
  • @StoryTeller-UnslanderMonica Ok, thanks! Yet I stil ldon't get something: I have built a different sample that returns references from get so I should get references (and it works from asserts I have placed), yet decltype reports I don't have those: godbolt.org/z/4ekbud Apr 21 '20 at 12:11

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