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C++17 introduced structured binding declarations: auto [a, b] = some_tuple;.

This works out of the box for things like std::tuple. It is also possible to make it work for custom types, you just have to provide (among other things) an get-function template, either as member or outside the custom class.

For the standard classes, this is done via a non-member get lying in the std-namespace: auto a = std::get<0>(some_tuple); works, but not auto a = some_tuple.get<0>();.

But here it gets weird for me: Since we have to explicitly specify the template parameter N for get, ADL does not work, for example, we can't just write auto a = get<0>(some_tuple);. But then the structured binding declaration with tuples shouldn't work too, because it's just syntactic sugar for calls like either get<N>(some_tuple) or some_tuple.get<N>() (modulo some &)! And indeed, when I provide only a non-member version of get for my custom class inside a namespace, it doesn't work! EDIT: Structured binding for custom classes also works fine, see the code snippet in the accepted answer for a minimal example!

So how do the implementers of the standard make structured binding work for e.g. tuples without a get as member, and how can I achieve the same behavior for my custom classes?

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    "So how do the implementers of the standard make structured binding work" It's the compiler; it gets to do whatever it wants. If the standard says that X happens, then the compiler makes X happen, period. – Nicol Bolas Mar 23 at 17:39
  • @NicolBolas Really? I always thought the standard libraries are built on top of the compiler, so that in principle everyone could code their own implementation on top of an existing compiler. – x432ph Mar 24 at 2:02
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    Most of the C++ standard library is implementable in C++. But the behavior of structured binding is defined by the language. The language may be calling standard library constructs, but what auto [x, y] = ...; does is governed by the compiler. It's the compiler that selects what function gets called, not the library. – Nicol Bolas Mar 24 at 2:07
  • Yes, that I understand. But the question is: Does the compiler know that the get in std is meant because they added some special cases to the language, or did they something else I could do myself? For example, if I copied the whole library and changed std to mystd, would it still work? – x432ph Mar 24 at 6:35
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    "if I copied the whole library and changed std to mystd, would it still work?" Yes, but that would be because you'd be changing std::tuple into mystd::tuple, with a mystd::get in the same namespace. The structured binding machinery isn't linked to the namespace std; the system searches the namespace associated with the type in question. That very specific kind of search (look up all functions with this name in namespace X, but only there) is not something you can (easily) write. – Nicol Bolas Mar 24 at 13:20
7

They cheat.

But you can emulate their cheating by adding a template get to the global namespace.

template<class T, std::enable_if_t<std::is_same<T,void>{}, bool>>
void get(int)=delete;

which should activate "parse get as a template".

You don't need to do this to get structured bindings working. As noted, the compiler just cheats:

namespace example {
    struct silly {
        int x;
    };
    template<std::size_t I>
    int& get( silly& s ) { return s.x; }
}
namespace std {
    template<>
    struct tuple_size<::example::silly>:std::integral_constant<std::size_t, 1>{};
    template<>
    struct tuple_element<0, ::example::silly>{ using type=int; };
}

int main() {
    example::silly s { 42 };

    auto&& [x] = s;
    std::cout << x;
}
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    AFAIK you don't need this hack pretty much always in C++20 anymore: eel.is/c++draft/basic.lookup.unqual#3 – Rakete1111 Mar 23 at 23:00
  • Hm, interesting trick to enable ADL for templated functions, however, this isn't really how std::get behaves, because I can't omit the std::, so ADL does not (always) work there. Or maybe I ask another way: In the end, what is different when using the above hack instead of just defining the real get in global namespace to begin with? Just that I can acces get with and without specifying the namespace now? – x432ph Mar 23 at 23:11
  • (Although, ironically, the above hack of course also enables ADL for std::get.) – x432ph Mar 23 at 23:30
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    @x432ph I'm unclear in what scenario "doesn't work" or "I cannot omit the std::". A get in the global namespace will not be found via ADL, so won't work for structured bindings, nor will it work in a namespace with a different get defined. "And indeed, when I provide only a non-member version of get for my custom class inside a namespace, it doesn't work!" -- again, structured bindings work without any trick like the above. The above trick (in pre-c++20) simply convinces the compiler to parse get< as a template and not a less than expression. – Yakk - Adam Nevraumont Mar 24 at 0:06
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    @x432ph yes, they cheat in an arbitrary way. They simply invoke ADL on something. The implementors are the compiler. – Yakk - Adam Nevraumont Mar 24 at 8:48

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