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I've been using code similar to the following in MSVC projects for the last year or so, and ran into an issue trying to use it with g++.

#include <utility>
#include <glm/glm.hpp>

namespace std {
  template< std::size_t I, auto N, class T, auto Q>
  constexpr auto& get(glm::vec<N, T, Q>& v) noexcept { return v[I]; }

  template< std::size_t I, auto N, class T, auto Q>
  constexpr const auto& get(const glm::vec<N, T, Q>& v) noexcept { return v[I]; }

  template< std::size_t I, auto N, class T, auto Q>
  constexpr auto&& get(glm::vec<N, T, Q>&& v) noexcept { return std::move(v[I]); }

  template< std::size_t I, auto N, class T, auto Q>
  constexpr const auto&& get(const glm::vec<N, T, Q>&& v) noexcept { return std::move(v[I]); }

  template <auto N, class T, auto Q>
  struct tuple_size<glm::vec<N, T, Q>> : std::integral_constant<std::size_t, N> { };

  template <std::size_t I, auto N, class T, auto Q>
  struct tuple_element<I, glm::vec<N, T, Q>> {
    using type = decltype(get<I>(declval<glm::vec<N,T,Q>>()));
  };
}// end std


auto f(){
  auto [x,y,z] = glm::vec3(1);
  return x + y + z;
}

GCC gives the error error: 'get' was not declared in this scope; did you mean 'std::get'?
Clang gives the error error: use of undeclared identifier 'get'
icc and MSVC both compile properly.

I'm wondering if this has something to do with GLM's implementation, because I've never had issues with custom structured bindings with GCC in the past.

 

I was wondering if anyone knows what is going on here. Are icc and MSVC behaving incorrectly by accepting the code, or are Clang and GCC behaving incorrectly by rejecting the code?

Here's an example of the four different compilers handling this on Compiler Explorer: https://godbolt.org/z/6PCWyn

2
  • Sorry for raising the dead but... would you mind updating your code with your final version? I tried using it (after adjusting as suggesting below) but then if I try to bind to const variables (e.g. const auto [x,y,z] = ..., clang complains that "rvalue reference to type 'const float' cannot bind to lvalue of type 'const float'"
    – screwnut
    Jul 26, 2022 at 13:58
  • I fixed the issue I mentioned in my previous comment with using type = T;
    – screwnut
    Jul 27, 2022 at 9:26

1 Answer 1

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I believe GCC & Clang are correct.

Here's what cppreference says about structured bindings:

The expression std::tuple_size<E>::value must be a well-formed integer constant expression, ...

For each identifier, a variable whose type is "reference to std::tuple_element<i, E>::type" is introduced ... The initializer for the i-th variable is

  • e.get<i>(), if lookup for the identifier get in the scope of E by class member access lookup finds at least one declaration that is a function template whose first template parameter is a non-type parameter
  • Otherwise, get<i>(e), where get is looked up by argument-dependent lookup only, ignoring non-ADL lookup.

(emphasis mine)

You have to move your get() overloads to the namespace glm.

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  • Wow, thank you! I was wondering why something like this would work but my first example wouldn't. I think when I originally wrote the code, I moved the get() overloads to std because it didn't work otherwise. But I never really tried to figure out what was going on. Mar 21, 2020 at 7:07

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