79

With the following code, I get a compile error C2065 'a': undeclared identifier (using visual studio 2017):

[] {
    auto [a, b] = [] {return std::make_tuple(1, 2); }();
    auto r = [&] {return a; }(); //error C2065
}();

However, the following code compiles:

[] {
    int a, b;
    std::tie(a, b) = [] {return std::make_tuple(1, 2); }();
    auto r = [&] {return a; }();
}();

I thought that the two samples were equivalent. Is it a compiler bug or am I missing something ?

6
  • Might be related: reddit.com/r/cpp/comments/68vhir/… – Vittorio Romeo Sep 8 '17 at 10:29
  • 6
    gcc 8.1.1 compiles without complaining. clang 6.0.1 gives an error. – Zulan Jul 24 '18 at 11:09
  • 3
    AFAICS, the fact that (as I can also attest) this now works in g++ 8 in -std=c++17 mode implies that either (A) some fix has been treated as a defect and backported, of which I can't find any immediate signs, or (B) g++ might be allowing it as an extension or even inadvertently. – underscore_d Nov 14 '18 at 22:20
  • C++20 allows structured bindings to be captured (copying them separately if by value). – Davis Herring Sep 24 '20 at 3:19
  • 1
    @ThreeStarProgrammer57: Yes; note that the restriction on capturing them by reference introduced there was later removed (after further analysis established that no other changes were needed to support them properly). – Davis Herring Sep 24 '20 at 13:11
83

Core issue 2313 changed the standard so that structured bindings are never names of variables, making them never capturable.

P0588R1's reformulation of lambda capture wording makes this prohibition explicit:

If a lambda-expression [...] captures a structured binding (explicitly or implicitly), the program is ill-formed.

Note that this wording is supposedly a placeholder while the committee figures out exactly how such captures should work.

Previous answer kept for historical reasons:


This technically should compile, but there's a bug in the standard here.

The standard says that lambdas can only capture variables. And it says that a non-tuple-like structured binding declaration doesn't introduce variables. It introduces names, but those names aren't names of variables.

A tuple-like structured binding declaration, on the other hand, does introduce variables. a and b in auto [a, b] = std::make_tuple(1, 2); are actual reference-typed variables. So they can be captured by a lambda.

Obviously this is not a sane state of affairs, and the committee knows this, so a fix should be forthcoming (though there appears be some disagreement over exactly how capturing a structured binding should work).

10
  • 1
    A friendly reminder that this issue is resolved. Currently, the tuple-like structured binding introduces variables of unique names, a and b names the glvalues referred to by those variables. – Passer By Apr 15 '18 at 19:10
  • 1
    @PasserBy is this fix implemented in a current compiler? – scry Aug 27 '18 at 4:35
  • 3
    There's a paper in the pipeline that would change this, but nothing has happened to the working paper yet, so there's nothing to update. – T.C. Nov 20 '18 at 8:52
  • 10
    me at each and every phrase: WTF 😱😱 – v.oddou Jun 11 '19 at 9:08
  • 4
    Did anything change for C++20? GCC now allows you to capture variables from structured bindings while clang doesn't. Which compiler is correct? – Ryan Burn Sep 14 '20 at 18:31
38

A possible workaround is to use a lambda capture with the initializer. The following code compiles fine in Visual Studio 2017 15.5.

[] {
    auto[a, b] = [] {return std::make_tuple(1, 2); }();
    auto r = [a = a] {return a; }();
}();
1
  • 4
    mind blown 😲. this is like python lambda default argument serving as a neo capture list. note: your stuff also works in clang (which is the only barking compiler of this whole issue) godbolt.org/z/PcAZNG – v.oddou Jun 11 '19 at 9:18

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