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Why does this code compile with GCC (4.9 and 5+), but not with clang (3.5-3.9)?

void test(const int&) { }
int main() {
  const int x = 42;
  auto f = []{ test(x); };

I have some vague idea that the discrepancy has to do with ODR (One Definition Rule) usage, but I don't understand that well enough to figure out what's going on here.

share|improve this question
interestingly clang is happy if you make x static – Richard Hodges Mar 17 at 21:27
@RichardHodges Variables with static storage duration don't need to be captured. – Brian Mar 17 at 21:33
Does anyone else think it is a bit silly that one has to explicitely capture context instead of the compiler figuring it out for us? – BitTickler Mar 17 at 21:34
@BitTickler no, explicit capture is a good thing. it prevents accidentally capturing circular references (e.g. when capturing a weak/shared ptr) – Richard Hodges Mar 17 at 21:35
@BitTickler That's the whole point of the capture-default specifiers = and & – David Hollman Mar 17 at 21:36
up vote 16 down vote accepted

x is odr-used because it's bound to a reference (test's parameter). It therefore must be captured ([expr.prim.lambda]/13):

If a lambda-expression or an instantiation of the function call operator template of a generic lambda odr-uses ([basic.def.odr]) this or a variable with automatic storage duration from its reaching scope, that entity shall be captured by the lambda-expression.

Violations of this rule, like all other rules in the standard that doesn't say "no diagnostic required" or "undefined behavior", require a diagnostic.

GCC, unfortunately, performs constant folding too early, before it could tell whether it's an odr-use or not. This can lead to problems such as [&]()->const int & { return x; } returning a dangling reference.

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@M.M you could certainly exploit this to produce the same effect though, right? – David Hollman Mar 17 at 21:39
@M.M I'm pretty sure [class.local] /1 applies (since a lambda is a local class): Declarations in a local class shall not odr-use (3.2) a variable with automatic storage duration from an enclosing scope. – ecatmur Mar 17 at 21:41
@ecatmur have you got a reference for that? In N4140 the term "local class" does not appear in the [expr.prim.lambda] section. (although this is moot as TC finds that there is an equivalent rule for lambdas specifically) – M.M Mar 17 at 21:51
@T.C. OK. I guess "An implementation may define the closure type differently" is not allowed to extend to it declaring the closure type at file scope – M.M Mar 17 at 21:58

T.C. has the right diagnosis, here's a clearer bit of legal code where clang does the right thing and gcc doesn't:

#include <iostream>

void test(const int&a) { std::cout << "in test() -- " << &a << "\n"; }
int main() {
  const int x = 42;
  std::cout << "in main() -- " << &x << "\n";
  auto f = [&]{ test(x); };

gcc prints different addresses for a capture-by-reference variable than the original!

share|improve this answer
It's even worse than that; try int main() { const int x = 42; return [&]{ const int& a = x; const int& b = x; return &a == &b; }(); } - gcc binds the two references to distinct prvalue temporaries! – ecatmur Mar 17 at 21:53
@ecatmur: Sorry for the noise. It's really hard to see where the lambda ends and main continues again, for code in a comment. Yeah, that's evil. – Ben Voigt Mar 17 at 21:56

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