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It is legal in C++ to declare nested anonymous namespaces in the following manner:

namespace {
    namespace {
        struct Foo

namespace {    
    struct Foo // SAME IDENTIFIER AS <unnamed>::<unnamed>::Foo!!!

However, how would you declare an identifier using an explicitly typed Foo to avoid ambiguity?

EDITED -- for all of you who do not read the question.

p.s. I have no intentions to use this sort of constructs, but I need to understand whether it is possible to disambiguate Foo in case someone finds a legitimate use for it. My compiler extension needs to handle all cases.

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::Foo is the second on GCC 4.7.2. I'm not sure how to specify the first, as just Foo is ambiguous. – chris Oct 25 '12 at 23:43
While the nesting of anonymous namespaces is OK, I think it would be extremely unwise to put multiple identical names into different levels of anonymous namespacing. The anonymous namespace is intended to serve as a file-local version of the global namespace, and shouldn't be abused. – Kerrek SB Oct 25 '12 at 23:45
@KerrekSB I need to know if it is possible so my GCC plugin will handle all cases. I have never and have no intentions to do nested namespace in such a way. – Zach Saw Oct 25 '12 at 23:52

2 Answers 2

up vote 3 down vote accepted

The C++ standard states it pretty clearly in

An unnamed-namespace-definition behaves as if it were replaced by

inline(opt) namespace unique { /* empty body */ }
using namespace unique ;
namespace unique { namespace-body }

where inline appears if and only if it appears in the unnamed-namespace-definition, all occurrences of unique in a translation unit are replaced by the same identifier, and this identifier differs from all other identifiers in the entire program.

So from above, we know that your code actually translates to the following:

namespace unique1 {}
using namespace unique1;
namespace unique1 {
    namespace unique2 {}
    using namespace unique2;
    namespace unique2 {

        struct Foo


namespace unique3 {}
using namespace unique3;
namespace unique3 {

    struct Foo


Therefore, your first Foo can only be accessed within namespace unique1 and the second Foo can be accessed in the global namespace due to using namespace unique3;. I was wrong. Corrected by comments below.

Then from 7.3.4p4:

For unqualified lookup (3.4.1), the using-directive is transitive: if a scope contains a using-directive that nominates a second namespace that itself contains using-directives, the effect is as if the using-directives from the second namespace also appeared in the first.

Therefore, when you refer to Foo, it can mean either unique1::unique2::Foo or unique3::Foo, which is an error. Note that the other answer says: has hidden unique name that cannot be accessed. This is incorrect, they can be accessed due to the using directives, it is just that both names are visible.

However, by prepending the scope resolution operator :: to Foo you can access unique3::Foo because of the following:


For a namespace X and name m, the namespace-qualified lookup set S(X,m) is defined as follows: Let S0(X,m) be the set of all declarations of m in X and the inline namespace set of X (7.3.1). If S0(X,m) is not empty, S(X,m) is S0(X,m); otherwise, S(X,m) is the union of S(Ni,m) for all namespaces Ni nominated by using-directives in X and its inline namespace set.

The emphasized part says using-directives in X, which in your case means using namespace unique1; and using namespace unique3;, so the namespace-qualified lookup set looks like this: S(unique3::Foo), which means unique1::unique2::Foo is not included in the set and therefore is not an error.

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But this namespace { namespace { int foo1() { return 0; } } int foo2() { return 1; } } int foo3() { return 2; } int main() { cout << foo1() << foo2() << foo3() << "\n"; } produces 012 without problems – PiotrNycz Oct 26 '12 at 0:02
@PiotrNycz: Perhaps my understanding of using directives is wrong then. Thanks for pointing that out. – Jesse Good Oct 26 '12 at 0:05
The using directives places everything in the current namespace. So the next using that's one level up will also pull everything that was previously pulled. So everything can be accessed. – Nikos C. Oct 26 '12 at 0:05
@NikosChantziaras: Thanks, I didn't know that. – Jesse Good Oct 26 '12 at 0:06
I also think that the second top level namespace name will be unique1, not unique3, from "all occurrences of unique in a translation unit are replaced by the same identifier". – garph0 Jan 18 at 11:52

Yes, this is fully legal, since it does not contradict to anything.

Unnamed namespace is conceptually equivalent to:

namespace <09FD8E6E-2DB6-4517-B62D-3B5A657DCC82>
  // ....

Meaning that each unnamed namespace has hidden unique name that cannot be accessed.

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Whether this is legal or not was not the question... – user405725 Oct 25 '12 at 23:41
@KerrekSB: No, because the question is "how would you declare an identifier using an explicitly typed Foo to avoid ambiguity?". The first part is more like an assertion given "it is" and not "is it" as well as absence of the question mark... – user405725 Oct 25 '12 at 23:43
@VladLazarenko: Ohh, sorry, misread that! You're absolutely right. – Kerrek SB Oct 25 '12 at 23:44
I counter your point about not being accessible with namespace { struct Foo{}; } Foo foo;. – chris Oct 25 '12 at 23:47
Unnamed namespaces come with an implicit using directive so that their members can be accessed outside the namespace. Therefore, members can be accessed just fine. – Nikos C. Oct 25 '12 at 23:50

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