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According to this answer, namespace-scoped static variables were undeprecated in C++11. That is, they were deprecated in C++03, because anonymous namespaces were considered better. But C++11 undeprecated them.

Why? N3296 lists the reasoning for this as:

The use of static in namespace scope should not be deprecated. Anonymous namespaces are not a sufficient replacement for the functionality.

This was apparently accepted by the committee. Why? What is it about anonymous namespaces that does not completely replace this functionality?

I would prefer answers that had some documentation or paper trail of a standards committee discussion.

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Not an actual paper trail, but from the duplicate of the linked question, there are notes from the November 2010 standard committee meeting stating this feature will never be removed from the language. –  André Caron Dec 10 '11 at 22:19

3 Answers 3

up vote 19 down vote accepted

This is a more in-depth explanation.

Although [namespace.unnamed] states that the use of the static keyword for declaring variables in namespace scope is deprecated because the unnamed namespace provides a superior alternative, it is unlikely that the feature will be removed at any point in the foreseeable future, especially in light of C compatibility concerns. The Committee should consider removing the deprecation.

One issue I know is that anonymous namespaces can't specialize templates outside of the namespace block. This is why inline namespace was introduced, although static works too. Also, static plays much nice with macros.

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+1 for the template specialization and the inline namespace explanation. –  emsr Dec 11 '11 at 15:48
A template specialization depending on static would violate the ODR because resolution of each template-id (given a complete template argument list) is required to be independent of the point of instantiation, including points in different TUs. –  Potatoswatter Feb 8 '14 at 12:16

With unnamed namespaces you cannot give a variable internal linkage within the same namespace you are currently in. With static, you can. For example, the following use of unnamed namespaces does not give a global variable internal linkage

namespace { int a; } 
int a; // oops, no error!

Had the first a been declared as static, the attempt to declare a second a at global scope would have been an error immediately because the first a already exists at global scope.

So to achieve their job of making identity unique, unnamed namespaces place entities into different namespaces (in addition to affecting their linkage). static only affects the linkage, leaving the namespace of which functions and variables are a member of unchanged.

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Can't you prevent that from happening with a using <this-namespace>::a; declaration? –  Potatoswatter Dec 11 '11 at 9:19
i tried compiling that: unnam.cpp: In function 'int main()': unnam.cpp:11: error: reference to 'a' is ambiguous –  Erik Aronesty Jan 15 at 18:45
@ErikAronesty I doubt you tried exactly that, because my code has no main function, whereas your compiler complains about some code within a function called main. So if you use above code and wonder why it raises an error in a broader context (I'm pretty sure there is a conclusive explanation), please put up a new Stackoverflow question. –  Johannes Schaub - litb Jan 16 at 0:09

The user-in-the-trenches answer would be that names in unnamed namespaces (the standard's term for anonymous namespaces) have external linkage and names declared static at namespace level have internal linkage.

Internal linkage has two advantages, only one of which unnamed namespaces provide, too:

  1. They make names local to the translation-unit. I can define the same function fun differently in different translation units without violating the One-Definition-Rule. This property is shared by names in the unnamed namespace, by adorning them with a unique namespace name.

  2. They prevent the name from entering into the global symbol table. This is strictly an optimisation, but an important one in practice. This property is not shared by names in the unnamed namespace.

So, in general, a program that uses static for its translation-unit-local namespace-level functions generates less work for the linker and might execute faster than the equivalent program using the unnamed namespace.

That said, you need to use the unnamed namespace for types that you want to pass as template arguments, because template arguments must have external linkage.

So I usually do the follwing: define free functions as static, but put types into the unnamed namespace.

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Thanks for the explanation and sharing your usual practice! I think it could be treated as the one of the "best practices". –  Siu Ching Pong -Asuka Kenji- Jul 31 '14 at 12:48
I know that cppreference.com is not the standard, but I've not known them to be wrong, and at en.cppreference.com/w/cpp/language/namespace#Unnamed_namespaces they say unnamed namespaces have internal linkage. So: internal or external? –  davidbak Sep 17 '14 at 2:57

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