Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I just joined a new C++ software project and I'm trying to understand the design. The project makes frequent use of unnamed namespaces. For example, something like this may occur in a class definition file:

namespace {
  const int SIZE_OF_ARRAY_X;
  const int SIZE_OF_ARRAY_Y;
  bool getState(userType*,otherUserType*);

newusertype::newusertype(...) {...

What are the design considerations that might cause one to use an unnamed namespace? What are the advantages and disadvantages?

share|improve this question
I changed "anonymous namespace" to "unnamed namespace" in your question because (a) that is what they are technically called and (b) this was the best question and answer that I could find about the topic. Feel free to roll back my edit if you disagree. – James McNellis Aug 9 '10 at 2:42
@James, thanks for the edit. – Scottie T Aug 9 '10 at 17:19

5 Answers 5

up vote 88 down vote accepted

(In the following, the striked-through things are stuff that does not apply anymore to C++11, but did apply to C++03. C++11 makes almost no differences anymore (if there are, they are just language lawyer differences which I can't recall).).

Unnamed namespaces are a utility to make an identifier effectively translation unit local. They behave as if you would choose an unique name per translation unit for a namespace:

namespace unique { /* empty */ }
using namespace unique;
namespace unique { /* namespace body. stuff in here */ }

The extra step using the empty body is important, so you can already refer within the namespace body to identifiers like ::name that are defined in that namespace, since the using directive already took place.

This means you can have free functions called (for example) help that can exist in multiple translation units, and they won't clash at link time, since they all got an unique name due to their unique namespace they are in. The effect is almost identical to using the static keyword used in C which you can put in in the declaration of identifiers. static used in that manner is deprecated in C++, since unnamed namespaces are a superior alternative, being able to even make a type translation unit local.

namespace { int a1; }
static int a2;

Both a's are translation unit local and won't clash at link time. But the difference is that the a1 in the anonymous namespace just gets an unique name. It has still external linkage and may be exported into the symbol table of the object file being created. This becomes important if you want to use its address as a template argument:

template<int * ptr> struct sample { };

// OK - a1 has external linkage
sample<&a1> s1; 
// NOT OK - translation unit locality is done by giving a2 internal linkage. 
sample<&a2> s2; 

Template parameters has to have external linkage so in this case the identifier has to be put into an anonymous namespace.

Read the excellent article at comeau-computing `Why is an unnamed namespace used instead of static?.

share|improve this answer
Good explanation! – ltcmelo Aug 17 '09 at 23:38
+1 for the link to Why is an unnamed namespace used instead of static? – Igor Oks Jan 18 '10 at 12:33
Does it really "still have external linkage"? 3.5/4 seems to suggest that everything in anonymous namespace gets internal linkage...? – Kerrek SB Aug 28 '13 at 22:17
@kerr no my answer is outdated. I will need to update it for c++11. Thanks – ᐅ Johannes Schaub - litb ᐊ Aug 29 '13 at 9:11
@JohannesSchaub-litb: Thanks. I think I'll have to go and delete my answer on this topic then, since it's outright wrong. – Kerrek SB Aug 29 '13 at 9:13

Having something in an anonymous namespace means it's local to this translation unit (.cpp file and all it's includes) this means that if another symbol with the same name is defined elsewhere there will not be a violation of the One Definition Rule (ODR).

This is the same as the C way of having a static global variable or static function but it can be used for class definitions as well (and should be used rather than static in C++).

All anonymous namespaces in the same file are treated as the same namespace and all anonymous namcspaces in different files are distinct. An anonymous namespace is the equivalent of:

namespace __unique_compiler_generated_identifer0x42 {
using namespace __unique_compiler_generated_identifer0x42;
share|improve this answer

The example shows that the people in the project you joined don't understand anonymous namespaces :)

namespace {
    const int SIZE_OF_ARRAY_X;
    const int SIZE_OF_ARRAY_Y;

These don't need to be in an anonymous namespace, since const object already have static linkage and therefore can't possibly conflict with identifiers of the same name in another translation unit.

    bool getState(userType*,otherUserType*);

And this is actually a pessimisation: getState() has external linkage. It is usually better to prefer static linkage, as that doesn't pollute the symbol table. It is better to write

static bool getState(/*...*/);

here. I fell into the same trap (there's wording in the standard that suggest that file-statics are somehow deprecated in favour of anonymous namespaces), but working in a large C++ project like KDE, you get lots of people that turn your head the right way around again :)

share|improve this answer
Since c++11 unnamed namespaces have internal linkage (section 3.5 in the standard or – Emile Vrijdags Apr 6 at 15:52

In addition to the other answers to this question, using an anonymous namespace can also improve performance. As symbols within the namespace do not need any external linkage, the compiler is freer to perform aggressive optimization of the code within the namespace. For example, a function which is called multiple times once in a loop can be inlined without any impact on the code size.

For example, on my system the following code takes around 70% of the run time if the anonymous namespace is used (x86-64 gcc-4.6.3 and -O2; note that the extra code in add_val makes the compiler not want to include it twice).

#include <iostream>

namespace {
  double a;
  void b(double x)
    a -= x;
  void add_val(double x)
    a += x;
    if(x==0.01) b(0);
    if(x==0.02) b(0.6);
    if(x==0.03) b(-0.1);
    if(x==0.04) b(0.4);

int main()
  a = 0;
  for(int i=0; i<1000000000; ++i)
  std::cout << a << '\n';
  return 0;
share|improve this answer
Too good to be true - I tried this segment on gcc 4-1-2, using O3 optimization, with-and-without the namespace statement: -> Got the same time (3sec, with -O3, and 4sec with -O3) – Daniel Nov 3 at 23:08
This code was intentionally complex to try to persuade the compiler not to inline b and add_val into main. O3 optimisation uses lots of inlining regardless of the cost to code bloat. There are still, however, likely functions where O3 wouldn't inline add_val. You could try making add_val more complex, or calling it multiple times from main in different circumstances. – xioxox Nov 4 at 8:29

An anonymous namespace makes the enclosed variables, functions, classes, etc. available only inside that file. In your example it's a way to avoid global variables. There is no runtime or compile time performance difference.

There isn't so much an advantage or disadvantage aside from "do I want this variable, function, class, etc. to be public or private?"

share|improve this answer
There can be performance differences - see my answer here. It allows the compiler to optimize the code better. – xioxox Aug 29 '14 at 9:32
You have a point; at least as far as C++ today is. However, C++98/C++03 required things have external linkage in order to be used as template arguments. Since things in anonymous namespaces are available as template arguments, they would have external linkage (at least in pre-C++11) even if there was no way to refer to them from outside the file. I think there may have been some ability to fudge on that, because the standard only requires that things act as if the rules were enforced; and it's sometimes possible to do that without truly enforcing the rules. – Max Lybbert Aug 29 '14 at 13:49

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.