if I define my constant varibles in my header like this...

extern const double PI = 3.1415926535;
extern const double PI_under_180 = 180.0f / PI;
extern const double PI_over_180 = PI/180.0f;

I get the following error

1>MyDirectX.obj : error LNK2005: "double const PI" (?PI@@3NB) already defined in main.obj
1>MyDirectX.obj : error LNK2005: "double const PI_under_180" (?PI_under_180@@3NB) already defined in main.obj
1>MyDirectX.obj : error LNK2005: "double const PI_over_180" (?PI_over_180@@3NB) already defined in main.obj
1>MyGame.obj : error LNK2005: "double const PI" (?PI@@3NB) already defined in main.obj
1>MyGame.obj : error LNK2005: "double const PI_under_180" (?PI_under_180@@3NB) already defined in main.obj
1>MyGame.obj : error LNK2005: "double const PI_over_180" (?PI_over_180@@3NB) already defined in main.obj

but If I remove those constants from the header and put them in the document that is including the header like this...

const double PI = 3.1415926535;
const double PI_under_180 = 180.0f / PI;
const double PI_over_180 = PI/180.0f;

It works

Does anyone have Idea what I might be doing wrong ??


  • You should probably write 180.0 instead of 180.0f since you're dealing with doubles instead of floats. Also rename PI to something more unique. PI is used in many libraries as a macro and if you use it, you may get odd results. Feb 24, 2010 at 19:11
  • Lose the extern and you'll be fine.
    – sellibitze
    Feb 24, 2010 at 20:05
  • 1
    @sellibitze: Not in C, where const objects have external linkage by default, meaning that extern doesn't change anything. Feb 24, 2010 at 21:00

11 Answers 11


The problem is that you define objects with external linkage in header file. Expectedly, once you include that header file into multiple translation units, you'll get multiple definitions of the same object with external linkage, which is an error.

The proper way to do it depends on your intent.

  1. You can put your definitions into the header file, but make sure that they have internal linkage.

    In C that would require an explicit static

    static const double PI = 3.1415926535; 
    static const double PI_under_180 = 180.0f / PI; 
    static const double PI_over_180 = PI/180.0f; 

    In C++ static is optional (because in C++ const objects have internal linkage by default)

    const double PI = 3.1415926535; 
    const double PI_under_180 = 180.0f / PI; 
    const double PI_over_180 = PI/180.0f; 
  2. Or you can put mere non-defining declarations into the header file and put the definitions into one (and only one) implementation file

    The declarations in the header file must include an explicit extern and no initializer

    extern const double PI; 
    extern const double PI_under_180; 
    extern const double PI_over_180; 

    and definitions in one implementation file should look as follows

    const double PI = 3.1415926535; 
    const double PI_under_180 = 180.0f / PI; 
    const double PI_over_180 = PI/180.0f; 

    (explicit extern in the definitions is optional, if the above declarations precede the definitions in the same translation unit).

Which method you will choose depends on your intent.

The first method makes it easier for the compiler to optimize the code, since it can see the actual value of the constant in each translation unit. But at the same time conceptually you get separate, independent constant objects in every translation unit. For example, &PI will evaluate to a different address in each translation unit.

The second method creates truly global constants, i.e. unique constant objects that are shared by the entire program. For example, &PI will evaluate to the same address in each translation unit. But in this case the compiler can only see the actual values in one and only one translation unit, which might impede optimizations.

Starting from C++17 you get the third option, which sort of combines "the best of both worlds": inline variables. Inline variables can be safely defined in header files despite having external linkage

inline extern const double PI = 3.1415926535; 
inline extern const double PI_under_180 = 180.0f / PI; 
inline extern const double PI_over_180 = PI/180.0f; 

In this case you get a named constant object whose initializer value is visible in all translation units. And at the same time the object has external linkage, i.e. it has a global address identity (&PI is the same in all translation units).

Granted, something like that might only be necessary for some exotic purposes (most use cases in C++ call for the first variant), but the feature is there.

  • 1
    +1. Just wanted to mention that in C a static const variable is not a constant expression like you'd need for the size of an array for example. I guess that's why #defines are more popular in C.
    – sellibitze
    Feb 24, 2010 at 20:11
  • 3
    +1 for a good description and teaching me something I didn't know: "in C++ constant objects have internal linkage by default" Feb 24, 2010 at 20:31
  • @sellibitze: Yes, but this mostly becomes an issue with integral constants. The impact on non-integral constant objects is negligible, if at all existent. Feb 24, 2010 at 21:21
  • love finding complete answers on Stackoverflow that are usually better reading than the doco.
    – Spence
    Feb 1, 2017 at 0:46

extern means the 'real' definition of the variable is elsewhere, and the compiler should trust that things will hook up at link time. Having the definition inline with the extern is weird and is what's munging up your program. If you want to have them be extern, just define them exactly once elsewhere in your program.


The extern storage class for them is almost certainly the cause of the problem you're seeing. If you remove it, the code will probably be fine (at least in this respect).

Edit: I just noticed that you've tagged this as both C and C++. In this respect C and C++ are really quite different (but from the error messages, you're apparently compiling as C++, not C). In C++, you want to remove the extern, because (by default) const variables have the static storage class. That means each source file (translation unit) will get its own "copy" of the variable, and there won't be any conflict between definitions in different files. Since you're (probably) only using the values, not treating them as variables, having multiple "copies" won't hurt anything -- none of them will be allocated storage space.

In C, extern is rather different, and removing the extern won't make any real difference, because they'll be extern by default. In this case, you really need to initialize the variables in exactly one place, and declare them extern in the header. Alternatively, you can add the static storage class that C++ will add by default when/if you remove the extern from the header.


The problem is that you are initializing the variables in the header file; this creates a defining declaration, which is repeated in every file that includes that header,hence the multiple definition error.

You want a non-defining declaration (no initializer) in the header file, and put the defining declaration in one of the implementation files.

  • if we use #ifndef #define at start of the header file and still define the constants, won't that be enough?
    – quantum231
    May 31, 2018 at 18:54
  • @quantum231: Do you mean, use macros instead of const variables?
    – John Bode
    May 31, 2018 at 19:06

A lot of incorrect responses below. The ones that are correct are the ones telling you to remove the extern as sellibitze has also said in his comment are correct.

Because these are declared const, there is no problem having the definition in the header. C++ will inline a const for a built in type unless you attempt to take its address (a pointer to a const) in which case it will instantiate it with static linkage, you may then also get multiple instantiations in separate modules, but unless you expect all pointers to the same const to have the same address, this is not a problem.

  • MSVC have different behavior than you expect. You can get duplicate symbols if you declare a variable as const in a header. You need to use both static const to ensure internal linkage. Maybe it is a compiler bug.
    – jww
    Dec 26, 2017 at 0:25
  • @jww : in the question it was reported that it worked without static. The behaviour for C does differ, but since the code in question linked, it must have used C++ compilation. The question is however tagged both C and C++, so arguably I should have covered both, but the question was not about the differences between C and C++, so I assume just mis-tagged. The question is 7 years old, so it does not warrant update.
    – Clifford
    Dec 26, 2017 at 10:10

You need to declare the contants in the header and then define them in one of your code files. If you do not declare them anywhere, then there is a linker error when it tries to tie the declaration to the actual definition. You can also get away with using #ifdef statements to have one definition within the header.

Make sure they are declared in a header that is included by everyone that needs them and make sure they are defined exactly once.



If you want to define constants in header files, use static const. If you use extern, the linker is right to complain about multiple definitions because each including source file will supply memory for the variable if you assign a value.


It looks like that header file is getting included multiple times. You need to add guards.

At the top of each header file you should have something like:



// at end of file

If you are using g++ or MSVC then you can just add:

#pragma once

At the top of each header file, but that isn't 100% portable.

Also, you shouldn't define constants in header files, only declare them:

// In header file
extern const int my_const;

// In one source file
const int my_const = 123;
  • 5
    Include guards only protect against multiple inclusion in the same file. Lack of them will produce a problem at compile time. He's running into a problem at link time, because of attempting to define the same symbols once each in multiple files. Feb 24, 2010 at 19:18
  • I addressed that in my answer. Feb 24, 2010 at 19:22

in declaring global const within header causes that each compilation unit including this hader will have own definitions global definitions with the same name. Then linker does not like that.

If You really need these in header then probably You should declare them as static.


An old question, indeed, but one useful answer is missing.

It is possible to trick MSVC into accepting static constants in headers simply by wrapping those in a "dummy" class template:

template <typename Dummy = int>
struct C {
     static const double Pi;

template <typename Dummy = int>
const double C<Dummy>::Pi = 3.14159;

Now, C<>::PI can be accessed from elsewhere. No redefinition complains; constant is directly accessible in each compilation units without fancy link time optimization. Macro can be rolled out to further prettify this approach (even though macros are evil).

  • Are there any downsides to using this method?
    – PolyMesh
    Jan 22, 2014 at 20:33
  • A bit of syntactic downside, as mentioned - one will have to refer to Pi as C<>::Pi throughout the code. But then, loose global constants are better avoided anyway (so MathConst<>::Pi is only marginally worse than MathConst::Pi).
    – oakad
    Jan 23, 2014 at 1:44

I too ran into this issue:

static const uint64 GameTexSignature = 0x0a1a0a0d58455489;

would not compile on Linux when defined in a header file. It compiles fine with MSVC. The fix that worked for me is changing it to:

static constexpr uint64 GameTexSignature = 0x0a1a0a0d58455489;

This was only required for the uint64 constant, not any of the uint32 constants. I think the following explains it, but that does imply the Linux compiler doesn't consider a const uint64 an integral constant.


Cheers John

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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