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I'm interested in having a global variable one single time across the entire program. So I thought the best way to achieve this is to define it in the header file like so:

extern const std::string CONST_STR = "global string";

But that had lead to a "double free or corruption" run time error. Dropping the extern made the problem vanish.

  1. Could anyone explain this behavior?
  2. AFAIK, without the extern definition there would a CONST_STR per every translation unit, isn't there a way to get one entirely const global variable?
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is this valid at all? you should use either extern or the initializer –  Balog Pal Jun 27 '13 at 13:51
    
@BalogPal With const, it is valid. The extern just means "not static." –  Angew Jun 27 '13 at 14:23

2 Answers 2

up vote 2 down vote accepted

Addressing the first part and additional question about case with losing extern.

const std::string CONST_STR = "global string";

by C++ rules is identical as saying

static const std::string CONST_STR = "global string";

if this is in an include file, you will create distinct strings in each TU. They all work fine by themselves. But suppose you also add a function in the same header:

inline void foo() { std::cout << CONST_STR; }

if the << operator takes the string by const&, in each TU it will bind to a separate string. Thus violating ODR and putting you to undefined behavior. (in practice it most likely works, but UB nontheless).

The original extern form is similar to this, as the identically looking string literals are also separate in different TUs.

If you just say extren without initializer, it's a declaration, and will be resolved by linker to the single definition. If you use initializer that makes it a definition. So again the object is created in each TU, but using a common public name, expecting other TUs to access it. The implementation is relieved from responsibility as you must ensure only one definition is actually provided.

ODR (one definition rule) is unfortunately too easy to break and most of its forms explicitly permit the implementation to not issue any diagnostic. In practice the linker just picks a random definition from the pool. The double free is likely caused by emitting _atstart and _atexit entries for ctor and dtor calls, the object itself is melt into a single one, then gets as many ctor and dtor calls as TUs you have. For the implemenation it is all fair game, as for UB anything goes.

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Sorry for the ignorance, I don't get the inline example problem. As I understand, it's like std::cout << CONST_STR; appears in every TU, what is wrong about it? Why is it different from explicitly writing std::cout << CONST_STR; in several TUs? –  Subway Jun 27 '13 at 15:25
    
If you just write it in solo functions, they will all pick bind to a maybe different CONST_STR, but as the content is the same the behavior is the same. And the solo function is only in one TU. But the inline function included in several TUs must be identical in many levels: same sequence of tokens and same meaning of the tokens too. The latter part gets subverted. –  Balog Pal Jun 27 '13 at 15:47
    
Thank you very much! –  Subway Jun 27 '13 at 15:49
    
Could you please answer my question to Bathsheba? –  Subway Jun 27 '13 at 15:52
    
Yes, if something is static it can be seen only in that TU, other TUs can't find that name by any means (though the object itself can be passed over by address or reference) –  Balog Pal Jun 27 '13 at 15:57

Place the definition

const std::string CONST_STR = "global string";

in exactly one compilation unit (the conventional thing to do is put it in a source file).

In the headers, write just the declaration:

extern const std::string CONST_STR;

This will ensure that you only have one version of the string in the whole program. I'm rather surprised your linker didn't complain given the way you had it.

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I'm not talking about one version but one single existence. Actually I'm mainly curious about the first question. –  Subway Jun 27 '13 at 13:57
    
Which compiler and platform are you using? –  Bathsheba Jun 27 '13 at 14:00
    
@Subway: IMO your code is either ill-formed to start with or if you include that code in multiple files, breaks ODR and then anything can happen. –  Balog Pal Jun 27 '13 at 14:02
    
I'm using g++ over Rad Hat 64 –  Subway Jun 27 '13 at 14:02
1  
@BalogPal It breaks ODR if included more than once, but is well-formed on its own. –  Angew Jun 27 '13 at 14:24

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