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I right now have a problem that is rather confusing to me: I have piece of software written in C++ and that links against a library in C. I include the header classes using the usual

extern "C" {
    #include <libheader.h>
}

Everything works fine as long as I do not use gcc's optimization. Once I turn on even -O1, thus the first optimization level, during runtime I get an "undefined symbol" error for an symbol from this library. However, the name has gone through name mangling which should be disabled cause of the extern "C".

The function that calls the symbol in question is inlined, in case this matters. The used compiler is gcc 4.4.3.

I honestly don't even have an idea what to search for, so I would be really grateful if one of you could give me some reason for this behaviour.

Thank you for your support.

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Can you remove the inline (i.e. make the function not inline) and see if it starts working? –  sashoalm Mar 30 '11 at 12:08
1  
Alternatively to @satuon's suggestion, could you make the inline function call a C++ function that wraps the C function, and see if that makes it start working? –  Andrew Aylett Mar 30 '11 at 12:11
    
Thanks for your reply! I tried both suggestions, however, the symbol is still not found. –  Thilo Mar 30 '11 at 13:38
1  
At runtime??? How on Earth can one get an "undefined symbol" error at runtime in a compiled language? Are you using dynamic libraries of some sort? –  AndreyT Mar 30 '11 at 18:31
    
@AndreyT I think that is quite the usual behavior for shared libraries that include another shared library. Had this problem more than once yet (with different causes, though) –  Thilo Mar 31 '11 at 7:04

4 Answers 4

up vote 1 down vote accepted

Is it possible that the header that defines the calling inline function includes the library's header without the extern "C" wrapper, and everywhere else the wrapper lines are used?

Did you try other levels like -O2?

Did you try uninlining your function?

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Thanks for the ideas. Yes, the header of the correct file certainly uses the extern "C" wrapper. -O2 and -O3 have the same effect. As stated above, removing the inline does not help either. –  Thilo Mar 30 '11 at 13:57
    
@Thilo Specifically, you removed the inline AND moved the function from the header to a source file so the compiler couldn't decide to automatically inline it? –  Mark B Mar 30 '11 at 14:31
    
Argh... Thank you for clarifying. Forgot to move the previously inlined function to a source file. This solves the problem. However, the result is not really elegant, as having the function inlined could be significantly faster. –  Thilo Apr 8 '11 at 6:02

If you have a function that is defined when not inlined but not defined when inlined, then the problem should be pretty simple to define.

You have used the function somewhere without including its header file.

Review all the files that call this function and make sure the header is included.

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Wrapping a C header with extern "C" {...} doesn't always work; generally, headers need to be designed to work with both languages for them to work with both languages.

In this case, without more details, it's hard to say exactly what is happening, but the inline keyword means different things in C and in C++; I would not expect a header with inline functions to work in this way. (Off hand, I wouldn't expect the symptoms you're getting, but they don't especially surprise me either.)

The correct way of handling this is to insist that the supplier of the library provide a header which is designed to work in both languages.

Failing that, the correct way to handle this is to write your own C code, which includes the header and wraps all of the functions you need, and to write your own header for this C code, which is designed to be included from both languages. Which is, I'll admit, a lot of work; get the supplier to do his job, rather than having to do half of it for him.

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You say that you're including the libheader.h file in an extern "C" block, but that the symbol the linker is looking for has been name-mangled.

That's an indication that libheader.h is also being included outside of the extern "C" block (the include inside the extern "C" block is probably a nop due to include guards in libheader.h).

Look for other ways that libheader.h might be getting included. GCC's -E and/or the various -M options may or may not help with this. Or (if only for a test) move the extern "C" block inside libheader.h:

// at start of libheader.h:
#ifdef __cplusplus
extern "C" {
#endif

/* existing contents of libheader.h */
// ...

// at end of libheader.h:
#ifdef __cplusplus
}
#endif

Note that linkage specifications can nest, so you don't have to remove the existing extern "C" blocks at the #include sites.

I don't know why the problem would happen only for optimized builds, except that maybe the .c or .cpp file that contains the non-inline version of the calling function gets the headers right, and there only needs to be one translation unit that gets the headers wrong and inlines the calling function to see the problem.

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Thank you! That might be a good idea how to track down the problem, if that's the reason. Sadly, I will only have time to look into it next week friday, will report back then. –  Thilo Mar 31 '11 at 7:09

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