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Consider the following code (this is not pthread specific; other examples, such as those involving the realtime library, exhibit similar behavior):

#define _GNU_SOURCE
#include <pthread.h>

inline void foo() {
    static cpu_set_t cpuset;
    pthread_setaffinity_np(pthread_self(), sizeof(cpu_set_t), &cpuset);

int main(int argc, char *argv[]) { }

This is a valid program in C and in C++. So I save the contents of this to testc.c and testcpp.cpp and try to build.

When I build in C++ I get no error. When I build in C I get an undefined reference error. Now, this error occurs in -O1 and in -O3. Is there anyway to instruct gcc to do the right thing (see that foo is unused and skip the requirement for a definition of pthread_setaffinity_np)?

EDIT: I thought it was obvious from context, but the error message is:

/tmp/ccgARGVJ.o: In function `foo':
testc.c:(.text+0x17): undefined reference to `pthread_setaffinity_np'

Note that since foo isn't being referenced in the main path, g++ correctly ignores the function entirely but gcc does not.

EDIT 2: Let me try this one more time. The function foo, and the subsequent call to pthread_setaffinity_np, is unused. The main function is empty. Just look at it! Somehow, g++ figured out that foo did not need to be included, and subsequently the build process did not trip up when we intentionally omitted -lpthread (and checking the exported symbols with nm confirms that neither foo nor reference to pthread_setaffinity_np were needed). The resultant output from gcc didn't pick up on that fact.

I am asking this question because the C++ and the C frontends seem to give different results on the same input. This doesn't seem to be an ld issue prima facie because I would expect both paths to give the same linking error, which is why I emphasized that it seems to be a compiler issue. If both C++ and C gave problems, then yes I would agree that its a linking issue.

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Whenever you get a compiler error, always paste the exact error in your question. – Seth Carnegie Sep 4 '11 at 3:04
@Seth - Either that or read the error carefully and figure out what it's trying to tell you. (After all, it's only words.) This is a skill that will serve the questioner well. – asveikau Sep 4 '11 at 3:10
@asve well even if you figure it out, if you post a question on SO, you still need to include the exact error :) – Seth Carnegie Sep 4 '11 at 3:11
@Seth @asveikau I erroneously presumed that, given the context, the only possibilities could be pthread_setaffinity_np and pthread_self, but I made it explicit now – Foo Bah Sep 4 '11 at 3:19
You need to link with -lpthread. – asveikau Sep 4 '11 at 3:27

5 Answers 5

up vote 6 down vote accepted

Well, apparently your program contains an error: you declare and call function pthread_setaffinity_np, but you never define it. Apparently you forgot to supply the library that contains the definition. This is an error in both C and C++.

In other words, this is not a valid program in C and in C++. It violates the One Definition Rule of C++ (and whatever the similar rule is called in C).

The rest depends on whether the compiler will catch this error and issue a diagnostic message for it. While formally the compiler is supposed to catch it, in reality linking errors are not always caught by the compilation process (in extended sense of the term, i.e. including linking as well).

Whether they are caught or not might depend on many factors. In this particular case the factor that matters is apparently the difference between the properties of inline functions of C and C++ languages. (And yes, they are really different between C and C++). I would guess that in C++ mode the compiler decided that this inline function does not need the actual body, while in C mode it decided to generate the body anyway.

So, again, if this program, somehow successfully compiles in some circumstances, it is only because you got lucky. You seem to believe that a function that is not called is supposed to be "ignored entirely". Neither C nor C++ make such guarantees. Assuming that the definition of pthread_setaffinity_np is indeed missing, your program is invalid in both C and C++. For this reason, the compiler that refused to compile it is actually the one with the correct behavior.

Taking the above into account, you might want to ask yourself whether you really care about why you got different error reports in C and C++ modes. If you do, it will require some research into the internal mechanics of that specific implementation and won't have much to do with the languages themselves.

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+1 for only correct answer – R.. Sep 4 '11 at 3:41
Sometimes we come across unexpected behaviors. Some people just hack a solution and move on. I want to understand why I was surprised :) – Foo Bah Sep 4 '11 at 4:10
Just to note some additional aspect why this is not a correct C program: in C inline functions are not allowed to declare static variables. – Jens Gustedt Sep 4 '11 at 7:00
@Jensen is there a way to force GCC to enforce this rule (or at least give me some sort of warning) – Foo Bah Sep 4 '11 at 16:04
@Foo Bah: gcc -std=c99 will give you a warning. gcc -std=c99 -pedantic-errors will give you an error. By default gcc runs its own version of wildly extended C99-based version of C language where quite a few non-standard extensions are accepted without even a warning. – AnT Sep 4 '11 at 16:17

In C, the inline keyword does not affect the linkage of the function. Thus foo has external linkage, and cannot be optimized out because it might be called from another translation unit. If the compiler/assembler put functions in their own individual sections and the linker is able to discard unneeded function sections at link time, it might be able to avoid a linking error, but to be correct, since this program references pthread_setaffinity_np, it must contain a definition for that function somewhere anyway, i.e. you must use -lpthread or equivalent.

In C++, inline functions have internal some weird pseudo-external linkage by default, so gcc optimized it out. See the comments for details.

In short, the lack of an error in certain configurations is a failure of gcc to diagnose an invalid program. It's not the behavior you should expect.

The other lesson you should take away from this is that C and C++ are nowhere near the same thing. Choose which one you're writing and stick to it! Don't try to write code that's "interchangeable" between the two or you're likely to make it subtly incorrect in both...

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I completely forgot about that. Based on your reply, I tried declaring it as static inline and the C program behaved as I would expect – Foo Bah Sep 4 '11 at 3:44
GCC has some non-standard options that could be used as well, such as __attribute__((always_inline)). In MSVC you can use __forceinline – Zan Lynx Sep 4 '11 at 3:47
@R..: I hate to disagree, but that's actually not entirely accurate. In C++ language inline does not affect the linkage either. Inline functions in C++ still have external linkage by default. At least that's the way it is in C++98 and C++03. In C++ you need to do static inline to force internal linkage on an inline function. If the C++ compiler decided not to generate the body for this inline function, it is not because of linkage. The linkage is external in this case. It must be something else. Global optimization of some sort? – AnT Sep 4 '11 at 3:52
Inline functions in C++ had internal linkage in some ancient version of C++ specification. But in C++98 they were given external linkage by default and it remained that way since that day. – AnT Sep 4 '11 at 3:55
The wording of the rule for C is probably ugly, but the contents of it is not so difficult. By default the compiler is free to use the given definition of the function to expand it at any calling site where it sees fit. And it is not allowed to produce a symbol, to avoid multiple-symbol-errors. To really force it to produce a symbol, you'd have to instantiate it in one compilation unit. This is not so different from C++, where you have to instantiate inline functions when you want to be sure that a symbol is produced for it. – Jens Gustedt Sep 4 '11 at 7:06

inline is only a suggestion, not something a compiler is obligated to listen to, so it can't assume that foo is not used in another compilation unit.

But, yeah, it would be nice to know exactly which is the undefined reference, given that you didn't post the error, and odd that it's shows up in C and not C++ compilation.

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sorry I thought it was obvious that the undefined reference was for the pthread_setaffinity_np – Foo Bah Sep 4 '11 at 3:13
Oh, that's a linker error you're getting, not a compile error. Are you sure you are linking in the correct library? – Jim Buck Sep 4 '11 at 3:25
The entire point is that the C++ compiler pathway figured out that foo did not need to be included in the final binary, so the reference to the pthread library is unnecessary. For some reason the C frontend didnt figure that out. That's what I want to understand more about. – Foo Bah Sep 4 '11 at 3:37

foo might not be used in your source code, but it's almost certainly referenced elsewhere in the build process and consequently it needs to be compiled.

Especially since a lot of optimization occur in the linking process, because the linker can determine that a function is "dead" and can be discarded.

If, internally, the linker decides to assemble the entire program as one pass, and then optimization in another, I would expect you to see this error (how can it assemble the whole program?)

Further, if the function is to be exported then it most certainly has to be compiled, linked, and end up in the output.

It sounds like you're relying on compiler/linker specific behavior.

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Well i bet it's because when the compiler try to inline into the code it see no place to insert it.

from my understanding inline will cut/n/paste like your function in place of the function call i.e:

inline youpi () {

func1 () {

with inline it would be translated into 
func1 () {
 // inline youpi
   job ();
  job2 ();
 // end inline

i bet you get the error with O1 and O3 because real inlining of the function would be enforced.

i think your only solution would be to actually use the function

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not relevant here because the function marked inline is not used. – Foo Bah Sep 4 '11 at 3:18
it's actually was i was saying AND explaining why it is not used – antilove Jan 5 '12 at 22:46

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