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I try to use the ubuntu 15.10 repository version of libmuparser (package libmuparser2v5). Compiling with gcc works fine, but not with clang. I dug deeper into this to come up with the following minimal (not) working example and a few questions.

Consider a library with a simple class that takes a string and returns a string.

testlib.h:

#pragma once

#include <string>

struct Test {
    std::string str;

    void set(std::string s);
    std::string get();
};

testlib.cpp:

#include "testlib.h"

void Test::set(std::string s) {
    str = s;
}

std::string Test::get() {
    return str;
}

This is compiled with gcc 5.2.1 as static library with

g++ -Wall -c testlib.cpp -o testlib-gcc.o
ar rcs libtest-gcc.a testlib-gcc.o

Now compiling an application main.cpp

#include <iostream>
#include "testlib.h"

int main()
{
    Test p;
    p.set("Hello!");
    std::cout << p.get() << std::endl;
    return 0;
}

with clang 3.6.2-1 by using

clang++ main.cpp -o out-clang libtest-gcc.a

results in the error

main.cpp:(.text+0x79): undefined reference to `Test::get()'

Now I found out that gcc5 has a new feature, called ABI tags, to help versioning libraries and prevent linking, when it is not compatible. Looking at the static library

$ nm -gC libtest-gcc.a

gives:

testlib-gcc.o:
0000000000000026 T Test::get[abi:cxx11]()
0000000000000000 T Test::set(std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> >)

So the ABI tag cxx11 has been added for get but not for set. The tag is apparently added, when a method returns a string. That is why clang claims only about not finding Test::get().

I guess this is done to give get a calling signature that makes clear that c++11 is required to link with that function. For set this is not necessary, due to the __cxx11 in the type.

Questions:

  • Am I right with my guess or is there maybe something more to be added?
  • If so, how to fix this?
    • What can a library writer do to make a library linkable to both gcc 5.2 and clang 3.6 compiled code? (Source code changes?)
    • What can a library user do to compile and link with clang 3.6 against a library compiled with gcc 5.2 or vice versa. (Source code changes or compilation flags?)
    • What can a package maintainer do to make a library linkable to both gcc 5.2 and clang 3.6 compiled code? (Compilation flags?)
    • Will this be fixed by the clang developers in future version (which version)? (ABI compatibility by default?) However it would still be nice to have a solution now, since otherwise clang is hard to use on ubuntu 15.10 and derivatives.

Additional information:

  • The signature of get is defined when testlib.cpp is compiled. Thus a shared object would not make any difference. One can also use nm -gC testlib-gcc.o to see the symbols.
  • In a library compiled with clang the signature of get is Test::get(). Then gcc cannot find the symbol Test::get[abi:cxx11](), so the compatibility is mutually broken.
  • Using the compile flag -D_GLIBCXX_USE_CXX11_ABI=0 for gcc (found here) is no solution, since then the signature of set is also changed: Test::set(std::string) (but get is fine then).
  • Using the compile flag -stdlib=libc++ in clang does not seem to help, since it also reports the undefined reference to Test::get() (and a lot more undefined references).
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  • When you use -D_GLIBCXX_USE_CXX11_ABI=0, you need to use it with the program you compile with Clang too, if it uses the GCC standard library (libstdc++). The std::__cxx11 is a private GCC standard library-only namespace, if I read this right. Oct 27, 2015 at 12:49
  • @JoachimPileborg: Yes, compiling both library and application with -D_GLIBCXX_USE_CXX11_ABI=0 helps. However, my actual use case here is a library in the repository, that is compiled with -D_GLIBCXX_USE_CXX11_ABI=1. It seems not to be possible to use the abi_tag ("cxx11") attribute in clang. So is it simply not possible maybe?
    – John
    Oct 27, 2015 at 13:11
  • In that case it's not possible, unless there's a fix in the clang source repositories and you build clang from source. Oh, there is an issue in the clang issue tracker for this, but it doesn't seem to be merged into trunk yet. Oct 27, 2015 at 13:20
  • 1
    Compatibility of libraries/objects compiled with different C++ compilers is a nightmare since C++11 and the recommendation is not to rely on it. Having said that, the problem is mostly limited to std::string (and related classes such as std::stringstream) and if you can avoid using any library functionality using strings (which may include catching exceptions by type), you may be okay (that's my experience).
    – Walter
    Oct 29, 2015 at 10:24

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