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Consider the following scenario:

  • Shared Library ,with no dependencies.
  • Shared Library, with as its dependency.

I want to compile a binary file that links with the libB. Should I link the binary with libB only or with libA either?

Is there any way to link only with the direct dependencies, letting the resolution of unresolved symbols from the dependencies for runtime?

I'm worried about the fact that the library libB implementation may change in the future, introducing other dependencies (libC, libD, libE for instance). Am I going to have problems with that?

In other words:

  • libA files: a.cpp a.h
  • libB files: b.cpp b.h
  • main program files: main.cpp

Of course, b.cpp includes a.h and main.cpp includes b.h.

Compilation commands:

g++ -fPIC a.cpp -c
g++ -shared -o a.o

g++ -fPIC b.cpp -c -I.
g++ -shared -o b.o -L. -lA

Which of the bellow options should I use?

g++ main.cpp -o main -I. -L. -lB


g++ main.cpp -o main -I. -L. -lB -lA

I couldn't use the first option. The linker complains about the unresolved symbols from the library libA. But it sound a little strange to me.

Thanks very much.

-- Updated comments:

When I link the binary, the linker will try to resolve all symbols from the main and the libB. However, libB has undefined symbols from the libA. That's why the linker complains about that.

That's why I need to link with the libA too. However I found a way to ignore unresolved symbols from shared libraries. Looks like I should use the following command line to do that:

g++ main.cpp -o main -I. -L. -lB -Wl,-unresolved-symbols=ignore-in-shared-libs

Looks like it is still possible to use the -rpath option. However I need to understand it a little better.

Does anyone knows any possible pitfalls when using the -Wl,-unresolved-symbols=ignore-in-shared-libs option?

-- Updated comments 2:

-rpath should not be used for this purpose. It is useful to force a library to be found in a given directory. The -unresolved-symbol approach looks much better.

Thanks again.

share|improve this question
up vote 15 down vote accepted

It looks like you are most of the way there already. Well done with your investigation. Let's see if I can help clear up the 'why' behind it.

Here's what the linker is doing. When you link your executable ('main' above) it has some symbols (functions and other things) that are unresolved. It will look down the list of libraries that follow, trying to resolve unresolved symbols. Along the way, it finds that some of the symbols are provided by, so it notes that they are now resolved by this library.

However, it also discovers that some of those symbols use other symbols that are not yet resolved in your executable, so it now needs to resolve those as well. Without linking against, your application would be incomplete. Once it links against, all symbols are resolved and linking is complete.

As you saw, the use of -unresolved-symbols-in-shared-libs, doesn't fix the problem. It just defers it so that those symbols are resolved at run time. That's what -rpath is for: to specify the libraries to be searched at run time. If those symbols can't be resolved then, your app will fail to start.

It's not an easy thing to figure out library dependencies because a symbol could be provided by more than one library and be satisfied by linking against any one of them.

There is another description of this process here: Why does the order in which libraries are linked sometimes cause errors in GCC?

share|improve this answer
I know it was a long time ago, I forgot to mark it as solved. Thanks very much for your answer.] – Marcus Dec 4 '13 at 18:49

For dynamic linking only with direct dependencies you can use -Wl,--as-needed with adding the libs after -Wl,--as-needed:

gcc main.c -o main -I. -L. -Wl,--as-needed -lB -lA

For checking the direct dependencies you should use readelf instead of ldd because ldd also shows the indirect dependencies.

$ readelf -d main | grep library
0x0000000000000001 (NEEDED)             Shared library: []
0x0000000000000001 (NEEDED)             Shared library: []

ldd also shows the indirect dependencies:

$ LD_LIBRARY_PATH=. ldd ./main (0x00007fff13717000) => ./ (0x00007fb6738ed000) => /lib/x86_64-linux-gnu/ (0x00007fb6734ea000) => ./ (0x00007fb6732e8000)
/lib64/ (0x00007fb673af0000)

If you use cmake, you can add the following lines to include only direct dependencies:

share|improve this answer
Sorry, I have made your example as c programm instead of c++. Therefore I used the gcc compiler. But it also works with g++. – user1047271 Mar 23 '15 at 11:24
That's really useful information. I did not know about readelf use instead of ldd. Thanks very much. – Marcus Mar 24 '15 at 12:49

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