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I think there should have been a best practice on this issue in the industry, so I ask it here.

This question is about linking shared library(.so) to an executable, with gcc on Linux. But let me start with Windows.

Assume I am developing A.EXE , B.DLL, C1.DLL . The dependency is

A -> B -> C1

which means: A calls API from B, and B implements itself by calling API from C1. A does not call API in C1 directly.

You know, when linking A.EXE (using Visual C++) , I only have to list B.lib (import lib) as A's link-component(in makefile); C1 does not have to appear in A's makefile. So one day I'd like to replace C1 with C2 for better implementation of B, I do not have to change A's makefile because of C1's replacement.

That's great because it follows the rational idea: The makefile only refers to things it directly relates to. With this convenience, people tends to write DLL instead of LIB on Windows -- I think so.

Now I turn to gcc on linux. With the same dependency scenario, in A's makefile, I have to explicitly list C1 or C2 as link-component, like this:

gcc -o A a1.o a2.o -lB -lC1 

So frustrating, imagine you have ten projects A1, A2, ... A10 calling into B, you have to modify ten makefiles to make the shift from C1 to C2.

How to get a relief ?

share|improve this question
You don't have DLLs on Linux. You have shared object libraries, which are different beasts. – Basile Starynkevitch Feb 25 '13 at 8:00
Thanks. I referred to Windows DLL just because I need to cite an expected behavior I knew. – Jimm Chen Feb 25 '13 at 8:42
But you need to understand that (and how) .so files are not behaving on Linux like .dll are on Windows. – Basile Starynkevitch Feb 25 '13 at 8:43
up vote 1 down vote accepted

Make sure your libB depends on libC (ldd ; libB should have been compiled with something like gcc -o -shared -fPIC *.c -L/path/to/libC -lC -Wl,-rpath,/path/to/libC.

Note that needs to be compiled with -rpath in order to be able to locate, or use the LD_LIBRARY_PATH environment variable (the ldd command mentioned above must not show => not found)

share|improve this answer
I am not sure you have to pass -Wl,--allow-shlib-undefined; I never do. – Basile Starynkevitch Feb 25 '13 at 8:14
You are right, it doesn't need that switch. Edited. – Unknown Feb 25 '13 at 8:17

When linking some shared library you can link it with another shared library

  gcc -fPIC -g -Wall -c foo1.c
  gcc -fPIC -g -Wall -c foo2.c
  gcc -shared -o foo1.o foo2.o -lbar

then when you use -lfoo the will be linked automatically without asking for it.

So you don't have to to explicitly list C1 or C2 as link-component in A's makefile.

you would have to do that if you had only static libraries lib*.a

So you could build a program with

  gcc -Wall -g prog.c -lfoo

alone (not mentioning explicitly).

Try for instance to run ldd on the GTK shared library (on my Debian system):

  ldd /usr/lib/x86_64-linux-gnu/

I suggest reading Levine's linker & loader book to understand the difference between Windows .dll and Linux .so; they are different beasts. Read also the Program Library HowTo.

You might want (or not) to use GNU libtool.

BTW, you might also use pkg-config, which would give the dependencies...

share|improve this answer
I tried it on opensuse 11.3. Your gcc -Wall -g prog.c -lfoo will fail with ld's warning:, needed by ./, not found (try using -rpath or -rpath-link). In order to succeed, I have to write linker command gcc -Wall -g prog.c -lfoo -Wl,-rpath-link,., WHICH MEANS, I STILL NEED WHEN GENERATING main. ISN'T IT A BURDEN compared to Windows? Any relief? – Jimm Chen Sep 18 '13 at 2:51

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