I have a C++ application that I inherited, which consists of:

  • My main app
  • Several app-specific libraries (libapp1, libapp2, etc...)
  • Several "third party" libraries (most "third partis are just other teams in the company") linked from both the main app, from the app-specific libappX libraries, and from other 3rd part libraries - e.g. libext1, libext2, etc...

In other words, my code looks like this:

// main.C
#include <app1/a1l1.H>
#include <app2/a2l1.H>
#include <ext1/e1l1.H>

// app1/a1l1.H
#include <app1/a1l2.H>
#include <ext2/e2l1.H>

// app2/a2l1.H
#include <ext2/e2l2.H>

// ext1/e1l1.H
#include <ext3/e3l1.H>

// ext3/e3l1.H
#include <ext4/e4l1.H>


1) How can I tell which libraries have been linked into the final executable? This must include statically linked ones

In other words, I want an answer of "app1, app2, ext1, ext2, ext3, ext4"

Ideally, the answer would be available from the executable itself (I have a debug version of it built in case it makes it more possible). If that's impossible, i'd like to know if there's a simple code analysis tool (iedeally something within gcc itself) to provide that analysis.

Please note that the object files for external libraries are already built, so looking at the build logs to see what was linked, I'm worried that "ext4" won't show up in the log since we won't be building "ext3" library that is already pre-built.

NOTE: running "nmake" with DEPS set to yes to rebuild all the is NOT an option. But i DO have access to the full source code for external libraries.

2) A slightly separate and less important question, how can i tell a list of all the include files used in the entire source tree I'm building. Again, ideally frm already-built executable, which i have a debug version of.


UPDATE: Just to clarify, our libraries are linked statically, so ldd (List Synamic Dependencies) does not work.

Also, the answer can be either for Solaris or Linux - doesn't matter.

I tried using nm but that doesn't list the libraries

  • What platform are you using? – Tom Feb 7 '11 at 18:34
  • @Tom - either Solaris or Linux. I don't care whether the answer is generic to both or only works on one. – DVK Feb 7 '11 at 18:40
  • I would suggest ldd then for your first question – Tom Feb 7 '11 at 18:42

I had similar problem and found solution: add -Wl,--verbose option when linking. It will switch linker to verbose mode:

gcc -o test main.o -ltest -L. -Wl,--verbose

Here is example output:

GNU ld (GNU Binutils)
  Supported emulations:
using internal linker script:
/* Default linker script, for normal executables */
[many lines here]
attempt to open /usr/lib/gcc/x86_64-pc-cygwin/4.8.2/../../../../lib/crt0.o succeeded
attempt to open /usr/lib/gcc/x86_64-pc-cygwin/4.8.2/crtbegin.o succeeded
attempt to open main.o succeeded
attempt to open ./libtest.dll.a failed
attempt to open ./test.dll.a failed
attempt to open ./libtest.a succeeded
[more lines here]
attempt to open /usr/lib/gcc/x86_64-pc-cygwin/4.8.2/crtend.o succeeded

Update: You can also use -Wl,--trace option instead of -Wl,--verbose. It will also give you list of libraries, but is less verbose.

Update 2: -Wl,--trace does not display libraries included indirectly. Example: you link with libA, and libA was linked with libB. If you want to see that libB is needed too, you must use -Wl,--verbose.

  • 1
    As a note for followers, the ".o" files ld lists for a library (i.e. those listed after it says attempt to open libXX succeeded) will not be "all" the .o files in a library, only the ones it requires to satisfy dependencies at that point. The rest are in essence discarded, even though present in the .a file. ref: stackoverflow.com/q/14091669/32453 – rogerdpack Jan 8 '16 at 1:21
  • Is there an easy way to do this in Visual Studio 2017? – Yuriy F Dec 1 '18 at 22:17
  • @YuriyF: I tried to google for this and found that MSVC has /VERBOSE option: docs.microsoft.com/en-us/cpp/build/reference/… . Please check if it will work for you, I do not have MSVC to test it. – Daniel Frużyński Dec 3 '18 at 9:14
  • Visual studio is a broken piece of beep. – Martin Mar 29 at 6:59

For direct dependencies;

ldd <app>

Indirect/All dependencies;

ldd -r <app>
  • Sorry for not clarifying this earlier, the libraries are linked statically. ldd doesn't list those. – DVK Feb 7 '11 at 18:49
  • I found the answer I was looking for by your answer, thanks! – jredd Sep 16 '15 at 18:39

As far as I know, not much information about static libraries is preserved when linking (since the linker just sees that library as a collection of *.o objects anyway).

If you find the make command that links the final executable and add a -v flag, g++ will show you exactly how it calls the ld command. This should include all necessary static libraries, including libraries used by other libraries, or otherwise the link step would fail. But it might also include extra libraries that aren't actually used.

Another possibly useful thing is that, at least on Linux, objects and executables usually store names of the source code files from which they were created. (Filename only, no path.) Try

objdump -t executable | grep '*ABS*'
  • objdump seems to produce output very similar to nm and deosn't realy produce library lists. Can I pass "-v" via a command line switch to nmake? Thx – DVK Feb 7 '11 at 19:10
  • @DVK: AT&T nmake? Microsoft nmake? In any case, probably no. You want to find the last g++ command which the make process did or would call, then add -v to that. – aschepler Feb 7 '11 at 19:20
  • gotcha. I think it already does that by default since I think I see a list of all .a files in g++ command line – DVK Feb 7 '11 at 19:21

Try to use ldd + your filename, this will list the libs.

  • 1
    Sorry for not clarifying this earlier, the libraries are linked statically. ldd doesn't list those. – DVK Feb 7 '11 at 18:47

I'll answer your second question first. You can simply use the -H or -M flag to see all (including system) headers processed in the compilation. gcc -H main.c should do the trick. Seeing which headers are included will actually get you on the right track to finding which static libraries were linked in.

You could use objdump on your final object (or readelf on your final binary) to get the names of all the functions in there. You'd then have to go find the libraries from which the functions were pulled in, but that's a bit cumbersome. You'd definitely have to make a script to minimize the pain.

Someone else mentioned using gcc <stuff> -Wl,-verbose which simply passes the -verbose flag to the linker. That's a perfect way to get a list of shared libraries (.so files), but you said yours are static, so that isn't the way to go in this case.

Good luck!

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.