I stumbled upon this very annoying problem while working with CERN's ROOT on Ubuntu 12.04 but I think it's a more general problem.

I have some C++ code with external references that I compile and link using the following makefile. On my Mac with OS X 10.8 and a sever with SL5 this works fine.

CXXFLAGS=-Wall -O2 -g $(shell root-config --cflags --libs)

testroot: testroot.cc

It evaluates to

clang++ -Wall -O2 -g -pthread -m64 -I/opt/ROOT/5.34.05/include/root -L/opt/ROOT/5.34.05/lib/root -lCore -lCint -lRIO -lNet -lHist -lGraf -lGraf3d -lGpad -lTree -lRint -lPostscript -lMatrix -lPhysics -lMathCore -lThread -pthread -lm -ldl -rdynamic    testroot.cc   -o testroot

Which gives me undefined references and a linker error on the Ubuntu server. I have already tried setting the libs in LDFLAGS but it produces the same result. When I compile it manually and put the source file and the -o option before the libraries, it compiles without a problem.

From other threads, I figured that the order of the commands can matter but I wonder why it does on some machines and it doesn't on others. Even if the order mattered, I thought make was smart enough to figure it out for itself.

The questions now are: How can I get around this? Do I have to use a different version of make or ld? Do I have to modify my makefile?

Thanks in advance!


You should not add -l arguments to LDFLAGS (not even mentioning CXXFLAGS). The proper variable for link libraries is LDLIBS in the case of implicit make rules like in your makefile.

On some machines the order doesn't matter because with GNU ld it matters only for static libraries or with the --as-needed option enabled (which is enabled by default on some systmes).

  • 1
    Thanks, that does it! I was so confused about this… – Kevin Dungs Mar 22 '13 at 12:19

You shouldn't combine the options of root-config. It should be:

CXXFLAGS = -Wall -O2 -g $(shell root-config --cflags)
LIBS     = $(shell root-config -libs -glibs)

You then use these options where appropriate. (For example, you wouldn't use $(LIBS) when just compiling, and not linking.)

As for why it works on a different system? Different systems have different linkers, which work differently. Or perhaps there are no additional libs needed for some system—although it very definitely goes against tradition, it's not necessarily unreasonable on a modern system to put everything in libc.so.

Finally: how could make figure any of this out. Make literally knows nothing of the commands you execute; they're just strings which it passes to the shell.


The problem you experience relates to the algorithm ld uses to resolve the external references. You could try different ld, but reordering the list of libraries can just as well help. Put the base libraries first (the once that have no dependencies), then libraries that depend on already listed libraries and so on.

  • Actually this is exactly backwards: the libraries that have no further dependencies should come last. Libraries that depend only on those come before that, etc. Libraries that only your code depends on, but no other libraries, come first. For a single-pass linker it will get the unresolved symbols from your code, then try to resolve them with the first library in the list. That library will resolve some symbols, and add new unresolved symbols. Then the next library will be consulted, etc. By the time the linker finishes the last library all symbols must be resolved, or it fails. – MadScientist Mar 23 '13 at 12:44

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.