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Why does the order in which libraries are linked sometimes cause errors in GCC?

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you might want to change your accepted answer, as per ** user9876**'s comment below. – Vorac Feb 22 '13 at 7:24
See also now… -- TLDR gcc changed to more-strict behavior (relatively) recently. – tripleee Jan 5 at 6:17

10 Answers 10

(See the history on this answer to get the more elaborate text, but I now think it's easier for the reader to see real command lines).

Common files shared by all below commands

$ cat a.cpp
extern int a;
int main() {
  return a;

$ cat b.cpp
extern int b;
int a = b;

$ cat d.cpp
int b;

Linking to static libraries

$ g++ -c b.cpp -o b.o
$ ar cr libb.a b.o
$ g++ -c d.cpp -o d.o
$ ar cr libd.a d.o

$ g++ -L. -ld -lb a.cpp # wrong order
$ g++ -L. -lb -ld a.cpp # wrong order
$ g++ a.cpp -L. -ld -lb # wrong order
$ g++ a.cpp -L. -lb -ld # right order

The linker searches from left to right, and notes unresolved symbols as it go. Only a library resolves the symbol, it takes the object files of that library to resolve the symbol (b.o out of libb.a in this case).

Dependencies of static libraries against each other work the same - the library that needs symbols must be first, then the library that resolves the symbol.

If a static library depends on another library, but the other library again depends on the former library, there is a cycle. You can resolve this by enclosing the cycling dependent libraries by -( and -), such as -( -la -lb -) (you may need to escape the parens, such as -\( and -\)). The linker then searches those enclosed lib multiple times to ensure cycling dependencies are resolved. Alternatively, you can specify the libraries multiple times, so each is before one another: -la -lb -la.

Linking to dynamic libraries

$ export LD_LIBRARY_PATH=. # not needed if libs go to /usr/lib etc
$ g++ -fpic -shared d.cpp -o
$ g++ -fpic -shared b.cpp -L. -ld -o # specifies its dependency!

$ g++ -L. -lb a.cpp # wrong order (works on some distributions)
$ g++ -Wl,--as-needed -L. -lb a.cpp # wrong order
$ g++ -Wl,--as-needed a.cpp -L. -lb # right order

It's the same here - the libraries must follow the object files of the program. The difference here with the static libraries is that you must not care about the dependencies of the libraries against each other, because dynamic libraries sort out their dependencies themselfs.

Some recent distributions apparently default on using the --as-needed linker flag, which enforces that the program's object files come before the dynamic libraries. If that flag is passed, the linker will not link to libraries that are not actually needed by the executable (and it detects this from left to right). My recent archlinux distribution doesn't use this flag by default, so it didn't give an error for not following the correct order.

It is not correct to omit the dependency of against when creating the former. You will be required to specify the library when linking a then, but a doesn't really need the integer b itself, so it should not be made to care about b's own dependencies.

Here is an example of the implications if you miss to specify the dependencies for

$ export LD_LIBRARY_PATH=. # not needed if libs go to /usr/lib etc
$ g++ -fpic -shared d.cpp -o
$ g++ -fpic -shared b.cpp -o # wrong (but links)

$ g++ -L. -lb a.cpp # wrong, as above
$ g++ -Wl,--as-needed -L. -lb a.cpp # wrong, as above
$ g++ a.cpp -L. -lb # wrong, misses
$ g++ a.cpp -L. -ld -lb # wrong order (works on some distributions)
$ g++ -Wl,--as-needed a.cpp -L. -ld -lb # wrong order (like static libs)
$ g++ -Wl,--as-needed a.cpp -L. -lb -ld # "right"

If you now look into what dependencies the binary has, you note the binary itself depends on libd, not libb as it should. The binary will need to be relinked if libb depends on another library, if you do it this way. And if someone else loads libb using dlopen at runtime (think of loading plugins dynamically), the call will fail aswell. So the "right" really should be a wrong aswell.

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Repeat until all symbols resolved, eh - you'd think they could manage a topological sort. LLVM has 78 static libraries on it's own, with who-knows-what dependencies. True it also has a script to figure out compile/link options - but you can't use that in all circumstances. – Steve314 Jul 11 '10 at 13:27
@Steve that's what the programs lorder + tsort do. But sometimes there is no order, if you have cyclic references. Then you just have to cycle through the libraries list until everything is resolved. – ᐅ Johannes Schaub - litb ᐊ Aug 18 '11 at 19:01
@Johannes - Determine the maximal strongly connected components (e.g. Tarjans algorithm) then topologically sort the (inherently non-cyclic) digraph of components. Each component can be treated as one library - if any one library from the component is needed, the dependency cycle(s) will cause all libraries in that component to be needed. So no, there really is no need to cycle through all the libraries in order to resolve everything, and no need for awkward command-line options - one method using two well-known algorithms can handle all cases correctly. – Steve314 Aug 18 '11 at 22:44
@Steve Unfortunately I haven't done anything with those algorithms. But I would like to have an easy to use LD commandline option with those methods you mention too. Perhaps you can send your ideas to the respective GNU mailing lists? – ᐅ Johannes Schaub - litb ᐊ Nov 6 '11 at 14:39
@Johannes - not really my idea. I first read about it from a Dr. Dobbs article someone wrote about some other kind of programming tool (IIRC, the topological sort was a performance optimisation, but the dependency graphs couldn't be guaranteed acyclic), and it didn't seem special then. I assumed GNU had chosen to reject this kind of approach, perhaps for religious reasons. After all, there are other linkers that must be doing this or something similar - I haven't invented anything clever or original here. Still, it can't hurt to write an e-mail - I'll sort something out soon. – Steve314 Nov 6 '11 at 16:08

The GNU ld linker is a so-called smart linker. It will keep track of the functions used by preceding static libraries, permanently tossing out those functions that are not used from its lookup tables. The result is that if you link a static library too early, then the functions in that library are no longer available to static libraries later on the link line.

The typical UNIX linker works from left to right, so put all your dependent libraries on the left, and the ones that satisfy those dependencies on the right of the link line. You may find that some libraries depend on others while at the same time other libraries depend on them. This is where it gets complicated. When it comes to circular references, fix your code!

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Is this something with only gnu ld/gcc? Or is this something common with linkers? – Mike Sep 5 '08 at 3:17
Apparently more Unix compilers have similar issues. MSVC isn't entirely free of these issues, eiher, but they don't appear to be that bad. – MSalters Apr 28 '09 at 14:42
The MS dev tools don't tend to show these issues as much because if you use an all-MS tool chain it ends up setting up the linker order properly, and you never notice the issue. – Michael Kohne Aug 28 '09 at 20:59
Very well worded. – ojblass Nov 9 '10 at 17:54
The MSVC linker is less sensitive to this issue because it will search all libraries for an unreferenced symbol. Library order still can affect which symbol gets resolved if more than one library have the symbol. From MSDN: "Libraries are searched in command line order as well, with the following caveat: Symbols that are unresolved when bringing in an object file from a library are searched for in that library first, and then the following libraries from the command line and /DEFAULTLIB (Specify Default Library) directives, and then to any libraries at the beginning of the command line" – Michael Burr Apr 24 '12 at 6:19

Here's an example to make it clear how things work with GCC when static libraries are involved. So let's assume we have the following scenario:

  • myprog.o - containing main() function, dependent on libmysqlclient
  • libmysqlclient - static, for the sake of the example (you'd prefer the shared library, of course, as the libmysqlclient is huge); in /usr/local/lib; and dependent on stuff from libz
  • libz (dynamic)

How do we link this? (Note: examples from compiling on Cygwin using gcc 4.3.4)

gcc -L/usr/local/lib -lmysqlclient myprog.o
# undefined reference to `_mysql_init'
# myprog depends on libmysqlclient
# so myprog has to come earlier on the command line

gcc myprog.o -L/usr/local/lib -lmysqlclient
# undefined reference to `_uncompress'
# we have to link with libz, too

gcc myprog.o -lz -L/usr/local/lib -lmysqlclient
# undefined reference to `_uncompress'
# libz is needed by libmysqlclient
# so it has to appear *after* it on the command line

gcc myprog.o -L/usr/local/lib -lmysqlclient -lz
# this works
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I think this is the best answer. short, precise and easy to understand through step by step example. +1 – sgwong513 Mar 17 '13 at 4:57

You may can use -Xlinker option.

g++ -o foobar  -Xlinker -start-group  -Xlinker libA.a -Xlinker libB.a -Xlinker libC.a  -Xlinker -end-group 

is ALMOST equal to

g++ -o foobar  -Xlinker -start-group  -Xlinker libC.a -Xlinker libB.a -Xlinker libA.a  -Xlinker -end-group 

Careful !

  1. The order within a group is important ! Here's an example: a debug library has a debug routine, but the non-debug library has a weak version of the same. You must put the debug library FIRST in the group or you will resolve to the non-debug version.
  2. You need to precede each library in the group list with -Xlinker
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Another alternative would be to specify the list of libraries twice:

gcc prog.o libA.a libB.a libA.a libB.a -o prog.x

Doing this, you don't have to bother with the right sequence since the reference will be resolved in the second block.

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Due to SO's re-ordering, this 'answer' does not make very much sense appearing at the top as it does for me. It would be nice if you would at least reference the thing you're providing an alternative to... – sage Jul 2 '14 at 19:41

I have seen this a lot, some of our modules link in excess of a 100 libraries of our code plus system & 3rd party libs.

Depending on different linkers HP/Intel/GCC/SUN/SGI/IBM/etc you can get unresolved functions/variables etc, on some platforms you have to list libraries twice.

For the most part we use structured hierarchy of libraries, core, platform, different layers of abstraction, but for some systems you still have to play with the order in the link command.

Once you hit upon a solution document it so the next developer does not have to work it out again.

My old lecture used to say, "high cohesion & low coupling", it’s still true today.

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A quick tip that tripped me up: if you're invoking the linker as "gcc" or "g++", then using "--start-group" and "--end-group" won't pass those options through to the linker -- nor will it flag an error. It will just fail the link with undefined symbols if you had the library order wrong.

You need to write them as "-Wl,--start-group" etc. to tell GCC to pass the argument through to the linker.

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Link order certainly does matter, at least on some platforms. I have seen crashes for applications linked with libraries in wrong order (where wrong means A linked before B but B depends on A).

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If you add -Wl,--start-group to the linker flags it does not care which order they're in or if there are circular dependencies.

On Qt this means adding:

QMAKE_LFLAGS += -Wl,--start-group

Saves loads of time messing about and it doesn't seem to slow down linking much (which takes far less time than complication anyway)

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I would imagine it is because some of those libraries have dependencies on other libraries, and if they have not been linked yet then you would get linker errors.

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