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I am trying to compile a program which uses udis86 library. Actually I am using an example program given in the user-manual of the library. But while compiling, it gives error. The errors I get are:

example.c:(.text+0x7): undefined reference to 'ud_init'
example.c:(.text+0x7): undefined reference to 'ud_set_input_file'
example.c:(.text+0x7): undefined reference to 'ud_insn_asm'

The command I am using is:

$ gcc -ludis86 example.c -o example 

as instructed in the user-manual.

Clearly, linker is not able to link libudis library. But if I change my command to:

$ gcc example.c -ludis86 -o example 

It starts working. So can please someone explain what is the problem with the first command?

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what version of gcc? It could be a version related bug. –  EnabrenTane Aug 10 '12 at 0:52
Its not a bug!! Version is: gcc (Ubuntu/Linaro 4.4.4-14ubuntu5.1) 4.4.5 –  user1129237 Aug 10 '12 at 1:10
possible duplicate of Linker order - GCC –  patrickvacek Mar 5 '14 at 16:17

2 Answers 2

up vote 23 down vote accepted

Because that's how the linking algorithm used by GNU linker works (a least when it comes to linking static libraries).

A library is a collection (an archive) of object files. When you add a library using the -l option, the linker does not unconditionally take all object files from the library. It only takes those object files that are currently needed, i.e. files that resolve some currently unresolved (pending) symbols. After that, the linker completely forgets about that library.

The list of pending symbols is continuously maintained by the linker as the linker processes input object files, one after another from left to right. As it processes each object file, some symbols get resolved and removed from the list, other newly discovered unresolved symbols get added.

So, if you included some library by using -l, the linker uses that library to resolve as many currently pending symbols as it can, and then completely forgets about that library. If it later suddenly discovers that it now needs some additional object file(s) from that library, the linker will not "return" to that library to retrieve those additional object files. It is already too late.

For this reason, it is always a good idea to use -l option late in the linker's command line, so that by the time the linker gets to that -l it can reliably determine which object files it needs and which it doesn't need. Placing the -l option as the very first parameter to the linker generally makes no sense at all: at the very beginning the list of pending symbols is empty, meaning that the linker will not take anything from the library at all.

In your case, you object file example.o contains references to symbols ud_init, ud_set_input_file etc. The linker should receive that object file first. It will add these symbols to the list of pending symbols. After that you can use -l option to add the your library: -ludis86. The linker will search your library and take everything from it that resolves those pending symbols.

If you place the -ludis86 option first in the command line, the linker will effectively ignore your library, since at the beginning it does not know that it will need ud_init, ud_set_input_file etc. Later, when processing example.o it will discover these symbols and add them to the pending symbol list. But these symbols will remain unresolved to the end, since -ludis86 was already processed (and effectively ignored).

Sometimes, when two (or more) libraries refer to each other in circular fashion, one might even need to use the -l option twice with the same library, to give linker two chances to retrieve the necessary object files from that library.

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It's not just a GNU thing. This is the standard, POSIX-required behavior: -l library Search the library named liblibrary.a. A library shall be searched when its name is encountered, so the placement of a -l option is significant. Several standard libraries can be specified in this manner, as described in the EXTENDED DESCRIPTION section. Implementations may recognize implementation-defined suffixes other than .a as denoting libraries. See pubs.opengroup.org/onlinepubs/9699919799/utilities/c99.html –  R.. Aug 10 '12 at 2:37
@R.. This begs the question, why does the standard require this behavior? Is there some advantage to be had by using this approach? Other compiler tools like msvc and borland doesn't follow this approach and it works just fine. In many ways, it seems better since it's less error prone for users of this tool. –  greatwolf Aug 4 '13 at 1:44
@greatwolf: MSVC is just about the opposite of "works just fine" when it comes to C. Anyway, the motivation for the order mattering is that you can have the same symbols might be defined in more than one library, in which case you want to be able to control which one gets used. –  R.. Aug 4 '13 at 2:15
My impression is that this is not a static library issue only, if you explicitly specify -l:libwhatever.so for example, the undefined reference linkererror persists as long as the -l:libwhatever.so token occurs earlier in the gcc command than the object_file.o token –  alexandre iolov Dec 27 '14 at 13:16

I hit this same issue a while back. Bottom line is that gnu tools won't always "search back" in the library list to resolve missing symbols. Easy fixes are any of the following:

  1. Just specify the libs and objs in the dependency order (as you have discovered above)

  2. OR if you have a circular dependency (where libA references a function in libB, but libB reference a function in libA), then just specify the libs on the command line twice. This is what the manual page suggests as well. e.g.

    gcc foo.c -lfoo -lbar -lfoo

  3. Use the -( and -) params to specify a group of archives that have such cirular dependencies. Look at the gnu linker manual for --start-group and --end-group. See here for more details.

When you use option 2 or 3, you're likely introducting a performance cost for linking. If your don't have that much to link, it may not matter.

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