I'm trying to make a static library from a class but when trying to use it, I always get errors with undefined references on anything. The way I proceeded was creating the object file like

g++ -c myClass.cpp -o myClass.o

and then packing it with

ar rcs myClass.lib myClass.o

There is something I'm obviously missing generally with this. I bet it's something with symbols. Thanks for any advice, I know it's most probably something I could find out if reading some tutorial so sorry if bothering with stupid stuff again :)



class myClass{
        void function();


#include "myClass.h"

void myClass::function(){}

program using the class:

#include "myClass.h"

int main(){
myClass mc;

return 0;

finally I compile it like this:

g++ -o main.exe -L. -l myClass main.cpp

the error is just classic:

C:\Users\RULERO~1\AppData\Local\Temp/ccwM3vLy.o:main.cpp:(.text+0x31): undefined
 reference to `myClass::myClass()'
C:\Users\RULERO~1\AppData\Local\Temp/ccwM3vLy.o:main.cpp:(.text+0x3c): undefined
 reference to `myClass::function()'
collect2: ld returned 1 exit status

This is probably a link order problem. When the GNU linker sees a library, it discards all symbols that it doesn't need. In this case, your library appears before your .cpp file, so the library is being discarded before the .cpp file is compiled. Do this:

g++ -o main.exe main.cpp -L. -lmylib


g++ -o main.exe main.cpp myClass.lib

The Microsoft linker doesn't consider the ordering of the libraries on the command line.

| improve this answer | |
  • 23
    Don't. This catches all kinds of developers out. I probably spent a week trying to figure out strange linker problems in a large project that turned out to be this issue. – mch Apr 12 '10 at 18:53
  • You're my hero of the day! :) I spent an hour sitting in front of an undefined reference linker error to find out that it is this simple mistake. Thank you so much :) – leemes Nov 1 '12 at 23:36
  • Thanks a bunch, just came across this thread having the same problem, and it pretty much solved the issue for me too! :) – user826955 Sep 27 '14 at 11:53
  • Even in cmake framework under linux, it appeared that order inside th target_link_libraries() do matters. Thank you a lot for this indication that saved me a lot of time ! – Tobbey Oct 13 '15 at 12:43
  • Even in the bottom half of 2015, this is still highly relevant! – merlin2011 Nov 15 '15 at 1:54

Another possible cause: forgetting extern "C".

I ran into this because I was trying to link a C++ program with a C static library. The library's header didn't have extern "C" so the linker was looking for a mangled function name, and the library actually had the unmangled function name.

It took a while to figure out what was going on, so I hope this helps someone else.

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  • 1
    Thank you, that saved me a lot of time – Chris623 Nov 27 '17 at 7:17

This is an issue how the linker optimizes the output code. Lets assume we have an executable that uses two libraries: Lib_A and Lib_B. Lib_A depends on Lib_B The Lib_A defines symbols: Lib_A1 and Lib_A2, and the Lib_B defines symbol Lib_B1 and Lib_B2. Now lets assume that the executable uses only symbol Lib_A1, and Lib_A1 uses symbol Lib_B1 which is defined in Lib_B. Symbol Lib_B1 is never used in the executable.

  1. In case of windows, the linker works like this: I have executable with two which uses some libs and all symbols used in executable and all libs are lib_A1 and lib_B1. Thus I will need these two symbols, and the rest is unnecessary. I will undefine lib_A2 and lib_B2
  2. In case of linux if you link Lib_B before Lib_A like this: g++ .... -lLib_B -lLib_A The linker works like this: I have executable that first links Lib_B. I do not see that the executable uses symbol Lib_B1 nor Lib_B2. They are unnecesary, thus I will undefine them. Later the linker see. Oh I have another library Lib_A. I can see that executable uses symbol Lib_B1. I will keep it and undefine unused symbol Lib_B2. It does not see that Lib_B1 uses Lib_A1, Which is already undefined.
  3. In case of linux if you link Lib_A before Lib_B like this: g++ ... -lLib_A -lLib_B The linker works like this: I have executable that first links Lib_A. Oh, I can see that executable uses Lib_A1. I will keep them and undefine Lib_A2. Later it can see. Oh I have another library Lib_B. I can see that now executable with already linked symbols, uses Lib_B1, I will keep them. As a result it keeps Lib_B1 and Lib_A1, and undefined Lib_B2 and Lib_A2.
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g++ -o main.exe main.cpp myClass.lib 

Using the library path and the -l flag is fraught with problems, but if you must do it, rename your library to libmylib.a and then compile as:

g++ -o main.exe main.cpp -L. -lmylib 

Note also that for portability reasons, it's generally a bad idea to use mixed case in the names of source or output files.

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  • yea I heard about recommended names for libraries.. but i already found out the error looks differentely if the library can't be linked.. so i would say that ain't the sollution in this case. and you don't need to hesitate calling me stupid_idiot ;) – Pyjong Apr 12 '10 at 18:40
  • I always forget the link order matters with g++ - every time :-( – anon Apr 12 '10 at 18:46

This should avoid linking errors and create the .so shared library:

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  • 4
    would not this just deffer problem to runtime ? – Alexander Malakhov May 14 '13 at 8:43

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