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We have a code base broken up into static libraries. Unfortunately, the libraries have circular dependencies; e.g., libfoo.a depends on libbar.a and vice-versa.

I know the "correct" way to handle this is to use the linker's --start-group and --end-group options, like so:

g++ -o myApp -Wl,--start-group -lfoo -lbar -Wl,--end-group

But in our existing Makefiles, the problem is typically handled like this:

g++ -o myApp -lfoo -lbar -lfoo

(Imagine this extended to ~20 libraries with complex interdependencies.)

I have been going through our Makefiles changing the second form to the first, but now my co-workers are asking me why... And other than "because it's cleaner" and a vague sense that the other form is risky, I do not have a good answer.

So, can linking the same library multiple times ever create a problem? For example, could the link fail with multiply-defined symbols if the same .o gets pulled in twice? Or is there any risk we could wind up with two copies of the same static object, creating subtle bugs?

Basically, I want to know if there is any possibility of link-time or run-time failures from linking the same library multiple times; and if so, how to trigger them. Thanks.

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The only problem I can think of is when you manage to link with two different versions of same library. That's hard to do and (IMO) is unlikely to occur on linux. Also, only 20 libraries doesn't look like much. Is it worth walking through makefiles? You could spend that time doing something else. –  SigTerm Feb 21 '12 at 15:43
This problem just goes away if you fix your libraries to not have circular dependencies. –  Mark B Feb 21 '12 at 15:46
I presume removing circular dependencies by examining and breaking up the libraries isn't feasible? Because that'd be the cleanest way –  Tom Tanner Feb 21 '12 at 15:46
@Mark - Not easily done, because it is a non-trivial legacy code base and because some useful OOP patterns create circular dependencies naturally. –  Nemo Feb 21 '12 at 16:01
@SigTerm - I cannot think of any specific problem, either, which is why I am asking the question. –  Nemo Feb 21 '12 at 16:01

2 Answers 2

up vote 3 down vote accepted

All I can offer is a lack of counter-example. I've actually never seen the first form before (even though it's clearly better) and always seen this solved with the second form, and haven't observed problems as a result.

Even so I would still suggest changing to the first form because it clearly shows the relationship between the libraries rather than relying on the linker behaving in a particular way.

That said, I would suggest at least considering if there's a possibility of refactoring the code to pull out the common pieces into additional libraries.

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Thanks, Mark. Although I do find it amusing that half of the comments on my question say "Fix your codebase!" and the other half say "Why are you tampering with a working codebase?" :-) –  Nemo Feb 21 '12 at 16:36
The first form would introduce a performance cost as the linker try to find symbols repeated across all listed libraries. see this: stackoverflow.com/a/409470/70198 –  Baiyan Huang Jan 18 '13 at 2:59
The first form is also only working for GNU ld and is thus not a portable solution. –  user1225999 Oct 16 '14 at 8:33

Since it is a legacy application, I bet the structure of the libraries is inherited from some arrangement which probably does not matter any more, such as being used to build another product which you no longer do.

Even if still structural reasons remain for the inherited library structure, almost certainly, it would still be acceptable to build one more library from the legacy arrangement. Just put all the modules from the 20 libraries into a new library, liballofthem.a. Then every single application is simply g++ -o myApp -lallofthem ...

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