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I am receiving a lot of strange LNK2001 and LNK2019 errors when attempting to compile and link against a somewhat large static library (developed in-house). Here are the facts:

  • There are several static libs (most built in-house) all compiled into one large wrapper static lib for public consumption ("Pimpl" idiom). Essentially, we have libs A, B, and C all compiled into an internal/private lib called D. Then, we have an external/public lib that wraps around D called E.
  • The final product is not an executable, but a plug-in for Adobe Illustrator. Plug-ins are essentially just a DLL with a couple special resources and a special entry point (PluginMain() function). Compiling and linking works just great until I use the /INCLUDE option to specify that PluginMain should always be exported.
  • Creating a plug-in and linking against lib D works fine (no errors whatsoever). Creating a plug-in and linking against lib E gives over 100 unresolved symbol errors (symbols that should be present in E).
  • When I run DUMPBIN on the E.lib file, it appears to have all the symbols that the linker is complaining about when trying to create a plug-in. However, I'm not entirely certain I understand all the output syntax from DUMPBIN...
  • The libs are all cross-platform and compile and link just fine with GCC/LLVM on Mac.

Most of the functions that the linker complains about are either plain functions or static member functions. Most of those look suspiciously like functions that the compiler might try to inline. I have tried disabling optimization and/or automatic inlining, but the same link errors are still present.

Can anyone point me in the direction of some compile and/or link settings that might resolve the issue? Settings that are commonly misconfigured in situations like this?

Perhaps there is a setting I missed that is causing the linker not to export these symbols when linking E? Perhaps there is a setting that forces the linker to export ALL symbols when linking E that I can try? Maybe a utility exists to help me inspect the lib symbols myself for a clue?

I feel like I've tried everything, but it never hurts to ask. Thanks all.

EDIT 1: snowdude requested an actual link error:

E.lib(PathArt.cpp.obj) : error LNK2001: unresolved external symbol "private: __thiscall E::PathSegPoint::PathSegPoint(struct D::PathSegPoint const &)" (??0PathSegPoint@E@@AAE@ABU0D@@@Z)

I should add that E::PathSegPoint::PathSegPoint(const D::PathSegPoint&) is a private constructor for constructing an external/public consumable E::PathSegPoint object from an internal/private D::PathSegPoint object. Again, this is the "Pimpl" idiom. Some classes/functions are friends of E::PathSegPoint to enable this sort of construction.

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Sounds to me like those symbols might not be present in D in the first place because they are unused. Can you check that they are present in D? (Dumpbin) –  Fozi Oct 31 '13 at 18:53
    
It's a great question and I'd like to see an answer to this but doing what you are doing is a can of worms. I usually end up just including all needed libraries directly using property files. Also, blogs.msdn.com/b/oldnewthing/archive/tags/linker –  Fozi Oct 31 '13 at 18:57
    
Remember when looking at dumpbin output all those decorations are important. Can you include an actual error message? –  snowdude Oct 31 '13 at 19:01
    
@snowdude Added as edit to the original question. –  inspector-g Oct 31 '13 at 19:28
    
@Fozi Yes, some unresolved symbol errors appear to be in regards to symbols that should have been present in D, but most are in regards to missing symbols from E. And thanks for the link, I'll take a look. –  inspector-g Oct 31 '13 at 19:30

1 Answer 1

I thought I'd post an answer in case anyone shows up to this page in the future.

For several reasons a few years ago, we started compiling these libraries with the Intel C++ compiler inside Visual Studio. Some of these reasons have changed, and we needed to switch back to the MSVC compiler. Upon switching to the MSVC compiler, these linker errors disappeared!

I don't know why or how the Intel C++ compiler developed these link problems, but it's entirely possible that this is a bug.

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