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I'm trying to use a third party C++ library that isn't using namespaces and is causing symbol conflicts. The conflicting symbols are for classes my code isn't utilizing, so I was considering creating custom header files for the third party library where the class declarations only include the public members my code is using, leaving out any members that use the conflicting classes. Basically creating an interface.

I have three questions:

  1. If the compilation to .obj files works, will this technique still cause symbol conflicts when I get to linking?

  2. If that isn't a problem, will the varying class declarations cause problems when linking? For example, does the linker verify that the declaration of a class used by each .obj file has the same number of members?

  3. If neither of those are a problem and I'm able to link the .obj files, will it cause problems when invoking methods? I don't know exactly how C++ works under the hood, but if it uses indexes to point to class methods, and those indexes were different from one .obj file to another, I'm guessing this approach would blow up at runtime.

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I think it is UB when you have class with same name but different definitions. You should put your code into a unique namespace to solve the problem instead of trying to hack around it. –  Bryan Chen Jul 1 '14 at 4:41
If I understand you question correctly, you will run into problems at link time. –  R Sahu Jul 1 '14 at 4:41
Do you have the 3rd party source or not? –  Keith Jul 1 '14 at 4:43
Can you tell us the name of that third party library so we can avoid it? Not using any namespacing could have been acceptable 20 years ago, but not today. –  Ulrich Eckhardt Jul 1 '14 at 5:37
It's the Haxe C++ Target (hxcpp). It has classes like String, File, and Class in the global namespace. I'm going to be creating a request to have them moved into a child namespace but it looks like it will be a massive undertaking. –  silentorb Jul 1 '14 at 18:25

4 Answers 4

up vote 1 down vote accepted

In theory, you need identical declarations for this to work.

In practice, you will definitely need to make sure your declarations contain:

  • All the methods you use
  • All the virtual methods, used or not.
  • All the data members

You need all these in the right order of declaration too.

You might get away with faking the data members, but would need to make sure you put in stubs that had the same size.

If you do not do all this, you will not get the same object layout and even if a link works it will fail badly and quickly at run-time.

If you do this, it still seems risky to me and as a worst case may appear to work but have odd run time failures.

"if it uses indexes ": To some extent exactly how virtual functions work is implementation defined, but typically it does use an index into a virtual function table.

What you might be able to do is to:

  • Take the original headers
  • Keep the full declarations for the classes you use
  • Stub out the classes and declarations you do not use but are referenced by the ones you do.
  • Remove all the types not referenced at all.
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For explanatory purposes a simplified explaination follows.

c++ allows you to use functions you declare. what you do is putting multiple definitions to a single declaration across multiple translation units. if you expose the class declaration in a header file your compiler sees this in each translation unit, that includes the header file.

Therefore your own class functions have to be defined exactly as they have been declared (same function names same arguments). if the function is not called you are allowed not to define it, because the compiler doesn't know whether it might be defined in another translation unit.

Compilation causes label creation for each defined function(symbol) in the object code. On the other hand a unresolved label is created for each symbol that is referenced to (a call site, a variable use).

So if you follow this rules you should get to the point where your code compiles but fails to link. The linker is the tool that maps defined symbols from each translation-unit to symbol references.

If the object files that are linked together have multiple definitions to the same functions the linker is unable to create an exact match and therefore fails to link.

In practice you most likely want to provide a library and enjoy using your own classes without bothering what your user might define. In spite of the programmer taking extra care to put things into a namespace two users might still choose the same name for a namespace. This will lead to link failures, because the compiler exposed the symbols and is supposed to link them.

gcc has added an attribute to explicitly mark symbols, that should not be exposed to the linker. (called attribute hidden (see this SO question)) This makes it possible to have multiple definitions of a class with the same name. In order for this to work across compilation units, you have to make sure class declarations are not exposed in an interface header as it could cause multiple unmatching declarations.

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I recommend using a wrapper to encapsulate the third party library.


#ifndef WRAPPER_H_
#define WRAPPER_H_

#include <memory>
class third_party;

class Wrapper
    void wrappedFunction();
// A better choice would be a unique_ptr but g++ and clang++ failed to
// compile due to "incomplete type" which is the whole point
        std::shared_ptr<third_party> wrapped;


#include "Wrapper.h"
#include <third_party.h>

void Wrapper::wrappedFunction()


The reason why a unique_ptr doesn't work is explained here: std::unique_ptr with an incomplete type won't compile

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This is actually what I started doing and then began hoping I could get by just creating headers without writing middle-man code. Since the crazy header idea won't work, creating a wrapper like this looks like my best option, so I'd like to mark this as the answer, but my question was looking more for an understanding of why the simpler header approach might not work. –  silentorb Jul 1 '14 at 23:19
@silentorb The header solution only works if none of the functions or classes you need depend any of the conficting classes. This solution also allows you to replace third_party without changing "any" of your code. –  Tobias Jul 2 '14 at 6:48

You can move the entire library into a namespace by using a clever trick to do with imports. All the import directive does is copy the relevant code into the current "translation unit" (a fancy name for the current code). You can take advantage of this as so

I've borrowed heavily from another answer by user JohnB which was later deleted by him.

// my_thirdparty.h
namespace ThirdParty {
  #include "thirdparty.h"
  //... Include all the headers here that you need to use for thirdparty.

// my_thirdparty.cpp / .cc 
namespace ThirdParty {
  #include "thirdparty.cpp"
  //... Put all .cpp files in here that are currently in your project

Finally, remove all the .cpp files in the third party library from your project. Only compile my_thirdparty.cpp.

Warning: If you include many library files from the single my_thirdparty.cpp this might introduce compiler issues due to interaction between the individual .cpp files. Things such as include namespace or bad define / include directives can cause this. Either resolve or create multiple my_thirdparty.cpp files, splitting the library between them.

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