Here is my problem:
I have two C++ modules, A and B, which are built as dynamically-linked libraries. A offers basic math functions, and custom exception types. B is a higher level module that uses A.
B::someFunction() calls a function from A, and tries to catch custom exception A:MyExceptionFromA in order to convert it into a custom type B:MyExceptionFromB (since users of module B do not need to know about the implementation details of A).
Everything works fine as long as I remain in the C++ domain. However, if I expose B::someFunction() in python via boost python, the exception is not caught anymore in the C++ module.
I can catch std::runtime_error, from which A:MyExceptionFromA derives, and call typeid(e).name() to get the retrieve the correct mangled name, so I know the correct exception is thrown. Therefore I suspect that the problem comes from resolving this mangled symbol into the correct exception type.
I have found this link, which explains that "python uses [the insular] model to open extension modules, so that extension module writers don't need to know what symbols other extension modules might be using.". I'm suspecting this is part of the problem/solution, but I do not know enough about symbol resolution to figure out how to solve my problem.