I'd hazard a guess this is occurring due to exported symbols from your project. We're not talking about debug symbols here, but symbol table entries for every class, method, constructor, exception-handler unwind segments and so on. The latter category accounts for a lot of them in a project using exceptions and the standard library.
If you're using STL, boost or anything else with a lot of templates, you'll also have the specialisations for every type you used them with (often the entire class - not just methods), with weak linkage. The length of symbols-names gets huge with template expansion and C++ name mangling of parameter types.
When compiling windows DLLs, symbols must be explicitly exported - either using compiler directive (often using the
DLLExport macro) or a linker symbol export list.
On MacOSX and ELF-based *NIX systems it's the other way around: they're all exported by default. The linker has no way of knowing what the module might be linked to, and therefore which ones are useful or not. In reality, an application usually only really need to export
main and any unresolved symbols.
There is also no distinction for C++ class members marked as
private. You get the symbols for these too.
This reference from Apple describes how to limit visibility of symbols. You certainly used to be able to do this with
gcc - but a quick look at the equivalent for
clang suggests it's not as well supported there.