The standard solution to a problem like this, if it's faced in a programming language that is not C++, is to write a custom preprocessor that understands some subset of the language in question and your annotation, rewrites the code with annotations removed, which is then passed to the actual language compiler.
This is the standard method when it comes to extending languages: Adding an preprocessing step before the compiler.
Unfortunately it's next to impossible to just parse feature complete C++; processing C++ source code almost always ends up in creating a full AST generator, due to some of it's tedious to analyze language features.
Look at these declarations:
template<bool b, class T> void foo(T &t){if(b) T.do_this(); else T.do_that();}
class foobar { public: virtual void do_this(); virtual void do_that(); };
class barfoo : public foobar { public: virtual void do_this(); virtual void do_that(); };
and now this function
void bar(float l){ barfoo t; foo<fsqrt(l) > 1, foobar>(t); }
The problem here is, that the brackets have double meaning, for the template and the comparision for a template parameter. The only way to decide to which each bracket belongs requires a complete syntax tree.
I know of only one such tool like you describe: The MOC of the Qt toolkit, does what you suggest: C++ code annotated with keywords signal and slot. Qt is open source so it may be a good idea to look into MOC's sources.
Writing and reading C++ is very hard indeed.