Here is some CRTP based template code that I used to try and resolve this question: Requiring overridden virtual functions to call base implementations. I would post code here, but the lines are long and easier to read on codepad.org (if needed I'll post here). It's ugly and it's somewhat artificial, of course, although it does work. But what I didn't realize at first, that while it compiles on both MSVC++ and GCC, some template types are not really defined. The part I'm questioning is several long inner
if( typeid( Derived(N) ) != typeid( Derived(N-1)) (symbolic notation) in
TBase::OnEvent function on top.
typdef these types, it will be a compilation error - there is simply not enough derived classes for type to be defined with such long
...::TDerived::... chain, so you'll get, correctly, compilation error
TDerived is not defined in TBase. Yet compiler eats them through
typeid. When I checked in debugger MSVC++ compiler output (with full symbolic info), it seems that all those long
...::TDerived::... that should not really result in any class, in
typeid resolved by compiler to simply the last
TDerived04 in class chain. And RTTI is pulled for this last class in the class chain, independently of how many
...::TDerived::... I have.
Taking into account that both MSVC++ and GCC do that (although I only have access to GCC through codepad.org), my question is next: is it somehow defined behavior of
typeid? Why then
typedef of any of those long
...::TDerived::... does not resolve to
EDIT: I mean, I'm happy
typedef does not resolve to
TDerived04, that'd be disaster for anyone who uses
typedef, but why such inconsistency between
EDIT: GCC accepts
TDerived04::TDerived04::TDerived04::TDerived04 lD4; variable declaration. And the type is simply
TDerived04 in the end. Is there a rule for collapsing scope resolution? Apparently, both MSVC++ and GCC seems to be doing the same in
typeid, but MSVC++, unlike GCC, can't handle other scenarios - it gives compile error, requiring arguments for constructor(s).