@sbi: no, no auto-approve. but we do make mistakes. i once asked Dietmar Kuehl (after a few beers) how one of my more unfortunate messages could have slipped through, and he just replied that when two experts discuss something he didn't scrutinize every word. otherwise he'd saved me then. i also have goofed up.
@FredOverflow Mhmm. That recursion test seemed to only work through editing, too, but it worked for me right away. Did I mention that the software might need to get the hang of this first? :)
@JohannesSchaublitb You come in here with something totally unrelated to what we're discussing, and don't even explain where you're heading at. Tut tut.
@Dead not exactly sure what the killer purpose of considering template arguments too for ADL is. maybe they just thought it's natural that when T* considers T, then Y<T> considers T too
i can imagine having something like enum class X { A, B; void f() { .. } }; and then you could do X x; x.f(); X would be a normal class whose only supported data members have the type of itself and where the type is implied. (above is equivalent to "enum class X { X A, B; void f() { .. } };") and having member functions. backward compatible!
enums are different from ordinary classes because (Liskov) substitution goes backwards, sort of. derived extended enum would be supertype. it's a bit thorny wrt. language design
@johannes: when we restrict to only designated named values (not the case for a C++ enum, but discussing enums as classes) then any value of BaseEnum is a valid DerivedEnum value. a valid DerivedEnum value is not necessarily a valid BaseEnum value. This opposite of ordinary "a Derived is-a Base" (LSP).