@QPaysTaxes you add a virtual do_something(){} to the base class and override it in the type you care about and just call do_something() which either does the thing or nothing. No try/catch, not dynamic_cast.
@Puppy yeah, my preferred method is to not put objects of different types into one container throwing away type information and later on attempting to recover it with dirty hacks
emulation of double dispatch with dynamic_cast is better than the alternative of making a map from types to functions because it can handle derived classes
lexing and parsing are super boring and easy, you don't need any IR or optimization, and you're gonna make your user define all the semantics, more or less.
@QPaysTaxes What exactly does "compiled language" even mean? Oh, and what does it do more easily? I've used it, but not for very long--essentially every time I turned around I had to use P/Invoke, which made it much more difficult than C++ (but for other things, it could be much nicer indeed).
@QPaysTaxes .NET itself is a library, but the CLR (common language runtime) includes both the library and a virtual machine to execute an intermediate code.
@QPaysTaxes I'm not sure it's ever actually interpreted. For years Java has had a "Hotspot" compiler that could compile byte code at runtime. I haven't reverse engineered it to be sure, but I believe the CLR does pretty much the same, but does it to all code instead of just "hot spots" like the HotSpot VM does.
@Puppy At least in theory, it's completely an implementation detail, at least as long as everything works right, so there's no difference in behavior between the two implementations (which wasn't entirely true back when I was stuck using Java for a while, but I'd guess that was fixed years ago).
