@E_net4 I don't think they noticed that it was links to a non-stack exchange site, whatsoever.
> no means did I suggest that the linked question was salvageable, but it still is useful
I think your it meant to refer to the comment, but it sounds like you are saying the question was useful; which did you mean?
@PeterHall You want to know what's crazy about this? I think the solution ends up allowing... some crazy things. See also github.com/rust-lang/rust/issues/48055
@orlp Tell me more about reddit voting: I usually open all of the interesting things on my front page in a new tab. So that's a direct link too, right? So are all of my votes lost then?
@Shepmaster When you have IFoo than needs IBar that needs IBaz and IQux, it can be cool to say to a framework: Foo implements IFoo, Bar implements IBar, etc. and the framework understand how to resolve the full chain of dependancies.
But I agree that this is mostly useful with a language with full runtime reflexion
Furthermore, Rust does not have constructors, so it cannot be done with the same way as C#
Mmmmmm... It would require injectables to have a trait implemented. And for most of the IoC frameworks, it'd require the parameter types to be 'known'.
I'm not sure how we could surface that type information to the injector in a programmatic way. I think, like Boe was saying, we'd need some heavyweight reflection that just isn't available in Rust (to my knowledge)
C++ has RTTI in some form, doesn't it? (Now I'll have to dig into it). rust-ioc from KodrAus (you linked above) certainly looks nice, but it's definitely quite a bit more to set up
Yeah... Rust macroland is still 7-dimensional chess to me.
Having just read up on it (very briefly), it looks like C++s RTTI is mostly used/useful for dynamic typechecking safely. I'm not sure we can't achieve something similar with TypeIdhere, so maybe we can do something similar to the C++ version.
you have to add &* for Box<str> etc. but it's fairly low-impedance
I don't think there's a solution that will work for any Deref<Target = str> as well as char. Barring maybe a future innovation that lets the stdlib explicitly disclaim the possible conflicting impl
I also discovered today that a new consensus emerged regarding float from_bits. So after all this time, it appears to be fine to just transmute to f32.
@набиячлэвэли My aim here is to make it feel like an extension to byteorder just for run-time endianness, no more, no less. Still, there are quite a few API design decisions to make.
So at this phase, seeing how other users have done this is likely to bring useful ideas.
I don't have anything in Rust anymore (the impls were in toys that got dumped on reboot probably) and whenever I needed this in C++ all I needed was big/small (not middle) so something akin to static const is_big_endian = [](){ std::uint16_t data = 1; std:uint8_t test[2]{}; std::memcpy(test, &data, sizeof(test)); return test[1]; }();