No, I deleted it because on SO, somebody always seems to obtusely take issue with some detail, and ignore the spirit of the question, which results in downvotes, close votes, and lost rep. It's not worth the effort. Thank you for the link, and for your help :) — Alex4 mins ago
I'm not saying it's not useful. Just that absurd examples are absurd. Hence the joking.
I've got a file (written in C#) where the conditional compilation flag changes the base type of a class, and the signature of a method override, so I could easily test some functionality in an API I don't control. I'm not saying conditional compilation is bad. Just that absurd cases are absurd (and funny to mock!)
@Stargateur In this case, it was clear OP had taken the python code and then attempted to convert it to Rust token by token. It just doesn't work like that
@Shepmaster In my case? As mentioned, overriding different base class types. The implementation is the same, but I get what is argument data in one sig from properties of the type in the other sig.
Elsewhere? I'd expect different OS primitives. If you try to paper over them carefully, you might be able to use conditional compilation to handle some of that. But I feel like we typically
exactly
In rust, we'd use a type or enum to abstract that another layer, and try to push that complexity to whole functions conditionally compiled and used. (IME/IMO)
"I cannot find any documentation how to get around it." literally the second sentence of the doc XD "By default, stdin, stdout and stderr are inherited from the parent."
Hi, I am following the book and I came across a time they iterate through a vec with the use of .iter(). I used the & character instead of the iter() and it did also compile. Is there any difference in using one of the two? Code example: play.rust-lang.org/…
I'm confused by how Rust for loops work. Consider the following:
#![feature(core_intrinsics)]
fn print_type_of<T>(_: T) {
println!("{}", unsafe { std::intrinsics::type_name::<T>() });
}
fn main() {
let nums = vec![1, 2, 3];
for num in &nums { print_type_of(num); }
for num in n...