Tabs are 8 characters, and thus indentations are also 8 characters. There are heretic movements that try to make indentations 4 (or even 2!) characters deep, and that is akin to trying to define the value of PI to be 3.

I am in love with this awsome document; I love its guidelines, and coding conventions.

However, when Rust was introduced into the kernel, they butchered these beautiful guidelines, I know it’s hard to look at such heretic actions, but you have to see this:

The default settings of rustfmt are used. This means the idiomatic Rust style is followed. For instance, 4 spaces are used for indentation rather than tabs.

How can this even relate to the ideology of the first document? I am deeply saddened by these new rules.

I know this is “The Rust experiment”, but this must be fixed before it’s too late! This has to reach someone.

A counter-argument might be:

The code should be formatted using rustfmt. In this way, a person contributing from time to time to the kernel does not need to learn and remember one more style guide. More importantly, reviewers and maintainers do not need to spend time pointing out style issues anymore, and thus less patch roundtrips may be needed to land a change.

And to that I say that rustfmt is configurable per project, and if it isn’t, then it has to be. Doesn’t something like .editorconfig exist?

Edit: I think I read enough comments to come up with a conclusion.

At first, forcing another language’s code style upon another sounds backwards, but both styles are actually more similar than I originally though, the kernel’s C style is just rustfmt’s default with:

  • 80 character line.
  • 8-space hard tabs.
  • Indentation limited to 3.
  • Short local-variable names.
  • Having function length scale negatively with complexity.

The part about switch statements doesn’t apply as Rust replaced them with match.*

The part about function brackets on new lines doesn’t apply because Rust does have nested functions.

The bad part about bracket-less if statements doesn’t apply as Rust doesn’t support such anti-features.

The part about editor cruft is probably solved in this day & age.

The rest are either forced by the borrow checker, made obsolete by the great type system, or are just C exclusive issues that are unique to C.

I left out some parts of the standard that I do not understand.

This all turned up to be an indentation and line-size argument. Embarrassing!

*: I experimented with not-indenting the arms of the root match expression, it’s surprisingly very good for simple match expressions, and feels very much like a switch, though I am not confident in recommending to people. Example:

match x {
5 => foo(),
3 => bar(),
1 => match baz(x) {
	Ok(_) => foo2(),
	Err(e) => match maybe(e) {
		Ok(_) => bar2(),
		_ => panic!(),
		}
	}
_ => panic!(),
}

  • Rustmilian@lemmy.world
    link
    fedilink
    English
    arrow-up
    0
    ·
    edit-2
    6 months ago

    Why should we have the same standard for two fundamentally different languages with distinct design philosophies and features?
    Even if the C coding standard was used, it fundamentally will not make Rust more legible to C-only kernel devs. Imposing the C coding standard on Rust would be fundamentally counterproductive, as it would undermine Rust’s safety and productivity features. Rust’s coding guidelines align with its design principles, promoting idiomatic Rust code that leverages language features like ownership, borrowing, and lifetimes.
    This ensures that Rust code in the kernel is safe, concurrent, and maintainable, while adhering to the language’s best practices. While the C coding standard served its purpose well for the procedural C language, it is ill-suited for a modern language like Rust, which has different priorities and language constructs. Having separate coding standards allows each language to shine in its respective domain within the kernel, leveraging their strengths while adhering to their respective design philosophies. Having separate coding standards for C and Rust within the kernel codebase is the sensible approach.