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blog: add the ‹rust-opinion›
Signed-off-by: Matej Focko <me@mfocko.xyz>
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---
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title: Mixed feelings on Rust
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description: |
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Discussing my mixed feelings about the Rust language.
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date: 2024-01-28
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authors:
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- key: mf
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title: a.k.a. passionate language hater
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tags:
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- rust
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- memory safety
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- cult
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- hype
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hide_table_of_contents: false
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---
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Rust has become a rather popular language these days. I've managed to get my
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hands dirty with it during _[Advent of Code]_ ‘22 and partially ‘23. I've also
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used it for few rounds of _[Codeforces]_ and I have to try very hard to maintain
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some variety of languages for LeetCode challenges along with the Rust. I'll
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disclaim up front that I won't be only positive, since this post is a result of
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multiple discussions about Rust and I stand behind
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_“All that glitters is not gold”_, so if you can't stand your favorite language
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being criticized in any way, don't even proceed. :wink:
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<!--truncate-->
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## Memory safety
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I'll start by kicking the biggest benefit of the language, the memory safety.
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Let's be honest here, majority of the checks rely on the static analysis, cause
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you can't do anything else during the compile-time, right? Therefore we can
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basically say that we are relying on the compiler to “solve” all of our issues.
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:::warning
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I'm not doubting the fact that compiler can prevent **a lot** of the memory
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errors, I'm just saying it's not realistic to cover **everything**.
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:::
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### Compiler
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I guess we can safely[^2] agree on the fact that we 100% rely on the compiler to
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_have our back_. Is the compiler bug-free? I doubt it. This is not meant in an
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offensive way to the Rust compiler developers, but we need to be realistic here.
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It's a compiler, even older and larger projects like _gcc_ or _llvm_ can't avoid
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bugs to appear.
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When I was trying out Rust for some of the LeetCode challenges I've stumbled
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upon the following warning:
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![Example of a compiler bug](https://i.imgur.com/NfPLF6o.png)
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:::danger [Issue](https://github.com/rust-lang/rust/issues/59159)
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The issue here comes from the fact that we have 2 simultaneous references to the
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same memory (one is mutable and one immutable). If you cannot think of any way
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this can break, I'll give you a rather simple example from C++ where this could
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cause an issue.
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Imagine a function that has some complex object and also calls a coroutine which
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utilizes read-only reference to that object. When the coroutine suspends, the
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caller can modify the object. This can break the integrity of data read by the
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coroutine.
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- Yes, this **can** cause a memory error.
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- Yes, this **hasn't** been handled until someone noticed it.
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Fixing this bug is not backwards compatible, cause you're covering a case that
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hasn't been covered before.
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:::
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### Enforcing the safety
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One of the ways Rust enforces the safety is by restricting what you can do, like
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the example above. Aforementioned issue _can_ happen, but **doesn't have to**.
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Rule of the thumb in the Rust compiler is to _“block”_ anything that can be an
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issue, static analysis can't do much more, it cannot decide whether it's safe to
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do it or not.
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Satisfying the Rust compiler is sometimes a brutal pain in the ass, because you
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cannot do things like you're used to, you need to work around them _somehow_.
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:::tip
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Key difference between Rust and C or C++ lies in the fact that Rust chooses to
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_ban_ all “potentially offensive” actions, C and C++ _relies_ on **you** to be
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sure it's safe to do.
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![C++ v. Rust](https://i.imgur.com/0vbkYPp.png)
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:::
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### Consequences
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Where are we heading with this approach of “if it compiles, it runs” though?
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In this aspect I have a rather similar opinion as with regards to the ChatGPT
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and its derivatives.
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If you teach people to 100% depend on the compiler, they will do it, cause it's
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_easy_. All you need to do is make the compiler _shut up_[^3]. Giving up the
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_intellectual masturbation_ about the memory safety will make you lose your edge
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over the time. When we get to the point of everyone being in the mindset
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mentioned above, who's going to maintain the compiler? This is the place where
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you **need to** think about the memory safety and furthermore in a much more
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general way than in your own projects, because it is the thing that everyone
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_blindly believes in_ in the end.
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I'm not saying that everyone should give up Rust and think about their memory
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management and potential memory issues. I'm just saying that going the easy way
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will make people _dull_ and they should think about it anyways, that's how the
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issue above has been discovered. If everyone walked past and didn't think about
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it, no one would discover this issue till it bit them hard.
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:::tip Standard library
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Even the standard library is littered with `unsafe` blocks that are prefixed
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with comments in style:
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```rs
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// SAFETY: …
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```
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The fact that the _casual_ Rust dev doesn't have to think much about safety,
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cause the compiler has their back, doesn't mean that the Rust compiler dev
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doesn't either.
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I gotta admit that I adopted this concept in other languages (even in Python),
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cause you can encounter situations where it doesn't have to be clear _why_ you
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can do _what_ you're doing.
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:::
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## Development & design
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Development of Rust is… very fast. One positive is that they're trying to be as
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backward compatible as possible at least by verifying against all the published
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crates in the process. Of course, you cannot be backward compatible about fixing
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the bugs that have been found, but such is life.
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### Fast development cycle
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One of the negatives of the fast development cycle is the fact that they're
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using the latest features already in the next release of the Rust. Yes, it is
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something that you can use for verifying and testing your own changes, but at
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the same time it places a requirement of the latest release to compile the next
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one.
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:::tip
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If you check `gcc` for example, they have a requirement of minimal version of
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compiler that you need for the build. Though gcc's requirement is not so _needy_
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as the Rust one.
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:::
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One of the other negatives is the introduction of bugs. If you're pushing
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changes, somewhat mindlessly, at such a fast pace, it is inevitable to introduce
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a bunch bugs in the process. Checking the GitHub issue tracker with
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```
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is:issue is:open label:C-bug label:T-compiler
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```
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yields **2,224** open issues at the time of writing this post.
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### RFCs
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You can find **a lot** of RFCs for the Rust. Some of them are more questionable
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than the others. Fun thing is that a lot of them make it to the nightly builds,
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so they can be tested and polished off. Even the questionable ones… I'll leave
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few examples for a better understanding.
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One of such features is the `do yeet` expression:
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```rust
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#![feature(yeet_expr)]
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fn foo() -> Result<String, i32> {
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do yeet 4;
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}
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assert_eq!(foo(), Err(4));
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fn bar() -> Option<String> {
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do yeet;
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}
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assert_eq!(bar(), None);
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```
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It allows you to “yeet” the errors out of the functions that return `Result` or
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`Option`.
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[One](https://github.com/rust-lang/rfcs/pull/3503) of the more recent ones is
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the ability to include Cargo manifests into the sources, so you can do something
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like:
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```rust
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#!/usr/bin/env cargo
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---
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[dependencies]
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clap = { version = "4.2", features = ["derive"] }
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---
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use clap::Parser;
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#[derive(Parser, Debug)]
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#[clap(version)]
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struct Args {
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#[clap(short, long, help = "Path to config")]
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config: Option<std::path::PathBuf>,
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}
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fn main() {
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let args = Args::parse();
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println!("{:?}", args);
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}
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```
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I would say you can get almost anything into the language…
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## Community and hype train
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Rust community is a rather unique thing. A lot of people will hate me for this,
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but I can't help, but to compare them to _militant vegans_. I'll go through some
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of the things related to it, so I can support my opinion at least.
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_Rust is the best language._ It is not. There is no best language, each has its
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own positives and negatives, you need to choose the language that's **the most**
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**suitable for your use case**. There are areas where Rust excels, though I have
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to admit it's very close to being a universal hammer regardless of how suitable
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it is. There is a very steep learning curve to it, beginnings in Rust are very
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painful.
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_Rewrite everything in Rust._ Just no. There are multiple feedbacks on doing
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rewrites, it is very common to fix _N_ bugs with a rewrite while introducing
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_N + 1_ other bugs in the process. It doesn't solve anything unless there are
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some strong reasons to go with it. Majority of such suggested rewrites don't
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have those reasons though.
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_Language ‹x› is bad, though in Rust…_ Cherry-picking one specific pain point of
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one language and reflecting how it is better in other language can go both ways.
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For example it is rather easy to pick the limitations imposed by Rust compiler
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and show how it's possible in other languages :man_shrugging:
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I don't mind any of those opinions, you're free to have them, as long as you
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don't rub them in my face which is not the usual case… This experience makes it
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just worse for me, part of this post may be also influenced by this fact.
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### Rust in Linux
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:::caution
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As someone who has seen the way Linux kernel is built in the RHEL ecosystem, how
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complex the whole thing is and how much resources you need to proceed, I have
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very strong opinions on this topic.
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:::
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It took years of work to even “incorporate” Rust into the Linux codebase, just
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to get the “Hello World!”. I don't have anything against the idea of writing
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drivers in the Rust, I bet it can catch a lot of common mistakes, but still
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introducing Rust to the kernel is another step to enlarge the monster.
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I have to admit though that the _Apple GPU_ driver for Linux written in Rust is
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quite impressive. Apart from that there are not so many benefits, yet…
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## Packaging
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I'll divide the packaging into the packaging of the language itself and the
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programs written in Rust.
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Let's start with the `cargo` itself though. Package managers of the languages
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usually get a lot of hate (you can take `npm` or `pip` as examples[^1]). If
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you've ever tried out Rust, I bet you already know where I'm going with this.
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Yes, I mean the compilation times, or even Cargo downloading _whole_ index of
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crates just so you can update that one dependency (and 3 millions of indirect
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deps). When I was doing AoC ‘22 in Rust, I've set up `sccache` right away on the
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first day.
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Let's move to the packaging of the Rust itself, it's tedious. Rust has a very
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fast development cycle and doesn't even try to make the builds backward
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compatible. If there is a new release of Rust, there is a very high chance that
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you cannot build that release with anything other than **the latest** Rust
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release. If you have ever touched the packaging, you know that this is something
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that can cause a lot of problems, cause you need the second-to-latest version to
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compile the latest version, don't forget that this applies inductively… People
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running _Gentoo_ could tell you a lot about this.
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:::info
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Compiling the compilers takes usually more time than compiling the kernel
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itself…
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:::
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I cannot speak about packaging of Rust programs in other than RHEL-based
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distros, though I can speak about RHEL ecosystem. Fedora packaging guidelines
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specify that you need to build each and every dependency of the program
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separately. I wanted to try out _AlmaLinux_ and install Alacritty there and I
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failed miserably. The solution that worked, consisted of ignoring the packaging
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guidelines, running `cargo build` and consuming the binaries afterwards.
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Dependencies of the Rust programs are of a similar nature as JS dependencies.
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> I'm tipping my fedora[^2] in the general direction of the maintainers of Rust
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> packages in RHEL ecosystem. I wouldn't be able to do this without losing my
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> sanity.
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## Likes
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If you've come all the way here and you're a Rustacean, I believe I've managed
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to get your blood boiling, so it's time to finish this off by stuff I like about
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Rust. I doubt I will be able to cover everything, but I can try at least. You
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have to admit it's much easier to remember the bad stuff as opposed to the good.
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:wink:
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### Workflow and toolchain
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I prefered using Rust for the _Advent of Code_ and _Codeforces_ as it provides
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a rather easy way to test the solutions before running them with the challenge
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input (or test runner). I can give an example from the _Advent of Code_:
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```rust
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use aoc_2023::*;
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type Output1 = i32;
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type Output2 = Output1;
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struct DayXX {}
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impl Solution<Output1, Output2> for DayXX {
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fn new<P: AsRef<Path>>(pathname: P) -> Self {
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let lines: Vec<String> = file_to_lines(pathname);
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todo!()
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}
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fn part_1(&mut self) -> Output1 {
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todo!()
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}
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fn part_2(&mut self) -> Output2 {
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todo!()
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}
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}
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fn main() -> Result<()> {
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DayXX::main()
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}
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test_sample!(day_XX, DayXX, 42, 69);
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```
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This was the skeleton I've used and the macro at the end is my own creation that
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expands to:
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```rust
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#[cfg(test)]
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mod day_XX {
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use super::*;
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#[test]
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fn part_1() {
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let path = DayXX::get_sample(1);
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let mut day = DayXX::new(path);
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assert_eq!(day.part_1(), 42);
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}
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#[test]
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fn part_2() {
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let path = DayXX::get_sample(2);
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let mut day = DayXX::new(path);
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assert_eq!(day.part_2(), 69);
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}
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}
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```
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When you're solving the problem, all you need to do is switch between
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`cargo test` and `cargo run` to check the answer to either sample or the
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challenge input itself.
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|
Introduce [bacon] and it gets even better. Bacon is a CLI tool that wraps around
|
||||||
|
the `cargo` and allows you to check, run, lint or run tests on each file save.
|
||||||
|
It's a very pleasant thing for a so-called _compiler-assisted_ development.
|
||||||
|
|
||||||
|
Speaking of linting from within the bacon, you cannot leave out the [clippy].
|
||||||
|
Not only it can whip your ass because of errors, but it can also produce a lot
|
||||||
|
of helpful suggestions, for example passing slices by borrow instead of
|
||||||
|
borrowing the `Vec` itself when you don't need it.
|
||||||
|
|
||||||
|
### Standard library
|
||||||
|
|
||||||
|
There's **a lot** included in the standard library. It almost feels like you
|
||||||
|
have all you need[^4]. I like placeholders (like `todo!()`, `unreachable!()`,
|
||||||
|
`unimplemented!()`) to the extent of
|
||||||
|
[implementing](/cpp/exceptions-and-raii/placeholders) them as exceptions in C++.
|
||||||
|
|
||||||
|
You can find almost anything. Though you can also hit some very weird issues
|
||||||
|
with some of the nuances of the type system.
|
||||||
|
|
||||||
|
### `unsafe`
|
||||||
|
|
||||||
|
This might be something that people like to avoid as much as possible. However I
|
||||||
|
think that forming a habit of commenting posibly unsafe operations in **any**
|
||||||
|
language is a good habit, as I've mentioned above. You should be able to argue
|
||||||
|
why you can do something safely, even if the compiler is not kicking your ass
|
||||||
|
because of it.
|
||||||
|
|
||||||
|
Excerpt of such comment from work:
|
||||||
|
|
||||||
|
```py
|
||||||
|
# SAFETY: Taking first package instead of specific package should be
|
||||||
|
# safe, since we have put a requirement on »one« ‹upstream_project_url›
|
||||||
|
# per Packit config, i.e. even if we're dealing with a monorepo, there
|
||||||
|
# is only »one« upstream. If there is one upstream, there is only one
|
||||||
|
# set of GPG keys that can be allowed.
|
||||||
|
return self.downstream_config.packages[
|
||||||
|
self.downstream_config._first_package
|
||||||
|
].allowed_gpg_keys
|
||||||
|
```
|
||||||
|
|
||||||
|
### Traits
|
||||||
|
|
||||||
|
One of the other things I like are the traits. They are more restrictive than
|
||||||
|
templates or concepts in C++, but they're doing their job pretty good. If you
|
||||||
|
are building library and require multiple traits to be satisfied it means a lot
|
||||||
|
of copy-paste, but that's soon to be fixed by the [trait aliases].
|
||||||
|
|
||||||
|
:::tip Comparing to other languages
|
||||||
|
|
||||||
|
On Wikipedia I've seen trait being defined as a more restrictive type class as
|
||||||
|
you may know it from the Haskell for example. C++ isn't behind either with its
|
||||||
|
_constraints and concepts_. I would say that we can order them in the following
|
||||||
|
order based on the complexity they can express:
|
||||||
|
|
||||||
|
```
|
||||||
|
Rust's trait < Haskell's type class < C++'s concept
|
||||||
|
```
|
||||||
|
|
||||||
|
:::
|
||||||
|
|
||||||
|
You can also hit some issues, like me when trying to support conversions between
|
||||||
|
underlying numeric types of a 2D vectors or support for using an operator from
|
||||||
|
both sides (I couldn't get `c * u` to work in the same way as `u * c` because
|
||||||
|
the first one requires you to implement the trait of a built-in type).
|
||||||
|
|
||||||
|
:::warning Implementation
|
||||||
|
|
||||||
|
Implementing traits lies in
|
||||||
|
|
||||||
|
```rust
|
||||||
|
impl SomeTrait for SomeStruct {
|
||||||
|
// implementation goes here
|
||||||
|
}
|
||||||
|
```
|
||||||
|
|
||||||
|
One of the things I **would love to** see is being able to define the helper
|
||||||
|
functions within the same block. As of now, the only things allowed are the ones
|
||||||
|
that are required by the trait, which in the end results in a randomly lying
|
||||||
|
functions around (or in a implementation of the structure itself). I don't like
|
||||||
|
this mess at all…
|
||||||
|
|
||||||
|
:::
|
||||||
|
|
||||||
|
### Influence of functional paradigm
|
||||||
|
|
||||||
|
You can see a big influence of the functional paradigm. Not only in iterators,
|
||||||
|
but also in the other parts of the language. For example I prefer `Option<T>` or
|
||||||
|
`Result<T, E>` to `null`s and exceptions. Pattern matching together with
|
||||||
|
compiler both enforces handling of the errors and rather user-friendly way of
|
||||||
|
doing it.
|
||||||
|
|
||||||
|
Not to mention `.and_then()` and such. However spending most of the time with
|
||||||
|
the AoC you get pretty annoyed of the repetitive `.unwrap()` during parsing,
|
||||||
|
since you are guaranteed correct input.
|
||||||
|
|
||||||
|
### Macros
|
||||||
|
|
||||||
|
Macros are a very strong pro of the Rust. And no, we're not going to talk about
|
||||||
|
the procedural macros…
|
||||||
|
|
||||||
|
As I've shown above I've managed to “tame” a lot of copy-paste in the tests for
|
||||||
|
the AoC by utilizing a macro that generated a very basic template for the tests.
|
||||||
|
|
||||||
|
As I have mentioned the traits above, I cannot forget to give props to `derive`
|
||||||
|
macro that allows you to “deduce” the default implementation. It is very helpful
|
||||||
|
for a tedious tasks like implementing `Debug` (for printing out the structures)
|
||||||
|
or comparisons, though with the comparisons you need to be careful about the
|
||||||
|
default implementation, it has already bitten me once or twice.
|
||||||
|
|
||||||
|
## Summary
|
||||||
|
|
||||||
|
Overall there are many things about the Rust I like and would love to see them
|
||||||
|
implemented in other languages. However there are also many things I don't like.
|
||||||
|
Nothing is **exclusively** black and white.
|
||||||
|
|
||||||
|
[advent of code]: https://adventofcode.com
|
||||||
|
[bacon]: https://dystroy.org/bacon/
|
||||||
|
[clippy]: https://github.com/rust-lang/rust-clippy
|
||||||
|
[codeforces]: https://codeforces.com
|
||||||
|
[trait aliases]: https://github.com/rust-lang/rfcs/blob/master/text/1733-trait-alias.md
|
||||||
|
|
||||||
|
[^1]:
|
||||||
|
not to even mention multiple different packaging standards Python has, which
|
||||||
|
is borderline https://xkcd.com/927/
|
||||||
|
|
||||||
|
[^2]: pun intended
|
||||||
|
[^3]: It's not that easy with the Rust compiler, but OK…
|
||||||
|
[^4]:
|
||||||
|
unlike Python where there's whole universe in the language itself, yet there
|
||||||
|
are essential things not present…
|
Loading…
Reference in a new issue