English | 中文
Practice Rust with challenging examples, exercises and projects
This book was designed for easily diving into and get skilled with Rust, and it's very easy to use: All you need to do is to make each exercise compile without ERRORS and Panics !
Part of our examples and exercises are borrowed from Rust By Example, thanks for your great works!
Although they are so awesome, we have our own secret weapons :)
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There are three parts in each chapter: examples, exercises and practices
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Besides examples, we have
a lot of exercises
, you can Read, Edit and Run them ONLINE -
Covering nearly all aspects of Rust, such as async/await, threads, sync primitives, optimizing, standard libraries, tool chain, data structures and algorithms etc.
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Every exercise has its own solutions
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The overall difficulties are a bit higher and from easy to super hard: easy 🌟 medium 🌟🌟 hard 🌟🌟🌟 super hard 🌟🌟🌟🌟
What we want to do is fill in the gap between learning and getting started with real projects.
Thanks to all of our contributors!
🏆 Special thanks to our English editor:
Tanish-Eagle |
We use mdbook building our exercises. You can run locally with below steps:
- Clone the repo
$ git clone git@github.com:sunface/rust-by-practice.git
- Install mdbook using Cargo
$ cargo install mdbook
- For Book in English
$ cd rust-by-practice && mdbook serve en/
- For Book in Chinese
$ cd rust-by-practice && mdbook serve zh-CN/
🌟🌟🌟 Tuple struct looks similar to tuples, it has added meaning the struct name provides but has no named fields. It's useful when you want give the whole tuple a name, but don't care the fields's names.
// fix the error and fill the blanks
struct Color(i32, i32, i32);
struct Point(i32, i32, i32);
fn main() {
let v = Point(___, ___, ___);
check_color(v);
}
fn check_color(p: Color) {
let (x, _, _) = p;
assert_eq!(x, 0);
assert_eq!(p.1, 127);
assert_eq!(___, 255);
}
🌟🌟 Within the destructuring of a single variable, both by-move and by-reference pattern bindings can be used at the same time. Doing this will result in a partial move of the variable, which means that parts of the variable will be moved while other parts stay. In such a case, the parent variable cannot be used afterwards as a whole, however the parts that are only referenced (and not moved) can still be used.
// fix errors to make it work
#[derive(Debug)]
struct File {
name: String,
data: String,
}
fn main() {
let f = File {
name: String::from("readme.md"),
data: "Rust By Practice".to_string()
};
let _name = f.name;
// ONLY modify this line
println!("{}, {}, {:?}",f.name, f.data, f);
}
🌟🌟 A match guard is an additional if condition specified after the pattern in a match arm that must also match, along with the pattern matching, for that arm to be chosen.
// fill in the blank to make the code work, `split` MUST be used
fn main() {
let num = Some(4);
let split = 5;
match num {
Some(x) __ => assert!(x < split),
Some(x) => assert!(x >= split),
None => (),
}
}