Book Image

Rust Quick Start Guide

By : Daniel Arbuckle
Book Image

Rust Quick Start Guide

By: Daniel Arbuckle

Overview of this book

Rust is an emerging programming language applicable to areas such as embedded programming, network programming, system programming, and web development. This book will take you from the basics of Rust to a point where your code compiles and does what you intend it to do! This book starts with an introduction to Rust and how to get set for programming, including the rustup and cargo tools for managing a Rust installation and development work?ow. Then you'll learn about the fundamentals of structuring a Rust program, such as functions, mutability, data structures, implementing behavior for types, and many more. You will also learn about concepts that Rust handles differently from most other languages. After understanding the Basics of Rust programming, you will learn about the core ideas, such as variable ownership, scope, lifetime, and borrowing. After these key ideas, you will explore making decisions in Rust based on data types by learning about match and if let expressions. After that, you'll work with different data types in Rust, and learn about memory management and smart pointers.

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Table of Contents (10 chapters)
Preface
Preface
Who this book is for
What this book covers
To get the most out of this book
Get in touch
Free Chapter
1
Getting Ready
Getting Ready
Installing Rust
Starting a new project
Compiling our project
Using crates.io
Summary
2
Basics of the Rust Language
Basics of the Rust Language
Functions
Modules
Expressions
Variables, types, and mutability
Data structures
More about functions
Implementing behavior for types
Summary
3
The Big Ideas – Ownership and Borrowing
The Big Ideas – Ownership and Borrowing
Scope and ownership
Transferring ownership
Copying
Lending
Accessing borrowed data
The lifetime of borrowed data
Ownership and the self parameter
Summary
4
Making Decisions by Pattern Matching
Making Decisions by Pattern Matching
Variable assignment with pattern matching
Using if let expressions to test whether a pattern matches
Using match to choose one of several patterns
Using don't care in patterns
Moving and borrowing in pattern matches
Matching tuples and other more complex patterns
Gotchas
Summary
5
One Data Type Representing Multiple Kinds of Data
One Data Type Representing Multiple Kinds of Data
Enumerations
Traits and trait objects
Any
Comparison of these techniques
Summary
6
Heap Memory and Smart Pointers
Heap Memory and Smart Pointers
Box
Vec and String
Rc
Cell and RefCell
Arc
Mutex and RwLock
Summary
7
Generic Types
Generic Types
Types with generic type parameters
Limiting what types can be used for type parameters
Implementing functionality for types with generic type parameters
Using generic types as function return values
Compiler errors involving generic type parameters
Generic types on functions outside of implementation blocks
Alternative ways to write trait bounds
Generic types versus trait objects
Higher-order functions and trait bounds that represent functions
Complete implementation of a binary tree with generic type parameters
Summary
8
Important Standard Traits
Important Standard Traits
Traits that can be derived
Traits that enable operators
Traits that are implemented automatically
Summary
9
Other Books You May Enjoy
Other Books You May Enjoy
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Mutex and RwLock

Mutex and RwLock are both similar to RefCell in some ways, but not as closely related as Arc is to Rc.

It's Mutex's job to make sure that only one thread has access to the contained data at a time. Since it guarantees that only one block of code has access at all at any given time, a Mutex can safely provide both read and write access without breaking Rust's rules.

In the following example, we have Mutex and Arc in action, and some very basic multithreading:

let counter = Arc::new(Mutex::new(0));

for _ in 0..10 {
 let local_counter = Arc::clone(&counter);
 thread::spawn(move || {
 let wait = time::Duration::new(random::<u64>() % 8, 0);
 thread::sleep(wait);
 let mut shared = local_counter.lock().unwrap();
 *shared += 1;
 });
}

loop {
    {
        let shared = counter.lock().unwrap();
        println!("{} threads have completed", *shared...
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