About “Cookin’ with Rust”

Table of contents

Who this book is for

This cookbook is intended for new Rust programmers, so that they may quickly get an overview of the capabilities of the Rust crate ecosystem. It is also intended for experienced Rust programmers, who should find in the recipes an easy reminder of how to accomplish common tasks.

How to read this book

The cookbook index contains the full list of recipes, organized into a number of sections: “basics”, “encoding”, “concurrency”, etc. The sections themselves are more or less ordered in progression, with later sections being more advanced, and occasionally building on concepts from earlier sections.

Within the index, each section contains a list of recipes. The recipes are simple statements of a task to accomplish, like “generate random numbers in a range”; and each recipe is tagged with badges indicating which crates they use, like rand-badge, and which categories on crates.io those crates belong to, like cat-science-badge.

New Rust programmers should be comfortable reading from the first section to the last, and doing so should give one a strong overview of the crate ecosystem. Click on the section header in the index, or in the sidebar to navigate to the page for that section of the book.

If you are simply looking for the solution to a simple task, the cookbook is today more difficult to navigate. The easiest way to find a specific recipe is to scan the index looking for the crates and categories one is interested in. From there, click on the name of the recipe to view it. This will improve in the future.

How to use the recipes

Recipes are designed to give you instant access to working code, along with a full explanation of what it is doing, and to guide you to further information.

All recipes in the cookbook are full, self contained programs, so that they may be copied directly into your own projects for experimentation. To do so follow the instructions below.

Consider this example for “generate random numbers within a range”:

rand-badge cat-science-badge

use rand::Rng;

fn main() {
    let mut rng = rand::thread_rng();
    println!("Random f64: {}", rng.gen::<f64>());

To work with it locally we can run the following commands to create a new cargo project, and change to that directory:

cargo new my-example --bin
cd my-example

Now, we also need to add the necessary crates to Cargo.toml, as indicated by the crate badges, in this case just “rand”. To do so, we’ll use the cargo add command, which is provided by the cargo-edit crate, which we need to install first:

cargo install cargo-edit
cargo add rand

Now you can replace src/main.rs with the full contents of the example and run it:

cargo run

The crate badges that accompany the examples link to the crates’ full documentation on docs.rs, and is often the next documentation you should read after deciding which crate suites your purpose.

A note about error handling

Error handling in Rust is robust when done correctly, but in today’s Rust it requires a fair bit of boilerplate. Because of this one often sees Rust examples filled with unwrap calls instead of proper error handling.

Since these recipes are intended to be reused as-is and encourage best practices, they set up error handling correctly when there are Result types involved.

The basic pattern we use is to have a fn main() -> Result.

The structure generally looks like:

use error_chain::error_chain;
use std::net::IpAddr;
use std::str;

error_chain! {
    foreign_links {

fn main() -> Result<()> {
    let bytes = b"2001:db8::1";

    // Bytes to string.
    let s = str::from_utf8(bytes)?;

    // String to IP address.
    let addr: IpAddr = s.parse()?;

    println!("{:?}", addr);

This is using the error_chain! macro to define a custom Error and Result type, along with automatic conversions from two standard library error types. The automatic conversions make the ? operator work.

For the sake of readability error handling boilerplate is hidden by default like below. In order to read full contents click on the “expand” () button located in the top right corner of the snippet.

use error_chain::error_chain;

use url::{Url, Position};

error_chain! {
    foreign_links {

fn main() -> Result<()> {
    let parsed = Url::parse("https://httpbin.org/cookies/set?k2=v2&k1=v1")?;
    let cleaned: &str = &parsed[..Position::AfterPath];
    println!("cleaned: {}", cleaned);

For more background on error handling in Rust, read this page of the Rust book and this blog post.

A note about crate representation

This cookbook is intended eventually to provide expansive coverage of the Rust crate ecosystem, but today is limited in scope while we get it bootstrapped and work on the presentation. Hopefully, starting from a small scope and slowly expanding will help the cookbook become a high-quality resource sooner, and allow it to maintain consistent quality levels as it grows.

At present the cookbook is focused on the standard library, and on “core”, or “foundational”, crates—those crates that make up the most common programming tasks, and that the rest of the ecosystem builds off of.

The cookbook is closely tied to the Rust Libz Blitz, a project to identify, and improve the quality of such crates, and so it largely defers crate selection to that project. Any crates that have already been evaluated as part of that process are in scope for the cookbook, as are crates that are pending evaluation.