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Rust Programming By Example

You're reading from   Rust Programming By Example Enter the world of Rust by building engaging, concurrent, reactive, and robust applications

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Product type Paperback
Published in Jan 2018
Publisher Packt
ISBN-13 9781788390637
Length 454 pages
Edition 1st Edition
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Authors (2):
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Antoni Boucher Antoni Boucher
Author Profile Icon Antoni Boucher
Antoni Boucher
Guillaume Gomez Guillaume Gomez
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Guillaume Gomez
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Table of Contents (13) Chapters Close

Preface 1. Basics of Rust 2. Starting with SDL FREE CHAPTER 3. Events and Basic Game Mechanisms 4. Adding All Game Mechanisms 5. Creating a Music Player 6. Implementing the Engine of the Music Player 7. Music Player in a More Rusty Way with Relm 8. Understanding FTP 9. Implementing an Asynchronous FTP Server 10. Implementing Asynchronous File Transfer 11. Rust Best Practices 12. Other Books You May Enjoy

Creating structures

Sometimes, we have multiple values that only make sense together, such as the two coordinates of a point. Structures are a way to create new types that contains multiple members.

Here is how we would create the aforementioned Point structure:

struct Point {
    x: i32,
    y: i32,
}

To create a new point and access its members, we use the following syntax:

let point = Point {
    x: 24,
    y: 42,
};
println!("({}, {})", point.x, point.y);

What if we want to print the point as a whole?

Let's try the following:

println!("{}", point);

The compiler does not accept this:

error[E0277]: the trait bound `Point: std::fmt::Display` is not satisfied
 --> src/main.rs:7:20
  |
7 |     println!("{}", point);
  |                    ^^^^^ `Point` cannot be formatted with the default formatter; try using `:?` instead if you are using a format string
  |
  = help: the trait `std::fmt::Display` is not implemented for `Point`
  = note: required by `std::fmt::Display::fmt`

The {} syntax is used to display a value to the end user of the application. Nevertheless, there's no standard way to display arbitrary structures. We can do what the compiler suggests: using the {:?} syntax. That requires you to add an attribute to the structure, so let's change it:

#[derive(Debug)]
struct Point {
    x: i32,
    y: i32,
}

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

The #[derive(Debug)] attribute tells the compiler to automatically generate the code to be able to print a debug representation of the structure. We'll see how this works in the section about traits. It prints the following:

Point { x: 24, y: 42 }

Sometimes, the structure contains a lot of nested fields and this representation is hard to read. To remedy that, we can use the {:#?} syntax to pretty-print the value:

println!("{:#?}", point);

This gives the following output:

Point {
    x: 24,
    y: 42
}

The documentation describes what other formatting syntax can be used: https://doc.rust-lang.org/stable/std/fmt/.

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