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Practical System Programming for Rust Developers

You're reading from   Practical System Programming for Rust Developers Build fast and secure software for Linux/Unix systems with the help of practical examples

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Product type Paperback
Published in Dec 2020
Publisher Packt
ISBN-13 9781800560963
Length 388 pages
Edition 1st Edition
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Author (1):
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Prabhu Eshwarla Prabhu Eshwarla
Author Profile Icon Prabhu Eshwarla
Prabhu Eshwarla
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Table of Contents (17) Chapters Close

Preface 1. Section 1: Getting Started with System Programming in Rust
2. Chapter 1: Tools of the Trade – Rust Toolchains and Project Structures FREE CHAPTER 3. Chapter 2: A Tour of the Rust Programming Language 4. Chapter 3: Introduction to the Rust Standard Library 5. Chapter 4: Managing Environment, Command Line, and Time 6. Section 2: Managing and Controlling System Resources in Rust
7. Chapter 5: Memory Management in Rust 8. Chapter 6: Working with Files and Directories in Rust 9. Chapter 7: Implementing Terminal I/O in Rust 10. Chapter 8: Working with Processes and Signals 11. Chapter 9: Managing Concurrency 12. Section 3: Advanced Topics
13. Chapter 10: Working with Device I/O 14. Chapter 11: Learning Network Programming 15. Chapter 12: Writing Unsafe Rust and FFI 16. Other Books You May Enjoy

Building the tokenizer

The tokenizer is the module in our system design that reads one or more characters from an arithmetic expression and translates it into a token. In other words, input is a set of characters and output is a set of tokens. In case you are wondering, examples of tokens are Add, Subtract, and Num(2.0).

We have to first create a data structure for two things:

  • To store the input arithmetic expression from the user
  • To represent the output tokens

In the following section, we will delve into how to determine the right data structures for the tokenizer module.

Tokenizer data structure

To store the input arithmetic expression, we can choose among the following data types:

  • String slice
  • String

We will choose the &str type, as we do not need to own the value or dynamically increase the size of the expression. This is because the user will provide the arithmetic expression once, and then the expression won't change for...

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