Search icon CANCEL
Subscription
0
Cart icon
Your Cart (0 item)
Close icon
You have no products in your basket yet
Arrow left icon
Explore Products
Best Sellers
New Releases
Books
Videos
Audiobooks
Learning Hub
Free Learning
Arrow right icon
Arrow up icon
GO TO TOP
Go: Design Patterns for Real-World Projects

You're reading from   Go: Design Patterns for Real-World Projects Build production-ready solutions in Go using cutting-edge technology and techniques

Arrow left icon
Product type Course
Published in Jun 2017
Publisher Packt
ISBN-13 9781788390552
Length 1091 pages
Edition 1st Edition
Languages
Arrow right icon
Authors (3):
Arrow left icon
Mario Castro Contreras Mario Castro Contreras
Author Profile Icon Mario Castro Contreras
Mario Castro Contreras
Mat Ryer Mat Ryer
Author Profile Icon Mat Ryer
Mat Ryer
Vladimir Vivien Vladimir Vivien
Author Profile Icon Vladimir Vivien
Vladimir Vivien
Arrow right icon
View More author details
Toc

Table of Contents (38) Chapters Close

Go: Design Patterns for Real-World Projects
Credits
Preface
Bibliography
1. A First Step in Go 2. Go Language Essentials FREE CHAPTER 3. Go Control Flow 4. Data Types 5. Functions in Go 6. Go Packages and Programs 7. Composite Types 8. Methods, Interfaces, and Objects 9. Concurrency 10. Data IO in Go 11. Writing Networked Services 12. Code Testing 13. Ready... Steady... Go! 14. Creational Patterns - Singleton, Builder, Factory, Prototype, and Abstract Factory Design Patterns 15. Structural Patterns - Composite, Adapter, and Bridge Design Patterns 16. Structural Patterns - Proxy, Facade, Decorator, and Flyweight Design Patterns 17. Behavioral Patterns - Strategy, Chain of Responsibility, and Command Design Patterns 18. Behavioral Patterns - Template, Memento, and Interpreter Design Patterns 19. Behavioral Patterns - Visitor, State, Mediator, and Observer Design Patterns 20. Introduction to Gos Concurrency 21. Concurrency Patterns - Barrier, Future, and Pipeline Design Patterns 22. Concurrency Patterns - Workers Pool and Publish/Subscriber Design Patterns 23. Chat Application with Web Sockets 24. Adding User Accounts 25. Three Ways to Implement Profile Pictures 26. Command-Line Tools to Find Domain Names 27. Building Distributed Systems and Working with Flexible Data 28. Exposing Data and Functionality through a RESTful Data Web Service API 29. Random Recommendations Web Service 30. Filesystem Backup 31. Building a Q&A Application for Google App Engine 32. Micro-services in Go with the Go kit Framework 33. Deploying Go Applications Using Docker 1. Good Practices for a Stable Go Environment

The Go programming language


Since the invention of the C language in the early 1970s by Dennis Ritchie at Bell Labs, the computing industry has produced many popular languages that are based directly on (or have borrowed ideas from) its syntax. Commonly known as the C-family of languages, they can be split into two broad evolutionary branches. In one branch, derivatives such as C++, C#, and Java have evolved to adopt a strong type system, object orientation, and the use of compiled binaries. These languages, however, tend to have a slow build-deploy cycle and programmers are forced to adopt a complex object-oriented type system to attain runtime safety and speed of execution:

In the other evolutionary linguistic branch are languages such as Perl, Python, and JavaScript that are described as dynamic languages for their lack of type safety formalities, use of lightweight scripting syntax, and code interpretation instead of compilation. Dynamic languages have become the preferred tool for web and cloud scale development where speed and ease of deployment are valued over runtime safety. The interpreted nature of dynamic languages means, however, they generally run slower than their compiled counterparts. In addition, the lack of type safety at runtime means the correctness of the system scales poorly as the application grows.

Go was created as a system language at Google in 2007 by Robert Griesemer, Rob Pike, and Ken Thomson to handle the needs of application development. The designers of Go wanted to mitigate the issues with the aforementioned languages while creating a new language that is simple, safe, consistent, and predictable. As Rob Pike puts it:

"Go is an attempt to combine the safety and performance of a statically-typed language with the expressiveness and convenience of a dynamically-typed interpreted language."

Go borrows ideas from different languages that came before it, including:

  • Simplified but concise syntax that is fun and easy to use

  • A type of system that feels more like a dynamic language

  • Support for object-oriented programming

  • Statically typed for compilation and runtime safety

  • Compiled to native binaries for fast runtime execution

  • Near-zero compilation time that feels more like an interpreted language

  • A simple concurrency idiom to leverage multi-core, multi-chip machines

  • A garbage collector for safe and automatic memory management

The remainder of this chapter will walk you through an introductory set of steps that will give you a preview of the language and get you started with building and running your first Go program. It is a precursor to the topics that are covered in detail in the remaining chapters of the book. You are welcome to skip to other chapters if you already have a basic understanding of Go.

lock icon The rest of the chapter is locked
Register for a free Packt account to unlock a world of extra content!
A free Packt account unlocks extra newsletters, articles, discounted offers, and much more. Start advancing your knowledge today.
Unlock this book and the full library FREE for 7 days
Get unlimited access to 7000+ expert-authored eBooks and videos courses covering every tech area you can think of
Renews at $19.99/month. Cancel anytime
Banner background image