Book Image

Hands-On GUI Application Development in Go

By : Andrew Williams
Book Image

Hands-On GUI Application Development in Go

By: Andrew Williams

Overview of this book

Go is often compared to C++ when it comes to low-level programming and implementations that require faster processing, such as Graphical User Interfaces (GUIs). In fact, many claim that Go is superior to C++ in terms of its concurrency and ease of use. Most graphical application toolkits, though, are still written using C or C++, and so they don't enjoy the benefits of using a modern programming language such as Go. This guide to programming GUIs with Go 1.11 explores the various toolkits available, including UI, Walk, Shiny, and Fyne. The book compares the vision behind each project to help you pick the right approach for your project. Each framework is described in detail, outlining how you can build performant applications that users will love. To aid you further in creating applications using these emerging technologies, you'll be able to easily refer to code samples and screenshots featured in the book. In addition to toolkit-specific discussions, you'll cover more complex topics, such as how to structure growing graphical applications, and how cross-platform applications can integrate with each desktop operating system to create a seamless user experience. By delving into techniques and best practices for organizing and scaling Go-based graphical applications, you'll also glimpse Go's impressive concurrency system. In the concluding chapters, you'll discover how to distribute to the main desktop marketplaces and distribution channels. By the end of this book, you'll be a confident GUI developer who can use the Go language to boost the performance of your applications.
Table of Contents (25 chapters)
Title Page
Copyright and Credits
About Packt
Contributors
Preface
Comparison of GUI Toolkits
Index

Summary


In this chapter, we explored techniques for designing and programming more complex graphical applications. While looking at principles for complex layouts and deep navigation structures, we compared how common applications deal with these challenges and noted the types of complex user interfaces to avoid. To provide a richer, consistent user experience in these applications, we investigated the APIs that provide standard dialog windows and allow developers to configure application windows to be consistent with the application workflow.

Background task progress and system notifications should be visible but not interrupt the user's workflow. We explored how to use toolkit widgets and common techniques to provide this balanced communication. To further integrate with the current operating system, we explored the differences between, and additional features provided by, desktop platforms so that applications can match system semantics while maintaining a single code base for cross-platform...