Grokking Simplicity is a friendly, practical guide that will change the way you approach software design and development.
Distributed across servers, difficult to test, and resistant to modification-modern software is complex. Grokking Simplicity is a friendly, practical guide that will change the way you approach software design and development. It introduces a unique approach to functional programming that explains why certain features of software are prone to complexity, and teaches you the functional techniques you can use to simplify these systems so that they're easier to test and debug.
Purchase of the print book includes a free eBook in PDF, Kindle, and ePub formats from Manning Publications.
About the technology
Developers rightly fear the unintended complexity that infects most code. This book shows you how to write software that keeps complexity close to its inherent minimum. As you write software you should distinguish between code that alters your system's state, and code that does not. Once you learn to make that distinction, you can refactor much of your state-altering "actions" into stateless "calculations." Your software will be simpler.
About the book
The book also teaches you to solve the complex timing bugs that inevitably creep into asynchronous and multithreaded code. In advanced sections of the book you learn how composable abstractions help avoid repeating code and open up new levels of expressivity.
Patterns for simpler code
Powerful time modeling approaches to simplify asynchronous code
How higher-order functions can make code reusable and composable
About the reader
For intermediate and advanced developers building complex software. Exercises, illustrations, self-assessments, and hands-on examples lock in each new idea.
About the author
Eric Normand is an expert software developer who has been an influential teacher of functional programming since 2007.
Table of Contents
1 Welcome to Grokking Simplicity
2 Functional thinking in action
PART 1 - ACTIONS, CALCULATIONS, AND DATA
3 Distinguishing actions, calculations, and data
4 Extracting calculations from actions
5 Improving the design of actions
6 Staying immutable in a mutable language
7 Staying immutable with untrusted code
8 Stratified design, part 1
9 Stratified design, part 2
PART 2 - FIRST-CLASS ABSTRACTIONS
10 First-class functions, part 1
11 First-class functions, part 2
12 Functional iteration
13 Chaining functional tools
14 Functional tools for nested data
15 Isolating timelines
16 Sharing resources between timelines
17 Coordinating timelines
18 Reactive and onion architectures
19 The functional journey ahead