Book Image

Hands-On Design Patterns with Kotlin

By : Alexey Soshin

Book Image

Hands-On Design Patterns with Kotlin

By: Alexey Soshin

Overview of this book

Design patterns enable you as a developer to speed up the development process by providing you with proven development paradigms. Reusing design patterns helps prevent complex issues that can cause major problems, improves your code base, promotes code reuse, and makes an architecture more robust. The mission of this book is to ease the adoption of design patterns in Kotlin and provide good practices for programmers. The book begins by showing you the practical aspects of smarter coding in Kotlin, explaining the basic Kotlin syntax and the impact of design patterns. From there, the book provides an in-depth explanation of the classical design patterns of creational, structural, and behavioral families, before heading into functional programming. It then takes you through reactive and concurrent patterns, teaching you about using streams, threads, and coroutines to write better code along the way By the end of the book, you will be able to efficiently address common problems faced while developing applications and be comfortable working on scalable and maintainable projects of any size.

Preface

Who this book is for

What this book covers

To get the most out of this book

Free Chapter

Getting Started with Kotlin

Getting Started with Kotlin

Basic language syntax and features

Introduction to design patterns

Working with Creational Patterns

Working with Creational Patterns

Abstract Factory

Understanding Structural Patterns

Understanding Structural Patterns

Getting Familiar with Behavioral Patterns

Getting Familiar with Behavioral Patterns

Chain of responsibility

Template method

Functional Programming

Functional Programming

Why functional programming?

Functions as values

Expressions, not statements

Streaming Your Data

Streaming Your Data

The it notation

The map() function

Streams are lazy, collections are not

Staying Reactive

Staying Reactive

Reactive principles

Reactive extension

Threads and Coroutines

Threads and Coroutines

Designed for Concurrency

Designed for Concurrency

The fan-out design pattern

The fan-in design pattern

Buffered channels

Unbiased select

Selecting on close

Sidekick channel

Deferred channel

Idioms and Anti-Patterns

Idioms and Anti-Patterns

Instance checks

Try-with-resources

Inline functions

Constructor overload

Dealing with nulls

Sealed, not enumerated

More companions

Scala functions

Reactive Microservices with Kotlin

Reactive Microservices with Kotlin

Getting started with Vert.x

Handling requests

Working with databases

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Inline functions

You can think of inline functions as a copy/paste instruction for the compiler. Each time the compiler sees a call to a function marked with inline, it will replace the call with the concrete function body.

It makes sense to use the inline function only if it's a higher-order function that receives a lambda as one of its arguments:

inline fun doesntMakeSense(something: String) {
    println(something)
}

This is the most common use case where you would like to use inline:

inline fun makesSense(block: () -> String) {
    println("Before")
    println(block())
    println("After")
}

You call it as usual, with the block body:

makesSense {
    "Inlining"
}

But if you view the bytecode, you'll see it's actually translated to the lines produces and not to a function call:

println("Before")
println("Inlining"...