Book Image

Learn Java with Projects

By : Dr. Seán Kennedy, Maaike van Putten

5 (3)

Book Image

Learn Java with Projects

5 (3)

By: Dr. Seán Kennedy, Maaike van Putten

Overview of this book

Learn Java with Projects stands out in the world of Java guides; while some books skim the surface and others get lost in too much detail, this one finds a nice middle ground. You’ll begin by exploring the fundamentals of Java, from its primitive data types through to loops and arrays. Next, you’ll move on to object-oriented programming (OOP), where you’ll get to grips with key topics such as classes, objects, encapsulation, inheritance, polymorphism, interfaces, and more. The chapters are designed in a way that focuses on topics that really matter in real-life work situations. No extra fluff here, so that you get more time to spend on the basics and form a solid foundation. As you make progress, you’ll learn advanced topics including generics, collections, lambda expressions, streams and concurrency. This book doesn't just talk about theory—it shows you how things work with little projects, which eventually add up to one big project that brings it all together. By the end of this Java book, you’ll have sound practical knowledge of Java and a helpful guide to walk you through the important parts of Java.

Preface

Who this book is for

What this book covers

To get the most out of this book

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Conventions used

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Part 1: Java Fundamentals

Part 1: Java Fundamentals

Free Chapter

Chapter 1: Getting Started with Java

Chapter 1: Getting Started with Java

Technical requirements

Exploring Java features

Installing Java

Writing our first program

Compiling and running Java programs

Working with an IDE

Creating and running a program with an IDE

Chapter 2: Variables and Primitive Data Types

Chapter 2: Variables and Primitive Data Types

Technical requirements

Understanding and declaring variables

Understanding Java’s primitive data types

Project – dinosaur profile generator

Chapter 3: Operators and Casting

Chapter 3: Operators and Casting

Technical requirements

Learning how Java’s operators cooperate

Understanding Java’s operators

Explaining Java casting

Project – Dino meal planner

Chapter 4: Conditional Statements

Chapter 4: Conditional Statements

Technical requirements

Understanding scope

Exploring if statements

Mastering switch statements and expressions

Project – Task allocation system

Chapter 5: Understanding Iteration

Chapter 5: Understanding Iteration

Technical requirements

break and continue statements

Project – Dino meal planner

Chapter 6: Working with Arrays

Chapter 6: Working with Arrays

Technical requirements

Arrays – what, when, and why?

Declaring and initializing arrays

Short syntax for array initialization

Accessing elements in an array

Working with length and bounds

Iterating over arrays

Handling multidimensional arrays

Using Java’s built-in methods for arrays

Project – Dino tracker

Chapter 7: Methods

Chapter 7: Methods

Technical requirements

Explaining why methods are important

Understanding the difference between method definition and method execution

Exploring method overloading

Explaining varargs

Mastering call by value

Project – Mesozoic Eden assistant

Part 2: Object-Oriented Programming

Part 2: Object-Oriented Programming

Chapter 8: Classes, Objects, and Enums

Chapter 8: Classes, Objects, and Enums

Technical requirements

Understanding the differences between classes and objects

Contrasting instance with class members

Exploring the “this” reference

Applying access modifiers

Mastering advanced encapsulation

Delving into the object life cycle

Explaining the instanceof keyword

Understanding enums

Appreciating records

Project – Mesozoic Eden park manager

Chapter 9: Inheritance and Polymorphism

Chapter 9: Inheritance and Polymorphism

Technical requirements

Understanding inheritance

Applying inheritance

Exploring polymorphism

Contrasting method overriding and method overloading

Exploring the super keyword

Revisiting the protected access modifier

Explaining the abstract and final keywords

Applying sealed classes

Understanding instance and static blocks

Mastering upcasting and downcasting

Chapter 10: Interfaces and Abstract Classes

Chapter 10: Interfaces and Abstract Classes

Technical requirements

Understanding abstract classes

Mastering interfaces

Examining default and static interface methods

Explaining ‘private’ interface methods

Exploring sealed interfaces

Project – unified park management system

Chapter 11: Dealing with Exceptions

Chapter 11: Dealing with Exceptions

Technical requirements

Understanding exceptions

Understanding the exception hierarchy

Working with basic I/O operations

Throwing exceptions

The catch or declare principle

Working with inheritance and exceptions

Project – dinosaur care system

Chapter 12: Java Core API

Chapter 12: Java Core API

Technical requirements

Understanding the Scanner class

Comparing String with StringBuilder

Designing a custom immutable type

Examining List and ArrayList

Exploring the Date API

Project – dinosaur care system

Part 3: Advanced Topics

Part 3: Advanced Topics

Chapter 13: Generics and Collections

Chapter 13: Generics and Collections

Technical requirements

Getting to know collections

Basic operations on maps

Sorting collections

Working with generics

Hashing and overriding hashCode()

Project – advanced dinosaur care system

Chapter 14: Lambda Expressions

Chapter 14: Lambda Expressions

Technical requirements

Understanding lambda expressions

Exploring functional interfaces from the API

Mastering method references

Project – agile dinosaur care system

Chapter 15: Streams – Fundamentals

Chapter 15: Streams – Fundamentals

Technical requirements

Understanding stream pipelines

Exploring stream laziness

Creating streams

Mastering terminal operations

Project – dynamic dinosaur care system

Chapter 16: Streams: Advanced Concepts

Chapter 16: Streams: Advanced Concepts

Technical requirements

Examining intermediate operations

Delving into primitive streams

Mapping streams

Explaining Optionals

Understanding parallel streams

Project – dynamic dinosaur care system

Chapter 17: Concurrency

Chapter 17: Concurrency

Technical requirements

Understanding concurrency

Working with threads

Thread management – sleep() and join()

The synchronized keyword

The Lock interface

Concurrent collections

ExecutorService and thread pools

Threading problems

Project – Park Operations System – the calm before the storm

Index

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Summary

In this chapter, we discussed how Java implements iteration (looping). We started with the while loop, which, because the condition is at the start of the loop, will execute zero or more times. In contrast, the do-while loop, where the condition is at the end of the loop, will execute one or more times. The while and do-while loops are very useful when you do not know how many times a loop will iterate.

In contrast, the traditional for loop is extremely useful when you do know how often you want a loop executed. The traditional for loop’s header consists of three parts: the initialization section, the boolean expression, and the increment/decrement section. Thus, we can iterate a discrete number of times. This makes the traditional for loop ideal for processing arrays.

The enhanced for (for-each) loop is even more suitable for processing arrays (and collections), provided you are not interested in the current loop iteration index. Being concise, succinct, and easy...