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Learning Scala Programming

Learning Scala Programming

By : Sharma
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Learning Scala Programming

Learning Scala Programming

2 (3)
By: Sharma
Buy this Book

Overview of this book

Scala is a general-purpose programming language that supports both functional and object-oriented programming paradigms. Due to its concise design and versatility, Scala's applications have been extended to a wide variety of fields such as data science and cluster computing. You will learn to write highly scalable, concurrent, and testable programs to meet everyday software requirements. We will begin by understanding the language basics, syntax, core data types, literals, variables, and more. From here you will be introduced to data structures with Scala and you will learn to work with higher-order functions. Scala's powerful collections framework will help you get the best out of immutable data structures and utilize them effectively. You will then be introduced to concepts such as pattern matching, case classes, and functional programming features. From here, you will learn to work with Scala's object-oriented features. Going forward, you will learn about asynchronous and reactive programming with Scala, where you will be introduced to the Akka framework. Finally, you will learn the interoperability of Scala and Java. After reading this book, you'll be well versed with this language and its features, and you will be able to write scalable, concurrent, and reactive programs in Scala.
Table of Contents (16 chapters)
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1
Getting Started with Scala Programming
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Getting Started with Scala Programming
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Introduction to Scala
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Scala advantages
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Working with Scala
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Running our first program
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Summary
2
Building Blocks of Scala
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Building Blocks of Scala
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What is underneath a Scala program?
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Vals and vars
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Literals
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Data types
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Type inference
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Operators in Scala
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Wrapper classes
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String Interpolators
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Summary
3
Shaping our Scala Program
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Shaping our Scala Program
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Looping
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The for expressions
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Recursion
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Conditional statements
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Pattern matching
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Summary
4
Giving Meaning to Programs with Functions
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Giving Meaning to Programs with Functions
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Function syntax
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Calling a function
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Function literals
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Evaluation strategies
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Partial functions
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Summary
5
Getting Familiar with Scala Collections
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Getting Familiar with Scala Collections
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Motivation
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Immutable and mutable collections
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Hierarchy of collections in Scala
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Commonly used collections in Scala
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Rich operations performed on collections
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Parallel collections in Scala
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Converting a Java collection into a Scala collection
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Choosing a collection
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Collection performance
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Summary
6
Object-Oriented Scala Basics
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Object-Oriented Scala Basics
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Classes
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Abstract classes
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Objects as singletons
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Companion objects
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Case classes
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Summary
7
Next Steps in Object-Oriented Scala
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Next Steps in Object-Oriented Scala
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Composition and inheritance
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Class inheritance
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Default and parameterized constructors
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Traits
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Traits as mix-ins
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Linearization
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Packaging and importing
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Visibility rules
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Sealed traits
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Summary
8
More on Functions
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More on Functions
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Function literals
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Methods
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Functions versus methods
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What are closures?
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Higher-order functions
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Currying
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Partially applied functions
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Summary
9
Using Powerful Functional Constructs
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Using Powerful Functional Constructs
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For expressions
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Pattern matching
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Different ways we can pattern match
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Option type
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Lazy declaration
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Tail call optimization
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Combinators
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Type parameterization
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Summary
10
Advanced Functional Programming
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Advanced Functional Programming
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Why so serious about types?
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Here comes type parameterization
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Another way around - generic classes and traits
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Type parameter names
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Container types
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Type erasure
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Variance under inheritance
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Abstract types
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Type bounds
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Abstract versus parameterized types
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Type-classes
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Summary
11
Working with Implicits and Exceptions
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Working with Implicits and Exceptions
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Exception handling – the old way
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Using the Option way
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Either left or right
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Implicits - what and why
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Implicit parameters
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The implicitly method
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Implicit conversions
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Looking for implicits
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Type-classes ahead!
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Summary
12
Introduction to Akka
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Introduction to Akka
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Why do we care about Akka?
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What's up with the Actor Model?
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Understanding the Actor system
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Props
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Actor references and paths
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Selecting existing actorRefs via actorSelection
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How the Actor life cycle works
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Hello world in Akka
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Writing our first Actor
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The tell versus ask versus forward method
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Stopping Actors
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The preStart and postStop hooks
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Actor communication via messages and its semantics
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Supervising fault in our actors
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OneForOne versus AllForOne strategy
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Default supervision strategy
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Applying the supervision strategy
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Testing actors
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Summary
13
Concurrent Programming in Scala
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Concurrent Programming in Scala
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Concurrent programming
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Building blocks of concurrency
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Asynchronous programming
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Parallel collections
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Summary
14
Programming with Reactive Extensions
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Programming with Reactive Extensions
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Reactive programming
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Reactive extensions
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React to RxScala
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Summary
15
Testing in Scala
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Testing in Scala
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The why and what of TDD
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ScalaTest
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ScalaMock – a native library to mock objects
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Summary
16
Other Books You May Enjoy
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Other Books You May Enjoy
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Abstract classes

We can define abstract classes using the abstract keyword:

abstract class Person 
class Customer extends Person 
class Employee extends Person

Here, what we wanted was two subclasses that can also be treated as instances of a superclass, in our case, Person. For now, we have not shown any behavior in our abstract class. But, there are times when we want to imply some behaviors in our abstract classes that subsequent subclasses can inherit and define for themselves:

abstract class Person(category: String) { 
  val idPrefix: String 
} 
 
class Customer extends Person("External") { 
  override val idPrefix: String = "CUST" 
} 
 
class Employee extends Person("Internal") { 
  override val idPrefix: String = "EMP" 
}

Our intention to use abstract classes is clearer now. We may want a set of classes that inherit methods...

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