Book Image

Hands-On Reactive Programming with Reactor

By : Rahul Sharma
Book Image

Hands-On Reactive Programming with Reactor

By: Rahul Sharma

Overview of this book

Reactor is an implementation of the Java 9 Reactive Streams specification, an API for asynchronous data processing. This specification is based on a reactive programming paradigm, enabling developers to build enterprise-grade, robust applications with reduced complexity and in less time. Hands-On Reactive Programming with Reactor shows you how Reactor works, as well as how to use it to develop reactive applications in Java. The book begins with the fundamentals of Reactor and the role it plays in building effective applications. You will learn how to build fully non-blocking applications and will later be guided by the Publisher and Subscriber APIs. You will gain an understanding how to use two reactive composable APIs, Flux and Mono, which are used extensively to implement Reactive Extensions. All of these components are combined using various operations to build a complete solution. In addition to this, you will get to grips with the Flow API and understand backpressure in order to control overruns. You will also study the use of Spring WebFlux, an extension of the Reactor framework for building microservices. By the end of the book, you will have gained enough confidence to build reactive and scalable microservices.

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Table of Contents (13 chapters)
Preface
Preface
Who this book is for
What this book covers
To get the most out of this book
Get in touch
Free Chapter
1
Getting Started with Reactive Streams
Getting Started with Reactive Streams
Technical requirements
Reactive architecture
ReactiveX
Reactive Streams
Reactor
Summary
Questions
Further reading
2
The Publisher and Subscriber APIs in a Reactor
The Publisher and Subscriber APIs in a Reactor
Technical requirements
Stream publisher
Stream subscriber
Reactive Streams comparison
The Flux API
The Mono API
Building subscribers to Flux and Mono
Summary
Questions
Further reading
3
Data and Stream Processing
Data and Stream Processing
Technical requirements
Filtering data
Converting data
Summary
Questions
4
Processors
Processors
Technical requirements
An introduction to processors
Hot versus Cold publishers
Summary
Questions
5
SpringWebFlux for Microservices
SpringWebFlux for Microservices
Technical requirements
Introduction to SpringWebFlux
Summary
Questions
6
Dynamic Rendering
Dynamic Rendering
Technical requirements
View templates
Learning about static resources
WebClient
Summary
Questions
7
Flow Control and Backpressure
Flow Control and Backpressure
Technical requirements
Flow control
Backpressure
Summary
Questions
8
Handling Errors
Handling Errors
Technical requirements
Generating errors
Error recovery
Timeout
WebClient
Summary
Questions
9
Execution Control
Execution Control
Technical requirements
Scheduler
Parallel processing
Broadcasting
Summary
Questions
10
Testing and Debugging
Testing and Debugging
Technical requirements
Testing Reactor pipelines
Debugging Reactor streams
Summary
Questions
11
Assessments
Assessments
Chapter 1: Getting Started with Reactive Streams
Chapter 2: The Publisher and Subscriber APIs in a Reactor
Chapter 3: Data and Stream Processing
Chapter 4: Processors
Chapter 5: SpringWebFlux for Microservices
Chapter 6: Dynamic Rendering
Chapter 7: Flow Control and Backpressure
Chapter 8: Handling Errors
Chapter 9: Execution Control
Chapter 10: Testing and Debugging
12
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WebClient

In Chapter 6, Dynamic Rendering, we discussed using the Spring WebClient to make web calls in a non-blocking and asynchronous manner. The operators that we have discussed so far are applicable to Reactive Stream publishers and subscribers. WebClient also produces a Mono publisher of ServerResponse. So, how should we handle errors generated in WebClient, and generate a valid response? First, let's take a look at WebClient's default handling of server-side errors. To do this, we should first generate errors in our Fibonacci handler function, as follows:

   @Bean
    RouterFunction<ServerResponse> fibonacciEndpoint() {
        Flux<Long> fibonacciGenerator = Flux.generate(() -> Tuples.<Long,
                Long>of(0L, 1L), (state, sink) -> {
            throw new RuntimeException("Method unsupported");         
        });
      RouterFunction...
Previous Section
End of Section 6
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