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Learning RxJava

You're reading from   Learning RxJava Build concurrent applications using reactive programming with the latest features of RxJava 3

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Product type Paperback
Published in Feb 2020
Publisher Packt
ISBN-13 9781789950151
Length 412 pages
Edition 2nd Edition
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Authors (2):
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Nick Samoylov Nick Samoylov
Author Profile Icon Nick Samoylov
Nick Samoylov
Thomas Nield Thomas Nield
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Thomas Nield
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Table of Contents (22) Chapters Close

Preface 1. Section 1: Foundations of Reactive Programming in Java
2. Thinking Reactively FREE CHAPTER 3. Observable and Observer 4. Basic Operators 5. Section 2: Reactive Operators
6. Combining Observables 7. Multicasting, Replaying, and Caching 8. Concurrency and Parallelization 9. Switching, Throttling, Windowing, and Buffering 10. Flowable and Backpressure 11. Transformers and Custom Operators 12. Section 3: Integration of RxJava applications
13. Testing and Debugging 14. RxJava on Android 15. Using RxJava for Kotlin 16. Other Books You May Enjoy Appendix A: Introducing Lambda Expressions 1. Appendix B: Functional Types 2. Appendix C: Mixing Object-Oriented and Reactive Programming 3. Appendix D: Materializing and Dematerializing 4. Appendix E: Understanding Schedulers

Understanding schedulers

As discussed earlier, thread pools are a collection of threads. Depending on the policy of that thread pool, threads may be persisted and maintained so they can be reused. A queue of tasks is then executed by the threads from that pool.

Some thread pools hold a fixed number of threads (such as a thread created by the computation() method we used earlier), while others dynamically create and destroy threads as needed.

Typically, in Java, you use an ExecutorService as a thread pool. However, RxJava implements its own concurrency abstraction called Scheduler. This defines methods and rules that an actual concurrency provider such as an ExecutorService or actor system must obey. The construct flexibly renders RxJava non-opinionated regarding the source of concurrency.

Many of the default Scheduler implementations can be found in the Schedulers static factory...

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