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Learn Java 17 Programming

You're reading from   Learn Java 17 Programming Learn the fundamentals of Java Programming with this updated guide with the latest features

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Product type Paperback
Published in Jul 2022
Publisher Packt
ISBN-13 9781803241432
Length 748 pages
Edition 2nd Edition
Languages
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Author (1):
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Nick Samoylov Nick Samoylov
Author Profile Icon Nick Samoylov
Nick Samoylov
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Table of Contents (23) Chapters Close

Preface 1. Part 1: Overview of Java Programming
2. Chapter 1: Getting Started with Java 17 FREE CHAPTER 3. Chapter 2: Java Object-Oriented Programming (OOP) 4. Chapter 3: Java Fundamentals 5. Part 2: Building Blocks of Java
6. Chapter 4: Exception Handling 7. Chapter 5: Strings, Input/Output,and Files 8. Chapter 6: Data Structures, Generics, and Popular Utilities 9. Chapter 7: Java Standard and External Libraries 10. Chapter 8: Multithreading and Concurrent Processing 11. Chapter 9: JVM Structure and Garbage Collection 12. Chapter 10: Managing Data in a Database 13. Chapter 11: Network Programming 14. Chapter 12: Java GUI Programming 15. Part 3: Advanced Java
16. Chapter 13: Functional Programming 17. Chapter 14: Java Standard Streams 18. Chapter 15: Reactive Programming 19. Chapter 16: Java Microbenchmark Harness 20. Chapter 17: Best Practices for Writing High-Quality Code 21. Assessments 22. Other Books You May Enjoy

Lambda expression limitations

There are two aspects of a Lambda expression that we would like to point out and clarify:

  • If a Lambda expression uses a local variable created outside it, this local variable has to be final or effectively final (not reassigned in the same context).
  • The this keyword in a Lambda expression refers to the enclosing context, not the Lambda expression itself.

As in an anonymous class, the variable created outside and used inside a Lambda expression becomes effectively final and cannot be modified. The following is an example of an error caused by the attempt to change the value of an initialized variable:

int x = 7;
//x = 3; //compilation error
Function<Integer, Integer> multiply = i -> i * x;

The reason for this restriction is that a function can be passed around and executed in different contexts (different threads, for example), and an attempt to synchronize these contexts would defeat the original idea of the stateless...

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