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Mastering Concurrency in Python

You're reading from   Mastering Concurrency in Python Create faster programs using concurrency, asynchronous, multithreading, and parallel programming

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Product type Paperback
Published in Nov 2018
Publisher Packt
ISBN-13 9781789343052
Length 446 pages
Edition 1st Edition
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Concepts
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Author (1):
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Quan Nguyen Quan Nguyen
Author Profile Icon Quan Nguyen
Quan Nguyen
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Table of Contents (22) Chapters Close

Preface 1. Advanced Introduction to Concurrent and Parallel Programming FREE CHAPTER 2. Amdahl's Law 3. Working with Threads in Python 4. Using the with Statement in Threads 5. Concurrent Web Requests 6. Working with Processes in Python 7. Reduction Operators in Processes 8. Concurrent Image Processing 9. Introduction to Asynchronous Programming 10. Implementing Asynchronous Programming in Python 11. Building Communication Channels with asyncio 12. Deadlocks 13. Starvation 14. Race Conditions 15. The Global Interpreter Lock 16. Designing Lock-Based and Mutex-Free Concurrent Data Structures 17. Memory Models and Operations on Atomic Types 18. Building a Server from Scratch 19. Testing, Debugging, and Scheduling Concurrent Applications 20. Assessments 21. Other Books You May Enjoy

The concept of livelock

The concept of livelock is connected to deadlock; some even consider it an alternate version of deadlock. In a livelock situation, the processes (or threads) in the concurrent program are able to switch their states; in fact, they switch states constantly. Yet, they simply switch back and forth infinitely, and no progress is made. We will now consider an actual scenario of livelock.

Suppose that a pair of spouses are eating dinner together at a table. They only have one fork to share with each other, so only one of them can eat at any given point. Additionally, the spouses are really polite to each other, so even if one spouse is hungry and wants to eat their food, they will leave the fork on the table if their partner is also hungry. This specification is at the heart of creating a livelock for this problem: when both spouses are hungry, each will wait...

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