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

Product type Paperback

Published in Nov 2018

Publisher Packt

ISBN-13 9781789343052

Length 446 pages

Edition 1st Edition

Languages

Python

Tools

Abstract

Concepts

Concurrency

Author (1):

Quan Nguyen

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Table of Contents (22) Chapters

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

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The with statement in concurrent programming

Obviously, opening and closing external files does not resemble concurrency very much. However, we mentioned earlier that the with statement, as a context manager, is not only used to manage file descriptors, but most resources in general. And if you actually found managing lock objects from the threading.Lock() class similar to managing external files while going through Chapter 2, Amdahl's Law, then this is where the comparison between the two comes in handy.

As a refresher, locks are mechanisms in concurrent and parallel programming that are typically used to synchronize threads in a multithreaded application (that is, to prevent more than one thread from accessing the critical session simultaneously). However, as we will discuss again in Chapter 12, Starvation, locks are also a common source of deadlock, during which a thread...

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Authors (1)

Quan Nguyen

Quan Nguyen, the author of the first edition of this book, is a Python programmer with a strong passion for machine learning. He holds a dual degree in mathematics and computer science, with a minor in philosophy, earned from DePauw University. Quan is deeply involved in the Python community and has authored multiple Python books, contributing to the Python Software Foundation and regularly sharing insights on DataScience portal. He is currently pursuing a Ph.D. in computer science at Washington University in St. Louis.

See other products by Quan Nguyen