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You're reading from Advanced Python Programming Build high performance, concurrent, and multi-threaded apps with Python using proven design patterns

Product type Course

Published in Feb 2019

Publisher Packt

ISBN-13 9781838551216

Length 672 pages

Edition 1st Edition

Languages

Python

Tools

Dask

Concepts

Design Patterns

Authors (3):

Quan Nguyen

Sakis Kasampalis

Dr. Gabriele Lanaro

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Table of Contents (41) Chapters

Title Page

About Packt

Contributors

Preface

Benchmarking and Profiling FREE CHAPTER

Pure Python Optimizations

Fast Array Operations with NumPy and Pandas

C Performance with Cython

Exploring Compilers

Implementing Concurrency

Parallel Processing

Advanced Introduction to Concurrent and Parallel Programming

Amdahl's Law

Working with Threads in Python

Using the with Statement in Threads

Concurrent Web Requests

Working with Processes in Python

Reduction Operators in Processes

Concurrent Image Processing

Introduction to Asynchronous Programming

Implementing Asynchronous Programming in Python

Building Communication Channels with asyncio

Deadlocks

Starvation

Race Conditions

The Global Interpreter Lock

The Factory Pattern

The Builder Pattern

Other Creational Patterns

The Adapter Pattern

The Decorator Pattern

The Bridge Pattern

The Facade Pattern

Other Structural Patterns

The Chain of Responsibility Pattern

The Command Pattern

The Observer Pattern

1. Appendix

2. Other Books You May Enjoy

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Index

Implementation

There are many ways to implement a Chain of Responsibility in Python, but my favorite implementation is the one by Vespe Savikko (https://legacy.python.org/workshops/1997-10/proceedings/savikko.html). Vespe's implementation uses dynamic dispatching in a Pythonic style to handle requests (http://j.mp/ddispatch).

Let's implement a simple, event-based system using Vespe's implementation as a guide. The following is the UML class diagram of the system:

The Event class describes an event. We'll keep it simple, so in our case, an event has only a name:

class Event:
     def __init__(self, name):
         self.name = name

     def __str__(self):
         return self.name

The Widget class is the core class of the application. The parent aggregation shown in the UML diagram indicates that each widget can have a reference to a parent object, which by convention, we assume is a Widget instance. Note, however, that according to the rules of inheritance, an instance of any of the subclasses...

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You're reading from Advanced Python Programming Build high performance, concurrent, and multi-threaded apps with Python using proven design patterns

Table of Contents (41) Chapters

Implementation

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Authors (3)

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