Python in practice : create better programs using concurrency, libraries, and patterns
著者
書誌事項
Python in practice : create better programs using concurrency, libraries, and patterns
(Developer's library)
Addison-Wesley, c2014
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注記
"First printing, August 2013"--T.p. verso
Includes bibliographical references (p. 285-287) and index
内容説明・目次
内容説明
Winner of the 2014 Jolt Award for "Best Book"
"Whether you are an experienced programmer or are starting your career, Python in Practice is full of valuable advice and example to help you improve your craft by thinking about problems from different perspectives, introducing tools, and detailing techniques to create more effective solutions."
-Doug Hellmann, Senior Developer, DreamHost
If you're an experienced Python programmer, Python in Practice will help you improve the quality, reliability, speed, maintainability, and usability of all your Python programs.
Mark Summerfield focuses on four key themes: design patterns for coding elegance, faster processing through concurrency and compiled Python (Cython), high-level networking, and graphics. He identifies well-proven design patterns that are useful in Python, illuminates them with expert-quality code, and explains why some object-oriented design patterns are irrelevant to Python. He also explodes several counterproductive myths about Python programming-showing, for example, how Python can take full advantage of multicore hardware.
All examples, including three complete case studies, have been tested with Python 3.3 (and, where possible, Python 3.2 and 3.1) and crafted to maintain compatibility with future Python 3.x versions. All code has been tested on Linux, and most code has also been tested on OS X and Windows. All code may be downloaded at www.qtrac.eu/pipbook.html.
Coverage includes
Leveraging Python's most effective creational, structural, and behavioral design patterns
Supporting concurrency with Python's multiprocessing, threading, and concurrent.futures modules
Avoiding concurrency problems using thread-safe queues and futures rather than fragile locks
Simplifying networking with high-level modules, including xmlrpclib and RPyC
Accelerating Python code with Cython, C-based Python modules, profiling, and other techniques
Creating modern-looking GUI applications with Tkinter
Leveraging today's powerful graphics hardware via the OpenGL API using pyglet and PyOpenGL
目次
Foreword xiii
Introduction 1
Acknowledgments 3
Chapter 1: Creational Design Patterns 5
1.1. Abstract Factory Pattern 5
1.2. Builder Pattern 11
1.3. Factory Method Pattern 17
1.4. Prototype Pattern 24
1.5. Singleton Pattern 26
Chapter 2: Structural Design Patterns 29
2.1. Adapter Pattern 29
2.2. Bridge Pattern 34
2.3. Composite Pattern 40
2.4. Decorator Pattern 48
2.5. Facade Pattern 59
2.6. Flyweight Pattern 64
2.7. Proxy Pattern 67
Chapter 3: Behavioral Design Patterns 73
3.1. Chain of Responsibility Pattern 74
3.2. Command Pattern 79
3.3. Interpreter Pattern 83
3.4. Iterator Pattern 95
3.5. Mediator Pattern 100
3.6. Memento Pattern 106
3.7. Observer Pattern 107
3.8. State Pattern 111
3.9. Strategy Pattern 116
3.10. Template Method Pattern 119
3.11. Visitor Pattern 123
3.12. Case Study: An Image Package 124
Chapter 4: High-Level Concurrency 141
4.1. CPU-Bound Concurrency 144
4.2. I/O-Bound Concurrency 155
4.3. Case Study: A Concurrent GUI Application 164
Chapter 5: Extending Python 179
5.1. Accessing C Libraries with ctypes 180
5.2. Using Cython 187
5.3. Case Study: An Accelerated Image Package 198
Chapter 6: High-Level Networking 203
6.1. Writing XML-RPC Applications 204
6.2. Writing RPyC Applications 219
Chapter 7: Graphical User Interfaces with Tkinter 231
7.1. Introduction to Tkinter 233
7.2. Creating Dialogs with Tkinter 235
7.3. Creating Main-Window Applications with Tkinter 253
Chapter 8: OpenGL 3D Graphics 263
8.1. A Perspective Scene 264
8.2. An Orthographic Game 272
Appendix A: Epilogue 283
Appendix B: Selected Bibliography 285
Index 289
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