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Mastering the C++17 STL

You're reading from   Mastering the C++17 STL Make full use of the standard library components in C++17

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Product type Paperback
Published in Sep 2017
Publisher Packt
ISBN-13 9781787126824
Length 384 pages
Edition 1st Edition
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Author (1):
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Arthur O'Dwyer Arthur O'Dwyer
Author Profile Icon Arthur O'Dwyer
Arthur O'Dwyer
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Table of Contents (13) Chapters Close

Preface 1. Classical Polymorphism and Generic Programming 2. Iterators and Ranges FREE CHAPTER 3. The Iterator-Pair Algorithms 4. The Container Zoo 5. Vocabulary Types 6. Smart Pointers 7. Concurrency 8. Allocators 9. Iostreams 10. Regular Expressions 11. Random Numbers 12. Filesystem

Summary

Both classical polymorphism and generic programming deal with the essential problem of parameterizing the behavior of an algorithm: for example, writing a search function that works with any arbitrary matching operation.

Classical polymorphism tackles that problem by specifying an abstract base class with a closed set of virtual member functions, and writing polymorphic functions that accept pointers or references to instances of concrete classes inheriting from that base class.

Generic programming tackles the same problem by specifying a concept with a closed set of requirements, and instantiating function templates with concrete classes modeling that concept.

Classical polymorphism has trouble with higher-level parameterizations (for example, manipulating function objects of any signature) and with relationships between types (for example, manipulating the elements of an arbitrary container). Therefore, the Standard Template Library uses a great deal of template-based generic programming, and hardly any classical polymorphism.

When you use generic programming, it will help if you keep in mind the conceptual requirements of your types, or even write them down explicitly; but as of C++17, the compiler cannot directly help you check those requirements.

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