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F# 4.0 Design Patterns

You're reading from   F# 4.0 Design Patterns Solve complex problems with functional thinking

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Product type Paperback
Published in Nov 2016
Publisher Packt
ISBN-13 9781785884726
Length 318 pages
Edition 1st Edition
Languages
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Author (1):
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Gene Belitski Gene Belitski
Author Profile Icon Gene Belitski
Gene Belitski
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Table of Contents (14) Chapters Close

Preface 1. Begin Thinking Functionally 2. Dissecting F# Origins and Design FREE CHAPTER 3. Basic Functions 4. Basic Pattern Matching 5. Algebraic Data Types 6. Sequences - The Core of Data Processing Patterns 7. Advanced Techniques: Functions Revisited 8. Data Crunching – Data Transformation Patterns 9. More Data Crunching 10. Type Augmentation and Generic Computations 11. F# Expert Techniques 12. F# and OOP Principles/Design Patterns 13. Troubleshooting Functional Code

Relationship between F# and programming paradigms

This chapter, as well as the other chapters, will teach you how to look at any given software problem from the functional paradigm angle. This view may differ significantly from paradigmatic views that you may have already developed while practising other programming approches. This assumption of the required paradigmatic shift is a much anticipated scenario, taking into consideration the factor of the programming language popularity of the so called TIOBEProgramming Community index (http://www.tiobe.com/tiobe_index?page=index), which can be considered an indicator of the popularity of programming languages.

At the time of this writing (February 2016):

  • The winning Rank #1 of TIOBE index is held by the Java programming language, which is strongly associated with the object-oriented programming paradigm
  • Rank #2 belongs to the C programming language, which can be considered representing as the traditional imperative procedural programming paradigm
  • Programming languages associated with the functional programming paradigm make it into the TIOBE index ranks only for the rank range of 21 to 50, where F# carries modest Rank #36

Nevertheless, if you've managed to read upto this point, I can safely assume that your interest in F# is not driven by its mere popularity, which, in turn, is driven by factors that do not belong to the scope of this book. For me, the bearer of an advanced degree in applied math and computer science, engineering program code within the F# ecosystem carries these intangible aesthetic qualities similar to ones of exploring a beautiful solution of a math problem or from analyzing a great chess play.

Talking seriously, I personally value most of the functional paradigm benefits of the functional code readability and maintainability. The same qualities of a typical monolithic imperative C code might be quite poor. However, are these code qualities automatically granted for anyone who has grasped mere F# syntax? Certainly not.

In addition to learning the F# syntax, the preceding point means acquiring certain skills in order to use this programming language in an idiomatic manner. F# is a multi-paradigm programming language indeed. It allows programmers to entertain many programming paradigms. The functional manner of laying out the program code can be used side by side with the imperative monolithic programming manner, or an object-oriented approach may surface when interoperability with the environment is important . Nevertheless, F# makes a claim of being a functional-first programming language. This means that the congenial programming paradigm for F# is the functional one; the language will bring to the table most benefits if it's used in a functional manner, in which case:

"it empowers users and organizations to tackle complex computing problems with simple, maintainable and robust code"-(http://fsharp.org/).

You may wonder what, exactly, idiomatic usage means and whether it will be possible to always use it. The best way of illustrating idiomatic F# use would be by performing a comparative study of correspondent coding examples. Let me take an arbitrary, simple problem and solve it by sticking to imperative, then to object-oriented, and finally, to functional paradigms. Then, I am going to compare solutions to highlight functional approach features. In order to make this comparison absolutely fair, the programming language of implementation in all three cases is going to be F#.

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