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Learning C++ Functional Programming

You're reading from   Learning C++ Functional Programming Explore functional C++ with concepts like currying, metaprogramming and more

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Product type Paperback
Published in Aug 2017
Publisher
ISBN-13 9781787281974
Length 304 pages
Edition 1st Edition
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Author (1):
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Wisnu Anggoro Wisnu Anggoro
Author Profile Icon Wisnu Anggoro
Wisnu Anggoro
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Table of Contents (9) Chapters Close

Preface 1. Diving into Modern C++ 2. Manipulating Functions in Functional Programming FREE CHAPTER 3. Applying Immutable State to the Function 4. Repeating Method Invocation Using Recursive Algorithm 5. Procrastinating the Execution Process Using Lazy Evaluation 6. Optimizing Code with Metaprogramming 7. Running Parallel Execution Using Concurrency 8. Creating and Debugging Application in Functional Approach

Preface

Functional programming is a style of constructing the elements and structure of a computer program by composing pure functions, avoiding shared state, mutable data, and side-effects, like we usually see in mathematics. The variable in the code function represents the value of the function parameter, and it is similar to the mathematical function. The idea is that a programmer defines the functions that contain the expression, definition, and the parameters that can be expressed by a variable to solve problems.
Functional programming is declarative rather than imperative, which means programming is done with expressions or declarations instead of statements. The application state of functional programming flows through pure functions, so it avoids the side effect. In contrast to imperative programming, the application state is usually shared and collocated with methods in objects. In imperative programming, the expressions are evaluated, and the resulting value is assigned to variables. For instance, when we group a series of expressions into a function, the resulting value depends upon the state of variables at that point in time. Because of the continuous changes in state, the order of evaluation matters. In functional programming, destructive assignment is forbidden, and each time an assignment happens, a new variable is induced. Best of all, functional code tends to be more concise and predictable, and easier to test than imperative or object-oriented code.
Although there are some specifically designed languages for functional programming, such as Haskell and Scala, we can also use C++ to accomplish designing functional programming, as we will discuss throughout this book.

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