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.NET Design Patterns

You're reading from   .NET Design Patterns Learn to Apply Patterns in daily development tasks under .NET Platform to take your productivity to new heights.

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Product type Paperback
Published in Jan 2017
Publisher Packt
ISBN-13 9781786466150
Length 314 pages
Edition 1st Edition
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Authors (2):
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Praseed Pai Praseed Pai
Author Profile Icon Praseed Pai
Praseed Pai
Shine Xavier Shine Xavier
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Shine Xavier
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Table of Contents (15) Chapters Close

Preface 1. An Introduction to Patterns and Pattern Catalogs 2. Why We Need Design Patterns? FREE CHAPTER 3. A Logging Library 4. Targeting Multiple Databases 5. Producing Tabular Reports 6. Plotting Mathematical Expressions 7. Patterns in the .NET Base Class Library 8. Concurrent and Parallel Programming under .NET 9. Functional Programming Techniques for Better State Management 10. Pattern Implementation Using Object/Functional Programming 11. What is Reactive Programming? 12. Reactive Programming Using .NET Rx Extensions 13. Reactive Programming Using RxJS 14. A Road Ahead

The abstract syntax tree (AST)


In computer science, an AST, or just syntax tree, is a tree representation of the abstract (simplified) syntactic structure of the source code. Each node of the tree denotes a construct of the programming language under consideration. In our expression evaluator, the nodes are numeric values (IEEE 754 floating points), binary operators, unary operators, trigonometric functions, and a variable.

The syntax is abstract in the sense that it does not represent every detail that appears in the real syntax. For instance, grouping parentheses is implicit in the tree structure, and AST data structure discards parentheses. Before we model the AST, let us see some expressions and its AST representations:

    // AST for 5*10 
    Exp e = new BinaryExp( 
    new NumericConstant(5), 
    new NumericConstant(10), 
    OPERATOR.MUL); 

The preceding example uses two node types, that is, NumericConstant, BinaryExp. Even the simplest expression creates...

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