Search icon CANCEL
Subscription
0
Cart icon
Your Cart (0 item)
Close icon
You have no products in your basket yet
Arrow left icon
Explore Products
Best Sellers
New Releases
Books
Videos
Audiobooks
Learning Hub
Free Learning
Arrow right icon
Arrow up icon
GO TO TOP
.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.

Arrow left icon
Product type Paperback
Published in Jan 2017
Publisher Packt
ISBN-13 9781786466150
Length 314 pages
Edition 1st Edition
Languages
Tools
Arrow right icon
Authors (2):
Arrow left icon
Praseed Pai Praseed Pai
Author Profile Icon Praseed Pai
Praseed Pai
Shine Xavier Shine Xavier
Author Profile Icon Shine Xavier
Shine Xavier
Arrow right icon
View More author details
Toc

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

OOP - A short history

OOP is a programming model that is supposed to combine structure (data) and behavior (methods) to deliver software functionality. This was a marked contrast from the procedural programming model, which was mostly in vogue when the OOP model gained prominence. The primary unit of composition in a procedural programming model is a procedure (mostly a function with side-effects). Data is fed into a series of procedures that constitutes the process or algorithm in a solution context. In the case of OOP, the data and related functions are represented together as a class, which acts as a fundamental unit in the programming model. Schematically it is as follows:

    Class Test 
    { 
      <------ Static (Class Level) Variables ---------------> 
      <------ Instance (Object Level) Variables ------------> 
      <------ Private Methods ------------------------------> 
      <------ Public Methods -------------------------------> 
    } 

As a programmer, one can create many instances of a class during the execution of a program. Since class encapsulates data and its associated operations to provide a coherent entity, the problems (or rather side-effects) associated with global variables/data (being used as payload for the procedures) went away all of a sudden. This helped to manage the complexity of developing large software.

OOP revolutionized the way programmers modeled the problem domain, with class compositions leveraging encapsulation, association, inheritance, and polymorphism. Additionally, with the flexibility to model hierarchies (that closely represent the problem domain) with ease, it became natural for developers to think in terms of objects.

Note

The origin of OOP can be traced back to the Simula programming language created by Kristen Nygaard and Ole-Johan Dahl, released in the year 1965. The advent of the Smalltalk system helped the ideas of OOP to percolate to the academia and some consulting circles. Smalltalk was a dynamically typed language, and primarily designed as a message passing system. Later, they added Simula's class-based Object model. Alan Kay, Dan Inaglis, and Adele Goldberg at Xerox PARC designed the language.

The OOP model reached a critical mass in the early 1990s, with the popularity of the C++ programming language. Even though Smalltalk and C++ were OOP languages, Smalltalk was a dynamically typed programming language, and C++ was a statically typed (though weakly enforced) programming language. The C++ programming language was created by Bjarne Stroustrup at the AT&T Bell Laboratories, as an extension of C (for wider adoption). In this regard, C++, as a programming language, has issues in terms of usage because of the compulsion to make it C-compatible. The story of evolution of the language is well chronicled in, The Design and Evolution of C++, a book written by Bjarne himself. The book deals with the rationale of designing the language and the design choices available for him to incorporate features such as single inheritance, multiple inheritance, virtual methods, exception handling, templates (Generics), I/O streams, and so on. Any serious C++ developer should not miss this particular book, as it helps to understand the reason why the C++ programming language is the way it is!

There were attempts to make protocol-based development using middleware technologies like Microsoft's Component Object Model (COM) and OMG's Common Object Request Broker Architecture (CORBA). Both CORBA and COM were very similar, and both facilitated object interoperability at the binary level. Each protocol had its own binary encoding format, and interoperability between these two standards became a problem. Some enterprising companies made a living by writing COM/CORBA bridge to rectify this problem. Also, COM was mostly available only on Microsoft Windows, making it a platform-specific solution.

Then, in 1996, Sun Microsystems came up with a language which was marketed as a programming language to write applications that are hosted in a browser (Applets). They named it Java. However, due to performance and political reasons, applet development did not took off. The language, along with its associated platform, was soon projected as a server-side programming system. This was a tremendous success, and the Java language made a strong comeback, further popularizing the OOP programming model. The primary architect of the Java language was James Gosling.

In the year 2001, Microsoft released C#, a brand new OOP language for their new virtual machine development platform, known as .NET. Later, Microsoft did add support for generics, lambda, dynamic typing, and LINQ, among others, to make C# one of the most powerful programming languages in the world. The primary architect of the language was Anders Hejlsberg.

Meanwhile, languages such as Ruby and Python made an appearance, and are still relevant in certain areas. Then, there were object-functional languages such as F#, Scala, Groovy, Clojure, and so on. However, the OOP model is symbolized by C++, C#, and Java.

lock icon The rest of the chapter is locked
Register for a free Packt account to unlock a world of extra content!
A free Packt account unlocks extra newsletters, articles, discounted offers, and much more. Start advancing your knowledge today.
Unlock this book and the full library FREE for 7 days
Get unlimited access to 7000+ expert-authored eBooks and videos courses covering every tech area you can think of
Renews at $19.99/month. Cancel anytime
Banner background image