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Essential concepts of programming language design and implementation are explained and illustrated in the context of the object-oriented programming language (OOPL) paradigm. Written with the upper-level undergraduate student in mind, the text begins with an introductory chapter that summarizes the essential features of an OOPL, then widens the discussion to categorize the other major paradigms, introduce the important issues, and define the essential terms. After a brief second chapter on event-driven programming (EDP), subsequent chapters are built around case studies in each of the languages Smalltalk, C++, Java, C#, and Python. Included in each case study is a discussion of the accompanying libraries, including the essential container classes. For each language, one important event-driven library is singled out and studied. Sufficient information is given so that students can complete an event-driven project in any of the given languages. After completing the course the student should have a solid set of skills in each language the instructor chooses to cover, a comprehensive overview of how these languages relate to each other, and an appreciation of the major issues in OOPL design. Key Features: •Provides essential coverage of Smalltalk origins, syntax, and semantics, a valuable asset for students wanting to understand the hybrid Objective C language •Provides detailed case studies of Smalltalk, Java, C++, C#, and Python and features a side-by-side development of the Java and C++ languages--highlighting their similarities and differences •Sets the discussion in a historical framework, tracing the roots of the OOPLs back to Simula 67. •Provides broad-based coverage of all languages, imparting essential skills as well as an appreciation for each language’s design philosophy •Includes chapter summary, review questions, chapter exercises, an appendix with event-driven projects, and instructor resources
Now available in paperback— Languages like C#, VB .NET, and Delphi include built-in support for events, and these events become very powerful when they connect the objects and components of a system. Events make it possible for such parts to interact without any coupling. And the resulting parts can be developed and tested individually which keeps the code clean and simple. Component-based development (CBD) is an extension of object-oriented programming. CBD does away with the language and vendor-specific limitations of OOP, makes software reuse more practical and accelerates the development process. Event-based programming is the next logical step in CBD, and makes components more reusable due to their decoupled nature. But event-based systems are easier to develop, which means they're cheaper and more reliable than traditional OOP or CBD systems. This book teaches you how to develop software based on parts that interact primarily through an event mechanism. You'll learn how to use events in many different situations, to solve recurring development problems without coupling. The book introduces Signal Wiring Diagram, a novel form of software diagram similar to the circuit diagrams used by hardware designers. The book concludes with a series of case studies, incorporating all featured concepts. In a nutshell, you'll want to pick up a copy of this book because it: Shows how to use an event-based paradigm to reduce or completely eliminate coupling between classes and components Describes components, including coordinators, workers, builders, binders, and routers Contains three complete case studies that model concepts being used to design small, medium, and large systems
Covers four main areas: the re-use of software; tools and practices that software developers must use; GUI library utilization; and event-driven systems. Java applets are used to enhance the concept of conceptual material through animation and interaction.
This book provides a comprehensive treatment of the main approaches to object-oriented programming, including class-based programming, prototype programming, and actor-like languages. This book will be useful for students studying object-oriented programming, as well as for researchers and computer scientists requiring a detailed account of object-oriented programming languages and their central concepts.
Object-oriented programming is a popular buzzword these days. What is the reason for this popularity? Is object-oriented programming the solution to the software crisis or is it just a fad? Is it a simple evolutionary step or a radical change in software methodology? What is the central idea behind object-orien ted design? Are there special applications for which object-oriented program ming is particularly suited? Which object-oriented language should be used? There is no simple answer to these questions. Although object-oriented programming was invented more than twenty years ago, we still cannot claim that we know everything about this programming technique. Many new con cepts have been developed during the past decade, and new applications and implications of object-oriented programming are constantly being discovered. This book can only try to explain the nature of object-oriented program ming in as much detail as possible. It should serve three purposes. First, it is intended as an introduction to the basic concepts of object-oriented program ming. Second, the book describes the concept of prototypes and explains why and how they can improve the way in which object-oriented programs are developed. Third, it introduces the programming language Omega, an object oriented language that was designed with easy, safe and efficient software development in mind.
Winner of the 2011 Jolt Excellence Award! Getting software released to users is often a painful, risky, and time-consuming process. This groundbreaking new book sets out the principles and technical practices that enable rapid, incremental delivery of high quality, valuable new functionality to users. Through automation of the build, deployment, and testing process, and improved collaboration between developers, testers, and operations, delivery teams can get changes released in a matter of hours— sometimes even minutes–no matter what the size of a project or the complexity of its code base. Jez Humble and David Farley begin by presenting the foundations of a rapid, reliable, low-risk delivery process. Next, they introduce the “deployment pipeline,” an automated process for managing all changes, from check-in to release. Finally, they discuss the “ecosystem” needed to support continuous delivery, from infrastructure, data and configuration management to governance. The authors introduce state-of-the-art techniques, including automated infrastructure management and data migration, and the use of virtualization. For each, they review key issues, identify best practices, and demonstrate how to mitigate risks. Coverage includes • Automating all facets of building, integrating, testing, and deploying software • Implementing deployment pipelines at team and organizational levels • Improving collaboration between developers, testers, and operations • Developing features incrementally on large and distributed teams • Implementing an effective configuration management strategy • Automating acceptance testing, from analysis to implementation • Testing capacity and other non-functional requirements • Implementing continuous deployment and zero-downtime releases • Managing infrastructure, data, components and dependencies • Navigating risk management, compliance, and auditing Whether you’re a developer, systems administrator, tester, or manager, this book will help your organization move from idea to release faster than ever—so you can deliver value to your business rapidly and reliably.
This book shows how to develop software based on parts that interact primarily through an event mechanism. The book demonstrates the use of events in all sorts of situations to solve recurring development problems without incurring coupling. A novel form of software diagram is introduced, called Signal Wiring Diagram. These diagrams are similar to the circuit diagrams used by hardware designers. A series of case studies concludes the book, bringing all the next concepts introduced together. Source code is provided in both C# and VB.NET
Paul Wang's JAVA WITH OBJECT-ORIENTED PROGRAMMING eases students into an understanding of the object-oriented paradigm from the very first page, just as he does in JAVA WITH OBJECT-ORIENTED PROGRAMMING WITH WORLDWIDE WEB APPLICATIONS, on which this new book is modeled. After the early chapters that present classes and Java features and constructs, Wang introduces new object-oriented concepts throughout the book, while clearly showing how Java addresses these issues. He also goes the extra step of including case studies to illustrate how Java and object-oriented programming are applied. Early in the book, Wang introduces students to a case study involving a pocket calculator. This case study is revisited throughout the book as students learn new aspects of object-oriented programming and the Java language. The book then concludes with a chapter on some of the processes associated with object-oriented design. As a result, students are able to fully grasp the concepts they learn.
The book describes fundamental object-oriented programming methods and explains how readers may apply them within the Windows 95 (and 98) and Windows NT environments using three leading programming tools - Microsoft Visual C++, Visual Basic, and Borland Delphi. Readers will understand how traditional object-oriented principles and techniques correspond to the characteristics of modern operating environments and how OOP approaches can help them more efficiently create genuinely user-friendly applications. The book describes from an object perspective many important Windows programming components and tasks, including: windows and dialog boxes, ActiveX and other controls, menus, event handling, graphics, file access, on-line help, and OLE (object linking and embedding).
For an undergraduate course in Object-Oriented Programming or a course in Intermediate Java Programming. Appealing to programmers and non-programmers alike, this complete introduction to Java shows students how to use this versatile and popular object-oriented programming language as a primary tool in many different aspects of their programming work (not just for creating programs with graphical content within Web pages), and includes complete descriptions of the fundamental elements of Java with step-by-step instructions on how to compile and run a program. Well-organized, clearly written, and visually engaging, it gives students real hands-on experience as it guides them through all of Java's functions and capabilities reinforcing their understanding with periodic reviews and helping them see Java's everyday applicability through many interesting case studies. Emphasizing the importance of good programming style particularly the need to maintain an object's integrity from outside interference it teaches students how to harness the power of Java in object-oriented programming, and enables them to create their own interesting and practical every-day applications.