Learn Java for Web Development Modern Java Web Development (Vishal Layka) (Z-Library)

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Layka Shelve in Programming Languages/Java User level: Beginning–Intermediate www.apress.com SOURCE CODE ONLINE BOOKS FOR PROFESSIONALS BY PROFESSIONALS® Learn Java for Web DevelopmentRELATED Web development is still one of today’s most popular, active, and important programming and development activities. From a single web page to an e-commerce-enabled web site to a fully-fledged web application, the Java programming language and its frameworks allow you great flexibility and productivity for your web application development. Learn Java for Web Development teaches web developers who are new to Java key skills, Java-based languages, and frameworks to build simple or complex web sites and applications. As soon as you pick up this book, Vishal Layka’s experience guides you on a very practical learning and building journey. You will learn the Java nuts and bolts necessary to build a simple “HelloWorld” application, as well as a “HelloWorld” Java-based web application using servlets and JavaServer Pages (JSPs). Using a real-word case study (a bookstore e-commerce application), you next will learn more about servlets and JSPs, add JavaServer Faces (JSFs), and explore the JSP and JSF expression languages. Then you’ll build your web application using Apache Struts2 and the Spring MVC framework. The book concludes by examining industry best practices and how these might fit with your bookstore web application, as well as covering alternative Java Web frameworks like Groovy/Grails and Scala/Play 2. You also can explore the basics of Java, Groovy, and Scala in the book’s appendices. With Learn Java for Web Development, you will see all these key technologies in action and form a solid foundation for web development with Java and Java-based technologies. 9 781430 259831 53999 ISBN 978-1-4302-5983-1

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v Contents at a Glance About the Author ���������������������������������������������������������������������������������������������������������������� xv About the Technical Reviewer ������������������������������������������������������������������������������������������ xvii Introduction ����������������������������������������������������������������������������������������������������������������������� xix Chapter 1: Introducing Java Web Development ■ �����������������������������������������������������������������1 Chapter 2: Building Web Applications Using Servlets and JSP ■ ���������������������������������������43 Chapter 3: Best Practices in Java EE Web Development ■ �����������������������������������������������105 Chapter 4: Building a Web Application Using Struts 2 ■ ��������������������������������������������������161 Chapter 5: Building Java Web Applications with Spring Web MVC ■ �������������������������������203 Chapter 6: Component-Based Web Development Using JSF 2 ■ ��������������������������������������263 Chapter 7: Rapid Web Development with Grails ■ ������������������������������������������������������������299 Chapter 8: Play with Java and Scala ■ �����������������������������������������������������������������������������355 Appendix A: Introduction to Java ■ ����������������������������������������������������������������������������������383 Appendix B: Introduction to Groovy ■ �������������������������������������������������������������������������������399 Appendix C: Introduction to Scala ■ ���������������������������������������������������������������������������������423 Index ���������������������������������������������������������������������������������������������������������������������������������435

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xix Introduction This book is for a large cross section of modern Java web developers, with various levels of experience. Learning the Java programming language is a noble cause, but learning merely the Java language is not enough in the real world. Java developers have to learn Java EE, a collection of related server-side technologies, to put their Java skills to any real use. But learning Java EE is not enough either. The Java language along with Java EE may suffice to develop web applications for projects in the same organization, as a means to reusability, but the diverse landscape of Java on the Web is permeated with several web frameworks, such as Spring Web MVC, that make development much easier; thus, a Java web developer has to have the knowledge of these web frameworks. But this is not enough still. In the very first line of this introduction, I mentioned that this book is for a modern Java web developer. Modern Java is more than just a language; it is now a fully optimized platform because several other languages such as Groovy and Scala, called the JVM languages, now run on the Java Virtual Machine (JVM). All such JVM languages, especially Groovy, have a close association with Java, and you will come across web applications before long where Java and these other JVM languages work in tandem. The most ambitious projects will require you to build web applications using these JVM languages. This book addresses all the needs of a modern Java web developer. It is designed for beginners up to intermediate developers and explains the specifics of Java on the Web. For example, this book is perfect for developers who are aware of technologies like MVC but do not yet understand how and why they have changed the way web applications are built. This book is also for developers who want to learn frameworks other than JSF 2 (which is bundled with Java EE). This book covers four types of web frameworks: request based, component based, rapid, and reactive. Among these four types, the book covers five proven web frameworks: Struts 2, Spring Web MVC, JSF 2, Grails 2, and Play 2. In addition, this book is for developers who have no experience in the Java, Groovy, and Scala programming languages but who yearn to create web applications. This book provides the essentials of these three languages in the appendixes.

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xx Introduction Instead of simply pronouncing one web framework the best, Learn Java for Web Development shows the strengths of the most popular web frameworks by means of a real-world bookstore application. Developing a complete real application necessitates a seamless collaboration of dynamic functionalities, and the code for building such components is contrived and too involved. Instead of focusing on developing such moving parts, this book confines its attention on leveraging the strengths of each web framework. How the Book Is Structured The book consists of eight chapters, which I’ll describe next, plus the three previously mentioned appendixes that introduce the Java, Groovy, and Scala languages. Chapter 1: Introducing Java Web Development Chapter 1 explains the main objective that shapes this book and highlights what appears in the subsequent chapters. This chapter begins with a discussion of a significant change in the Java landscape, its implication, and what Java exactly means today. The chapter then discusses the three key players that join forces in building modern Java web applications: the JVM languages, Java EE, and the Java web frameworks. This chapter introduces the key features of a modern Java web application such as Ajax and REST, WebSocket for real-time web application, the Typesafe stack for a reactive web application, and client-side MVC frameworks for responsive and single-page web applications. Finally, the chapter introduces some important aspects of modern web development that are beyond the scope of this book, such as Java information retrieval on the Web, and briefly introduces the central component of Web 3.0, which is still an open subject of research, the Semantic Web. Chapter 2: Building Web Applications Using Servlets and JSP Chapter 2 begins with a discussion of the evolution and architecture of web applications. The chapter then highlights how to use the standard web API. The first pass at the sample application uses only servlets and JSP. Then the chapter shows you how to build the same application as a Model 2 application. Chapter 3: Best Practices in Java EE Web Development Chapter 3 examines the chain of causality that leads to the need for following best practices. The chapter explains the need to evolve projects and introduces Expression Language and JSTL. The chapter then discusses the Java EE web tier patterns. Chapter 4: Building a Web Application Using Struts 2 In Chapter 4, you’ll learn about Struts 2. Not as popular as it used to be, Struts 2 is introduced in this book for developers who have to maintain legacy applications. This chapter first introduces the key architectural components of Struts 2. Then you will learn to develop your first application using Struts 2 and Maven 4. Moving forward, you will learn to develop the bookstore application and integrate with Tiles 3.

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xxiIntroduction Chapter 5: Building Java Web Applications with Spring Web MVC Chapter 5 explains three key objectives of the Spring Framework: loose coupling using dependency injection, dealing with cross-cutting concerns using AOP, and removing boilerplate code using Spring templates. Elucidating how Spring 3 works, the chapter introduces the Spring Web MVC architecture. Then you will learn to build your first web application using Spring 3 Web MVC. This chapter also shows you how to build the bookstore application. You will learn to use the latest version of the SpringSource tool suite. Chapter 6: Component-Based Web Development Using JSF Chapter 6 introduces you to a component-based framework called JSF 2 that is bundled with Java EE. After you have familiarized yourself with the request-based framework presented in Chapter 4 and Chapter 5, understanding JSF 2 will be much easier. This chapter shows you how JSF 2 represents a paradigm shift in web development and introduces you to key components of the JSF 2 architecture. After you have a firm grasp of the architecture components, this chapter shows you how to develop your first JSF 2 application, and along with this you will learn the life-cycle phases of a JSF 2 application. Then the chapter shows you how to integrate JSF 2 with the Spring Framework so that you can access the database via Spring templates from the JSF 2 web layer. Finally, the chapter shows you how to develop the bookstore application. Chapter 7: Rapid Web Development with Grails Grails is a rapid application development framework that lets you create web applications in record time. Chapter 7 introduces you to two techniques of generating web applications with Grails: static and dynamic scaffolding. The chapter then takes you through the code generated and explains step-by-step how the code works. Having presented the code generated, this chapter shows you how to develop the bookstore application with Grails 2. This chapter also covers unit testing, an oft-neglected task in application development. This chapter shows you how to build tests for your web applications using the JUnit testing framework. Then this chapter shows you how to use the in-memory database H2. In this chapter, you will also learn to use the latest version of the Groovy-Grails tool suite. Chapter 8: Play with Java and Scala Chapter 8 introduces the key web player of the Typesafe stack, the Play 2 framework, and explains how the Typesafe stack provides an alternative to Java EE to build Java- and Scala-based applications. First you will learn to develop a Java-based web application using Play 2. Then you will learn to develop a Scala-based web application using Play 2. Subsequently, this chapter shows how to use the model and access a database in Play 2.

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1 Chapter 1 Introducing Java Web Development The mind, once stretched by a new idea, never returns to its original dimensions. —Ralph Waldo Emerson An intelligent machine is that which extends the very imagination with which it was built. An example of this is the instruction called invokeDynamic,1 which was introduced with Java 7 to optimize the performance of dynamically typed languages on the Java Virtual Machine (JVM). The JVM, originally intended for Java, can now host a myriad of programming languages, including Groovy2 and Scala.3 This has led to a renaissance of Java web development. This new paradigm of cross-pollination and diverse, well-founded options carves out a number of niches in the Java ecosystem, resulting in a richer web landscape than ever before. The open source community has capitalized on the multiparadigm capabilities offered by the languages that run on the JVM, by means of web frameworks, to dramatically enhance the productivity in web development. Java EE4 advanced this momentum, pioneered by Java frameworks such as Spring,5 by standardizing and improving the API and runtime environment. Further, functional programming constructs, in the form of lambdas, have been added to Java 8. As a result, Java is on the rebound to become an übersolution. This chapter sets the stage for the book by introducing the three key players that join forces in building modern Java web applications: the JVM languages, Java EE, and the Java web frameworks. 1http://cr.openjdk.java.net/~jrose/pres/200910-VMIL.pdf 2http://groovy.codehaus.org/ 3www.scala-lang.org/ 4www.oracle.com/technetwork/java/javaee/overview/index.html 5http://spring.io/

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2 CHAPTER 1: Introducing Java Web Development Note The JVM languages represent a new category of languages that run on the JVM. With the latest version, Java 8, Java is no longer a privileged JVM language and is now simply one of the many languages that run on the JVM. Table 1-1. Languages Designed for the JVM Language Designed for JVM Description Clojure6 Clojure is a dynamically typed, functional language. Groovy Groovy is a dynamic, compiled language with syntax similar to Java but is more flexible. Java Java is a statically typed, imperative language. The latest release of Java, Java 8, supports aspects of functional programming. Scala Scala is a statically typed, compiled language that supports aspects of functional programming and performs a large amount of type inference, much like a dynamic language. The chapter begins by introducing the JVM languages and then introduces Java EE. The Java EE platform is the set of API specifications that act as the building blocks for developing web applications. The chapter then highlights the Java web frameworks, which will be the subject of the book from Chapter 4 onward. JVM Languages The JVM is the runtime environment that provides you with the ability to use different programming languages for building web applications. The JVM languages can be largely classified into two types: languages that are designed for the JVM and existing languages that are ported to JVM. Languages Designed for the JVM Plenty of languages are specifically designed for the JVM; Table 1-1 describes a few of them. All but Clojure are discussed in this book. Here are some important definitions:  Dynamic typing: Dynamic typing keeps track of information about what sort of values the variables contain by carrying the type information on the values held in variables.  Static typing: In static typing, the type information is all about the variables, not the values in them. 6http://clojure.org/

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3CHAPTER 1: Introducing Java Web Development  Imperative languages: These are languages in which the state can be mutated by the instructions in the language.  Functional languages: In functional languages, the functions operate on values as in procedural languages, but instead of mutating the state, the functions are purely mathematical functions that return new values. Figure 1-1 shows where Java 8, Groovy, Scala, and Clojure fall on the functional language continuum. Java 8 introduces lambdas, which makes it slightly functional, Groovy has had functional constructs since its inception and is even more functional with Groovy 2.0, and Scala is the most functional of the three object-oriented (OO) languages. Clojure, on the other hand, is a purely functional, non-OO language. Figure 1-1. Functional gradation of JVM languages Note In Figure 1-1, no version number is mentioned for Groovy, Scala, and Clojure because Java supports aspects of functional programming starting from Java 8 only. Languages Ported to the JVM JRuby, Jython, and Rhino are a few of the mainstream JVM implementations of existing languages. Table 1-2 describes them.

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4 CHAPTER 1: Introducing Java Web Development This book is based on some of the mainstream object-oriented JVM languages that were specifically designed for the JVM, namely, Java, Groovy, and Scala. Java EE Java began life as a programming language designed for building stand-alone applications and grew rapidly into other spheres. A large part of Java’s popularity can be attributed to its usage in creating web applications. A web application consists of static and dynamic (interactive) web pages. Static web pages contain various types of markup languages (HTML, XHTML, and so on) and are used, in general, to provide information; dynamic web pages, on the other hand, are capable of generating content with the aid of additional web components (covered in Chapter 2). Thus, a web application is a collection of web pages and is capable of generating dynamic content in response to requests. Unlike a web page used merely to provide information, a web application lets you perform some activity and save the result. Developing a web application, however, is fundamentally different from building stand-alone applications and requires you to understand the following three key elements:  The Java EE platform: This is the set of API specifications that are the building blocks of the web application.  The web container: The web container implements the API specifications of the Java EE platform. Specifically, the web container provides the services for managing and executing web components such as servlets, JSPs, filters, listeners, and render responses to the client. The web containers are covered in Chapter 2. Table 1-2. Languages Ported to the JVM Languages Ported to JVM Description JRuby7 JRuby is a JVM reimplementation of the Ruby programming language. Ruby is a dynamically typed OO language with some functional features. Jython8 Jython is a reimplementation of Python on the JVM, so it is a dynamic language. Rhino9 Rhino provides an implementation of JavaScript on the JVM. JavaScript is a dynamically typed OO language. 7http://jruby.org/ 8www.jython.org/ 9https://developer.mozilla.org/en-US/docs/Rhino_documentation Note There are several types of containers, but this book will focus on the web container primarily used for web applications. You have to choose the container based on the kind of application you want to develop.  Web components: These are hosted by the container. These web components, such as servlets, JSPs, filters, and listeners, are covered in Chapter 2.

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5CHAPTER 1: Introducing Java Web Development The Java EE Platform The Java EE platform is driven by the following two goals: Providing the API specifications that are the building blocks of the web  application. Standardizing and reducing the complexity of enterprise application  development. It does this by providing an application model that defines an architecture for implementing services as multitiered applications. Figure 1-2 summarizes the evolution of Java EE and, for the sake of brevity, shows only the new specifications added with each release. Figure 1-2. The evolution of Java EE Note Pruning (also known as marked for deletion) consists of a list of proposed features for possible removal in the next Java EE release in order to reduce the size of the platform or to keep it from bloating. The goal of Web Profile is to allow developers to create web applications with the appropriate set of technologies. The Java EE platform is aimed at standardizing and reducing the complexity of enterprise application development by providing an application model that defines an architecture for implementing services as multitiered applications. In a multitiered application, the functionality of the application is separated into distinct functional areas, called tiers. Figure 1-3 illustrates the typical multitiered architecture in a Java EE application model.

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6 CHAPTER 1: Introducing Java Web Development The Client Tier The client tier is the top tier in a multitiered Java EE architecture; it consists of application clients that make requests to the Java EE server, which is often located on a different machine. The server processes the requests and returns a response to the client. An example of a client is a web browser or a stand-alone application. The Web Tier The web tier consists of components that handle the interaction between clients and the business tier. After receiving a request from the client, the web tier does the following: 1. Collects input from the client 2. Controls the flow of screens or pages on the client 3. Maintains the state of data for a user’s session 4. Obtains results from the components in the business tier 5. Generates dynamic content in various formats to the client As shown in Figure 1-2, a new Web Profile specification has been added in Java EE 7.10 Table 1-3 lists technologies included in the Web Profile specification. As mentioned earlier, the goal of Web Profile is to allow developers to create web applications with the appropriate set of technologies. Figure 1-3. Multitier architecture in Java 10www.oracle.com/technetwork/java/javaee/tech/index.html

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7CHAPTER 1: Introducing Java Web Development Regarding the Web Profile specifications listed in Table 1-3: In Java EE 7, no changes were made to JSP and JSTL because these  specifications have not been updated. Expression Language has been removed from JSP and now has its own  JSR (341). Servlets and JSF have both been updated. WebSocket 1.0 was introduced in Java EE 7. This book concentrates on the web tier of Java EE; we will dive deep into the web tier in Chapter 2. The multitier architecture of Java EE has a tremendous impact on the development of Java enterprise applications. A Java enterprise application can be defined as a Java application that utilizes the enterprise services offered by Java EE. In fact, a web application can be classified as an enterprise application if it utilizes Java EE services in the form of components packed in the web tier. Java EE isolates these services functionally into separate tiers, as illustrated in Figure 1-3, by providing an application model on which the Java enterprise applications should be built. As a consequence, the Java enterprise application mirrors the multitier architecture of Java EE. Figure 1-4 illustrates a generalized view of the layers of a typical web application. Table 1-3. Web Profile 7 Specification Specification Version URL JSF 2.2 http://jcp.org/en/jsr/detail?id=344 JSP 2.3 http://jcp.org/en/jsr/detail?id=245 JSTL 1.2 http://jcp.org/en/jsr/detail?id=52 Servlet 3.1 http://jcp.org/en/jsr/detail?id=340 WebSocket 1.0 http://jcp.org/en/jsr/detail?id=356 Expression Language 3.0 http://jcp.org/en/jsr/detail?id=341 EJB Lite 3.2 http://jcp.org/en/jsr/detail?id=345 JPA 2.1 http://jcp.org/en/jsr/detail?id=338 JTA 1.2 http://jcp.org/en/jsr/detail?id=907 Bean Validation 1.1 http://jcp.org/en/jsr/detail?id=349 Managed Beans 1.0 http://jcp.org/en/jsr/detail?id=316 Interceptors 1.2 http://jcp.org/en/jsr/detail?id=318 Contexts and Dependency Injection 1.1 http://jcp.org/en/jsr/detail?id=346 Dependency Injection for Java 1.0 http://jcp.org/en/jsr/detail?id=330 Debugging Support for Other Languages 1.0 http://jcp.org/en/jsr/detail?id=45 JAX-RS 2.0 http://jcp.org/en/jsr/detail?id=339 JSON-P 1.0 http://jcp.org/en/jsr/detail?id=353

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8 CHAPTER 1: Introducing Java Web Development Each layer in Figure 1-4 is an area of concern, for the application. For instance, the web layer deals only with employing the web tier components of Java EE. Having different layers in an application results in what is called a separation of concerns. In terms of implementation, this separation of concerns is achieved using coarse-grained interfaces. The concern is the feature, functionality or business functions with which the application’s developer needs to be concerned. Crosscutting such concerns is inherent in complex systems and leads to code scattering, which is when code for one concern spans many modules, and code tangling, which is when code in one module concentrates on addressing multiple concerns. Code scattering and code tangling lead to a lack of clarity, redundancy, rigidity, and continuous refactoring. Figure 1-5 illustrates how the system services of logging, transaction, and security crosscut the business functions of the application. BookService in Figure 1-5 is too involved with the system services. Each object knows and is responsible for logging, security, and transaction. A method, for example, to purchase a book in BookService should be concerned only with how to purchase the book and not with whether it is Figure 1-5. BookService involved with system services Figure 1-4. A generalized view of layers in an enterprise application

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9CHAPTER 1: Introducing Java Web Development secure or transactional. Separation of concerns, one of the main goals of software engineering, lets you handle each service on its own and thereby does the following: Promotes traceability within and across the artifacts in the system, throughout  the life cycle of the system Controls the impact caused by the change, thereby providing scope for  evolution and noninvasive adaptation Promotes development of cohesive units, thereby facilitating reuse SEPARATION OF CONCERNS The term separation of concerns (SoC) was coined by Edsger W. Dijkstra in his paper “On the role of scientific thought.”11 Dijkstra explains in in the following terms: Let me try to explain to you, what to my taste is characteristic for all intelligent thinking. It is, that one is willing to study in depth an aspect of one’s subject matter in isolation for the sake of its own consistency, all the time knowing that one is occupying oneself only with one of the aspects. We know that a program must be correct and we can study it from that viewpoint only; we also know that it should be efficient and we can study its efficiency on another day, so to speak. In another mood we may ask ourselves whether, and if so: why, the program is desirable. But nothing is gained—on the contrary!—by tackling these various aspects simultaneously. It is what I sometimes have called “the separation of concerns,” which, even if not perfectly possible, is yet the only available technique for effective ordering of one’s thoughts, that I know of. This is what I mean by “focusing one’s attention upon some aspect”: it does not mean ignoring the other aspects, it is just doing justice to the fact that from this aspect’s point of view, the other is irrelevant. It is being one- and multiple-track minded simultaneously. Web Layer The web layer of a web application consists of the web tier components of Java EE such as servlets and JSP. The web layer can access the service layer, but there should not be a tight coupling between the web layer and the service layer. That is, changing the service layer should not impact the web layer. 11www.cs.utexas.edu/users/EWD/transcriptions/EWD04xx/EWD447.html

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10 CHAPTER 1: Introducing Java Web Development Service Layer The service layer consists of the business tier components of Java EE such as Enterprise JavaBeans (EJBs). The service layer can access the data access layer, but there should be no tight coupling between the service layer and the data access layer. In fact, the service layer should not know anything about the web or data access layer. The service layer provides a coarse-grained interface for the web layer. Data Access Layer The data access layer consists of the data tier components of Java EE such as JDBC and JPA. This layer should not contain any business logic. This layer abstracts the actual persistence mechanism (in other words, JDBC or JPA) from the service layer by providing the coarse-grained interface to the service layer. Note The call flow in this architecture is always from the top layer to the bottom layer. In other words, the service layer should be able to call the data access layer but not vice versa. In this chapter, you will build the data access layer of the bookstore application and query it via a stand-alone Java application. In Chapter 2, you will replace this stand-alone Java application with a web layer using the web tier components of Java EE (specifically, servlets and JSPs). You will use this data access layer throughout this book, and from Chapter 4 onward you will build a web application repeatedly by rebuilding the web layer using different web frameworks. Oracle and the Java Community Process (JCP) provide standardized enterprise components, and if successful enterprise applications can be built using these components, then why do we need web frameworks? What are web frameworks for? The next section answers these questions. Java Web Frameworks While Java EE does a great job of standardizing the enterprise infrastructure, providing an application model, and providing components adequate to develop web applications, two major problems are associated with it. Interacting directly with the Java EE components often results in massive  boilerplate code and even code redundancy. Creating an enterprise application using the Java EE infrastructure is a nontrivial  task that requires a great deal of expertise. The team members usually involved in creating an enterprise Java EE application act in varied roles, and all of them may not have the level of expertise that meets the Java EE criteria. Frameworks address these two major problems (and several other concerns discussed in detail in Chapter 3). Table 1-4 describes the web frameworks you will learn about in this book.

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11CHAPTER 1: Introducing Java Web Development Now that you have looked at the three key players that join forces in building modern Java web applications (the JVM languages, Java EE, and the Java web frameworks), it is time to delve into some specifics about Java. The following section introduces Java so you can build your first stand-alone Java application. Since this book is centered on web development using Java and is not about Java as a programming language, the introduction to Java is brief—it’s just enough to help newcomers to the language follow the subsequent chapters. Getting Started with Java A Java application is a computer program that executes when you use the java command to launch the JVM. In the Java programming language, all source code is first written in plain-text files (in Notepad, for instance, or in any text editor) with the .java extension. The source files are compiled by the javac compiler into .class files that contain bytecode instructions. The JVM reads these bytecode instructions and translates them into the machine-language operations that each computer executes. By making the JVM available on many platforms, Sun transformed Java into a cross-platform language. As shown in Figure 1-6, the very same bytecode can run on any operating system for which a JVM has been developed. Table 1-4. JVM-Based Web Frameworks Web Frameworks Language Download From Struts 2 Java http://struts.apache.org/download.cgi#struts2314 Spring Web MVC Java www.springsource.org/spring-community-download JSF 2 Java www.oracle.com/technetwork/java/javaee/downloads/index.html Grails 2 Groovy www.grails.org/download Play 2 Java and Scala www.playframework.com/download Java program Java compiler Bytecode JVM for Windows JVM for Unix JVM for Linux Figure 1-6. Cross-platform Java Because the JVM is available on many different operating systems, the same .class files are capable of running on Windows, Unix, Linux, or Mac OS. In the section that follows, I will show you how to compile and run your first Java application. But first you need to set up the development environment.

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12 CHAPTER 1: Introducing Java Web Development Setting Up the Development Environment The Java software is available in two distributions. The Java Runtime Environment (JRE) The Java Development Kit (JDK) The JRE includes a JVM and the core libraries; it is essentially just an environment for running bytecode. The JDK includes the JRE, a Java compiler (javac), and other tools—the basic software you need to write and compile Java programs. Before you can start compiling and running Java programs, you need to download and install the JDK and configure some system environment variables. Most of the code in this book requires Java 7, but some of the code is based on Java 8, so you should install Java 8. To get the latest version of the JDK)), follow these steps: 1. Open www.oracle.com/technetwork/java/javase/downloads/index.html in a web browser. 2. Click the Download JDK button. 3. Follow the instructions provided by the web site. 4. Run the installer and accept any defaults. To confirm you have installed the JDK correctly, type javac on the command line from any directory on your machine. If you see instructions on how to run javac correctly, then you have installed it successfully. Creating and Running Your First Java Application This section demonstrates how to create, compile, and execute a simple Java application on Windows. Every Java application has one class that is the program’s starting point (often called an entry point). Listing 1-1 illustrates a HelloWorld entry-point class. Listing 1-1. A HelloWorld Java Application 1. public class HelloWorld { 2. public static void main(String[] args) { 3. System.out.println("Hello World."); 4. } 5. }  Line 2: The main method in line 2 makes this class an entry-point class. This method accepts inputs and starts the program. The name of the Java application should be the name of the entry-point class, and the file that holds a Java class must have the same name as the class. Therefore, the HelloWorld class in Listing 1-1 must be stored in a file named HelloWorld.java.

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13CHAPTER 1: Introducing Java Web Development Note Every Java application has only one main method. You use the javac program in the bin directory of your JDK installation directory to compile Java programs. Assuming you have edited the PATH environment variable on your computer, you should be able to invoke javac from any directory. To compile the HelloWorld class in Listing 1-1, do the following: 1. Open a command prompt and change to the directory where the HelloWorld. java file is saved. 2. Type the following command: javac HelloWorld.java If everything goes well, javac will create a file named HelloWorld.class in your working directory. Running Your Java Application To run your Java application, you have to use the java program that is part of the JDK with the command java <class name>. Again, having added the PATH environment variable, you should be able to invoke java from any directory. From your working directory, type the following: java HelloWorld Note that you do not include the .class extension when running a Java application. You will see the following on your console: Hello World. Developing Java Applications with an IDE In this book you will use the Eclipse Kepler integrated development environment (IDE). To download it, follow these steps: 1. Open www.eclipse.org/downloads/ in a web browser. 2. Follow the instructions provided by the web site. 3. Run the installer and accept any defaults. Creating Your First Project in the IDE After you’ve started Eclipse, you can make a new project as follows: 1. From the File menu, select New, and then select Project. The New Project window appears. 2. In the New Project window, double-click Java Project. The New Java Project window appears, as illustrated in Figure 1-7.

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14 CHAPTER 1: Introducing Java Web Development Figure 1-7. Creating a Java project