在网上看到一篇来自Safari Book Online的文章,是<Eclipse Distilled>下的'Chapter 6. Java Project Configuration'的内容(http://my.safaribooksonline.com/book/software-engineering-and-development/ide/0321288157/java-project-configuration/ch06lev1sec1),讲述Eclipse中的Java Project Build Path的设置.下面对其全文转贴与下.
Eclipse includes features such as Content Assist and code templates that enhance rapid development and others that accelerate your navigation and learning of unfamiliar code. Automatic compilation and building of complex projects provides additional acceleration by giving immediate feedback on code changes and project status. All of these features depend on correct configuration of the projects in your workspace.
We continue development of the product catalog and order processing application by configuring the project dependencies required to build and run that code. Part of the configuration consists of including a JAR file for the Apache log4j logging utility and a shared library of components from the Apache Axis Web Services toolkit.
This chapter does not describe configuration and use of a source code version control repository. Eclipse has excellent support for team repositories such as CVS, which is described in Chapter 13, “Team Ownership with CVS.” If you are joining an existing development team, you can skip directly to that chapter after reading this one.
In this chapter, we'll see how to
Configure your project's source and output folders
Configure dependencies between Java projects
Add libraries to your build path
Create named user libraries composed of related JAR files
Override workspace compiler preferences with project-specific settings
Up to this point, our product catalog project had no dependencies other than the Java runtime libraries. It is now time to expand our development to include the other projects set up in Chapter 3, “Managing Your Projects.” External dependencies are also added into the mix, such as Apache log4j and Axis Web Services toolkit. Correct configuration is essential for error-free compilation, execution, and full use of Eclipse features such as Content Assist.
Edit the configuration properties for a Java project by selecting the project and choosing Project > Properties from the main workbench menu bar. The dialog shown in Figure 6-1 is opened.
The same property editor dialog may be opened using another approach. Most Eclipse resources have property pages that describe or allow you to set that resource's properties. This is true for any resource, not only for projects. The last menu item in a resource's context menu is always named Properties, and it displays a shared dialog with one or more pages that are assigned based on the resource type. Projects with a Java nature have property pages as shown in Figure 6-1. Open this dialog by right-clicking on the com.eclipsedistilled.orders project in your workbench Package Explorer view and selecting Properties.
Each Java project has its own build path that specifies all dependencies required to compile the project. Those dependencies may come from other Java projects in the workspace, from Java archive .jar files, or from folders containing .class files.
The Java Build Path properties page contains four tabs:
Source. The source and output folders. If you initially create a project without separate source and output folders, you can change it here. Multiple source folders can be used in one project; e.g., to separate application source code from unit tests.
Projects. Check-off other projects in the workspace whose output folders should be added to this build path.
Libraries. Location of other archive files required by this project.
Order and Export. Order in which projects and libraries appear in the build path and the default runtime classpath; e.g., use classes from a workspace project before using the same classes from an archive library.
Each Java project is configured with a builder that automatically compiles every .java file from the source folders and saves the .class files into an output folder. Your source folder must contain subfolders for the complete package hierarchy as used by your Java source files. As described inChapter 2, “Hello Eclipse,” you can create these folder hierarchies easily using the New Java Package wizard.
All non-Java files from the source folder are copied unchanged to the corresponding folder hierarchy in the output folder. These non-Java files are usually properties files and resource files. This sometimes creates confusion when Eclipse users store other configuration or documentation files within their source folder tree and then are surprised to see them copied into the output folder. These other non-source files should be saved in regular project folders that are not configured as source folders in the configuration. You can create regular folders outside the source tree by right-clicking on a project and selecting New > Folder instead of New > Package.
Figure 6-1 shows the source folder tab in the Java project properties. This project was created with separate source and output folders named src and bin, respectively. This setup will suffice for most new projects created within Eclipse, but you can change that configuration here.
If you want to keep your unit test code within the same project as the application code, then it's a good idea to create a separate source folder, named test for example. Click the Add Folder…button on the source configuration tab and then click Create New Folder… on the resulting dialog. If you create a test folder without adding it as a configured source folder, then Java source files within it will not be compiled.
Although it's fairly common for developers to keep unit test code in the same project as the code being tested, it is preferable to create a separate project for JUnit test cases because they often need a different Java Build Path. This is especially true if you are building applications using Java runtime libraries other than the J2SE libraries. For example, if you're building a J2ME application that depends on the Mobile Information Device Profile (MIDP), you'll have to put your JUnit test cases in a separate project because JUnit requires J2ME's Foundation as a minimum class library. It's also common to use additional JUnit framework libraries when testing Web and database applications.
The most common reason for using multiple source folders is to accommodate preexisting source code that was created outside of Eclipse. Developers can be very creative when organizing their projects! A test folder is sometime embedded within the application source folder, or several logically separate source trees may be included in the same folder.
Eclipse provides other ways to split these sources into logically separate projects or source folders without changing the original structure, which might be required by other tools or Ant build files. You can add inclusion and exclusion filters on a source folder to explicitly select the files that are or are not used to build this project. For example, if documentation files are stored within the source, you could exclude **/*.html files so that they are not copied into the output folder.
There are many other possibilities for configuring preexisting code within an Eclipse project. Search for “project configuration tutorial” in the Eclipse help documentation where other detailed scenarios and suggestions are provided.
When we created the projects for our order management application in Chapter 3, the project dependencies were not yet specified in the configuration. These dependencies are shown as a UML package diagram in Figure 6-2. These package names are shortened versions of the fully qualified project names used in our workspace. They represent the import dependencies between top-level packages in our application, but not necessarily the dependencies of all sub-packages and external utility libraries.
Click on the Projects tab in the build path configuration, as shown in Figure 6-3. All of the projects in your current workspace are listed except for the project we are now configuring, which iscom.eclipsedistilled.orders.
Referring to the package diagram, we see that orders depends on catalog and ubl. Configure the dependencies in your Eclipse project by selecting the checkboxes for those two projects.
The end result is that the output folders from these other two projects are included in the build path of the current project, and their classes are available while compiling classes forcom.eclipsedistilled.orders. Configuring these project references also causes their classes to be included in Quick Assist completion lists, so typing “cat” and then Ctrl+Space will now include the Catalog and CatalogItem classes in the pick list while writing the Order class.
The Libraries tab of the Java Build Path dialog allows you to add other libraries into a project's classpath. A library is a JAR or ZIP archive containing Java class files or a project folder containing class files. An archive file may be in a project within your current workspace or elsewhere on your file system.
The library configuration for com.eclipsedistilled.orders is shown in Figure 6-4. The JRE System Library is included automatically in every Java project; it contains the standard Java APIs. We'll review two approaches for adding individual JAR libraries to this project and then create a named user library that bundles a collection of related JARs.
The Libraries tab contains five buttons for specifying the location of required library files:
Add JARs. Select archive files located within any project from the current workspace; projects are not required to be Java projects.
Add External JARs. Select archive files anywhere on your file system external to the current workspace.
Add Variable. Use a Java classpath variable as the base path for external archives.
Add Library. Select from a list of user libraries that define collections of related archive files.
Add Class Folder. Select any folder from a project in the current workspace that contains Java.class files.
An important consideration when planning your project configuration is portability between different developer workstations in a team environment, which might include portability across operating systems such as Windows, Linux, and Macintosh. The first library option, Add JARs, is usually the most portable but not always possible or desirable when using libraries from other vendor products. Using external libraries with absolute file paths is the least portable. We'll use the first approach to add the Apache log4j library to our project (see References).
It is common practice to create a subfolder named lib within a Java project that contains other JAR files required to build the project. Right-click on your project and select New > Folder to create this folder. Download the log4j.jar binary file and copy it into your project lib folder (the file name may include a version number).
If you copy the file into your project using the operating system command line or file explorer, then your Eclipse Navigator view or Package Explorer view is updated automatically if you have automatic refresh enabled; otherwise, you must manually refresh the lib folder (see Chapter 3).
Tip: If you are using Eclipse on Windows, you can copy/paste or drag-and-drop files between the Windows file explorer and your Eclipse workbench folders in the same way you would between folders in the Windows Explorer. You can also cut/copy/drag between two Eclipse folders within the workbench on any operating system. |
Now click the Add JARs… button, where you'll see a list of all projects in your workspace. Expand the project and lib folder containing log4j.jar and add it to this project's build path. It should appear as in Figure 6-4.
If you expand the log4j.jar entry in the configuration dialog, there are two optional entries about this library.
Source attachment. The folder or JAR file containing Java source code for classes in this library.
Javadoc location. The URL or external location containing a folder or ZIP file of Javadoc HTML for classes in this library.
This source attachment location is the same kind of entry we configured in Chapter 5, “Rapid Development,” to enable Javadoc hover and Content Assist for the Java runtime library. If you have source code for other libraries, such as log4j, then edit this library entry to get the same benefits when working with its classes.
You can open a Web browser with the full Javadoc HTML documentation for a library's entries by pressing Shift+F2 while the cursor is positioned on a class or method name in the editor. However, for this to work, you must configure the URL or directory where the HTML files are located.
Shortcut: Shift+F2: Open the full Javadoc HTML for a Java class, method, or field at the current cursor position. This command is also accessible via the menu Navigate > Open External Javadoc. |
You can also configure the Javadoc location for the Java runtime libraries by expanding the JRE System Library in this same configuration dialog. Expand the rt.jar archive and edit the Javadoc location. This location is preset with the value http://java.sun.com/j2se/1.4.2/docs/apiwhen you install Eclipse (with version number appropriate to the JVM you used during installation). However, this will work only while you are connected to the Internet. You can change this URL to a local file path if you want to enable this feature while working offline.
This approach to project configuration is the easiest way to ensure that library locations are portable between different developer workstations and operating systems. All libraries are stored within the project folders, and locations (except for Javadoc files) are relative to the workspace home. If you zip your workspace and send it to another developer, he or she can simply unzip and open it in his or her Eclipse workbench. All project building and Content Assist will work without change.
Another way to configure library locations that also has benefits of machine and platform portability is to use classpath variables. Click the Add Variable… button in the Java Build Pathdialog, which presents a new dialog, as shown in Figure 6-5.
In this example we'll add the standard J2EE Servlet API library to our orders.webapp project; a similar technique could be used for adding the log4j library. In Chapter 3, we reviewed the benefits of linked resource locations for gaining developer and platform portability of project files located outside of the workspace. Classpath variables are very similar to linked resource locations but require separate definitions.
Follow these steps to add a TOMCAT_HOME library location:
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Click the Configure Variables… button in this dialog, where you can create a new variable or change a variable location value. |
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Add a new variable named TOMCAT_HOME with a location pointing to the root of your Tomcat application server installation, e.g., C:/jakarta-tomcat-5.0.19, and then click OK. |
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Back in the dialog shown in Figure 6-5, select this variable and click the Extend…button, which opens the second dialog also shown in the figure. |
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Expand the common and lib folders and then select servlet-api.jar. Click OK. |
The Servlet library is now part of your project configuration. You can easily share this workspace or project with other developers who use a different path or different version of the Tomcat server. They only need to create a TOMCAT_HOME classpath variable with their location. All other aspects of this project configuration remain unchanged.
You can review and update any of your classpath variables in the Eclipse preferences categoryJava > Build Path > Classpath Variables.
After specifying project dependencies and library references, you may need to configure two other aspects of the build path. These are shown on the Order and Export tab of the Java Build Pathproperties in Figure 6-6.
Change the order of class path entries in situations where the same class name exists in more than one project or JAR location.
Choose which project or JAR entries are contributed to other projects that have this project as one of their dependencies.
The same class name may exist in more than one class path entry when you have a project in your workspace that includes an updated version of some classes in one of the referenced libraries. If you want to compile and run an application using the updated version, then you must place the project above the older library version in the build path order. We assume that the library JAR file contains other classes that you need; otherwise, just remove the old library from this project's build path.
A project's build path can also include the library entries defined within one or more of its required projects. For this to work, you must explicitly export a project's libraries that are shared with its clients. However, you need to be careful when exporting a project's libraries because doing so means that those libraries can be logically thought of as part of this project. Another approach is for the client project to import the library itself, in addition to importing the required project.
Refer to the package diagram in Figure 6-2 that shows dependencies between the projects in our order processing application. The orders.webapp project depends on only the orders project, but it will likely include references to classes from catalog and ubl. When configuring the build path for orders.webapp, we can include dependencies to these other two projects, or we can export these two projects from the orders project. We take the latter approach and select the export checkboxes for catalog and ubl when configuring the orders project in Figure 6-6.
The Java Build Path order also determines the order that source folders and libraries are displayed within a project in the Package Explorer view. In most situations, the order of libraries does not affect the way a project builds or runs, so you can reorder the source folders and libraries to appear in the Package Explorer view in a way that makes it easy to find references, such as ordering libraries alphabetically.