Version 2.7
Copyright © 2007 - 2011 Lars Vogel
16.12.2011
Revision History | ||
---|---|---|
Revision 0.1 | 18.07.2007 | Lars Vogel |
Created | ||
Revision 0.2 - 2.7 | 18.05.2008 - 16..12.2011 | Lars Vogel |
bugfixes and enhancements |
Table of Contents
Most people know Eclipse as an integrated development environment (IDE) for Java.
Eclipse is created by an Open Source community and is used in several different areas, e.g. as a development environment for Java or Android.
The Eclipse project is governed by the Eclipse Foundation. The Eclipse Foundation is a non-profit, member supported corporation that hosts the Eclipse projects and helps to cultivate both an open source community and an ecosystem of complementary products and services.
Eclipse roots go back to 2001. Today it is the leading development environment for Java with approx. 65% marketshare.
Eclipse can be extended with additional functionalities. Several Open Source projects and companies have extended Eclipse with additional components. It is also possible to use Eclipse as a basis for creating general purpose applications (Eclipse RCP).
Eclipse requires an installed Java Runtime. I recommend to use Java 7 (also known as Java 1.7) or Java 6.
Java comes in two flavors, the Java Runtime Environment (JRE) and the Java Development Kit (JDK). The JRE contains only the necessary functionality to start Java programs, while the JDK contains in addition the development tools.
Eclipse contains its own development tools, e.g. Java compiler. Therefore for this tutorial it is sufficient to use the JRE.
The JDK is required if you compile Java source code outside Eclipse and for advanced development scenarios. For example if you use automatic builds or if you develop web development. These scenarios are not covered in this tutorial.
Java might already be installed on your machine. You can test this by opening a console (if you are using Windows: Win+R, enter "cmd" and press Enter) and by typing in the following command:
java -version
If Java is correctly installed you should see some information about your Java installation. If the command line return the information that the program could not be found, you have to install Java. A Google search for "How to install Java on ..." should result in helpful links. Replace "..." with your operating system, e.g. Windows, Ubuntu, Mac OS X, etc.
To install Eclipse download the package "Eclipse IDE for Java Developers" from the website http://www.eclipse.org/downloads and unpack it to a local directory.
The download is a "zip" file. Most operating system can extract zip files in their file browser, e.g. Windows7 via right mouse click on the file and selecting "Extract all...". If in doubt, search via Google for "How to unzip a file on ...", again replacing "..." with your operating system.
Use a directory path which does not contain spaces in its name, as Eclipse sometimes has problems with that.
After unpacking the download, Eclipse is ready to be used; no additional installation procedure is required.
To start Eclipse double-click on the file eclipse.exe
(Microsoft Windows) or eclipse
(Linux / Mac) in the directory where you unpacked Eclipse. The system will prompt you for a workspace. The workspace
is the place where you store your Java projects (more on workspaces later). Select an empty directory and press Ok.
Eclipse will start and show the Welcome page. Close the welcome page by pressing the "X" beside "Welcome".
Eclipse provides Perspectives
, Views
and Editors
. Views
and Editors
are grouped into Perspectives
. All projects are located in a workspace
.
The workspace
is the physical location (file path) you are working in. You can choose the workspace during startup of Eclipse or via the menu ( File → Switch Workspace → Others. All your projects, source files, images and other artifacts will be stored and saved in your workspace.
You can predefine the workspace via the startup parameter -data path_to_workspace
, e.g. c:\eclipse.exe -data "c:\temp"
.
Please note that you have to put the path name into double quotes.
To see the current workspace directory in the title of Eclipse use -showLocation
as an additional parameter.
A Perspective
is a visual container for a set of Views
and Editors
.
You can change the layout and content within a Perspective
, for example by opening or closing Views
or Editors
, changing their size and position and more. Eclipse allows you to switch to another perspective via the menu Window → Open Perspective → Other.
For Java development you usually use the Java Perspective
, but Eclipse has much more predefined Perspectives
, e.g. Debug, Git Repositories, CVS Repositories.
A common problem is that you mis-configured your Perspective
, e.g. by closing a View
. You can reset a Perspective
to its original state via the menu Window → Reset Perspective.
A View
is typically used to navigate a hierarchy of information or to open an Editor
. Changes in a View
are directly applied to the underlying data structure.
Editors
are used to modify elements and are typically text editors. An Editor
can have code completion, undo / redo, etc. To apply the changes in an editor to the underlying resource, e.g. Java source file, you have to save.
The default Perspective
for Java development can be opened via Window → Open Perspective → Java.
On the left hand side, this perspective shows the "Package Explorer" View
which allows to browse your Java projects and to select the components you want to work on via double-click.
For example to open a Java source file, open the tree under src
, select the corresponding .java
file and double-click it. This will open the file in an Editor
.
The following picture shows the Eclipse IDE in its standard Java perspective. The "Package Explorer" is on the left. In the middle you have the open Editor
for a Java source file. If several Editors
would be open, they would be stacked in the same place and you could switch between them by clicking on the next Editor
. All editors share the same part of the Eclipse IDE; this part is called the "editor area".
To the right and below the editor area you find more Views
which were considered useful by the developer of the perspective. For example the "Console" view shows the output of System.out
statements in your code.
The Package Explorer allows displaying the associated file from the currently selected editor. For example if you working on Foo.java
and you change in the editor to Var.java
then the corresponding file will be selected in the the "Package explorer" View
.
To activate this behavior, press the button "Link with Editor" in the "Package explorer" View
.
Sooner or later you will run into problems with your code or your project setup. To view the problems in your project you can use the "Problems" View
which is part of the standard Java Perspective. If it is closed you can open it via Windows → Show View → Problems.
You can configure the content of the "Problems" View
. For example, to display the problems from the currently selected project, select "Configure Contents" and set the Scope to "On any element in the same project".
The following describes how to create a minimal Java program using Eclipse. It is tradition in the programming world to create a small program which writes "Hello World" to the console. We will adapt this tradition and will write "Hello Eclipse!" to the console.
Select from the menu File → New → Java project. Enter de.vogella.eclipse.ide.first
as the project name. Select the flag "Create separate folders for sources and class files".
Press finish to create the project. A new project is created and displayed as a folder. Open the de.vogella.eclipse.ide.first
folder and explore the content of this folder.
Create a new package
. A good convention is to use the same name for the top package and the project. Create therefore the package de.vogella.eclipse.ide.first
.
Select the folder src
, right click on it and select New → Package.
We will now create a Java class. Right click on your package and select New → Class.
Enter MyFirstClass
as the class name and select the flag "public static void main (String[] args)".
This creates a new file and opens an Editor
to edit the source code of this file. Write the following code.
package de.vogella.eclipse.ide.first;
public class MyFirstClass {
public static void main(String[] args) {
System.out.println("Hello Eclipse!");
}
}
Now run your code. Right click on your Java class and select Run-as → Java application.
Finished! You should see the output in the console.
To run your Java program outside of Eclipse you need to export it as a jar
file. A jar
file is the standard distribution format for Java applications.
Select your project, right click on it and select Export
.
Select JAR file, select next. Select your project and maintain the export destination and a name for the jar file. I named it myprogram.jar
.
Press finish. This creates a jar file in your selected output directory.
Open a command shell, e.g. under Microsoft Windows select Start → Run and type cmd
and press enter. This should open a console.
Switch to your output directory, by typing cd path
. For example if your jar is located in c:\temp
type cd c:\temp
.
To run this program you need to include the jar file in your classpath
. The classpath
defines what Java classes are available to the Java runtime. You can add a jar
file to the classpath with the -jar
option.
java -classpath myprogram.jar de.vogella.eclipse.ide.first.MyFirstClass
If you type the command from above and are in the correct directory you should see the "Hello Eclipse!" output on the console.
Congratulations! You created your first Java project, a package, a Java class and you ran this program inside and outside Eclipse.
The content assistant allows you to get input help in an editor. It can be invoked by pressing CTRL+Space
For example type syso
in the editor of a Java source file and then press CTRL+Space. This will replace syso
with System.out.println("")
.
If you have a reference to an object, for example the object person
of the type Person
and need to see it's methods, type person.
and press CTRL+Space.
Whenever Eclipse detects a problem, it will underline the problematic text in the editor. Select the underlined text and press CTRL+1 to see proposals how to solve this problem.
For example type myBoolean = true;
If myBoolean is not yet defined, Eclipse will highlight it as an error. Select the variable and press CTRL+1, Eclipse will suggest creating a field or local variable.
Quick Fix is extremely powerful. It allows you to create new local variables and fields as well as new methods and new classes. I can put try-catch statements around your exceptions. It can assign a statement to a variable and much more.
You can navigate between the classes in your project via the "Package Explorer" View
.
In addition you can open any class via positioning the cursor on the class in an editor and pressing F3. Alternatively, you can press CTRL+Shift+T. This will show a dialog in which you can enter the class name to open it.
Eclipse has several possibilities to generate code for you. This can save significant time during development.
For example Eclipse can override methods from superclasses and generate the toString()
, hashcode()
and equals()
methods. It can also generate getter and setter methods for attributes of your Java class.
You can find these options in the Source menu.
To test the source generation, create the following class in your de.vogella.eclipse.ide.first
project.
package de.vogella.eclipse.ide.first;
public class Person {
private String firstName;
private String lastName;
}
Select Source → Generate Constructor from Fields, mark both fields and press "Ok".
Select Source → Generate Getter and Setter, select again both your fields and press the "Ok" button.
Select Source → Generate toString(), mark again both fields and press "Ok".
You created the following class:
package de.vogella.eclipse.ide.first;
public class Person {
private String firstName;
private String lastName;
public Person(String firstName, String lastName) {
super();
this.firstName = firstName;
this.lastName = lastName;
}
public String getFirstName() {
return firstName;
}
public void setFirstName(String firstName) {
this.firstName = firstName;
}
public String getLastName() {
return lastName;
}
public void setLastName(String lastName) {
this.lastName = lastName;
}
@Override
public String toString() {
return "Person [firstName=" + firstName + ", lastName=" + lastName
+ "]";
}
}
Refactoring is the process of restructuring the code without changing his behavior. For example renaming a Java class or method is a refactoring activity.
Eclipse supports simple refactoring activities, for example renaming or moving. For example you can select your class, right click on it and select Refactor → Rename to rename your class or method. Eclipse will make sure that all calls in your Workspace to your your class or method will also be renamed.
The following shows a screenshot for calling the "Rename" refactoring on a class.
For the next examples change the code of "MyFirstClass.java" to the following.
package de.vogella.eclipse.ide.first;
public class MyFirstClass {
public static void main(String[] args) {
System.out.println("Hello Eclipse!");
int sum = 0;
for (int i = 0; i <= 100; i++) {
sum += i;
}
System.out.println(sum);
}
}
Another useful refactoring is to mark code and create a method from the selected code. For this mark the coding of the "for" loop, right click and select Refactoring → Extract Method. Use "calculateSum" as name of the new method.
The resulting class should look like the following.
package de.vogella.eclipse.ide.first;
public class MyFirstClass {
public static void main(String[] args) {
System.out.println("Hello Eclipse!");
int sum = 0;
sum = calculateSum(sum);
System.out.println(sum);
}
private static int calculateSum(int sum) {
for (int i = 0; i <= 100; i++) {
sum += i;
}
return sum;
}
}
You can also extract strings and create constants from them. Mark for this example "Hello Eclipse!", right click on it and select Refactor → Extract Constant. Name your new constant "HELLO".
The resulting class should look like the following.
package de.vogella.eclipse.ide.first;
public class MyFirstClass {
private static final String HELLO = "Hello Eclipse!";
public static void main(String[] args) {
System.out.println(HELLO);
int sum = 0;
sum = calculateSum(sum);
System.out.println(sum);
}
private static int calculateSum(int sum) {
for (int i = 0; i <= 100; i++) {
sum += i;
}
return sum;
}
}
Eclipse has much more refactorings, in most cases you should get an idea of the performed action by the naming of the refactoring operation.
Eclipse provides a lot of shortcuts to work efficiently with the IDE. For a list of the most important Eclipse shortcuts please see Eclipse Shortcuts
The following describes how to add Java libraries to your project. Java libraries are distributed via "jar" files. It assumes that you have a jar file available; if not feel free to skip this step.
Create a new Java project de.vogella.eclipse.ide.jars
. Then, create a new folder called lib
, by right clicking on your project and selecting New → Folder.
From the menu select File → Import → General → File System. Select your jar and select the folder lib
as target. Alternatively, just copy and paste your jar
file into the "lib" folder.
Right click on your project and select Properties. Under Java Build Path → Libraries select the button "Add JARs".
The following example shows how the result would look like, if the junit-4.4.jar had been added to the project.
Afterwards you can use the classes contained in the jar
file in your Java source code.
As said earlier you can open any class via positioning the cursor on the class in an editor and pressing F3. Alternatively, you can press CTRL+Shift+T. This will show a dialog in which you can enter the class name to open it.
If the source code is not available when you attempt to open a class, the editor will show the decompiled byte-code of that class.
This happens if you open a class from a jar
file and the source for this jar is not available.
To browse the source of a type contained in a library (i.e. .jar file), you can attach a source archive or source folder to that library. Afterwards the editor will show the source instead of the byte-code.
In addition setting the source attachment allows debugging this source code.
The Source Attachment dialog can be reached in the Java Build Path page of a project. To open this page, right click on a project → Properties → Java Build Path. On the "Libraries" tab, expand the library's node, select the "Source attachment" attribute and press Edit.
In the Location path field, enter the path of an archive or a folder containing the source.
The following shows this for the standard Java library. If you have the Java Development Kit (JDK) installed, you should find the source in the JDK installation folder. The file is typically called "src.zip".
It is also possible to add Javadoc to a library which you use.
Download the Javadoc of the jar and put it somewhere in your filesystem.
Open the Java Build Path page of a project via Right click on a project → Properties → Java Build Path. On the "Libraries" tab expand the library's node, select the "Javadoc location" attribute and press Edit.
Enter the location to the file which contains the Javadoc.
Eclipse contains an Update Manager which allows you to install and update software components. Installable software components are called features
and consists of plug-ins
.
To update your Eclipse installation, select Help → Check for Updates. The system will search for updates for the already installed software components. If it finds updated components, it will ask you to approve the update.
To install a new functionality, select Help → Install New Software
From the "Work with" list, select an URL from which you would like to install.
To add a new update site, press "Add" and enter the new URL as well as a name for the new update site.
Sometimes you have to uncheck "Group items by category" – not all available plug-ins are categorized. If they are not categorized, they will not be displayed unless the grouping is disabled.
If you’re using a plug-in for which no Update Site is available, you can use the "dropins" folder in your Eclipse installation directory.
Plug-ins are typically distributed as .jar files. To add a plug-in to your Eclipse installation, put the plug-in .jar file into the Eclipse "dropins" folder and restart Eclipse. Eclipse should detect the new plug-in and install it for you.
Eclipse also contains a client which allows installing software components from the Eclipse Marketplace. The advantage of this client is that you can search for components, discover popular extensions and see descriptions and ratings.
Compared to the update manager you don't have to know the URL for the update site.
To open the Eclipse Marketplace select Help → Eclipse Marketplace.
You can use the "Find" box to search for components. Pressing "Install" will start the installation process.
Eclipse can make typing more efficient, if you enable a few preference settings.
Select Window → Preferences to open the preferences settings dialog. You can use the filter box to search for specific settings.
Select Java → Editor → Typing. In the section "Automatically insert at correct position”, check the "Semicolons" setting.
You can now type a semicolon in the middle of your code and Eclipse will position it at the end of the current statement.
Eclipse can automatically format source code and organize import statement automatically before the source code is saved. You can find this setting under Java → Editor → Save Actions.
If you have to frequently type the same code / part of the document, you can create templates which can be activated via autocomplete (Ctrl + Space).
For example, lets assume you are frequently creating public void name(){}
methods. You could define a template which creates the method body for you.
To create a template for this, select the menu Window → Preferences → Java → Editor → Templates.
Press New. Create the template show in the following screenshot.
${cursor}
indicates that the cursor should be placed at this position after applying the template.
In this example the name "npm" is your keyword.
Now every time you type "npm" in the Java editor and press Ctrl+Space the system will allow you to replace your keyword with your template.
Eclipse generates lots of source code automatically. For example, in several cases comments are added to the source code.
Select Window → Preferences → Java → Code Style → Code Templates to change the code generation templates.
In the code tree you have the templates. Select for example Code → Method Body and press "Edit" to edit this template and to remove the "todo" comment.
You can export your preference settings from one workspace via File → Export → General → Preferences.
Similarly you can import them again into another workspace.
You can use // TODO
comments in your code to add task reminders.
This indicates a task for Eclipse. You find those in the Task View
of Eclipse. Via double-clicking on the task you can navigate to the corresponding code.
You can open this View
via Window → Show View → Tasks.
For example, add a TODO to your MyFirstClass
class to see it in the Tasks View
.
package de.vogella.eclipse.ide.first;
public class MyFirstClass {
private static final String HELLO = "Hello Eclipse!";
public static void main(String[] args) {
// TODO Provide user interface
System.out.println(HELLO);
int sum = 0;
sum = calculateSum(sum);
System.out.println(sum);
}
private static int calculateSum(int sum) {
for (int i = 0; i <= 100; i++) {
sum += i;
}
return sum;
}
}
Close the editor for the MyFirstClass
class. If you now double-click on the tasks, the Java editor opens again and the TODO comment is selected.
You will create more and more projects in your development career. Therefore the data in your workspace grows and it is hard to find the right information.
You can use working sets to organize your displayed projects / data. To set up your working set select the Package Explorer → open the drop-down menu → Select Working Set...
Press "New" on the following dialog to create a working set.
On the next dialog select "Resource", press Next and select the projects you would like to see and give it a name.
You can now easily display only the files you want to see.
Eclipse has a public bug tracker based on Bugzilla. This bugtracker can be found under https://bugs.eclipse.org/bugs/. Here you can search for existing bugs and review them.
To participate actively in the Eclipse bugtracker you need to create a new account. This can be done by pressing the "Open a New Account" link.
Once you have an user you can login to the Eclipse bugtracker. This allows you to comment on existing bugs and report new ones.
The Eclipse help system is available from within your Eclipse installation as well as online.
With your running Eclipse IDE you can access the online help via Help → Help Contents. This will start a new window which shows you the help topics for your currently installed components.
Online you find the online help under http://www.eclipse.org/documentation/. The online help is version dependent and contains the help for all Eclipse projects included in the selected release.
Due to the complexity and extensibility of Eclipse you will need additional resources to help you resolve your specific problems. Fortunately the web contains several resources which can help you with your Eclipse problems.
Currently the best places to ask questions are the Eclipse forums, which can be found under http://eclipse.org/forums and Stackoverflow, which can be found under http://stackoverflow.com.
The Eclipse forums offer several topic specific forums in which you can post and answer questions. To post questions in the Eclipse forums you need a valid user in the Eclipse bugtracker. The advantage of the Eclipse forums is that, depending on the topic, Eclipse committer are also active there and might directly answer your question.
Stackoverflow also requires a user and its community is also very active. Stackoverflow does not have separate forums specific questions. In Stackoverflow you tag your questions with the relevant keyword, e.g. "Eclipse" and people interested in these keyword search for them or subscribe to them.
Both places are excellent places to ask questions. If you ask a question it is in general good advice to be polite and to give a good error description as this motivates people to give you high quality answers.
The Eclipse homepage also contains a list of relevant resources about Eclipse and Eclipse programming. You find these resources under http://www.eclipse.org/resources/.
Also the author of this description maintains several Eclipse relevant tutorials on his webpage. You find all his Eclipse related articles on http://www.vogella.de/eclipse.html.
To learn how to debug Eclipse Java programs you can use Eclipse Debugging
To learn Java Web development you can use with Servlet and JSP development . If you want to develop rich stand-alone Java clients you can use Eclipse RCP You can extend Eclipse with Eclipse Plug-ins .
Good luck in your journey of learning Java!
Before posting questions, please see the vogella FAQ. If you have questions or find an error in this article please use the www.vogella.de Google Group. I have created a short list how to create good questions which might also help you.
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