Apache-ant-1.9.6-bin.zip (9ff91e8babfc) - ## / 54 In cases where actual malware is found, the packages are subject to removal. Software sometimes has false positives.
Apache 2.0: Categories: Build Tools: Date (May 22, 2012) Files: pom (9 KB) jar (1.9 MB) View All: Repositories: Central Apache Releases Geomajas JCenter Redhat GA Spring Plugins: Used By: 1,975 artifacts. Ln -v -sf /etc/ant /opt/ant-1.8.3/etc: The sed commands change the configuration directory to /etc/ant and this command creates a symlink from the configuration directory back to the installation directory as the package is expecting to find some files there. Working with User variables, add this new variable as something like C: Users russ bin apache-ant-1.8.1. While there, if you think you're going to be working a lot from the Windows command prompt, add;C: Users russ bin apache-ant-1.8.1 bin to your PATH variable. Or, just follow the up-coming instruction whose effect will hold as long as you. Apache-ant-1.8.2 free download. Ant Design Ant Design is an enterprise-class UI design language and React UI library that provides high quality.
ANT stands for Another Neat Tool. It is a Java-based build tool from Apache. Before going into the details of Apache Ant, let us first understand why we need a build tool in the first place.
On an average, a developer spends a substantial amount of time doing mundane tasks like build and deployment that include:
To automate and simplify the above tasks, Apache Ant is useful. It is an Operating System build and deployment tool that can be executed from the command line.
Ant was created by James Duncan Davidson (the original author of Tomcat).
It was originally used to build Tomcat, and was bundled as a part of Tomcat distribution.
Ant was born out of the problems and complexities associated with the Apache Make tool.
Ant was promoted as an independent project in Apache in the year 2000. The latest version of Apache Ant as on May 2014 is 1.9.4.
Ant is the most complete Java build and deployment tool available.
Ant is platform neutral and can handle platform specific properties such as file separators.
Ant can be used to perform platform specific tasks such as modifying the modified time of a file using 'touch' command.
Ant scripts are written using plain XML. If you are already familiar with XML, you can learn Ant pretty quickly.
Ant is good at automating complicated repetitive tasks.
Ant comes with a big list of predefined tasks.
Ant provides an interface to develop custom tasks.
Ant can be easily invoked from the command line and it can integrate with free and commercial IDEs.
Apache Ant Ant is distributed under the Apache Software License, a fully-fledged open source license certified by the open source initiative.
The latest Apache Ant version, including its full-source code, class files, and documentation can be found at http://ant.apache.org.
It is assumed that you have already downloaded and installed Java Development Kit (JDK) on your computer. If not, please follow the instructions here.
Ensure that the JAVA_HOME environment variable is set to the folder where your JDK is installed.
Download the binaries from http://ant.apache.org
Unzip the zip file to a convenient location c:folder. using Winzip, winRAR, 7-zip or similar tools.
Create a new environment variable called ANT_HOME that points to the Ant installation folder, in this case c:apache-ant-1.8.2-bin folder.
Append the path to the Apache Ant batch file to the PATH environment variable. In our case this would be the c:apache-ant-1.8.2-binbin folder.
To verify the successful installation of Apache Ant on your computer, type ant on your command prompt.
You should see an output similar to:
If you do not see the above output, then please verify that you have followed the installation steps properly.
This tutorial also covers integration of Ant with Eclipse IDE. Hence, if you have not installed Eclipse already, please download and install Eclipse
To install Eclipse:
Download the latest Eclipse binaries from www.eclipse.org
Unzip the Eclipse binaries to a convenient location, say c:folder
Run Eclipse from c:eclipseeclipse.exe
Typically, Ant's build file, called build.xml should reside in the base directory of the project. However there is no restriction on the file name or its location. You are free to use other file names or save the build file in some other location.
For this exercise, create a file called build.xml anywhere in your computer with the following contents in it:
Note that there should be no blank line(s) or whitespace(s) before the xml declaration. If you allow them, the following error message occurs while executing the ant build -
The processing instruction target matching '[xX][mM][lL]' is not allowed.All build files require the project element and at least one target element.
The XML element project has three attributes :
Attributes | Description |
---|---|
name | The Name of the project. (Optional) |
default | The default target for the build script. A project may contain any number of targets. This attribute specifies which target should be considered as the default. (Mandatory) |
basedir | The base directory (or) the root folder for the project. (Optional) |
A target is a collection of tasks that you want to run as one unit. In our example, we have a simple target to provide an informational message to the user.
Targets can have dependencies on other targets. For example, a deploy target may have a dependency on the package target, the package target may have a dependency on the compile target and so forth. Dependencies are denoted using the depends attribute. For example:
The target element has the following attributes:
Attributes | Description |
---|---|
name | The name of the target (Required) |
depends | Comma separated list of all targets that this target depends on. (Optional) |
description | A short description of the target. (optional) |
if | Allows the execution of a target based on the trueness of a conditional attribute. (optional) |
unless | Adds the target to the dependency list of the specified Extension Point. An Extension Point is similar to a target, but it does not have any tasks. (Optional) |
The echo task in the above example is a trivial task that prints a message. In our example, it prints the message Hello World.
To run the ant build file, open up command prompt and navigate to the folder where the build.xml resides, and type ant info. You could also type ant instead. Both will work, because info is the default target in the build file. You should see the following output:
Ant build files are written in XML, which does not allow declaring variables as you do in your favorite programming language. However, as you may have imagined, it would be useful if Ant allowed declaring variables such as project name, project source directory, etc.
Ant uses the property element which allows you to specify properties. This allows the properties to be changed from one build to another or from one environment to another.
By default, Ant provides the following pre-defined properties that can be used in the build file:
Properties | Description |
---|---|
ant.file | The full location of the build file. |
ant.version | The version of the Apache Ant installation. |
basedir | The basedir of the build, as specified in the basedir attribute of the project element. |
ant.java.version | The version of the JDK that is used by Ant. |
ant.project.name | The name of the project, as specified in the name atrribute of the project element. |
ant.project.default-target | The default target of the current project. |
ant.project.invoked-targets | Comma separated list of the targets that were invoked in the current project. |
ant.core.lib | The full location of the Ant jar file. |
ant.home | The home directory of Ant installation. |
ant.library.dir | The home directory for Ant library files - typically ANT_HOME/lib folder. |
Ant also makes the system properties (Example: file.separator) available to the build file.
In addition to the above, the user can define additional properties using the property element. The following example shows how to define a property called sitename:
Running Ant on the above build file produces the following output:
Setting properties directly in the build file is fine, if you are working with a handful of properties. However, for a large project, it makes sense to store the properties in a separate property file.
Storing the properties in a separate file offers the following benefits:
It allows you to reuse the same build file, with different property settings for different execution environment. For example, build properties file can be maintained separately for DEV, TEST, and PROD environments.
It is useful when you do not know the values for a property (in a particular environment) up-front. This allows you to perform the build in other environments where the property value is known.
There is no hard and fast rule, but typically the property file is named build.properties and is placed along-side the build.xml file. You could create multiple build properties files based on the deployment environments - such as build.properties.dev and build.properties.test.
The contents of the build property file are similar to the normal java property file. They contain one property per line. Each property is represented by a name and a value pair. The name and value pairs are separated by an equals (=) sign. It is highly recommended that the properties are annotated with proper comments. Comments are listed using the hash (#) character.
The following example shows a build.xml file and its associated build.properties file:
In the above example, sitename is a custom property which is mapped to the website name. You can declare any number of custom properties in this fashion. Another custom property listed in the above example is the buildversion, which, in this instance refers to the version of the build.
In addition to the above, Ant comes with a number of predefined build properties, which are listed in the previous section, but is represented below once again.
Properties | Description |
---|---|
ant.file | The full location of the build file. |
ant.version | The version of the Apache Ant installation. |
basedir | The basedir of the build, as specified in the basedir attribute of the project element. |
ant.java.version | The version of the JDK that is used by Ant. |
ant.project.name | The name of the project, as specified in the name atrribute of the project element. |
ant.project.default-target | The default target of the current project. |
ant.project.invoked-targets | Comma separated list of the targets that were invoked in the current project. |
ant.core.lib | The full location of the Ant jar file. |
ant.home | The home directory of Ant installation. |
ant.library.dir | The home directory for Ant library files - typically ANT_HOME/lib folder. |
The example presented in this chapter uses the ant.version built-in property.
Ant provides a number of predefined data types. Do not confuse the term 'data types' with those that are available in the programming language, instead consider them as a set of services that are built into the product already.
The following data types are provided by Apache Ant.
The fileset data types represents a collection of files. It is used as a filter to include or exclude files that match a particular pattern.
For example, refer the following code. Here, the src attribute points to the source folder of the project.
The fileset selects all .java files in the source folder except those contain the word 'Stub'. The case-sensitive filter is applied to the fileset which means a file with the name Samplestub.java will not be excluded from the fileset.
A pattern set is a pattern that allows to filter files or folders easily based on certain patterns. Patterns can be created using the following meta characters:
? - Matches one character only.
* - Matches zero or many characters.
** - Matches zero or many directories recursively.
The following example depicts the usage of a pattern set.
The patternset can then be reused with a fileset as follows:
The filelist data type is similar to the file set except the following differences:
filelist contains explicitly named lists of files and it does not support wild cards.
filelist data type can be applied for existing or non-existing files.
Let us see the following example of the filelist data type. Here, the attribute webapp.src.folder points to the web application source folder of the project.
Using a filterset data type along with the copy task, you can replace certain text in all files that matches the pattern with a replacement value.
A common example is to append the version number to the release notes file, as shown in the following code.
In this Code:
The attribute output.dir points to the output folder of the project.
The attribute releasenotes.dir points to the release notes folder of the project.
The attribute current.version points to the current version folder of the project.
The copy task, as the name suggests, is used to copy files from one location to another.
The path data type is commonly used to represent a class-path. Entries in the path are separated using semicolons or colons. However, these characters are replaced at the run-time by the executing system's path separator character.
The classpath is set to the list of jar files and classes in the project, as shown in the example below.
In this code:
The attribute env.J2EE_HOME points to the environment variable J2EE_HOME.
The attribute j2ee.jar points to the name of the J2EE jar file in the J2EE base folder.
Now that we have learnt about the data types in Ant, it is time to put that knowledge into action. We will build a project in this chapter. The aim of this chapter is to build an Ant file that compiles the java classes and places them in the WEB-INFclasses folder.
Consider the following project structure:
The database scripts are stored in the db folder.
The java source code is stored in the src folder.
The images, js, META-INF, styles (css) are stored in the war folder.
The JSPs are stored in the jsp folder.
The third party jar files are stored in the lib folder.
The java class files are stored in the WEB-INFclasses folder.
This project forms the Hello World Fax Application for the rest of this tutorial.
Here is the build.xml required for this project. Let us consider it piece by piece.
First, let us declare some properties for the source, web, and build folders.
In this example:
src.dir refers to the source folder of the project where the java source files can be found.
web.dir refers to the web source folder of the project, where you can find the JSPs, web.xml, css, javascript and other web related files
build.dir refers to the output folder of the project compilation.
Properties can refer to other properties. As shown in the above example, the build.dir property makes a reference to the web.dir property.
In this example, the src.dir refers to the source folder of the project.
The default target of our project is the compile target. But first let us look at the clean target.
The clean target, as the name suggests, deletes the files in the build folder.
The master-classpath holds the classpath information. In this case, it includes the classes in the build folder and the jar files in the lib folder.
Finally, the build target to build the files. First of all, we create the build directory, if it does not exist. Then we execute the javac command (specifying jdk1.5 as our target compilation). We supply the source folder and the classpath to the javac task and ask it to drop the class files in the build folder.
Executing Ant on this file compiles the java source files and places the classes in the build folder.
The following outcome is the result of running the Ant file:
The files are compiled and placed in the build.dir folder.
Documentation is a must in any project. Documentation plays a great role in the maintenance of a project. Java makes documentation easier by the use of the in-built javadoc tool. Ant makes it even easier by generating the documentation on demand.
As you know, the javadoc tool is highly flexible and allows a number of configuration options. Ant exposes these configuration options via the javadoc task. If you are unfamiliar with javadocs, we suggest that you start with this Java Documentation Tutorial.
The following section lists the most commonly used javadoc options that are used in Ant.
Source can be specified using sourcepath, sourcepathref or sourcefiles.
sourcepath is used to point to the folder of the source files (e.g. src folder).
sourcepathref is used to refer a path that is referenced by the path attribute (e.g, delegates.src.dir).
sourcefiles is used when you want to specify the individual files as a comma separated list.
Destination path is specified using the destdir folder (e.g build.dir).
You could filter the javadoc task by specifying the package names to be included. This is achieved by using the packagenames attribute, a comma separated list of package files.
You could filter the javadoc process to show only the public, private, package, or protected classes and members. This is achieved by using the private, public, package and protected attributes.
You could also tell the javadoc task to include the author and version information using the respective attributes.
You could also group the packages together using the group attribute, so that it becomes easy to navigate.
Let us continue our theme of the Hello world Fax application. Let us add a documentation target to our Fax application project.
Given below is an example javadoc task used in our project. In this example, we have specified the javadoc to use the src.dir as the source directory, and doc as the target.
We have also customized the window title, the header, and the footer information that appear on the java documentation pages.
Also, we have created three groups:
You may notice that the data package group has two packages -� faxapp.entity and faxapp.dao.
Let us execute the javadoc Ant task. It generates and places the java documentation files in the doc folder.
When the javadoc target is executed, it produces the following outcome:
The java documentation files are now present in the doc folder.
Typically, the javadoc files are generated as a part of the release or package targets.
The next logical step after compiling your java source files, is to build the java archive, i.e., the JAR file. Creating JAR files with Ant is quite easy with the jar task. The commonly used attributes of the jar task are as follows:
Attributes | Description |
---|---|
basedir | The base directory for the output JAR file. By default, this is set to the base directory of the project. |
compress | Advises Ant to compress the file as it creates the JAR file. |
keepcompression | While the compress attribute is applicable to the individual files, the keepcompression attribute does the same thing, but it applies to the entire archive. |
destfile | The name of the output JAR file. |
duplicate | Advises Ant on what to do when duplicate files are found. You could add, preserve, or fail the duplicate files. |
excludes | Advises Ant to not include these comma separated list of files in the package. |
excludesfile | Same as above, except the exclude files are specified using a pattern. |
inlcudes | Inverse of excludes. |
includesfile | Inverse of excludesfile. |
update | Advises Ant to overwrite files in the already built JAR file. |
Continuing our Hello World Fax Application project, let us add a new target to produce the jar files. But before that, let us consider the jar task given below.
Here, the web.dir property points to the path of the web source files. In our case, this is where the util.jar will be placed.
The build.dir property in this example points to the build folder where the class files for the util.jar can be found.
In this example, we create a jar file called util.jar using the classes from the faxapp.util.* package. However, we are excluding the classes that end with the name Test. The output jar file will be placed in the web application lib folder.
If we want to make the util.jar an executable jar file we need to add the manifest with the Main-Class meta attribute.
Therefore, the above example will be updated as:
To execute the jar task, wrap it inside a target, most commonly, the build or package target, and execute them.
Running Ant on this file creates the util.jar file for us.
The following outcome is the result of running the Ant file:
The util.jar file is now placed in the output folder.
Creating WAR files with Ant is extremely simple, and very similar to the creating JAR files task. After all, WAR file, like JAR file is just another ZIP file.
The WAR task is an extension to the JAR task, but it has some nice additions to manipulate what goes into the WEB-INF/classes folder, and generating the web.xml file. The WAR task is useful to specify a particular layout of the WAR file.
Since the WAR task is an extension of the JAR task, all attributes of the JAR task apply to the WAR task.
Attributes | Description |
---|---|
webxml | Path to the web.xml file |
lib | A grouping to specify what goes into the WEB-INFlib folder. |
classes | A grouping to specify what goes into the WEB-INFclasses folder. |
metainf | Specifies the instructions for generating the MANIFEST.MF file. |
Continuing our Hello World Fax Application project, let us add a new target to produce the jar files. But before that let us consider the war task. Consider the following example:
As per the previous examples, the web.dir variable refers to the source web folder, i.e, the folder that contains the JSP, css, javascript files etc.
The build.dir variable refers to the output folder - This is where the classes for the WAR package can be found. Typically, the classes will be bundled into the WEB-INF/classes folder of the WAR file.
In this example, we are creating a war file called fax.war. The WEB.XML file is obtained from the web source folder. All files from the 'WebContent' folder under web are copied into the WAR file.
The WEB-INF/lib folder is populated with the jar files from the thirdpartyjars folder. However, we are excluding the portlet.jar as this is already present in the application server's lib folder. Finally, we are copying all classes from the build directory's web folder and putting into the WEB-INF/classes folder.
Wrap the war task inside an Ant target (usually package) and run it. This will create the WAR file in the specified location.
It is entirely possible to nest the classes, lib, metainf and webinf directors so that they live in scattered folders anywhere in the project structure. But best practices suggest that your Web project should have the Web Content structure that is similar to the structure of the WAR file. The Fax Application project has its structure outlined using this basic principle.
To execute the war task, wrap it inside a target, most commonly, the build or package target, and run them.
Running Ant on this file will create the fax.war file for us.
The following outcome is the result of running the Ant file:
The fax.war file is now placed in the output folder. The contents of the war file will be:
We have learnt the different aspects of Ant using the Hello World Fax web application in bits and pieces.
Now it is time to put everything together to create a full and complete build.xml file. Consider build.properties and build.xml files as follows:
In this example:
We first declare the path to the webapps folder in Tomcat in the build properties file as the deploy.path variable.
We also declare the source folder for the java files in the src.dir variable.
Then we declare the source folder for the web files in the web.dir variable. javadoc.dir is the folder for storing the java documentation, and build.dir is the path for storing the build output files.
Then we declare the name of the web application, which is fax in our case.
We also define the master class path which contains the JAR files present in the WEB-INF/lib folder of the project.
We also include the class files present in the build.dir in the master class path.
The Javadoc target produces the javadoc required for the project and the usage target is used to print the common targets that are present in the build file.
The above example shows two deployment targets : deploy and deploywar.
The deploy target copies the files from the web directory to the deploy directory preserving the last modified date time stamp. This is useful when deploying to a server that supports hot deployment.
The clean target clears all the previously built files.
The deploywar target builds the war file and then copies the war file to the deploy directory of the application server.
In the previous chapter, we have learnt how to package an application and deploy it to a folder.
In this chapter, we are going to deploy the web application directly to the application server deploy folder, then we are going to add a few Ant targets to start and stop the services. Let us continue with the Hello World fax web application. This is a continuation of the previous chapter, the new components are highlighted in bold.
In this example, we have used Tomcat as our application server. First, in the build properties file, we have defined some additional properties.
The appserver.home points to the installation path to the Tomcat application server.
The appserver.lib points to the library files in the Tomcat installation folder.
The deploy.path variable now points to the webapp folder in Tomcat.
Applications in Tomcat can be stopped and started using the Tomcat manager application. The URL for the manager application, username and password are also specified in the build.properties file. Next, we declare a new CLASSPATH that contains the catalina-ant.jar. This jar file is required to execute Tomcat tasks through Apache Ant.
The catalina-ant.jar provides the following tasks:
Properties | Description |
---|---|
InstallTask | Installs a web application. Class Name: org.apache.catalina.ant.InstallTask |
ReloadTask | Reload a web application. Class Name: org.apache.catalina.ant.ReloadTask |
ListTask | Lists all web applications. Class Name: org.apache.catalina.ant.ListTask |
StartTask | Starts a web application. Class Name: org.apache.catalina.ant.StartTask |
StopTask | Stops a web application. Class Name: org.apache.catalina.ant.StopTask |
ReloadTask | Reloads a web application without stopping. Class Name: org.apache.catalina.ant.ReloadTask |
The reload task requires the following additional parameters:
Let us issue the deploy-war command to copy the webapp to the Tomcat webapps folder and then let us reload the Fax Web application. The following outcome is the result of running the Ant file:
Once the above task is run, the web application is deployed and the web application is reloaded.
You can use Ant to execute Java code. In the following example, the java class takes in an argument (administrator's email address) and sends out an email.
Here is a simple build that executes this java class.
When the build is executed, it produces the following outcome:
In this example, the java code does a simple thing - to send an email. We could have used the built in the Ant task to do that. However, now that you have got the idea, you can extend your build file to call the java code that performs complicated things, for example: encrypts your source code.
If you have downloaded and installed Eclipse already, you have very little to do to get started. Eclipse comes pre bundled with the Ant plugin, ready to use.
Follow the simple steps, to integrate Ant into Eclipse.
Make sure that the build.xml is a part of your java project, and does not reside at a location that is external to the project.
Enable Ant View by following Window > Show View > Other > Ant > Ant.
Open Project Explorer, drag the build.xml into the Ant View.
Your Ant view looks similar to:
Clicking on the targets, build / clean / usage will run Ant with the target.
Clicking 'fax' will execute the default target - usage.
The Ant Eclipse plugin also comes with a good editor for editing build.xml files. The editor is aware of the build.xml schema and can assist you with code completion.
To use the Ant editor, right click your build.xml (from the Project Explorer) and select Open with > Ant Editor. The Ant editor should look something similar to:
The Ant editor lists the targets on the right hand side. The target list serves as a bookmark that allows you to jump straight into editing a particular target.
JUnit is the commonly used unit testing framework for Java-based developments. It is easy to use and easy to extend. There are a number of JUnit extensions available. If you are unfamiliar with JUnit, you should download it from www.junit.org and read its manual.
This chapter shows how to execute JUnit tests using Ant. Ant makes it straight forward through the JUnit task.
The attributes of the JUnit task are presented below:
Properties | Description |
---|---|
dir | Where to invoke the VM from. This is ignored when fork is disabled. |
jvm | Command used to invoke the JVM. This is ignored when fork is disabled. |
fork | Runs the test in a separate JVM |
errorproperty | The name of the property to set if there is a JUnit error |
failureproperty | The name of the property to set if there is a JUnit failure |
haltonerror | Stops execution when a test error occurs |
haltonfailure | Stops execution when a failure occurs |
printsummary | Advises Ant to display simple statistics for each test |
showoutput | Advises Ant to send the output to its logs and formatters |
tempdir | Path to the temporary file that Ant will use |
timeout | Exits the tests that take longer to run than this setting (in milliseconds). |
Let us continue the theme of the Hello World Fax web application and add a JUnit target.
The following example shows a simple JUnit test execution:
This example shows the execution of JUnit on the com.tutorialspoint.UtilsTest junit class. Running the above code produces the following output:
Ant comes with a predefined set of tasks, however you can create your own tasks, as shown in the example below.
Custom Ant Tasks should extend the org.apache.tools.ant.Task class and should extend the execute() method. Below is a simple example:
To execute the custom task, you need to add the following to the Hello World Fax web application:
Executing the above custom task prints the message 'Hello World!'
This is just a simple example, you can use the power of Ant to do whatever you want to improve your build and deployment process.
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