Author: Michael Karneim
Project Homepage: https://github.com/mkarneim/pojobuilder
The PojoBuilder Generator is a Java 6 compliant annotation processor that generates a fluent builder class for POJOs (Plain Old Java Object).
The generated builder provides
- a fluent interface for specifying values for the pojo's properties in a DSL like manner
- and a "build()" method for creating a new pojo instance with these values.
Here is an example of how you could use a generated pojo builder from your code:
Contact james = new ContactBuilder()
.withSurname("Bond")
.withFirstname("James")
.withEmail("[email protected]")
.build();
Builders are quite useful, for example, to build test data, where you only want to set the relevant data properties.
For more information on
- test data builders see http://c2.com/cgi/wiki?TestDataBuilder and http://www.natpryce.com/articles/000714.html.
- the builder pattern see http://en.wikipedia.org/wiki/Builder_pattern.
- fluent interface see http://www.martinfowler.com/bliki/FluentInterface.html
The source code located in the "src" directory is in the PUBLIC DOMAIN. For more information please read the COPYING file.
PojoBuilder is a pure code generator. It does not add any runtime dependencies to your project.
However, PojoBuilder adds the following compile-time dependency to your project, which has its own license:
- JavaWriter 2.5.0 (see license)
PojoBuilder is Open Source. The source code is available at https://github.com/mkarneim/pojobuilder. For older versions and a change log please see the release history page.
PojoBuilder binaries are available for download at Sonatype OSS Maven Repository and Maven Central.
If you don't use any build automation tool that supports maven repos,
you might want to download the pojobuilder-4.3.0-jar-with-dependencies.jar
to get PojoBuilder complete with all dependent libraries included.
The PojoBuilder generator uses an annotation processor to generate pojo builders for you. You have the following options to trigger the code generation:
To generate a builder class for a pojo you can annotate one of its constructors with @GeneratePojoBuilder
.
Let's have a look at the following example pojo:
public class Contact {
private final String surname;
private final String firstname;
private String email;
@GeneratePojoBuilder
public Contact(String surname, String firstname) {
this.surname = surname;
this.firstname = firstname;
}
public String getEmail() {
return email;
}
public void setEmail(String email) {
this.email = email;
}
public String getSurname() {
return surname;
}
public String getFirstname() {
return firstname;
}
}
The @GeneratePojoBuilder annotation tells the annotation processor to create a new Java source file with
the name ContactBuilder
. Have a look at ContactBuilder.java
to see the generated source code.
Please note that the constructor must be public or otherwise accessible for the generated builder, e.g. if it's protected the generated builder must reside in the same package.
And also note that the constructor parameter names must match the names of the pojo's properties exactly.
An optional @ConstructorProperties annotation can be used to specify the mapping from the constructor-parameter-names to the corresponding bean-property-names on the pojo if they differ.
public class Contact {
private final String surname;
private final String firstname;
private String email;
@GeneratePojoBuilder
@ConstructorProperties({"surname","firstname"})
public Contact(String arg1, String arg2) {
this.surname = arg1;
this.firstname = arg2;
}
public String getEmail() {
return email;
}
public void setEmail(String email) {
this.email = email;
}
public String getSurname() {
return surname;
}
public String getFirstname() {
return firstname;
}
}
If your pojo has no constructor (or a public default constructor), you can annotate its class with @GeneratePojoBuilder
.
Let's have a look at the following example pojo:
@GeneratePojoBuilder
public class User {
private String name;
private char[] password;
public String getName() {
return name;
}
public void setName(String name) {
this.name = name;
}
public char[] getPassword() {
return password;
}
public void setPassword(char[] password) {
this.password = password;
}
}
Have a look at UserBuilder.java
to see the generated source code.
Alternatively, if you don't have access to the pojo's source code, or if you are no fan of annotating a pojo, you can annotate a factory method:
public class UrlFactory {
@GeneratePojoBuilder(withName="UrlBuilder", intoPackage = "samples")
public static URL createUrl(
String protocol, String host, int port, String file, URLStreamHandler handler)
throws MalformedURLException {
return new URL(protocol, host, port, file, handler);
}
}
Have a look at UrlBuilder.java
to see the generated source code.
Please note that the factory method must be public and static. The method parameter names must match the names of the pojo's properties exactly.
An optional @FactoryProperties annotation can be used to specify the mapping from the factory-method-parameter-names to the corresponding bean-property-names on the pojo if they differ.
public class FileFactory {
@GeneratePojoBuilder(intoPackage = "samples")
@FactoryProperties({"path"})
public static File createFile(String arg1) {
return new File(arg1);
}
}
Have a look at FileBuilder.java
to see the generated source code.
Beginning with PojoBuilder 4.3 you can annotate a Java 17 record type:
@GeneratePojoBuilder
public record MyRecord(int x, int y, String blah) {}
The following elements of @GeneratePojoBuilder can be used to configure the output of the code generation process.
- withName=<String>
specifies the pattern of the builder's name. An asterisk will be
replaced with the pojos simple name. For example, the result of the pattern
Fluent*Builder
will becomeFluentContactBuilder
if the pojo's name isContact
. The default pattern is*Builder
. - withConstructor=<Visibility>
Specifies the visibility of the builder's constructor.
Default is
Visibility.PUBLIC
. - intoPackage=<String>
specifies the package of the generated builder. An asterisk will be
replaced with the pojos package. For example, the result of the pattern
*.util
will becomecom.example.util
if the pojo's package iscom.example
. The default pattern is*
. - withBaseclass=<Class>
specifies the base class of the generated builder. The default class is
Object.class
. - withBuilderInterface=<Class>
specifies the interface of the generated builder. The interface must declare exactly one type parameter
and a build method with this type as return type.
For an example please see
Address.java
,Builder.java
andAddressBuilder.java
. Default isVoid.class
, which means, that no interface should be implemented. - withBuilderProperties=<boolean>
specifies whether the generated builder should define builder-based with-methods using the
builder interface (see above).
For an example please see
Recipient.java
,Builder.java
andRecipientBuilder.java
. Default isfalse
. - includeProperties=<String[]>
specifies which of the pojo's properties will be included into the generated builder. All properties that match any
property pattern in the specified array will be included. All other non-mandatory properties will be excluded.
Mandatory properties are those which are passed as constructor or factory method arguments. They will never be
excluded, neither explicitly nor implicitly.
For an example please see
InputSourceFactory.java
andInputSourceBuilder.java
. Default is*
. - excludeProperties=<String[]>
specifies which of the pojo's properties will be excluded from the generated builder. All property that match any
property pattern in the specified array will be excluded, except those that are mandatory. Mandatory properties are
those which are passed as constructor or factory method arguments. They will never be excluded, neither explicitly
nor implicitly.
For an example please see
CalendarFactory.java
andGregorianCalendarBuilder.java
. Default is the empty array. - withGenerationGap=<boolean>
specifies whether the generation gap pattern is used. If enabled, this
will generate two classes (instead of one), of which one contains the
ordinary builder code, whereas the other class extends the first one and is an empty template for handwritten code.
Please move it out of the generated-sources folder to prevent it from being overwritten.
For examples please see
Player.java
,PlayerBuilder.java
, andAbstractPlayerBuilder.java
. Default isfalse
. - withCopyMethod=<boolean>
specifies whether a copy method should be generated. Use the copy
method to initialize the builder's values from a given pojo instance.
For an example please see
TextEmail.java
andTextEmailBuilder.java
. Default isfalse
. - withOptionalProperties=<Class>
specifies whether the generated builder should define optional-based setter-methods using the
specified 'Optional' type. Examples are Google Guava's
com.google.common.base.Optional
andjava.util.Optional
introduced with Java 8. Default isVoid.class
, which means, that no optional-based setter-methods are generated. - withSetterNamePattern=<String>
specifies the name pattern of the generated setter-methods. An asterisk will be replaced with
the property's original name. Default is
with*
. - withValidator=<Class>
specifies the validator class that should be used to validate the created pojo. The class must
define a
validate
method having one parameter that is compatible with the pojo's type. If the validation fails, the method must throw some runtime exception (or one of its subclasses). For an example please seeCredentials.java
,CredentialsValidator.java
andCredentialsBuilder.java
. - withFactoryMethod=<String>
specifies the name of a static factory method added to the builder class which creates a builder instance.
An asterisk will be replaced by the pojos simple name.
For an example please see
Task.java
andTaskBuilder.java
. Default is""
meaning not to generate this method.
Beginning with version 3, PojoBuilder supports meta-annotations. That is, you can place @GeneratePojoBuilder onto another annotation and it will be inherited.
Advantages are:
- Common PojoBuilder directives can be shared in one place
- The annotation can also hold directives for other libraries that support meta annotations, binding them all up into one meaningful annotation for use in your application.
The following example defines @AppPojo
which can applied at a class level and encapsulates the annotations from three
different sources (PojoBuilder, Lombok and JSR-305).
@GeneratePojoBuilder(withName = "Fluent*Builder")
@lombok.experimental.Value // class-level annotation from Lombok
@javax.annotation.concurrent.Immutable // class-level annotation from JSR-305
@Target({ElementType.TYPE, ElementType.ANNOTATION_TYPE})
public @interface AppPojo {
}
This can be placed onto each of your pojos:
@AppPojo
public class Contact {
public String name;
}
PojoBuilder will generate FluentContactBuilder
based on the directives inherited from the @AppPojo
annotation.
Defaults inherited from meta-annotations can be overriden by more 'local' @GeneratePojoBuilder
annotations:
@AppPojo
@GeneratePojoBuilder(intoPackage = "builder")
public class Contact {
public String name;
}
This will generate FluentContactBuilder
as before but into the package builder
.
The PojoBuilder wiki provides a cookbook about using the PojoBuilder Generator, e.g for building a domain-specific language for automated tests.
For some complete code examples please have a look into the src/testdata/java/samples folder.
To execute the PojoBuilder annotation processor you just need to put it into the compile-time classpath.
During runtime no libraries are required since the retention policy of PojoBuilder's annotations is CLASS
.
Here is a list of brief descriptions about how to run PojoBuilder with
The javac
compiler will auto-detect the presence of PojoBuilder if pojobuilder-*.jar
is included in the classpath.
For example:
javac -cp pojobuilder-4.3.0-jar-with-dependencies.jar Contact.java
will generate a ContactBuilder
if Contact
is annotated with @GeneratePojoBuilder
.
For more information see the javac documentation.
Add the following to your project's pom.xml
to configure the PojoBuilder annotation processor.
<dependency>
<groupId>net.karneim</groupId>
<artifactId>pojobuilder</artifactId>
<version>4.3.0</version>
<!-- 'provided' scope because this is only needed during compilation -->
<scope>provided</scope>
</dependency>
Notes:
- The compile phase will automatically detect and activate PojoBuilder.
- Generated sources will appear in the standard location:
${project.build.directory}/generated-sources/annotations
. - If you need to keep the generated sources in a specific directory outside of the
target
directory, then configure thegeneratedSourcesDirectory
of themaven-compiler-plugin
. See the sample Maven pom for an example. - If you rely on incremental compilation then you might want to use the maven processor plugin instead.
- Eclipse users might want to install m2e-apt to have integrated support for APT-generated sources.
This is a small build script that shows how to run the PojoBuilder annotation processor with Gradle.
apply plugin: 'java'
repositories {
mavenCentral()
}
dependencies {
compile 'net.karneim:pojobuilder:4.3.0'
}
Please note that this not only adds the PojoBuilder and its dependencies to your compile-time class path but also to your run-time class path.
Alternatively you can use the following script to add PojoBuilder only to the compile-time class path:
apply plugin: 'java'
repositories {
mavenCentral()
}
configurations {
codeGeneration
}
dependencies {
codeGeneration 'net.karneim:pojobuilder:4.3.0'
compileOnly 'net.karneim:pojobuilder:4.3.0:annotations'
}
compileJava.classpath += configurations.codeGeneration
compileTestJava.classpath += configurations.codeGeneration
In both cases the generated sources will be placed into the standard build/classes
directory.
If you want to put them somewhere else, just specify the destination like this:
compileJava.options.compilerArgs += ['-s', 'src/generated/java']
The wiki contains an extended Gradle script that distinguishes completely between code generation and compilation tasks.
There is another Gradle script that enables PojoBuilder for Eclipse IDE.
With Gradle 5.0 any annotation processor in the classpath don't get executed anymore.
To make pojobuilder work again, replace the used dependency scope with annotationProcessor
dependencies {
annotationProcessor 'net.karneim:pojobuilder:4.3.0'
}
Here is a code snippet of some sample ANT build script that runs the PojoBuilder annotation processor within the javac
task.
<!-- Add the required libraries into this directory. -->
<fileset id="libs.fileset" dir="${basedir}/lib">
<include name="*.jar" />
</fileset>
<path id="class.path">
<fileset refid="libs.fileset" />
</path>
<target name="compile" depends="init"
description="Compile java sources and run annotation processor">
<mkdir dir="${src.gen.java.dir}" />
<mkdir dir="${build.classes.dir}" />
<javac classpathref="class.path" destdir="${build.classes.dir}">
<src path="${src.main.java.dir}" />
<!-- This tells the compiler where to place the generated source files -->
<compilerarg line="-s ${src.gen.java.dir}"/>
</javac>
</target>
You could also configure Eclipse to run the PojoBuilder annotation processor during the build cycle.
It will be invoked whenever you save files that contain sources annotated with @GeneratePojoBuilder
.
Do the following to enable PojoBuilder for your Eclipse project:
- Open your project's properties dialog
- Navigate to "Java Build Path" tree node
- Open the "Libraries" tab
- Add
pojobuilder-4.3.0-annotations.jar
to your project classpath - Navigate to "Java Compiler / Annotation Processing" tree node
- Check "Enable project specific settings"
- Check "Enable annotation processing"
- Check "Enable processing in editor"
- Specify the target directory for the generated code in "Generated source directory"
- Navigate to "Java Compiler / Annotation Processing / Factory Path" tree node
- Check "Enable project specific settings"
- Click "Add JARs..."
- Add
pojobuiler-4.3.0-jar-with-dependencies.jar
- Click "OK"
If you want to compile this project's sources yourself you can use Gradle (see build.gradle).