ParaNamer Distribution

Paranamer allows runtime access to constructor and method parameter names for Java classes

License

License

BSD
Categories

Categories

Distribution Build Tools
GroupId

GroupId

com.thoughtworks.paranamer
ArtifactId

ArtifactId

paranamer-distribution
Last Version

Last Version

2.8
Release Date

Release Date

Type

Type

zip
Description

Description

ParaNamer Distribution
Paranamer allows runtime access to constructor and method parameter names for Java classes

Download paranamer-distribution

Dependencies

compile (2)

Group / Artifact Type Version
com.thoughtworks.paranamer : paranamer-generator jar 2.8
com.thoughtworks.paranamer : paranamer-ant jar 2.8

test (1)

Group / Artifact Type Version
junit : junit jar 4.12

Project Modules

There are no modules declared in this project.

Paranamer

Method Parameter Name Access for Java*

  • versions PRIOR TO Java 7.0 8.0

What is it?

It is a library that allows the parameter names of non-private methods and constructors to be accessed at runtime. Normally this information is dropped by the compiler. In effect, methods like doSometing(mypkg.Person toMe) currently look like doSomething(mypackage.Person ???) to people using Java's reflection to inspect methods.

To date parameter name access has not been very useful to Java application developers, but with the advent of advanced scripting languages and web action frameworks for the JVM it is of increasing importance to be able to leverage a method's parameter names. Scripting languages like Groovy and JRuby, web action frameworks like Waffle and VRaptor (that verge on the transparent) and the compelling Grails. SOAP and REST designs could also benefit.

Paranamer allows you to generate and use parameter name info for versions of Java prior to JDK 5.0 and above. Parameter name access was scheduled for JDK 6.0, but was cancelled at a late stage as the spec-lead suggested the development team ran out of time to implement it. It didn't ship in JDK 7.0 either, though it did in JDK 8 (see below). Historically, it was felt that applications could end up depending on parameter names, and that they essentially became part of constructor/method signatures and could never be changed if you wanted to be backwards compatible. The view of the authors of Paranamer is that you should be aware that parameter names may change between releases, and code to not depend on them.

Paranamer is Open Source, and licensed as BSD, and first created in in July 2006. It is compatible with commercial/proprietary, GPL, BSD, and Apache (or any open/free source) use.

Java8 has parameter name access built in!

Paranamer is gaining JDK 8 compatibility. JDK 8 though has native support though, and stackoverflow shows you how to make that work.

Accessing Parameter Name data

There is a method called lookupParameterNames that returns an array of strings for a method or constructor.

// MySomethingOrOther.java**
Method method = Foo.class.getMethod(...);

Paranamer paranamer = new CachingParanamer();

String[] parameterNames = paranamer.lookupParameterNames(method) // throws ParameterNamesNotFoundException if not found

// or:

parameterNames = paranamer.lookupParameterNames(method, false) // will return null if not found

Paranamer does not have any runtime jar dependencies while looking up parameter info previously generated that's been zipped into a jar.

DefaultParanamer

DefaultParanamer tries to read parameter name data from an extra public static field called __PARANAMER_DATA on the class. This field need to be added after compilation of the class, and before you put the resulting classes in a jar.

The static field essentially looks like the following. You really do not need to know this unless your going to make something compatible with Paranamer:

public static final String __PARANAMER_DATA = "v1.0 \n"
      + "<init> com.example.PeopleService peopleService \n"
      + "setName java.lang.String,java.lang.String givenName,familyName \n";
      + "setDateOfBirth int,int,int day,month,year \n";

Clearly the method's source needs to be analysed and lines added per method to that __PARANAMER_DATA field. See below.

BytecodeReadingParanamer

If generating meta data for parameter names at compile time is not for you, try class BytecodeReadingParanamer as a runtime only solution. This uses a cut down forked and cut-down version of ASM to extract debug information from a class at runtime. As it happens this is the fallback implementation for CachingParanamer when DefaultParanamer reports that there is no meta data for a class.

Note: BytecodeReadingParanamer does not work parameters stored in interfaces, because the javac compiler ALWAYS omits that information from the debug tables in the .class file.

JavadocParanamer

Pulls its parameter names from a Javadoc zip/jar (named in the constructor). Courtesy of Sam Halliday

PositionalParanamer

Numbers it's parameter names arg0, arg1, arg2 (etc), intended as a fall-back if you need it. From Stefan Fleiter.

AnnotationParanamer

AnnotationParanamer uses the @Named annotation from JSR 330 and extracts names pertinent to parameters from that.

public static class Something {
    public void doSomething(@Named("usedName") String ignoredName) {
    }
}

AnnotationParanamer takes a delegate paranamer instance as an optional constructor arg. This will allow constructors and methods to only partly leverage @Named, with other parameters having non-annotated parameter names (the via say DefaultParanamer or BytecodeReadingParanamer).

If you have an alternate annotation to @Named, then you can specify that in a subclass of AnnotationParanamer that overrides two methods isNamed and getNamedValue. Your overridden methods should do the equivalent of 'return an instance of Named' and return ((Named) ann).value(); respectively.

If you are using @Named annotation, you will need to add javax.atinject artifact in your classpath. Paranamer is built with the javax.atinject module as an optional dependency.

AdaptiveParanamer

AdaptiveParanamer is designed for using a series of Paranamer implementations together. The first supplied is asked if it can supply parameter name data for a constructor/method. If it cannot, then the next one is asked and so on. The default constructor for this uses DefaultParanamer with ByteCodeReadingParanamer as its contingency.

CachingParanamer

CachingParanamer stores the results of each parameter name lookup, so that second and subsequent invocations will be far quicker.

There's a subclass of CachingParanamer called CachingParanamer.WithoutWeakReferences. It does not use a WeakHashMap as an internal implementation. If you're great with profiling of applications under load, you might be able to justify use of this implementation for your particular app.

Feeding DefaultParanamer

Generating __PARANAMER_DATA with Ant

This for DefaultParanamer usage of course, as BytecodeReadingParanamer does not need it.

You need to download:

... and declare in your Ant script the following after <javac/> (remember to add to the taskdef classpath all the above jars):

<taskdef name="paranamer"
       classname="com.thoughtworks.paranamer.ant.ParanamerGeneratorTask"/>
  <paranamer sourceDirectory="src/java" outputDirectory="target/classes"/>

Classes are changed to have an extra static String member variable that contains the member functions and their parameter names. Be sure to zip them up in to you final jar.

Generating __PARANAMER_DATA with Maven 2 or 3

For Maven, configuration is simpler. Just add this to the build/plugins section of your pom.xml:

<plugin>
    <groupId>com.thoughtworks.paranamer</groupId>
    <artifactId>paranamer-maven-plugin</artifactId>
    <executions>
        <execution>
            <id>run</id>  <!-- id is optional -->
            <configuration>
                <sourceDirectory>${project.build.sourceDirectory}</sourceDirectory>
                <outputDirectory>${project.build.outputDirectory}</outputDirectory>
            </configuration>        
             <goals>
                <goal>generate</goal>
            </goals>
        </execution>
    </executions>
    <dependencies>
        <!-- if some of parameter names you need to retain are held in pre-existing jars, they need to be added to the classpath -->
        <dependency>
            <groupId>some-artifact-group</groupId>
            <artifactId>some-artifact</artifactId>
            <version>1.0</version>
        </dependency>
    </dependencies>
</plugin>

The classes in the ultimate jar file will automatically be made with parameter name data.

Embedding Paranamer in your jar

There are already too many jar's for day to day Java development right? Simply consume the runtime Paranamer jar into your project's jar using the Maven2 'shade' plugin.

<!-- Put in your POM.xml file -->
<build>
    <plugins>
      <plugin>
        <groupId>org.apache.maven.plugins</groupId>
        <artifactId>maven-shade-plugin</artifactId>
        <executions>
          <execution>
            <phase>package</phase>
            <goals>
              <goal>shade</goal>
            </goals>
            <configuration>
              <shadedArtifactId>artifact-shaded</shadedArtifactId>
              <relocations>
                <relocation>
                  <pattern>com.thoughtworks.paranamer</pattern>
                  <shadedPattern>com.yourcompany.yourapp.paranamer</shadedPattern>
                </relocation>
              </relocations>
            </configuration>
          </execution>
        </executions>
      </plugin>
    </plugins>
  </build>

What if a parameter names changes?

The general answer to this question is that you should not ship something to third parties where they are going to hard-core your parameter names into their application. For you own in-house stuff, accessing parameter names is harmless. You should be able to ripple though the source code of even large applications, and change say badSpeeldWord to badlySpelledWorld if you need to.

Other Modules

  • paranamer-ant - Ant tasks
  • paranamer-maven-plugin - a Maven plugin (as shown above)

Paranamer's Future

The need for Paranamer will go away when JEP-118 lands as part of Java8. Despite that, we intend to maintain the library so that it continues to work.

Projects using it

Releases

  • Release 2.8 - Aug 26 2015 - JDK 8 compatibility improvements, and removal of Codehaus dependencies in build
  • Release 2.7 - Aug 16 2014 - QDox changed from 1.x to 2.x meaning Java7 features are supported. Thanks to PR16 by Robert Scholte
  • Release 2.6.1 - Jul 18 2014 - New OSGi bundle info PR15 by Raghu Devarakonda, a new -DskipParanamer CLI option PR14 by Nicholas Whitehead, a new and optional non-WeakHashMap caching impl Issue 8, Maven fixups and Code refactoring from Otávio Garcia (PR13, PR14),
  • Release 2.6 - Oct 9 2013 - adding PositionalParanamer from Stefan Fleiter
  • Release 2.5 - Apr 15 2012
  • Release 2.4 - Oct 29 2011
  • Release 2.3 - Oct 19 2010
  • Release 2.2 - Jan 2 2010
  • Release 2.1 - Sep 6 2009 - last version that is compatible with JDK 1.4, all others after this require Java 5
  • Release 2.0 - Jul 10 2009
  • Release 1.5 - May 19 2009
  • Release 1.4 - May 9 2009
  • Release 1.3 - Feb 22 2009
  • Release 1.2 - Feb 2 2009
  • Release 1.1 - Oct 14 2007
  • Release 1.0 - Jul 01 2007

Project Information

Source Code

See Project On Github (yes pull requests are fine), mirrored from Codehaus - see the repo connection details for that.

Committers & Contributors

  • Paul Hammant
  • Mauro Talevi
  • Guilherme Silveira
  • Sam Halliday
  • Stefan Fleiter
  • Robert Scholte
  • Raghuram Devarakonda
  • Nicholas Whitehead
  • Otávio Garcia

Other Codehaus Project Info

Github's issue tracker for Paranamer is kinda how conversations happen re Paranamer.

Downloads

Download the latest released jar files (2.8) here

More Examples

The unit tests for Paranamer illustrate some more way to use it: http://github.com/paul-hammant/paranamer/tree/master/paranamer/src/test/com/thoughtworks/paranamer

Versions

Version
2.8
2.7
2.6.1
2.6
2.5.8
2.5.7
2.5.6
2.5.5
2.5.4
2.5.3
2.5.2
2.5.1
2.5
2.4.1
2.4
2.3-debug
2.3
2.2.1
2.2
2.1
2.0
1.5
1.4
1.3
1.2
1.1.7
1.1.6
1.1.5
1.1.4
1.1.3
1.1.2
1.1.1
1.1
1.0.1