Rafael Winterhalter

software engineer at Bouvet
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I am a software engineer from Germany currently living and working in Oslo, Norway. I am a big fan of the Java platform and particularly interested in byte code engineering and instrumentation. I also like functional programming, especially Scala and applications making use of muli-threading. However, I started out with PHP and Perl and I still enjoy looking into dynamic languages, like for example Groovy or (J)Python. I enjoy writing open source code and I maintain Byte Buddy, a library for the runtime code generation on the JVM.



Experience show all

software engineer | Bouvet

January 2015 – Current

Java application development.

Software engineer | Kantega

April 2013 – December 2014

Java application development

Software engineer | Jato Consulting

August 2012 – December 2012

Internship: development of a Java web application in the field of corporate compliance.

Student research assistant and tutor | University of Munich

July 2007 – August 2011

Scientific aid and occasional programming work at the Seminar for Comparative Economics, tutoring undergraduate microeconomics, undergraduate macroeconomics and business informatics.

Consultant | Fabconsult

April 2010 – June 2010

Internship: Consultancy with focus on the “black economic empowerment” (BEE) in South Africa, participation in projects concerning energy supply, education and property development.

Education show all

Master of Science | FernUniversität Hagen

2011 – 2013

Specialication in software engineering and programming languages

Exchange studies | University of California, Berkeley

2010 – 2011

Exchange studies at the Graduate School of Economics

Diplom-Volkswirt (equivalent to M.Sc.) | Ludwig-Maximilians Universität München

2006 – 2011

Member of the student council, employment as student research assistant, employment as student tutor

Stack Exchange show all Last seen today

Open Source () show all

GitHub, Nov 2013 - Current; followed by 594 people; forked 40 times

Runtime code generation for the Java platform.

GitHub, Nov 2013; followed by 4 people

A parser that is configured by annotating fields of a Java bean where all parsed content is reflected as instances of this bean.

GitHub, Jul 2013 - Nov 2013; followed by 22 people; forked 3 times

A Guava cache extension that allows caches to overflow to disk.

GitHub, May 2013 - Jul 2013

Limber web framework

GitHub, Jul 2013 - Aug 2014; followed by 5 people

This is a small extension to Wicket that allows the management of asynchronous tasks and to display their progress to the user.

A Java package that provides several computations related to the edit distance of strings. Other than the basic Levenshtein, this algorithm can rearange words when comparing. The class can also provide details of how words could be transformed.


SR is an audio stream manager that reads audio streams such as SHOUTcast. It can save their music to the local hard drive and is also able to redistribute the stream to the local network for listening. SR reqires Java and still is in the Alpha state.

Google Code, ; followed by 2 people

This is a Java class that demonstrates the mechanics of an AVL-tree.

GitHub, Aug 2013 - Jul 2014; followed by 5 people

A Java conversion tool for converting Word files to PDF via MS Word

4 more

Apps & Software show all

Byte Buddy is a code generation library for creating Java classes during the runtime of a Java application and without the help of a compiler. Other than the code generation utilities that ship with the Java Class Library, Byte Buddy allows the creation of arbitrary classes and is not limited to implementing interfaces for the creation of runtime proxies.


A document format converter for Javadocuments4j documents4j is a Java library for converting documents into another document format. This is achieved by delegating the conversion to an external converter.


Writing (8) show all

Java's black magic: An approach to Runtime Code Generation

zeroturnaround.com | RebelLabs

Generating JVM code at runtime is universally used by Java frameworks to provide the functionality without making the framework depend on your domain model.

Annotation-driven Java runtime code generation with Byte Buddy | zeroturnaround.com

zeroturnaround.com | RebelLabs

Here we introduce ByteBuddy -- a typesafe DSL created to simplify Java code generation at runtime and make is less error-prone.

Performance comparison of Java Runtime Code Generation Libraries | zeroturnaround.com

zeroturnaround.com | RebelLabs

In this post we devised a microbenchmark to compare the runtime performance of runtime code generation libraries including ByteBuddy, javassist, cglib and JDK

My daily Java: Dismantling invokedynamic

My daily Java

Many Java developers regarded the JDK's version seven release as somewhat a disappointment. On the surface, merely a few language and library extensions made it into the release, namely Project Coin and NIO2. But under the covers, the seventh version of the platform shipped the single biggest extension to the JVM's type system ever introduced after its initial release. Adding the invokedynamic instruction did not only lay the foundation for implementing lambda expressions in Java 8, it also was a game changer for translating dynamic languages into the Java byte code format.

My daily Java: Make agents, not frameworks

My daily Java

Ever since their introduction, Java annotations have become an integral part of the APIs of larger application frameworks. Good examples for such APIs are those of Spring or Hibernate where adding a few lines of annotation code implements quite complex program logic. And while one can argue about the drawbacks of these particular APIs, most developers would agree that this form of declarative programming is quite expressive when used right. However, only few developers choose to implement annotation-based APIs for their own frameworks or application middleware, mainly because they are regarded as difficult to realize. In the following article, I want to convince you that such APIs are in contrast quite trivial to implement and, using the right tools, do not require any special knowledge of Java intrinsics.

My daily Java: Java 8 default methods can break your (users') code

My daily Java

At first glance, default methods brought a great new feature to the Java Virtual Machine's instruction set. Finally, library developers are able to evolve established APIs without introducing incompatibilities to their user's code. Using default methods, any user class that implements a library interface automatically adopts the default code when a new method is introduced to this interface. And once a user updates his implementing classes, he can simply override the default with something more meaningful to his particular use case. Even better, the user can call the default implementation of the interface from the overridden method and add logic around it.

My daily Java: The infamous sun.misc.Unsafe explained

My daily Java

The biggest competitor to the Java virtual machine might be Microsoft's CLR that hosts languages such as C#. The CLR allows to write unsafe code as an entry gate for low level programming, something that is hard to achieve on the JVM. If you need such advanced functionality in Java, you might be forced to use the JNI which requires you to know some C and will quickly lead to code that is tightly coupled to a specific platform. With sun.misc.Unsafe, there is however another alternative to low-level programming on the Java plarform using a Java API, even though this alternative is discouraged. Nevertheless, several applications rely on sun.misc.Unsafe such for example objenesis and therewith all libraries that build on the latter such for example kryo which is again used in for example Twitter's Storm. Therefore, it is time to have a look, especially since the functionality of sun.misc.Unsafe is considered to become part of Java's public API in Java 9.

My daily Java: cglib: The missing manual

My daily Java

The byte code instrumentation library cglib is a popular choice among many well-known Java frameworks such as Hibernate (not anymore) or Spring for doing their dirty work. Byte code instrumentation allows to manipulate or to create classes after the compilation phase of a Java application. Since Java classes are linked dynamically at run time, it is possible to add new classes to an already running Java program. Hibernate uses cglib for example for its generation of dynamic proxies. Instead of returning the full object that you stored ina a database, Hibernate will return you an instrumented version of your stored class that lazily loads some values from the database only when they are requested. Spring used cglib for example when adding security constraints to your method calls. Instead of calling your method directly, Spring security will first check if a specified security check passes and only delegate to your actual method after this verification. Another popular use of cglib is within mocking frameworks such as mockito, where mocks are nothing more than instrumented class where the methods were replaced with empty implementations (plus some tracking logic).

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