What the performance of Groovy compared with Java?

  • 3
    Groovy is compiled to Java byte code & executed on a JVM. So I'd expect no difference. Mar 8, 2011 at 21:54
  • 9
    @David: That's not true. Different compilers are more efficient than others. Not every JVM language runs at the same speed. Also, Groovy is an interpreted language (though it might have a compiled mode).
    – Peter C
    Mar 8, 2011 at 21:55
  • 1
    The question is not which compiler is more efficient than another ? The assumption in the question is in an environment where only the language is different - not the compiler/jvm - what are differences in performance. As commented I'd expect nothing significant - but you are correct that Groovy can be interpreted or compiled. Mar 8, 2011 at 22:02
  • 1
    @David: I didn't realize they were that significant until I started Googling for benchmarks. Most statically-typed JVM languages are similar in speed, but the dynamic ones are slower. When Java 7 comes out with the invokedynamic instruction that may change however.
    – Peter C
    Mar 8, 2011 at 22:36
  • 1
    @David: I'm not sure which Groovy features are the bottlenecks, but dynamically typed variables are sure to be slower than statically typed ones.
    – Peter C
    Mar 8, 2011 at 22:39

8 Answers 8


It's obviously true that Groovy is compiled to JVM. This however has little to do with the performance.

The most important thing to note here is that Groovy is a dynamic language. This essentially means that most of the time Groovy compiler will have little to no knowledge about the type of an object it is calling a method on / retrieving a property from. This has a huge impact on the performance. There might be thousands of different classes implementing someFancyMethodName() not having a common base class. Yet a call to obj.someFancyMethodName() has to choose the right one. There isn't any better way of doing this than deciding it at runtime based on some kind of reflection. In fact, because of this every single call to a method gets dispatched through a call to invokeMethod() on the object metaclass. This is very much visible in stacktraces if your program ever throws some nasty exceptions. It's even worse. Any class in groovy may choose to provide implementations of methods of the given name dynamically, that is producing them at runtime. There is a fair amount of Grails magic that makes a heavy use of it. Another complication emerges when method overloading comes into play. As the knowledge of types is so limited, it's impossible to choose the right version of the method at compile time. The produced code has to look into the supplied objects and then by making a series of if-elses choose the implementation that best fits the provided call. This most of the time is a really non-trivial process, that was never intended to be performed at runtime. Yet, Groovy has to do it, in order to stay inter-operable with Java.

All that makes Groovy pretty slow. In fact much slower and, what is more painful, more memory consuming than most of the dynamic languages out there (Python for instance).

That said, I agree that the reason for using Groovy is certainly not performance. Most of the time, you will end up optimizing only a small fraction of your code. If performance is such an issue, you can always resort to rewriting those specific pieces in pure Java or give a try to Groovy++. Haven't tried it myself, however the results that I read about online seemed pretty promising.

Groovy 2.0 I have no experience in running the newer version. Quite frankly, I'm not an active Groovy user anymore. I would however expect that most of the issues described above, are fundamentally hard and require a major scientific breakthrough. I have some experience developing HHVM (a PHP virtual machine created by Facebook) and there are much simpler features that performed poorly.

  • 5
    Of course Groovy is slower than Java, but much of what you say in the second and third paragraph is either wrong or obsolete. Keep in mind that Groovy has advanced a lot over the years. Mar 9, 2011 at 12:33
  • 10
    Actually Groovy 1.8 is very fast, almost close to Java and Scala. This answer is obsolete now. May 15, 2011 at 7:26
  • 9
    @Wanderson No it's not. Have you even read the changelog for Groovy 1.8? It does make some improvements in the field of method dispatching, however this mostly concerns primitive types. Now this will sure speed up fibonacci benchmark, the problem is, this is by no means a typical use case. There wasn't any dynamic language so far that would get anywhere near Java. I doubt Groovy with all of its added complexity will ever be faster than Python.
    – julx
    May 15, 2011 at 16:44
  • 4
    julkiewicz you are partially right and partially wrong in what you say above. Yes, Groovy is only that fast for primitive types, not in general. That is true. That each and every method call has to go through some kind of invokemethod somewhere is not true though. Groovy uses since 1.6 at runtime generated bytecode stubs for call site caching. That allows method invocations without Reflection. the first call is still in general done by Reflection so of course you see it there.
    – blackdrag
    May 22, 2012 at 8:21
  • 1
    Then there are multiple paths an invocation can take, and one of these is completely through the meta class, where you will see what you claimed above, the invokeMethod method. In the end it depends on your program what is done how and how fast it is in the end.The static compilation mode in Groovy 2 allows only a subset of Groovy, but all that is compiled statically will of course not show those slow invokeMethod paths and memory usage will be lower as well.
    – blackdrag
    May 22, 2012 at 8:23

So here we are in 2012 and Groovy 2.0 is ready to rock...

"With the @CompileStatic, the performance of Groovy is about 1-2 times slower than Java, and without Groovy, it's about 3-5 times slower. (...) This means to me that Groovy is ready for applications where performance has to be somewhat comparable to Java."

Performance Test: Groovy 2.0 vs. Java http://java.dzone.com/articles/groovy-20-performance-compared

And besides the autor, I've used Groovy since 2008 with great success, not only for CV, just to make job done in time business need. Performance is ever relative to what you want to do.

For those who are complaining about numeric use cases, here goes a real use case using web frameworks: http://www.jtict.com/blog/rails-wicket-grails-play-lift-jsp/

"Groovy 1.8.x prototype for fib(42) takes about 3.8s (only 12% slower than Java, over a hundred times faster than Groovy 1.0) So we may no longer encourage people to write such 'hot spots' in Java."

Source: http://www.wiki.jvmlangsummit.com/images/0/04/Theodorou-Faster-Groovy-1.8.pdf

"I'm impressed on how much Groovy's performance has improved for numerical computing. Groovy 1.8 in my project jlab (http://code.google.com/p/jlabgroovy/) sometimes outperforms Scala's performance in my other project ScalaLab (http://code.google.com/p/scalalab) !!"

Source: http://groovy.329449.n5.nabble.com/Great-improvements-in-Groovy-s-performance-for-numerical-computing-td4334768.html

  • See also: docs.codehaus.org/display/GROOVY/… Jul 10, 2011 at 7:23
  • 6
    I think this answer is misleading. Groovy is still 12% slower in one specific area relating to a purely numerical computation. For the overall picture I suggest read @julkiewicz answer. Jul 10, 2011 at 7:28
  • 2
    @DavidVictor you were talking about a dynamic language versus an statically typed. Only 12%? It's AWESOME! You are talking about a really dynamic language with MOP and AST! With Groovy 1.8 it got even close. Now just check Groovy 2.0... Groovy is not just way ahead all dynamic languages in features but the faster dynamic (really dynamic) language not only on JVM, but PHP, Phyton and other dynamic languages too. Best regards! Jul 23, 2012 at 21:33
  • A year later !? I still think the answer was misleading. Where is the evidence (performance test results) for your latest comment ? Jul 24, 2012 at 7:00
  • 2
    What's lost in this - your use of @CompileStatic causes so many restrictions and side-effects, you may as well not call it Groovy. Aug 5, 2014 at 11:20

Groovy offers a lot more syntactic sugar over Java, but still runs on the JVM and therefore requires a bit more work by the JVM to provide that sugar. Nevertheless, the difference is extremely minor in the vast majority of normal usages.

In addition, if you do happen to write a function that runs too slowly in Groovy, you can write it in straight Java and call it from your Groovy code. That's the team's recommended solution, and I can vouch for it working well and simply.

It my opinion, for the programming most of us do, it's a non-issue.


A quick Google search yielded some old performance results (http://www.codecommit.com/blog/java/groovys-performance-is-not-subjective, http://www.christianschenk.org/blog/performance-comparison-between-groovy-and-java/).

Groovy++ looks interesting also (http://stronglytypedblog.blogspot.com/2010/02/java-vs-scala-vs-groovy-vs-groovy.html).

However, the reason to use Groovy should be because it improves your performance not the computers...


I think , you have to look at this scientific comparison of Groovy Vs Python Vs PHP vs Ruby.


They have made one exercise and produce comparison on these programming languages on the below factors:

Comparison of time developing each exercise

Comparison of readability of the languages

Comparison of results in benchmarks and lines of code. From the project Computer Language Benchmarks Game


It is a great quick study to enable you which language is better.

  • 1
    Please add some detail from the link to your answer, thank you!
    – maxshuty
    Oct 30, 2015 at 18:54

Generally speaking, Groovy will be slower. You can avoid that by switching to Groovy++ which offers most of the features of Groovy, but can be statically compiled and has performance comparable to Java.


While developing AWS Lambdas Java will be faster than groovy. Apart from that in all other scenarios you might not feel much difference.


Groovy is compiled to bytecode .class files but running Groovy classes requires ~5MB groovy library that make performance overhead.

  • 1
    just the 5MB of the groovy lib don't make the performance overhead.. its the amount of instructions required to be created by the compiler to support groovys syntax that is making it slow in the end (meaning the amount of instructions the jvm then has to execute at runtime) Aug 16, 2013 at 9:01

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