Two years after does-the-jvm-prevent-tail-call-optimizations, there seems to be a prototype implementation and MLVM has listed the feature as "proto 80%" for some time now.

Is there no active interest from Sun's/Oracle's side in supporting tail calls or is it just that tail calls are "[...] fated to come in second place on every feature priority list [...]" as mentioned at the JVM Language Summit?

I would be really interested if someone has tested a MLVM build and could share some impressions of how well it works (if at all).

Update: Note that some VMs like Avian support proper tail-calls without any issues.

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    With the reported exodus of Sun people from Oracle, I would not expect that any of the current projects continue unless explicitly said so from Oracle :( – Thorbjørn Ravn Andersen Sep 1 '10 at 10:42
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    Note that your accepted answer is completely wrong. There is no fundamental conflict between tail call optimization and OOP and, of course, several languages like OCaml and F# have both OOP and TCO. – J D Feb 23 '11 at 14:51
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    Well, calling OCaml and F# OOP languages is a bad joke in the first place. But yes, OOP and TCO have not much in common, except the fact that the runtime has to check that the method being optimized is not overridden/subclassed somewhere else. – soc Feb 23 '11 at 22:58
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    +1 Coming from a C background, I always assumed that TCO was a given in any modern JVM. It never occurred to me to actually check and when I did the results were surprising... – thkala Dec 5 '11 at 21:41
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    @soc: "except the fact that the runtime has to check that the method being optimized is not overridden/subclassed somewhere else". Your "fact" is complete nonsense. – J D Jan 30 '12 at 21:41

Diagnosing Java Code: Improving the Performance of Your Java Code (alt) explains why the JVM does not support tail-call optimization.

But although it is well known how to automatically transform a tail-recursive function into a simple loop, the Java specification doesn't require that this transformation be made. Presumably, one reason it is not a requirement is that, in general, the transformation can't be made statically in an object-oriented language. Instead, the transformation from tail-recursive function to simple loop must be done dynamically by a JIT compiler.

It then gives an example of Java code that won't transform.

So, as the example in Listing 3 shows, we cannot expect static compilers to perform transformation of tail recursion on Java code while preserving the semantics of the language. Instead, we must rely on dynamic compilation by the JIT. Depending on the JVM, the JIT may or may not do this.

Then it gives a test you can use to figure out if your JIT does this.

Naturally, since this is an IBM paper, it includes a plug:

I ran this program with a couple of the Java SDKs, and the results were surprising. Running on Sun's Hotspot JVM for version 1.3 reveals that Hotspot doesn't perform the transformation. At default settings, the stack space is exhausted in less than a second on my machine. On the other hand, IBM's JVM for version 1.3 purrs along without a problem, indicating that it does transform the code in this way.

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    FWIW, tail calls are not just about self-recursive functions as he implies. Tail calls are any function calls that appear in tail position. They do not have to be calls to self and they do not have to be calls to statically known locations (e.g. they can be virtual method calls). The problem he describes is a non-issue if tail call optimization is done properly in the general case and, consequently, his example works perfectly in object oriented languages that support tail calls (e.g. OCaml and F#). – J D Feb 23 '11 at 14:50
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    "must be done dynamically by a JIT compiler" which means it must be done by the JVM itself rather than the Java compiler. But the OP is asking about the JVM. – Raedwald Oct 21 '11 at 11:24
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    "in general, the transformation can't be made statically in an object-oriented language." This is a quote of course, but every time I see such excuse I would like to ask about numbers -- because I wouldn't be surprised if in practice in majority of cases it could be established at compile time. – greenoldman Feb 4 '12 at 10:37
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    The link to the cited article is now broken, though Google does have it cached. More importantly, the author's reasoning is faulty. The example given could be tail-call optimized, using static and not just dynamic compilation, if only the compiler inserted an instanceof check to see if this is an Example object (rather than a subclass of Example). – Alex D Sep 23 '12 at 19:33
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One reason I've seen in the past for not implementing TCO (and it being seen as difficult) in Java is that the permission model in the JVM is stack-sensitive and thus tail-calls must handle the security aspects.

I believe this was shown to not be an obstacle by Clements and Felleisen [1] [2] and I'm pretty sure the MLVM patch mentioned in the question deals with it as well.

I realize this does not answer your question; just adding interesting information.

  1. http://www.ccs.neu.edu/scheme/pubs/esop2003-cf.pdf
  2. http://www.ccs.neu.edu/scheme/pubs/cf-toplas04.pdf
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Perhaps you know this already, but the feature is not as trivial as it may sound since the Java language actually exposes the stack trace to the programmer.

Consider the following program:

public class Test {

    public static String f() {
        String s = Math.random() > .5 ? f() : g();
        return s;

    public static String g() {
        if (Math.random() > .9) {
            StackTraceElement[] ste = new Throwable().getStackTrace();
            return ste[ste.length / 2].getMethodName();
        return f();

    public static void main(String[] args) {

Even though this has a "tail-call" it may not be optimized. (If it is optimized, it still requires book-keeping of the entire call-stack since the semantics of the program relies on it.)

Basically, this means that it's hard to support this while still being backward compatible.

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    Found the mistake in your thought: "requires book-keeping of the entire call-stack since the semantics of the program relies on it". :-) It's like the new "suppressed Exceptions". Programs relying on such things are bound to break. In my opinion the behavior of the program is absolutely correct: Throwing away stack frames is the thing tail calls are all about. – soc Sep 7 '10 at 14:30
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    @Marco, but just about any method could throw an exception, from which the entire call-stack is bound to be available, right? Besides, you can't decide in advance which methods will indirectly call g in this case... think about polymorphism and reflection for instance. – aioobe Sep 7 '10 at 14:37
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    It is a side-effect caused by the addition of ARM in Java 7. It is an example that you can't rely on such things you showed above. – soc Sep 7 '10 at 14:52
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    "the fact that the language exposes the call-stack makes it hard to implement this": does the language require that the stack-trace returned by getStackTrace() from a method x() that the source code shows is called from a method y() also shows that x() was called from y()? Becasue if there is some freedom there is no real issue. – Raedwald Oct 21 '11 at 11:53
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    This is merely a matter of wording the spec of a single method, from "gives you all stack frames" to "gives you all active stackframes, leaving out the ones obsoleted by tail calls". Furthermore, one could make it a command line switch or a system property whether tail-call is honoured. – Ingo Mar 14 '13 at 15:27

Java is the least functional language you could possibly imagine (well, OK, perhaps not!) but this would be a great advantage for JVM languages, like Scala, which are.

My observations are that making the JVM a platform for other languages has never seemed to be at the top of the priority list for Sun and I guess, now for Oracle.

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    @Thorbjørn - I wrote a program to predict whether any given program would halt in a finite amount of time. It took me ages! – oxbow_lakes Sep 1 '10 at 11:11
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    The first BASICs I used didn't have functions, but rather GOSUB and RETURN. I don't think LOLCODE is very functional, either (and you can take that in two senses). – David Thornley Sep 1 '10 at 18:30
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    @David, functional != has functions. – Thorbjørn Ravn Andersen Sep 1 '10 at 18:54
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    @Thorbjørn Ravn Andersen: No, but it is kind of a prerequisite, wouldn't you say? – David Thornley Sep 1 '10 at 19:24
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    "making the JVM a platform for other languages has never seemed to be at the top of the priority list for Sun". They put considerably more effort into making the JVM a platform for dynamic languages than they did for functional languages. – J D Feb 23 '11 at 14:56

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