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Whilst running test code from this question and fiddling with the JVM's thread stack size, I found that results were not necessarily repeatable: there were values of stack size for which the program would sometimes throw java.lang.StackOverflowError, but sometimes not.

My question is: "What is causing the variation in stack space consumption?"

Also, can an interrupt's stack be put on this program's main thread? Will results be similarly non-deterministic for other JVM implementations and/or operating systems?

Test Code

public class PointlessRecursion {

    private static final long N = 1 << 15;

    private static long addOne(long n) {
        return (n < 2) ? n : 1 + (addOne(n - 1));

    public static void main(String[] args) {
        try {
            long x = addOne(N);
            assert(x == N);
        } catch (StackOverflowError e) {
        } catch (Throwable t) {

Silly bash script for running test program multiple times for each stack size setting

#! /bin/bash
while [ $s -lt 4100 ] ; do
    while [ $i -lt 10 ] ; do
        java -Xss${s}k -cp ~/bin/classes PointlessRecursion > /dev/null
        if [ $? -eq 0 ] ; then
        elif [ $? -eq 1 ] ; then
    echo ss=$s pass=$pass fail=$fail


$ java -version
java version "1.6.0_20"
Java(TM) SE Runtime Environment (build 1.6.0_20-b02)
Java HotSpot(TM) 64-Bit Server VM (build 16.3-b01, mixed mode)
$ ~/bin/
ss=2000 pass=0 fail=10
ss=2100 pass=1 fail=9
ss=2200 pass=0 fail=10
ss=2300 pass=2 fail=8
ss=2400 pass=1 fail=9
ss=2500 pass=1 fail=9
ss=2600 pass=2 fail=8
ss=2700 pass=6 fail=4
ss=2800 pass=3 fail=7
ss=2900 pass=1 fail=9
ss=3000 pass=3 fail=7
ss=3100 pass=3 fail=7
ss=3200 pass=6 fail=4
ss=3300 pass=2 fail=8
ss=3400 pass=4 fail=6
ss=3500 pass=10 fail=0
ss=3600 pass=9 fail=1
ss=3700 pass=10 fail=0
ss=3800 pass=10 fail=0
ss=3900 pass=10 fail=0
ss=4000 pass=10 fail=0
share|improve this question
BTW, 100% failure for stack sizes <= 1500K and 100% success for stack sizes >= 3700K. – David J. Liszewski Sep 13 '10 at 19:33

2 Answers 2

up vote 3 down vote accepted

I would not be surprised if it had something to do with the timing the HotSpot compiler kicks in, specially if you are running on a multicore system.

EDIT: To check this you can launch your test with -Xint. IF you start getting reproducible results, then the nondeterministic behavior is probably caused by the HotSpot compiler.

share|improve this answer
BINGO! I had a moment to re-run tests with -Xint and variability disappeared. Thanks! – David J. Liszewski Sep 17 '10 at 17:45

I don't observe this behaviour. In my environment (Windows 7 x64, 1.6.0_19 x86 JDK) they fail consistently up to a certain point and then start passing at ss=1400 (I bumped it down since they were all passing with your parameters).

The only thing I changed was to not specify a classpath (I ran the script from the same directory as the class file). But even when specifying a classpath I got the same results.

Are you sure it's actually StackOverflowError that you're catching? I would catch that error solely instead of the generic Throwable to make sure it isn't something else, like an OutOfMemoryError.

} catch (StackOverflowError e) {

That way it'll print a stacktrace if it's not actually a StackOverflowError you're getting.

share|improve this answer
It's definitely (a very tall) SOE trace, like this: $ ~/bin/ java.lang.StackOverflowError at PointlessRecursion.addOne( at PointlessRecursion.addOne( ... I'll try on another OS too. Thanks for the data point. – David J. Liszewski Sep 13 '10 at 19:59
I get less variability on Windows, but it is still there. For me, results were not deterministic between 1320k and 1370k. – David J. Liszewski Sep 13 '10 at 20:22

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