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The root of our problem is Singletons. But Singletons are hard to break and in the meantime we have a lot of unit tests that use Singletons without being careful to completely clear them in the tearDown() method. I figure that a good way to detect tests like these is to look for memory leaks. If the memory used after tearDown() and System.gc() is more than when the test started, either the test leaked or more classes were loaded by the classloader. Is there any way to automatically detect this sort of problem?

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Could you introduce a subclass, between TestCase and your individual test classes, that did the cleanup? Then subclasses would only be responsible for calling super.teardown() - and only those that had a teardown() of their own.

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I completely agree with other posters that monitoring the memory usage isn't a viable way to track this - System.gc() is not going to behave as you expect, or with enough precision to achieve your goal.

You're going to need a tool that lets you inspect the reference graph and show allocation call stacks.

I've used OptimizeIt from Borland and JProfiler from ej-technologies, both with success (a quick google reveals that OptimizeIt may now be dead.)

There's also the possiblity of using JVMTI to throw together a better monitor for this specific problem.

Edit: Wierd, but as I was reviewing this answer, I got a phone call from Embarcadero, who has apparently purchased OptimizeIt, done some updating and are now marketing under the name J Optimizer.

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Just a thought: if you have two empty tests run right after one another, the second one should not have a different memory used after teardown(). If it does, you (probably) have a leak somewhere in your setup()/teardown() system.

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Wouldn't the total heap size increase somewhere between the test runs - since junit now has to record an additional TestResult? – matt b May 14 '09 at 15:21
    
As long as no garbage-collection was running the memory used by the first run of the test isn't reclaimed. – Mnementh May 14 '09 at 15:29

I don't think this is a good approach. System.gc() is not guaranteed to fully clean up any unused objects as you think it will.

If your root problem is that you have unit tests which end up using global data (singletons) without properly cleaning them up, you should attack the root problem: these unit tests. It shouldn't be too too hard to find all tests that aren't using tearDown(), or to find all tests that use a particular singleton.

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It's not hard at all to find them. There's tens of thousands of them. Most of them call Singleton.getInstance().reset() or something afterwards mitigating the problem. There's probably a handful of tests that don't, and they are extremely hard to find. – Craig P. Motlin May 14 '09 at 15:46
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Time to get rid of all the singletons then :) – matt b May 14 '09 at 15:55
    
I agree in theory but it would take years. It's a ten million line code base and it's very hard to refactor Singletons in small chunks. – Craig P. Motlin May 15 '09 at 16:13

If your Singleton's are only intended to be initialized one time, you could have code that checks for reinitialization and logs the current stack when it detects that. Then if you check the stack, you will see which test got the ball rolling, and you can check the JUnit logs to see what the test run right before that was.

In terms of solving this problem more thoroughly, instead of detecting it I would recommend you have a singleton initializer that remembers what it initialized, and has one teardown method that tears down everything it initialized. That way tests can be made to only initialize via this class, and only has to do one thing in teardown.

I also think Carl Manaster's suggestion is a good one, but if you were using JUnit4, then you could have a teardown method that runs in the superclass without having to remember to call super. Unless you use the JUnit3 GUI, JUnit4 should be a drop in replacement. The only thing is to take advantage of its new features you have to migrate the whole test, you can't have both live in the same class. So tests that interact with these singletons would have to be migrated one whole test class at a time.

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You could use the Eclipse Memory Analyzer to automate analyzing heap dumps taken after each test or probably better after all tests. MAT can find memory leaks fairly automatically. Regards, Markus

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