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What is the best way to release memory allocated by an array of bytes (new byte[size] in Java)?

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4  
re-use it. Best de-allocation ever. –  SyntaxT3rr0r Feb 6 '11 at 22:46
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5 Answers

Stop referencing it.

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It brought a smile on my face :) –  BalusC Jun 4 '10 at 12:54
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Java object == existential crisis "If no one is referencing me do I still exist?" –  M. Jessup Jun 4 '10 at 13:01
    
Leave all the poor pieces of memory alone. Stop referencing them. Now :) –  schnaader Jun 4 '10 at 15:23
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In my opinion short answer is:

array = null;
// if you have any other references to the object,
// then you shoud also assign null them here
System.gc(); // cost ~10-20ms

If you have any doubt use VisualVM or jconsole.exe (JAVA_HOME/bin/jconsole.exe), connect to your application and observe GC activity and how memory chart behaves after those statemets (I observed that using jconsole slows down System.gc(); about 3 times). I wrote some test and my conclusion is that JVM (from Oracle JDK 6u23) is not stupid and behaves as expected (but I can't give you 100% guarantee, I am not JVM engineer and I don't know any more detailed documentation).

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System.gc() is not guaranteed to perform a GC but indeed, in practice, on all the VMs I tried (desktop app running on hundreds of systems), as you've noticed, calling System.gc() does typically trigger a GC (but, once again, it is not guaranteed). Note that if that ain't enough, you can really force a GC on most JVMs (actually on nearly all of them): stackoverflow.com/questions/2178296 –  SyntaxT3rr0r Feb 6 '11 at 22:43
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When creating a new byte[] in Java, you do something like

byte[] myArray = new byte[54];

To free it, you should do

myArray = null;

If something else references your byte array, like

yourArray = myArray;

you need to also set the other references to null, like so

yourArray = null;

In Java garbage collection is automatic. If the JVM can detect that a piece of memory is no longer reachable by the entire program, then the JVM will free the memory for you.

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1  
The JVM will free the memory when it feels like it. As a first order approximation for almost every java program, don't worry about memory, be happy, the JVM's got your back. –  GregS Jun 4 '10 at 13:10
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Generally, you shouldn't need to set a reference to null to allow the object to be collected. If you need to do this there is very likely a serious problem with your implementation IMHO. –  Peter Lawrey Jun 4 '10 at 14:49
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@Peter: Depends. If you know that the variable is going to be living quite a bit longer than the array it was referring to, then setting it explicitly makes sense. That's fairly rare though. –  Donal Fellows Jun 4 '10 at 15:24
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@Donal only if its large and you need the memory again. If you have two large pieces of work, you are better off breaking the code into the piece which uses the byte[] and the code which doesn't into two methods. That way there is no byte[] to clear as such and is likely to make your code more readable. –  Peter Lawrey Jun 5 '10 at 7:55
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@Peter: Indeed. Variable lifetime is usually easier (and not just in Java). I did note that it was a fairly rare thing to do. :-) –  Donal Fellows Jun 5 '10 at 16:12
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Removing all the reference to that array of bytes. The garbage collector will take care of the rest.

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Setting all references to it to null will make it a candidate for Java's automatic garbage collection. You can't be sure how long it will take for this to happen though. If you really need to explicitly reclaim the memory immediately you can make a call to System.gc();

Also just to clear you may not need to set the references to null explicitly. If the references go out of scope they are automatically nulled e.g. a local variable reference will be nulled once the method it is declared in finishes executing. So local variables are usually released implicitly all the time during an apps runtime.

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System.gc() does not reclaim memory immediately. You're just telling the JVM "Please, if you feel like it, maybe you can clean stuff up." It's just a suggestion. –  Jonathon Faust Jun 4 '10 at 15:22
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System.gc() won't force a GC. It's merely a suggestion. It's like the difference between your roommate saying "dude, this place is a wreck, what's up with that?" and your mother saying "CLEAN UP THIS INSTANT!" In most implementations, System.gc() is merely your roommate. –  Jim Kiley Jun 4 '10 at 15:23
    
@Jonathon @Jim I wasn't aware of that. The javadocs say "Runs the garbage collector. Calling the gc method suggests that the Java Virtual Machine expend effort toward recycling unused objects in order to make the memory they currently occupy available for quick reuse. When control returns from the method call, the Java Virtual Machine has made a best effort to reclaim space from all discarded objects." and in my experience of calling it it has appeared to run immediately, but maybe I'm wrong –  Alb Jun 4 '10 at 15:44
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but in practice it runs the Garbage collector. Yes there are options to prevent this, but if you haven't gone looking for these it'll will just run the thing..no questions asked –  Gareth Davis Dec 4 '10 at 23:16
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