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The following code is causing a OutOfMemmoryError: heap space for some 3 million rows. Memory allocated to JVM is 4 GB, using 64 bit installation.

while (rs.next())

    ArrayList<String> arrayList = new ArrayList<String>();
    for (int i = 1; i <= columnCount; i++)


The memory referenced by the ArrayList is eligible for garbage collection in each iteration of the while loop, and internally JVM calls garbage collection (System.gc()) before throwing an OutOfMemory Error because of heap space.

So why is the exception occurring?

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@Swaranga Sarma edit in same time, not sure if post didn't get messed –  peter_budo Sep 21 '11 at 5:58

2 Answers 2

up vote 32 down vote accepted

Is objOS an ObjectOutputStream?

If so, then that's your problem: An ObjectOutputStream keeps a strong reference to every object that was ever written to it in order to avoid writing the same object twice (it will simply write a reference saying "that object that I wrote before with id x").

This means that you're effectively leaking all ArrayList istances.

You can reset that "cache" by calling reset() on your ObjectOutputStream. Since you don't seem to be using that feature anyway, you could call reset() directly after the writeObject() call.

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+1 I didn't realise it did that - it seems counter-intuitive as Streams tend to be used to prevent using too much memory. –  Bringer128 Sep 21 '11 at 6:10
@Bringer128: yes, it's a non-obvious feature, but very much necessary: if it didn't do that, then serializing a big object tree could very easily end in an endless loop (think of circular references). –  Joachim Sauer Sep 21 '11 at 6:11
One wonders whether it could be done with WeakReferences. In theory the Object that's being written cannot fall out of scope until writeObject returns. –  Bringer128 Sep 21 '11 at 6:25
@Bringer128: yes, that would be feasible. The reason this was not done is probably that the ObjectOutputStream was introduced in Java 1.1, but WeakReference was introduced in Java 1.2. And changing the ObjectOutputStream implementation to using a WeakReference would surely be a breaking change. –  Joachim Sauer Sep 21 '11 at 6:31
There's some possibly relevant discussion here: java.net/node/673085 –  Joachim Sauer Sep 21 '11 at 6:32

I agree with @Joachim.

The below suggestion was a myth

In addition, it is recommended (in good coding convention) that do not declare any object inside the loop. Instead, declare it just before the loop start and use the same reference for initialization purpose. This will ask your code to use the same reference for each iterations and cause less burden on memory release thread (i.e. Garbage collection).

The Truth
I have edited this because I feel that there may be many people who (like me before today) still believe that declaring an object inside loop could harm the memory management; which is wrong.
To demonstrate this, I have used the same code posted on stackOverflow for this.
Following is my code snippet

package navsoft.advskill.test;

import java.util.ArrayList;

public class MemoryTest {

     * @param args
    public static void main(String[] args) {
        /* Total number of processors or cores available to the JVM */
        System.out.println("Available processors (cores): "
                + Runtime.getRuntime().availableProcessors());
         * Total amount of free memory available to the JVM
        long freeMemory = Runtime.getRuntime().freeMemory();
        System.out.println("Free memory (bytes): "
                + freeMemory);
         * This will return Long.MAX_VALUE if there is no preset limit
        long maxMemory = Runtime.getRuntime().maxMemory();
         * Maximum amount of memory the JVM will attempt to use
        System.out.println("Maximum memory (bytes): "
                + (maxMemory == Long.MAX_VALUE ? "no limit" : maxMemory));
         * Total memory currently in use by the JVM
        System.out.println("Total memory (bytes): "
                + Runtime.getRuntime().totalMemory());
        final int LIMIT_COUNTER = 1000000;

        //System.out.println("Testing Only for print...");
        System.out.println("Testing for Collection inside Loop...");
        //System.out.println("Testing for Collection outside Loop...");
        //ArrayList<String> arr;
        for (int i = 0; i < LIMIT_COUNTER; ++i) {
            //arr = new ArrayList<String>();
            ArrayList<String> arr = new ArrayList<String>();
            System.out.println("" + i + ". Occupied(OldFree - currentFree): "+ (freeMemory - Runtime.getRuntime().freeMemory()));
        System.out.println("Occupied At the End: "+ (freeMemory - Runtime.getRuntime().freeMemory()));
        System.out.println("End of Test");


The result from the output is clearly shows that there is no difference in occupying/freeing the memory if you either declare the object inside or outside the loop. So it is recommended to have the declaration to as small scope as it can.
I pay my thanks to all the experts on StackOverflow (specially @Miserable Variable) for guiding me on this.

Hope this would clear your doubts too.

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I'm not convinced that this will have any effect at all. In fact I highly suspect the compiler to re-use the same local variable slot for arrayList in each loop iteration, which would make it equivalent to "declare it outside the loop". –  Joachim Sauer Sep 21 '11 at 6:45
-1 What? Recommendation is to always declare variable with smallest scope. Can you site any references? –  Miserable Variable Sep 21 '11 at 7:12
I think this is premature optimization and quite dangerous at that. Limiting scope is has known benefits, time was when in C all variables were (had to be) declared at the top of the function. We don't do that anymore. See stackoverflow.com/questions/377763/…. I would urge you to change the coding convention. –  Miserable Variable Sep 21 '11 at 7:54
Thank you @HemalPandya. I have edited my answer; kindly have a look on it. –  Naved Sep 22 '11 at 7:49
Good work Naved. I changed my downvote to upvote :) If there is one thing I have learned after years of programming is that we all keep making mistakes. What makes a good programmer is one who is willing to correct their mistake. –  Miserable Variable Sep 22 '11 at 8:38

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