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Creating a memory leak with Java

What's the easiest way to cause a java memory leak?

  • Are you looking for a contrived example or a very common programming mistake? – mikerobi Feb 9 '11 at 17:50
  • a contrived example would be best please. – Paul McKenzie Feb 9 '11 at 17:51
  • A memory leak is created whenever an object that is not intended to be used has a reference to it. Almost any program one could write would be a contrived example of a memory leak. – OrangeDog Feb 9 '11 at 17:55
  • Take a look at 'Creating a memory leak with java' for other ways different than the easiest. – Alberto May 31 '12 at 13:26

You cannot really "leak memory" in Java unless you:

  • intern strings
  • generate classes
  • leak memory in the native code called by jni
  • keep references to things that you do not want in some forgotten or obscure place.

I take it that you are interested in the last case. The common scenarios are:

  • listeners, especially done with inner classes
  • caches.

A nice example would be to:

  • build a Swing gui that launches a potentially unlimited number of modal windows;
  • have the modal window do something like this during its initialization:
    StaticGuiHelper.getMainApplicationFrame().getOneOfTheButtons().addActionListener(new ActionListener(){
      public void actionPerformed(ActionEvent e){
         // do nothing...

The registered action does nothing, but it will cause the modal window to linger in memory forever, even after closing, causing a leak - since the listeners are never unregistered, and each anonymous inner class object holds a reference (invisible) to its outer object. What's more - any object referenced from the modal windows have a chance of leaking too.

This is why libraries such as EventBus use weak references by default.

Apart from listeners, other typical examples are caches, but I cannot think of a nice example.

  • 4
    Interned strings are not really memory leaks, they can get garbage-collected, too. The problem is only that they (in the usual implementations) are in a special memory area (PermGen) which is smaller than the rest of the memory, and thus easier fills up. – Paŭlo Ebermann Feb 9 '11 at 18:21
  • You are right. Interned Strings are not a "real" leak (then again, "real leaks" are not possible with jvm). Nevertheless, perm gets collected only when everything else fails and its contents survives major collections, so it's one of the few sources of real memory problems. Also interned strings take space even though they are not referenced from your program. In that sense they are as close to a leak as you can get. – fdreger Feb 9 '11 at 20:04

"A memory leak, in computer science (or leakage, in this context), occurs when a computer program consumes memory but is unable to release it back to the operating system." (Wikipedia)

The easy answer is: You can't. Java does automatic memory management and will free resources that are not needed for you. You can't stop this from happening. It will ALWAYS be able to release the resources. In programs with manual memory management, this is different. You cann get some memory in C using malloc(). To free the memory, you need the pointer that malloc returned and call free() on it. But if you don't have the pointer anymore (overwritten, or lifetime exceeded), then you are unfortunately incapable of freeing this memory and thus you have a memory leak.

All the other answers so far are in my definition not really memory leaks. They all aim at filling the memory with pointless stuff real fast. But at any time you could still dereference the objects you created and thus freeing the memory --> NO LEAK. acconrad's answer comes pretty close though as I have to admit since his solution is effectively to just "crash" the garbage collector by forcing it in an endless loop).

The long answer is: You can get a memory leak by writing a library for Java using the JNI, which can have manual memory management and thus have memory leaks. If you call this library, your java process will leak memory. Or, you can have bugs in the JVM, so that the JVM looses memory. There are probably bugs in the JVM, there may even be some known ones since garbage collection is not that trivial, but then it's still a bug. By design this is not possible. You may be asking for some java code that is effected by such a bug. Sorry I don't know one and it might well not be a bug anymore in the next Java version anyway.

  • 2
    "But at any time you could still dereference the objects you created and thus freeing the memory". I disagree. The class implementor can hide the object handles from the outside world. – Thomas Eding Jul 7 '11 at 21:45
  • @trinithis: If you have an object that privately wastes memory by allocating huge amounts of memory, then you can't force the object to release the memory without discarding that object as well. But in this case it is still just wasting memory and not a leak. The memory CAN be freed. It will be freed once the object that references the wasted memory is not referenced anymore. Or did I misunderstand you? – yankee Jul 8 '11 at 15:44
  • I think I misunderstood what you meant by 'dereference'. I was thinking the C meaning of the word. – Thomas Eding Jul 9 '11 at 0:17

Here's a simple example

public class Finalizer {
    protected void finalize() throws Throwable {
        while (true) {

    public static void main(String[] args) {
        while (true) {
            for (int i = 0; i < 100000; i++) {
                Finalizer f = new Finalizer();

            System.out.println("" + Runtime.getRuntime().freeMemory() + " bytes free!");
  • 2
    Could you explain a little as to how are you achieving the memory leak in this example? – TheBlueNotebook Jan 21 '15 at 10:13
  • 1
    Not sure but this code seems to work, at least it killed my pc and the processes keeped on the background even after closing eclipse – pescamillam Apr 9 '15 at 20:14
  • 4
    @TheBlueNotebook The finalize method he overrode is what Java normally calls when it is about to free up the memory for an Object. In his main method he creates 100K of finalizers and then tells the JVM to free all memory. The JVM does this politely and calls finalize before actually freeing the memory. The finalize method it calls yields forever, so the objects are never deleted, but the main loop continues, thus creating another 100K Objects that will never be deleted, then another, then another... – Jeutnarg Jan 5 '16 at 18:52
public static List<byte[]> list = new ArrayList<byte[]>();

And then add (big) arrays without removing them. At some point you will run out of memory without suspecting. (You can do this with any objects, but with big, full arrays you can run out of memory faster)

In Java, if you dereference an object (it falls out of scope), it is garbage-collected. So you have to hold a reference to it in order to have a memory problem.

  • 1
    This will cause you to run out of memory, but how can you have a leak if you never do anything to break an object reference? – mikerobi Feb 9 '11 at 17:53
  • 6
    @mikerobi - a memory leak is when you "occupy" some memory without cleaning it (and without using it). If you dereference the object, however, it will be garbage collected. – Bozho Feb 9 '11 at 17:55
  • 1
    I understand that, but I don't consider this to be a leak in every case. It is definitely a leak if you mistakenly make a class variable static, it is possibly a leak if you are using it as a global value in a long running process. It is not a leak if your intention is for the data to persist until program termination. The fact that an infinite loop exhausts your memory has nothing to do with the fact that this is a leak. A lot of leaks don't get noticed, unless they continually allocate new data, but having a fixed chunk of orphaned memory is still a leak. – mikerobi Feb 9 '11 at 18:07
  • @mikerobi - I didn't mention a loop ;) I agree that the usage of the static collection determines whether it's a leak or not. But that's how they happen in Java - you cannot have orphaned memory in the sense that you have allocated it, but then forgot about it. This is handled by the garbage collector. – Bozho Feb 9 '11 at 18:10
  • 1
    This is not a memory leak. – Aykut Kllic Sep 3 '13 at 15:57
  1. Create a collection of objects at class scope
  2. Periodically add new objects to the collection
  3. Do not drop the reference to the instance of the class that holds the collection

Because there is always a reference to the collection and the instance of the object that owns the collection the Garbage Collector will never clean up that memory thus causing a "leak" over time.


From what I've read in the most voted answer, you are most probably asking for a C-like memory leak. Well, since there's garbagge collection, you can't allocate an object, loose all it's references and get it still occupying memory - that would be serious JVM bug.

On the other hand, you can happen to leak threads - which, of course, would cause this state, because you would have some thread running with it's references to objects, and you may loose the thread's reference. You can still get the Thread reference through the API - http://www.exampledepot.com/egs/java.lang/ListThreads.html


The following extremely contrived Box class will leak memory if used. Objects that are put into this class are eventually (after another call to put to be precise... provided the same object is not re-put into it.) inaccessible to the outside world. They cannot be dereferenced through this class, yet this class ensures they cannot be collected. This is a REAL leak. I know this is really contrived, but similar cases are possible to do by accident.

import java.util.ArrayList;
import java.util.Collection;
import java.util.Stack;

public class Box <E> {
    private final Collection<Box<?>> createdBoxes = new ArrayList<Box<?>>();
    private final Stack<E> stack = new Stack<E>();

    public Box () {

    public void put (E e) {

    public E get () {
        if (stack.isEmpty()) {
            return null;
        return stack.peek();

Try this simple class:

public class Memory {
private Map<String, List<Object>> dontGarbageMe = new HashMap<String, List<Object>>();

public Memory() {
    dontGarbageMe.put("map", new ArrayList<Object>());

public void useMemInMB(long size) {
    System.out.println("Before=" + getFreeMemInMB() + " MB");

    long before = getFreeMemInMB();
    while ((before  - getFreeMemInMB()) < size) { 

    dontGarbageMe.put("map", null);

    System.out.println("After=" + getFreeMemInMB() + " MB");

private long getFreeMemInMB() {
    return Runtime.getRuntime().freeMemory() / (1024 * 1024);

public static void main(String[] args) {
    Memory m = new Memory();
    m.useMemInMB(15);  // put here apropriate huge value
  • This is the most complicated simple example here. ;) – Peter Lawrey Feb 9 '11 at 19:17
  • Where's the leak? isn't the list freed after GC? – Aykut Kllic Sep 3 '13 at 16:02

It does seem that most of the answers are not C style memory leaks.

I thought I'd add an example of a library class with a bug that will give you an out of memory exception. Again, it is not a true memory leak but is an example of something running out of memory that you would not expect.

public class Scratch {
    public static void main(String[] args) throws Exception {
        long lastOut = System.currentTimeMillis();
        File file = new File("deleteme.txt");

        ObjectOutputStream out;
        try {
            out = new ObjectOutputStream(
                    new FileOutputStream("deleteme.txt"));

            while (true) {
                out.writeUnshared(new LittleObject());
                if ((System.currentTimeMillis() - lastOut) > 2000) {
                    lastOut = System.currentTimeMillis();
                    System.out.println("Size " + file.length());
                    // out.reset();
        } catch (Exception e) {

class LittleObject implements Serializable {
    int x = 0;

You will find the original code and bug description at


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