It came to my attention that java.util.HashMap produces garbage for the GC when used on my high-performance system, which basically is a selector reading from the network. Is there an alternative to java.util.HashMap (i.e. does not even need to implement java.util.Map, in other words, it can have its own API) that I can use that will leave no garbage behind?

GARBAGE = objects that go out of scope and will have to be collected by the GC.

For @durron597:

public static void main(String[] args) {

    Map<String, String> map = new HashMap<String, String>();

    while(true) {

        map.put("foo1", "bah1");
        map.put("foo2", "bah2");


        Iterator<String> iter = map.keySet().iterator();

        while(iter.hasNext()) {

Now run that with -verbose:gc and see what happens... :)


We have also written a collection of data structures called CoralBits that provides high-performance with zero garbage creation. It re-uses iterators and pools map entry objects. For maps that use primitives as keys, we wrote IntMap and LongMap. For a general purpose map we wrote PooledHashMap which implements java.util.Map so you can swap in your code for zero garbage.

Trove and Javolution are other alternatives but we have found that Javolution creates garbage in some situations.

CoralBits also provides a MemorySampler instrumentation class that you can use to find out where garbage is being created in your code. In the case of a java.util.HashMap the culprit is:


You can take a look in this article written by me that gives an example of how to use MemorySampler to detect garbage in your applications.

Disclaimer: I am one of the developers of CoralBits.

  • How can you tell the line where the garbage is being created? – JohnPristine May 23 '14 at 12:39
  • The line is where the object is being allocated. Whether or not it will become garbage it is another story. In the case of java.util.HashMap it is released for the GC so it indeed becomes garbage. We use -javaagent to perform this instrumentation. – rdalmeida May 23 '14 at 12:43

Yes. Take a look e.g. at Goldman Sachs collections.

They have a complete reimplementation of the JDK's collection framework (and much more) with an emphasis on low memory footprint. For example, their HashMap doesn't create the Entry objects until they really need to. Look at the documentation here.

There's also Javolution, a smaller library with a slightly different purpose - mainly for close-to-realtime and time-predictable classes, this also implies low garbage.

If you want to store primitives (which avoids the creation of their wrappers), look at one of these:

  • Trove - the "standard" collections for primitives
  • Goldman Sachs collections, again
  • HPPC - lower level access, often slightly faster than Trove, but enables you to shoot yourself into the foot more easily
  • Koloboke - a Trove fork made by people from OpenHFT. Insanely fast, evolving fast. As of now (September 2014), only Maps and Sets are supported.

You can avoid a lot of the Garbage Collection if you store your map entries off-heap. There are a number of libraries that can help you with that:

  • This can be true, but it depends on read-write access patterns, and the API of the off-heap collection. On the read path, some off-heap collections can produce more object churn and therefore garbage than on-heap collections, if they will deserialize the off-heap data and create new Java object representations of it each time the data is read. On-heap collections can avoid this by returning the same object which is already on-heap each time. – npgall Nov 23 '16 at 18:25

The LibGdx libraries have ArrayMap, which is a no-garbage version of hashmap.


They have several other no-garbage collections. https://github.com/libgdx/libgdx/tree/master/gdx/src/com/badlogic/gdx/utils

They work great, with a minor limitation of not allowing nested recursion for the same iterator.

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