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Using Java.

I record small objects for some calculation etc. and I need only the last x thousand of them. So I'd like to release the first to the garbage collector. But since deleting from ArrayLists is expensive ...

The following is important (can't change)

  • no DB
  • objects are the same type
  • up to 50,000 objects per second
  • performance important
  • quick iteration through the whole list is important
  • random access is also important

This can be changed:

  • right now using ArrayList<MyObject>
  • limit: 100,000 objects (stops recording, but must continue)

My guesses:

  • LinkedList
  • RingBuffer
  • ???

What can I do to iterate very quick and release old objects also quick at the same time ?

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you can use hash map or tree map if you can make your data (key - value) format for better performance. –  tausun Apr 17 '13 at 9:55

3 Answers 3

up vote 5 down vote accepted

A solution

... If you need a constant amount of last elements, just use an array as a base for a ring buffer.

  • single allocation

  • no get/put/etc. method overhead if inlined

  • simple

A sample (may not compile, written on the fly) implementation:

class LastElementsStore<T> {
  Object[] arr;
  int size;
  int nextPutIndex;

  LastElementsStore(int size ) {
    arr = new Object[size];
    this.size = size;

  void put(T elt) {
    arr[nextPutIndex] = elt;
    if (nextPutIndex == size) {
      nextPutIndex = 0;

  // getters of your choice


If there are not enough elements, nulls will be returned.

If you need them ordered, you start from nextPutIndex, read till the end, then go to 0 and continue reading.

You have full control of the memory, no additional node allocations will be made as in LinkedList, no resizing as in ArrayList.

Old objects are released automatically as soon as your reach the limit.

Your requirements

  • no DB -- done, just an array used

  • objects are the same type -- simple template

  • up to 50,000 objects per second -- if an array can't handle it, nothing in Java can

  • performance important -- as above, no additional overhead in accessing an array quick iteration through the whole list is important -- as fast an iteration as possible

  • random access is also important -- the data is ordered, and the first not-null element at/after nextPutIndex is the first available

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Since array list is used through the whole project I will do that a little different: extend ArrayList<t> and override methods to make it store items in a ring. Then for performance reasons I might remove ArrayList from extend and make sure it still works fine like you suggested with a direct array. –  Bitterblue Apr 17 '13 at 11:01
@mini-me Do not extend ArrayList! - extending collections is a bad practice. Create an internal ArrayList field and delegate your functions to it. –  Dariusz Apr 17 '13 at 11:03
Can you give reasons ? I find it hard just to believe. –  Bitterblue Apr 17 '13 at 11:20
@mini-me I can't google it now:/ There was an issue with an extended collection which would cause double element addition in some cases; the general problem is that you don't know the internals of the collections and you may encounter an unexpected behaviour. –  Dariusz Apr 17 '13 at 11:26
Found 1 pro and 1 contra. Pro: ensureCapacity is bugged on Linux, Contra: can't create T[] a = new T[100]; ("error: Cannot create a generic array of T"). –  Bitterblue Apr 17 '13 at 14:48

Without knowing any of your other requirements, some type of linked list would seem appropriate. Just keep track of the first element (the "head" in list-speak) and the last (the "tail"). Each linked element refences the next. Add to the tail, and remove from the head.

Adding and removing will be very fast (O(1)), and iterating will also be very simple.

However, if you need random access to elements, then this solution will perform poorly.


Since you've added that you need to have random access, a linked list won't work. If the maximum number of objects at any given time is fixed, you could use an ArrayList (or a basic Java array) and treat it as a wrap-around buffer. Once you reach the end, start replacing objects from the beginning, and keep track of the index that represents the logical start of the list. (If you use a basic array, you will also need to track how many elements are currently in the buffer -- the equivalent to List.size()).

As you replace objects at the beginning of the buffer, the old objects will be automatically released and garbage-collected (as long as they aren't referenced elsewhere).

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Sorry forgot: random access is also important. –  Bitterblue Apr 17 '13 at 10:01

I would use an array, and implement an RingBuffer. I have done this, but used many unit test to make sure it always works. I did not found a suitable ring buffer for my needs, maybe you have more luck.

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