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Given a Java List with 21 elements.

What is the best way to create three new lists with:

A = 0, 3, 6, ... indexed elements from source
B = 1, 4, 7, ... 
C = 2 ,5, 8, 11, 14, 17, 20

Is it possible without looping?

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Even if the abstraction you use choose does not look like a loop, the loop will occur anyway. –  pablosaraiva Nov 12 '11 at 16:19
If it is, I'd like to know how! It would be possible if you just wanted three lists of seven (I think). But Why don't you want to loop? AND actually, can't you just hard code the indexes? –  Andy Nov 12 '11 at 16:19
I like convenient abstractions and I'm used to functional programming. I know that a loop will need to be done eventually but I'd rather not think about it. –  Annan Nov 12 '11 at 16:22
@Annan: "I want to abstract away the loop" and "I don't want there to be looping" are very different matters. You can easily write a utility method to do the looping for you, then you don't need to think about it elsewhere. –  Jon Skeet Nov 12 '11 at 16:27
@JonSkeet True! The question is badly phrased. Though I find both questions interesting! My original intention was to find if there was a built in method for doing what I wanted before making my own. –  Annan Nov 12 '11 at 16:36

5 Answers 5

Well you could write a wrapper class which is able to provide a read-only "view" onto a list given a multiple (3 in this case) and an offset (0, 1 and 2). When asked for the item at a particular index, it would have to multiply by the "multiple" and add the offset, then look into the original list. (Likewise for the other operations.)

It would be simpler to loop though... what's the context here? What are you really trying to achieve?

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@MarkPeters: I don't think List.subList actually does what's want here, does it? List.subList(0, 3) would wrap indexes 0, 1, 2 from the original list - not 0, 3, 6 as required. –  Jon Skeet Nov 12 '11 at 16:26
Indeed, I missed that those were indices. –  Mark Peters Nov 12 '11 at 16:26
removes and adds will screw you over though unless it's a read-only view –  ratchet freak Nov 12 '11 at 16:30
@ratchetfreak: That's why I said a read-only view in the answer. Even if the original list is modified, the views should still be okay. Their sizes will change, of course. –  Jon Skeet Nov 12 '11 at 16:30
@ratchet freak: I'd think that would be the expected behavior. You're explicitly defining the result lists in terms of indices in the original. –  ColinD Nov 12 '11 at 16:36

Here's an example of what Jon mentioned (if of course you really don't want to just loop). The name isn't great... I'm not sure what a good name for such a thing would be.

public class OffsetList<E> extends AbstractList<E> {

  private final List<E> delegate;
  private final int offset;
  private final int multiple;

  public static <E> OffsetList<E> create(List<E> delegate, int offset, int multiple) {
    return new OffsetList<E>(delegate, offset, multiple);

  private OffsetList(List<E> delegate, int offset, int multiple) {
    this.delegate = delegate;
    this.offset = offset;
    this.multiple= multiple;

  @Override public E get(int index) {
    return delegate.get(offset + (index * multiple));

  @Override public int size() {
    int offsetToEnd = delegate.size() - offset;
    return (int) Math.ceil(offsetToEnd / (double) multiple);

Example use:

List<Integer> numbers = // the numbers 0 to 21 in order
List<Integer> first = OffsetList.create(numbers, 0, 3);
List<Integer> second = OffsetList.create(numbers, 1, 3);
List<Integer> third = OffsetList.create(numbers, 2, 3);

System.out.println(first); // [0, 3, 6, 9, 12, 15, 18, 21]
System.out.println(second); // [1, 4, 7, 10, 13, 16, 19]
System.out.println(third); // [2, 5, 8, 11, 14, 17, 20]

Creating each list is O(1) since they're views. Iterating each list is O(n) where n is the size of the actual view list, not the size of the full list it's based on. This assumes the original list is a random access list... this approach, like index-based iteration, would be very inefficient with a linked list.

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Care to explain the downvote? Or is this just vengeance for my downvote? –  ColinD Nov 12 '11 at 16:49
You're a Guava guy. Is there any (planned or otherwise) safe way to filter while being aware of the index you're filtering? I think it works in practice because the Predicate is run in the order of the elements (so you can maintain an index in the Predicate itself) but that isn't safe since that behaviour is not documented to be true. –  Mark Peters Nov 12 '11 at 16:56
Of course in something like Haskell you could zip the list with an identity list, creating a pair of element to index at each index, then filter based on the index part of the pair, and then transform back to only include the first element of each pair. Guava is missing the zip part of that but has filter and transform already. –  Mark Peters Nov 12 '11 at 17:03
@MarkPeters: I don't know of any plans for something like that, though I don't know what they're planning inside Google that hasn't been mentioned/released publicly yet. I seem to recall some discussions/issues related to index-based things like that which make me think they are not in favor of that sort of thing or don't think it's a common enough need. –  ColinD Nov 12 '11 at 17:17
I wouldn't be surprised at the latter. If you need to do complex filtering by index it is probably true that you're using a poor choice of data types in the first place (i.e. you're throwing disparate things into a common list when you shouldn't be). –  Mark Peters Nov 12 '11 at 18:11

Given you saying you're used to functional programming, I'm going to assume you want to split up the lists because you want to do something different to each. If that's the case I would put the filtering logic at the Iterator level.

You could have a wrapping Iterator instead of a wrapping List. It might look something like this:

public <T> Iterable<T> filter(final Iterable<T> allElements, final int offset, final int multiple) {
    return new Iterable<T> {
        public Iterator<T> iterator() {
            return new Iterator<T> {
                int index = 0;
                Iterator<T> allElementsIt = allElements.iterator();

                public boolean hasNext() {

                    while (allElementsIt.hasNext()) { 
                       if ( isDesiredIndex(index) ) {
                           return true;
                       } else {
                    return false;

                private boolean isDesiredIndex(int index) {
                    return (index - offset) % multiple == 0;

                public T next() {
                    if ( hasNext() ) {
                        return allElementsIt.next();
                    } else {
                        throw NoSuchElementException();

                public void remove() {...}

Then to use it:

for ( ElementType element : filter(elements, 2, 3) ) {
    //do something to every third starting with third element
share|improve this answer
If you're dealing with a List, creating a functional view of the original List is considerably more efficient (for a random access list) because it doesn't require dealing with the indices you aren't interested in at all. It can just skip from one index directly to the next. –  ColinD Nov 12 '11 at 16:55
@Colin: You're right (again, for a random access list). I think in the end I favoured Iterator mainly because the interface is a lot simpler to replicate :-). –  Mark Peters Nov 12 '11 at 17:01
Of course, AbstractList can be incredibly easy to implement if you don't need to implement the write methods! –  ColinD Nov 12 '11 at 17:11

Next try :)

class Mod3Comparator implements Comparator<Integer> {
    public int compare(Integer a, Integer b) {
        if (a % 3 < b % 3 || (a % 3 == b % 3 && a < b)) {
            return -1;
        if (a % 3 > b % 3 || (a % 3 == b % 3 && a > b)) {
            return 1;
        return 0;

First sort the list taking into consideration the modulo rule, then use the Arrays.copyOfRange method.

Collections.sort(list, new Mod3Comparator());
Integer[] array = new Integer[list.size()]; 
List<Integer> A = Arrays.asList(Arrays.copyOfRange(array, 0, 7));
List<Integer> B = Arrays.asList(Arrays.copyOfRange(array, 7, 14));

Also see this example.

share|improve this answer
Well that's uh... creative. It's also much less efficient than just looping and unclear to boot. And while it may not use a for-loop, I don't think you can say it's not looping either. –  ColinD Nov 12 '11 at 18:45
I never said that's more or equal efficient. I would use loops. :) This is only an example for Annan. –  scessor Nov 12 '11 at 18:47
Oh, this also only works when the value at a given index is an integer and equal to the index itself. –  ColinD Nov 12 '11 at 19:16

Unfortunately, I can't think of a way of doing so without pretending the arrays are lists are doing the following.

String[] twentyOne = new String[21];

String[] first = new String[3];
first[0] = twentyOne[0];
first[1] = twentyOne[3];
first[2] = twentyOne[6];
//  And so on

String[] second = new String[3];
second[0] = twentyOne[1];
second[1] = twentyOne[4];
second[2] = twentyOne[7];

String[] third = new String[15];
third[0] = twentyOne[2];
// You get the picture

I only used arrays in the example because I'm more confident with them, and know them without needing to look at something.

May I ask why you want to avoid looping?

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This is just looping manually. –  ColinD Nov 12 '11 at 16:30
@ColinD You suggest a way then. Until I know why the OP wants to do what they are asking I don't see why this is not a solution; if you reread the question it says "Is it possible" - my answer is no! Thanks for downvoting :( (NOT) –  Andy Nov 12 '11 at 16:36
I'm sorry you're disappointed that I downvoted, but this is just a poor solution. It uses arrays when the question is about lists, for one thing. For another, it manually sets values at indices when it could actually use loops to do the whole thing in just a few lines. Plus, it's clearly possible as described in Jon's answer. –  ColinD Nov 12 '11 at 16:47
@Colin First you complain that my question uses a form of looping, now you are telling me that my answer would be better if I used loops! As for the arrays, as I've explained on my answer I don't use Lists very often so it would slow my down answering trying to accurately write the syntax without the IDE and it's not like Lists couldn't easily be used in place of the arrays in this case. –  Andy Nov 12 '11 at 16:52
@Andy: He's saying that manually unrolling your loops is not preferable to using looping. You are using compile-time looping which is just a silly workaround as it makes the programmer perform the loop. Maybe Colin and I favour practical solutions instead of tongue-in-cheek ones. –  Mark Peters Nov 12 '11 at 17:06

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