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I need to be able to merge 2 large collections into 1. Which collection type can I use best? I don't need random access to the individual elements. Usually I'd go for a linkedlist, however I can't merge 2 linkedlist in Java with a runtime of O(1), which could be done in many other languages, since I'll have to copy each element to the new list.

Edit: Thank you for all your answers. Your answers were all very helpful, and I managed to get the job done. Next time I will use my own implementation of a linked list to begin with.

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How does lazy merging of sorted lists sound? The merged result can be built in O(1), and adds an amortized O(1) to every operation on the list until it's actually evaluated. –  Rhymoid Dec 3 '11 at 14:05
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You can implement a LinkedList yourself but LinkedLists suck big time on its own. –  bestsss Dec 3 '11 at 14:15
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I can't merge 2 linkedlist in Java with a runtime of O(1) that plainly isn't true. If you implement your own linked list in Java, you can merge 2 linked list in Java with a runtime of O(1). That statement is only true with the standard library implementation, so your statements should probably read "I can't merge 2 java.util.LinkedList with a runtime of O(1)". –  Lie Ryan Dec 3 '11 at 22:16
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@LieRyan Nitpicking much? I think it's completely obvious to everyone that he's clearly talking about the JDK provided classes here. Do we really now have to fully quantify every class that we mention? I can already see it: "Hey I wrote my own guava Iterables class and it can't do that you're wrong! You should've said use com.google.common.collect.Iterables instead". –  Voo Dec 3 '11 at 23:17
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8 Answers

up vote 52 down vote accepted

You can create a concatenated Iterable view in O(1) using one of Guava's Iterables.concat methods:

Iterable<T> combined = Iterables.concat(list1, list2);

This will allow you to iterate over all the elements of both lists as one object without copying any elements.

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The simplest solution here really is a List of Lists. Means you need some simple wrapper functions, but nothing complicated.

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This might be a solution, I am going to try this –  Tiddo Dec 3 '11 at 14:05
    
Although this question is a little old, I'll have to add one comment to this solution: In my particular case I started with collections which each started with just one element, and which needs to be merged together under some conditions until there is only one list left. However, if you use the list of lists technique you will create a very deep hierarchy of lists, and thus this will not be very efficient. Hence this solution will only work when lists aren't merged that often. –  Tiddo Mar 13 '12 at 15:08
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In theory, you can merge 2 linked lists in O(1), since all you have to do is point the last node of the first to the first node of the second (assuming you have those references).

The addAll method of collection seems to imply a running time of O(n), since they are talking about iterators. The details might be JVM specific...

I don't think there are any collections that will combine in O(n). You might have to roll your own.

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I think the question is how to do this in Java. So he can work with the final result as he can do with any other collection, without creating own class. +1 for the question btw –  Ján Vorčák Dec 3 '11 at 14:00
    
I know that, but as Jan said, I want to know if this is already possible in Java itself. –  Tiddo Dec 3 '11 at 14:02
    
Does that last assumption actually hold in Java? –  Rhymoid Dec 3 '11 at 14:02
    
@hvgotcodes the addAll method has to copy the nodes, otherwise modifications to the source list will be visible in both. A moveAll method would allow for O(1), since the original list would loose access to the nodes. –  josefx Dec 4 '11 at 13:44
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I think your best best would be to create an implementation of List which takes a List> as its arguments, and then delegates. In other words, have a list of lists, and wire them up to act as one list. When you go past the elements of list 1, you start looking at list 2.

For some reason, I thought guava had such a list. But I can't find it in their javadocs.

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and since it implements the standard List interface, it can be used throughout other code. +1 –  Goran Jovic Dec 3 '11 at 18:51
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If you just want to have collections of objects and merge them in O(1) time, and don't mind implementing your own data structure, then the simplest way to do this is to use an unbalanced binary tree: each node is either a leaf (storing a value) or the combination of two trees, and you can just implement these as two classes with an abstract superclass or interface. A depth-first traversal can be used to extract the elements.

This is essentially the same as ColinD's suggestion of iterator concatenation, but more bare-bones.

The catch is that iterating over this collection will not be O(n)! It will be O(n + m) where m is the number of merges you have performed (since each one is a node to be traversed). This is true both of my solution and ColinD's. I don't know whether it is true for all possible solutions to this problem.

Never mind the above. Under this scheme, every merge adds at least one element, so m < n and so the iteration cost is still O(n). (If you do use iterator concatenation, make sure you're not frequently concatenating empty iterators as that would add cost.)

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Merging linked lists is indeed O(1), and you can consider array-based lists the same way, i.e. having multiple Object[] linked between.

There are implementations of the above, it's faster than ArrayList when removing/inserting from middle/start. And iteration is virtually the same. Random access can be slightly slower though.

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I wanted to suggest the CompositeCollection class from apache.commons, but looking at the source code this runs in O(n) as well. If you only need to iterate over the elements and do not want to use the Google Collections as suggested by ColinD, you can easily create your own composite iterator, e.g.

public class CompositeCollectionIterator<T> implements Iterator<T>{

  private Iterator<T>[] iterators;
  private int currentIteratorIndex = 0;
  public CompositeCollectionIterator( Collection<T>... aCollections ) {
    iterators = new Iterator[ aCollections.length];
    for ( int i = 0, aCollectionsLength = aCollections.length; i < aCollectionsLength; i++ ) {
      Collection<T> collection = aCollections[ i ];
      iterators[i] = collection.iterator();
    }
  }

  public boolean hasNext() {
    if ( iterators[currentIteratorIndex].hasNext() ) return true;
    else if ( currentIteratorIndex < iterators.length - 1 ){
      currentIteratorIndex++;
      return hasNext();
    }
    return false;
  }

  public T next() {
    return iterators[currentIteratorIndex].next();
  }

  public void remove() {
    iterators[currentIteratorIndex].remove();
  }
}
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By using two linked lists as your collections, and storing pointers to the first and last element of each list (both pointers would potentially need to be updated when adding/removing items), you can merge both lists in O(1) - simply connect the last element of the first list to the first element of the second list, and adjust the first/last pointers accordingly.

I'm afraid you'd need to roll your own implementation of linked lists in Java, since you don't have direct access to the underlying nodes of LinkedList, and therefore you can't connect the last element of the first list to the first element of the second list.

Luckily, it's easy to find linked list implementations in Java, since it's a very common topic in data structure courses. For instance, here is one - I know, the names are in spanish, but the code in ListaEncadenada ("LinkedList") and NodoLista ("ListNode") is quite simple and should be self-explanatory, and most importantly - the implementation contains pointers to the first and last elements of the list, and can be easily modified to suit your needs.

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