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I was expecting to find this in Java's LinkedList, since the point of linked lists is to be able to efficiently insert (and remove) anywhere (assuming you have some kind of pointer to the location where you want to insert or remove). I'm not finding anything in the API though. Am I overlooking something?

The closest thing I can find to this are the add and remove method in ListIterator. This has some limitations though. In particular, other iterators become invalid as soon as the underlying LinkedList is modified via remove, according to the API. This is born out in my tests as well; the following program results in a IllegalStateException:

import java.util.*;
public class RemoveFromLinkedList {
    public static void main(String[] args) {
        LinkedList<Integer> myList= new LinkedList<Integer>();
        for (int i = 0; i < 10; ++i) {

        ListIterator<Integer> i1 = myList.listIterator();
        ListIterator<Integer> i2 = myList.listIterator();
        for (int i = 0; i < 3; ++i) {

        System.out.println(" should be 3: " +;

        // Exception!
        System.out.println(" should be 5: " +;

Ideally, what I'm expecting is something like this:

// In my imagination only. This is the way Java actually works, afaict.

// Construct two insertion/deletion points in LinkedList myLinkedList.
myIterator = myLinkedList.iterator();
for (...) {;
start = myIterator.clone();
for (...) {;

// Later...

after = myLinkedList.spliceAfter(myIterator, someOtherLinkedList);
// start, myIterator, and after are still all valid; thus, I can do this:
// Removes everything I just spliced in, as well as some other stuff before that.
myLinkedList.remove(start, after);
// Now, myIterator is invalid, but not start, nor after.

C++ has something like this for its list class (template). Only iterators pointing to moved elements become invalidated, not ALL iterators.

share|improve this question
Do you really need to have a LinkedList? Is there lots of legacy code depending on this, or is this new code? – krlmlr Oct 21 '12 at 22:48
It's unclear whether you're looking for a solution that will allow you to insert/remove multiple elements from the linked list (as written in the title) or if you care about iterators getting invalidated (as written in the comment to my question). – Simon Oct 21 '12 at 22:54
@user946850 No, it doesn't need to be a linked list, but I think it's the most natural way to efficiently do the operations that I'm thinking of. – allyourcode Oct 21 '12 at 22:56
@Simon Iterators are just a means to an end. They are the "closest thing" that I've found so far. – allyourcode Oct 21 '12 at 22:56
Are you looking for a solution to remove a bunch of elements from a list while leaving several "running" iterators untouched? What should happen if current iterated item is removed? It looks for me like a transactional data source. Or you should use immutable lists and create a copy on every change. – Piotr Gwiazda Oct 21 '12 at 23:02
up vote 1 down vote accepted

With java.util.LinkedList, the only way to refer to locations in the list for later efficient manipulation is an Iterator, and Iterators are invalidated if the underlying list is modified by something other than this Iterator.

If you really need that capability, you'll have to look beyond the Java API, or write it yourself.

share|improve this answer

If you remove something with an iterator you cann still continue to use that same iterator. It's possible to do


That's the closest thing as far as I know.

share|improve this answer
Yes, I understand that iterator itself does not become invalidated, but all other iterators do. This point is central to my question. – allyourcode Oct 21 '12 at 22:45
And as a sidenote: I found that Java's LinkedLists are pretty slow. These days linked lists are often slow (cache). In most cases ArrayLists are way faster, even if you have to remove stuff from the middle every now and then. If you can batch operations, it's even quicker. – Simon Oct 21 '12 at 22:46
Well, if LinkedList doesn't have the ability to to insert or remove whole swaths, then it's not a fair comparison; LinkedLists SHOULD have this ability. – allyourcode Oct 21 '12 at 22:48
Oh, sorry. I didn't realize you realized that you could delete multiple elements with a single Iterator. I'm afraid, there's no way (that I know of) to access the structure concurrently with multiple iterators. You'll probably have to find around it. As written before, batching can help performance. – Simon Oct 21 '12 at 22:49
@allyourcode: LinkedLists do have this ability. You can remove multiple elements with a single iterator or you can add multiple elements (see addAll). It's just that iterators are no longer usable when the underlying data structures are modified. – Simon Oct 21 '12 at 22:50

You can do funny things with List.subList(startIndex, endIndex). With this you can clear a whole range in the "source" list. You can also use addAll at the sublist to insert new stuff into the source list.

If LinkedList has an efficient implementation for this - I don't know.

share|improve this answer
Nice idea, the implementation however is not as good as it could be. A look at the source shows that more often than not toArray is getting called... – Simon Oct 21 '12 at 23:07
@Simon: I already told you, that the efficiency is unknown :-) The bonus of subList is the brevity and clarity of the code. – A.H. Oct 21 '12 at 23:14
Eh? Where is toArray getting called? subList returns a view; it doesn't copy the collection. – Louis Wasserman Oct 22 '12 at 1:24
subList().addAll() calls LinkedList.addAll(index, list). This in turn calls list.toArray. When not inserting at the start or end of the list addAll searches the insertion point by iterating either from the start or from the end of the list. This means that the insertion point found by sublist is recalculated. – A.H. Oct 22 '12 at 17:23

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