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This is not something which I would do in real life, but say:

LinkedList = a,b,c,d,e and I get their corresponding index.

Say, I want to remove b (index=1) and d (index=3)(i.e. values surrounding c (index=j=2))

Now,I do (which works fine):

When j=2
LS.remove(j + 1); ----> j=3 (d removed)
LS.remove(j - 1); ----> j=1 (b removed)

And b and d are removed.

But if, I do (does not work):

When j=2
LS.remove(j - 1); ----> j=1 (b removed)
LS.remove(j); ----> j=2 (d is not removed) (used j because due to above removal, LL has adjusted it self)

i.e. when I move the value preceding 'c' first, 'd' is not removed and the LL stays as it is. I guess, I am doing the same thing.

Am I missing out on something here?


So, when I change the signature public void operation(String operator, Integer j) to public void operation(String operator, int j), it worked.

share|improve this question
Please post a complete example, because normally this does work. – Nikita Rybak Feb 28 '11 at 2:51
Correct: Wrong: PS: Not my code, I am reviewing a homework. – zengr Feb 28 '11 at 3:00
up vote 5 down vote accepted

If j is of type big Integer, then LinkedList.remove(Object) will be called instead of LinkedList.remove(int). And that's not what you actually want.

I don't see any reason to use big-Integer as the type of j in your second example, you should use primitive int.

Please check Why aren't Java Collections remove methods generic? on why LinkedList still has remove(Object) signature.

share|improve this answer
See the wrong code here (try to debug if possible): Correct: Wrong: Line 53 is not removing the value. – zengr Feb 28 '11 at 3:16
@zengr It is because LinkedList.remove(Object) gets called. Interesting enough is that remove still has public boolean remove(Object o) singature, not public boolean remove(E o) thus allowing compiler to compile such code without errors.. – denis.solonenko Feb 28 '11 at 3:20
yup, got that, updated the question. The gotcha was Integer class vs int! – zengr Feb 28 '11 at 3:24
more over, why does remove() has Object o? any reasoning for that? – zengr Feb 28 '11 at 3:26
@denis.solonenko: My +1. Somehow i missed on that. With j as int it works fine. – Favonius Feb 28 '11 at 3:27

It's kind of a hairy thing to refer to elements of a list by index when you're modifying the list -- and so the relation from index to element is changing. This is why, in Java, java.util.List has a method List.listIterator(), giving a java.util.ListIterator. With this, you could write a method like so:

void removeAdjacent(List<?> list, Object o) {
    ListIterator<?> listIt = list.listIterator();
    while (listIt.hasNext()) {
        if ( {
            // set the iterator back to the element we just checked
            // remove previous if it exists
            // and set the iterator again to this element
            if (listIt.hasPrevious()) {
            // remove next if it exists
            if (listIt.hasNext()) {
share|improve this answer
I understand, that's why I said, i would not do this in real code I am writing, but I am curious that why isn't it working? – zengr Feb 28 '11 at 3:19

You're missing something. This complete program produces the expected result:

import java.util.LinkedList;
public class Foo {
   public static void main(String []argv) {
      LinkedList<String> l = new LinkedList<String>();
      int j = 2;
      l.remove(j - 1);

The result is:

[a, c, e]
share|improve this answer
See the wrong code here (try to debug if possible): Correct: Wrong: Line 53 is not removing the value. – zengr Feb 28 '11 at 3:16

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