`LinkedList`

You should *never, ever* iterate over a linked list by indexing into it. Indexing into a linked list is an `O(n)`

operation. Here's a break-down:

- You iterate over the size of the list:
`n`

steps => `O(n)`

operation.
- You index into it to get a stored value:
`O(n)`

operation.
- You index into it to remove a stored value:
`O(n)`

operation.

In each step of the iteration from 1. above, you perform an O(n) operation two times. This is `2n * O(n)`

which is equivalent to `O(n^2)`

.

To remove from a linked list in `O(n)`

time, you need to use its internal iterator mechanism to iterate over it, and to `iterator.remove()`

items from it if they match your criteria.

`ArarayList`

For the array-based list, the problem is that the remove operation is an `O(n)`

operation: the items on the right of the removed element need to be moved over to the left. Going from the right-hand side *doesn't solve anything* because stored values still need to be moved to the left if you remove something on the far left-hand side of the array. Breakdown:

- You iterate over the size of the list:
`n`

steps => `O(n)`

operation.
- You index into it to get a stored value:
`O(1)`

operation.
- You remove a stored value:
`O(n)`

operation.

Which gives you `O(n^2)`

performance.

You *cannot* remove elements from an `ArrayList`

without having this sort of performance due to the remove operation being `O(n)`

(unless the array is sorted and copying a portion of array is considered an `O(n)`

operation).

O(n)in the first algorithm andO(n)in the second algorithm, unless you have to sort the list first which gives you an addedO(nlogn). – Bernard Mar 3 '12 at 22:02