I was following a previous post on this that says:

For LinkedList

- get is O(n)
- add is O(1)
- remove is O(n)
- Iterator.remove is O(1)
For ArrayList

- get is O(1)
- add is O(1) amortized, but O(n) worst-case since the array must be resized and copied
- remove is O(n)

So by looking at this, I concluded that if I've to do just sequential insert in my collection for say 5000000 elements, `LinkedList`

will outclass `ArrayList`

.

And if I've to just fetch the elements from collection by iterating i.e. not grabbing the element in middle, still `LinkedList`

will outclass `ArrayList`

.

Now to verify my above two statements, I wrote below sample program… But I'm surprised that my above statements were proven wrong.

`ArrayList`

outclassed `Linkedlist`

in both the cases. It took less time than `LinkedList`

for adding as well as fetching them from Collection. Is there anything I'm doing wrong, or the initial statements about `LinkedList`

and `ArrayList`

does not hold true for collections of size 5000000?

I mentioned size, because if I reduce the number of elements to 50000, `LinkedList`

performs better and initial statements hold true.

```
long nano1 = System.nanoTime();
List<Integer> arr = new ArrayList();
for (int i = 0; i < 5000000; i++) {
arr.add(i);
}
System.out.println(System.nanoTime() - nano1);
for (int j : arr) {
// Do nothing
}
System.out.println(System.nanoTime() - nano1);
long nano2 = System.nanoTime();
List<Integer> arrL = new LinkedList();
for (int i = 0; i < 5000000; i++) {
arrL.add(i);
}
System.out.println(System.nanoTime() - nano2);
for (int j : arrL) {
// Do nothing
}
System.out.println(System.nanoTime() - nano2);
```

`initialCapacity`

for an ArrayList if you know how many elements it needs to hold, which removes the`O(n)`

worst case.