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 element, 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 outclass 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 holds true for collections of size 5000000?

I mentioned size, because if i reduce the number of elements to 50000, LinkedList perform better and initial statements holds 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){
;
}
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){
;
}
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. – Andrew May 1 '11 at 3:40