I actually wrote a blog post on the topic 2 months ago. The article is for C#'s
List<T> but Java's
ArrayList has a very similar implementation. Since
ArrayList is implemented using a dynamic array, it increases in size on demand. So the reason for the capacity constructor is for optimisation purposes.
When one of these resizings operation occurs, the ArrayList copies the contents of the array into a new array that is twice the capacity of the old one. This operation runs in O(n) time.
Here is an example of how the
ArrayList would increase in size:
... 17 resizes ...
So the list starts with a capacity of
10, when the 11th item is added it is increase by
50% + 1 to
16. On the 17th item the
ArrayList is increased again to
25 and so on. Now consider the example where we're creating a list where the desired capacity is already known as
1000000. Creating the
ArrayList without the size constructor will call
1000000 times which takes O(1) normally or O(n) on resize.
1000000 + 16 + 25 + ... + 670205 + 1005308 = 4015851 operations
Compare this using the constructor and then calling
ArrayList.add which is guaranteed to run in O(1).
1000000 + 1000000 = 2000000 operations
Java vs C#
Java is as above, starting at
10 and increasing each resize at
50% + 1. C# starts at
4 and increases much more aggressively, doubling at each resize. The
1000000 adds example from above for C# uses