You may want to look at this article for more information:
As was mentioned,
removeAll() is made for this, but you will want to do it twice, so that you can create a list of all that are missing in both, and then you could combine these two results to have a list of all the differences.
But, this is a destructive operation, so if you don't want to lose the information, copy the
Set and operate on that one.
It appears that my assumption of what is in the array is wrong, so
removeAll() won't work, but with a 5ms requirement, depeending on the number of items to search it could be a problem.
So, it would appear a
HashMap<String, Animal> would be the best option, as it is fast in searching.
Animal is an interface with at least one property,
String name. For each class that implements
Animal write code for
hashCode. You can find some discussion here: http://www.ibm.com/developerworks/java/library/j-jtp05273.html. This way, if you want the hash value to be a combination of the type of animal and the name then that will be fine.
So, the basic algorithm is to keep everything in the hashmaps, and then to search for differences, just get an array of keys, and search through to see if that key is contained in the other list, and if it isn't put it into a
List<Object>, storing the value there.
You will want to do this twice, so, if you have at least a dual-core processor, you may get some benefit out of having both searches being done in separate threads, but then you will want to use one of the concurrent datatypes added in JDK5 so that you don't have to worry about synchronizations in the combined list of differences.
So, I would write it first as a single-thread and test, to get some ideas as to how much faster it is, also comparing it to the original implmemntation.
Then, if you need it faster, try using threads, again, compare to see if there is a speed increase.
Before making any optimization ensure you have some metrics on what you already have, so that you can compare and see if the one change will lead to an increase in speed.
If you make too many changes at a time, one may have a large improvement on speed, but others may lead to a performance decrease, and it wouldn't be seen, which is why each change should be one at a time.
Don't lose the other implementations though, by using unit tests and testing perhaps 100 times each, you can get an idea as to what improvement each change gives you.