Just now I read some posts about
LinkedList<T>, so I decided to benchmark some structures myself. I benchmarked
LinkedList<T> by adding data and removing data to/from the front/end. Here's the benchmark result:
Pushing to Stack... Time used: 7067 ticks Poping from Stack... Time used: 2508 ticks Enqueue to Queue... Time used: 7509 ticks Dequeue from Queue... Time used: 2973 ticks Insert to List at the front... Time used: 5211897 ticks RemoveAt from List at the front... Time used: 5198380 ticks Add to List at the end... Time used: 5691 ticks RemoveAt from List at the end... Time used: 3484 ticks AddFirst to LinkedList... Time used: 14057 ticks RemoveFirst from LinkedList... Time used: 5132 ticks AddLast to LinkedList... Time used: 9294 ticks RemoveLast from LinkedList... Time used: 4414 ticks
The differences are so dramatic!
As you can see, the performance of
Queue<T> are fast and comparable, that's expected.
List<T>, using the front and the end has so much differences! And to my surprise, performance of adding/removing from the end is actually comparable to the performance of
LinkedList<T>, manipulating with the front is fast (-er than
, but for the end, it is incredibly slow for removing manipulating with the end is too.
So... can any experts account on:
- the similarity in performance of using
Stack<T>and the end of
- the differences in using the front and the end of
- the reason that using the end of
LinkedList<T>is so slow (not applicable as that is a coding error due to the use of Linq's
Last(), thanks to CodesInChaos)?
I think I know why
List<T> doesn't handle the front so well... because
List<T>needs to move the whole list back and fro when doing that. Correct me if I am wrong.
2435947, and the program is targeted to .NET 4 Client Profile and compiled with C# 4.0, on Windows 7 Visual Studio 2010.