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I've made some speed tests concerning Lists in C#. Here is a result that I cannot explain. I hope someone can figure out what is happening.

Miliseconds for 1000 iterations if cloneList.RemoveAt(cloneList.Count - 1) is called before cloneList.Add(next): x milliseconds.

Miliseconds for 1000 iterations if cloneList.RemoveAt(cloneList.Count - 1) is NOT called before cloneList.Add(next): at least 20x milliseconds.

It seems if a have one more statement my code get 20 times faster (see the code below):

        Stopwatch stopWatch = new Stopwatch();
        Random random = new Random(100);

        TimeSpan caseOneTimeSpan = new TimeSpan();
        TimeSpan caseTwoTimeSpan = new TimeSpan();

        int len = 1000;

        List<int> myList = new List<int>();
        myList.Capacity = len + 1;

        // filling the list
        for (int i = 0; i < len; i++)

        // number of tests (1000)
        for (int i = 0; i < 1000; i++)
            List<int> cloneList = myList.ToList();
            int next = random.Next();

            // case 1 - remove last item before adding the new item
            cloneList.RemoveAt(cloneList.Count - 1);
            caseOneTimeSpan += stopWatch.Elapsed;

            // reset stopwatch and clone list

            cloneList = myList.ToList();

            // case 2 - add without removing
            caseTwoTimeSpan += stopWatch.Elapsed;



        Console.WriteLine("Case 1: " + caseOneTimeSpan.TotalMilliseconds);
        Console.WriteLine("Case 2: " + caseTwoTimeSpan.TotalMilliseconds);
        Console.WriteLine("Case 2 / Case 1: " + caseTwoTimeSpan.TotalMilliseconds / caseOneTimeSpan.TotalMilliseconds);  
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I believe this has to do with the way lists are allocated. Initially they get a certain amount of memory allocated and it takes time to reallocate once you go past that. Hopefully someone else can explain this in much more detail than I can... –  Dave Zych Sep 13 '12 at 21:02
The capacity of the list is probably the same as it's length in your caes, so when you add an item after removing one, it has the extra space that hasn't been trimmed, but when you don't, it has to allocate more memory. –  Yorye Nathan Sep 13 '12 at 21:03
Your 2 cases do completely different things. –  Henk Holterman Sep 13 '12 at 21:05

2 Answers 2

up vote 0 down vote accepted

This should make the difference go away:

        // reset stopwatch and clone list
        cloneList = myList.ToList();
        cloneList.Capacity = cloneList.Capacity + 1;   // add this

        // case 2 - add without removing
        caseTwoTimeSpan += stopWatch.Elapsed;
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Yes, it works. Thank you. –  Syme Sep 13 '12 at 21:16
Even though it seems to be working faster it isn't. You can see that if you move the stopWatch.Start() up before the cloneList.Capacity =... line. But it clearly shows that it pays off to assign capacity of a list to the correct amount before filling it. –  Casperah Sep 13 '12 at 21:46
Why bother speeding up your code when you can just change the diagnostic methods to make it appear faster then it really is. –  Servy Sep 14 '12 at 1:15
It is not about speeding up (or about "really" speeding up). It's about some specific behavior which I didn't understood. Thank you Servy for your answer. –  Syme Sep 14 '12 at 5:50

When you add an item to a list there are two possibilities:

  1. The internal buffer is large enough to add another item. The item is placed in the next free location. Speed: O(1) (This is the most common case.)
  2. The internal buffer is not large enough. Create a new, larger, buffer. Copy all items from the old buffer to the new one. Add the next item to the new buffer. Speed: O(n) (this shouldn't be occurring often)

While most Add calls will be O(1), some are O(n).

Removing the last item is always O(1).

Since Add is sometimes dependent on the size of the list, when the list is larger it takes longer (if any calls require a new buffer). If you always remove items when adding a new one you are ensuring that the internal buffer always has enough space.

You can look at the Capacity property of List to see the current size of the internal buffer and compare it to Count, which is the number of items that the list actually has. (Therefore Capacity-Count is the number of free items in the buffer.) While not often useful in real programs, looking at these tools when debugging or developing an application can be useful to helping you see what's going on underneath.

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+1 Good answer. Adding to it: You can see the list's Count vs Capacity while debugging it and see the differences. –  Yorye Nathan Sep 13 '12 at 21:04
@YoryeNathan Nice note, edited into the answer. –  Servy Sep 13 '12 at 21:07
Thank you for answer. I get it now. –  Syme Sep 13 '12 at 21:16

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