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I have a List<KeyValuePair<double, double>>, the list is sorted by KeyValuePair.Key, so it's amendable to binary search. And I have a double object. Now, my task is to find the index of the double object. Here are the conditions that apply:

  1. If that double object matches one of the KeyValuePair.Key within a specified tolerance, then the corresponding KeyValuePair.Value should be returned.
  2. If the double object falls outside the max and min range of KeyValuePair.Key, then a 0 should be returned.
  3. If the double object falls within the max min of the KeyValuePair.Key, but not matched any of the KeyValuePair.Key within a specified tolerance, then the get the average of the nearest upper and nearest lower KeyValuePair.Value ( as measured by KeyValuePair.Key).

I know that a binary search implementation is available in C#, but it is not exactly suited to my needs. I would like to ask is there any implementation out there that already meets my needs? I don't want to spend a few hours writing and debugging the code that other people has already written, debugged and perfected.

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1 Answer 1

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This can be done fairly easily with a comparer and a small wrapper around List<T>.BinarySearch:

static double Search(List<KeyValuePair<double, double>> list, double key) {
    int index = list.BinarySearch(
        new KeyValuePair<double, double>(key, 0), 
        new Comparer());

     // Case 1
     if (index >= 0)
         return list[index].Value;

     // NOTE: if the search fails, List<T>.BinarySearch returns the 
     // bitwise complement of the insertion index that would be used
     // to keep the list sorted.
     index = ~index;

     // Case 2
     if (index == 0 || index == list.Count)
        return 0;

     // Case 3
     return (list[index - 1].Value + list[index].Value) / 2;
 }

 class Comparer : IComparer<KeyValuePair<double, double>> {
     public int Compare(
         KeyValuePair<double, double> x, 
         KeyValuePair<double, double> y) 
     {
         if (Math.abs(x.Key - y.Key) < TOLERANCE)
             return 0;

         return x.Key.CompareTo(y.Key);
     }
 }
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  • 2
    Only thing you might have to watch out for is id the list contains duplicates: If the List<T> contains more than one element with the same value, the method returns only one of the occurrences, and it might return any one of the occurrences, not necessarily the first one. Jul 13, 2010 at 4:09
  • Nice one... I didn't realize that BinarySearch actually returns the bitwise complement of the insertion index... thanks!
    – Graviton
    Jul 13, 2010 at 4:09
  • @Mitch, for my application, all the Keys are unique, so there is no this worries.
    – Graviton
    Jul 13, 2010 at 4:10
  • @Mitch Excellent point! Also, thank you for pointing out that I forgot to handle the tolerance requirement in my original solution. Jul 13, 2010 at 4:12

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