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I have a list of items in a generic list:

  • A1 (sort index 1)
  • A2 (sort index 2)
  • B1 (sort index 3)
  • B2 (sort index 3)
  • B3 (sort index 3)

The comparator on them takes the form:

this.sortIndex.CompareTo(other.sortIndex)

When I do a List.Sort() on the list of items, I get the following order out:

  • A1
  • A2
  • B3
  • B2
  • B1

It has obviously worked in the sense that the sort indexes are in the right order, but I really don't want it to be re-ordering the 'B' items.

Is there any tweak I can make to my comparator to fix this?

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5 Answers 5

up vote 4 down vote accepted

OrderBy preserves order for equal items:

myList = myList.OrderBy(item => item.SortIndex).ToList();
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you need to use a "stable sort" algorithm if you don't want items that are equal to change position.

Check out "merge sort" for an example of a stable sort algorithm. Here's an implementation of it in C#.

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You can change your comparator to do a secondary sort on the value:

if (this.sortIndex.CompareTo(other.sortIndex) == 0) // same sortIndex
{
   return this.Value.CompareTo(other.Value);
}
return 0;
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Is that not doing exactly the same thing as the example I posted? –  Fiona Taylor Gorringe Apr 20 '10 at 10:35
    
@Fiona: No, the code uses the value in a secondary comparison, but you have to do some corrections if you want to use it, as it messes up the primary comparison by returning zero instead of the result. –  Guffa Apr 20 '10 at 10:42
    
Ah I see. I don't have a secondary comparison to use really (although I could add an artifical one and this would work fine), the list order I want to preserve is based on the output of a pretty complex recursive function. –  Fiona Taylor Gorringe Apr 20 '10 at 10:58

Sort uses QuickSort, and it doesn't assure original sequence in case of comparison equality.

If you still want to use List.Sort you could add a second comparison with the original index like:

int c = this.sortIndex.CompareTo(other.sortIndex);
if (c == 0)
  c = this.originalIndex.CompareTo(other.originalIndex);
return c;

otherwise you can sort with other "stable" algorithms (e.g. LINQ OrderBy).

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StableSort() extension method for List<T> is here

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