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Is there a library of generic collection algorithms for .NET? I would like to be able to write something like this:

IList<T> items = GetItemsFromSomeWhere();
// ....
T item = GetItemSomwHow();
int i = Algorithms<T>.IndexOf(items, item);

Note, that items is not List<T>, otherwise I could simply use the List<T>.Sort and List<T>.BinarySearch methods.

Of course, I can implement them myself, I just do not want to reinvent the wheel.

I would also like the implementation to be efficient.


Please, do not advise on which collections to use. I am perfectly aware of the Array or List<T> abilities. What I need is a library of algorithms to work on any IList<T> based collection.

EDIT: Found what I needed - see my own answer.

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Guys, you do not have anything else to do? – mark Jan 20 at 3:39

Unfortunately, .NET doesn't provide built in BinarySearch implementations that work with the IList<T> interface.

You can use Linq for sorting your generic list, as other posters have mentioned. But for binary search on IList<T>, I would suggest you check out the following SO post.

I am not aware of a good, general purpose algorithms library that you can use to fill in the gaps in Linq, although I suspect that a lot of people out there have implemented their own utilities to solve similar problems.

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Check out my own answer. – mark Nov 9 '09 at 14:21

System.Linq.Enumerable class does a bunch of good stuff. Admittedly, it does miss some stuff but it's applicable nevertheless.

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No; it doesn't do binary searches – SLaks Jul 22 '09 at 13:29
Well, binary search is only applicable on lists with O(1) index-based access time. Array.BinarySearch will do it for arrays. – Mehrdad Afshari Jul 22 '09 at 13:31
Guys, I have IList<T>, not List<T> or T[]. I need a solution for any IList<T> based collection. So, how Array.BinarySearch is helping me? – mark Jul 22 '09 at 13:34

You can use this library as a template: Generic Sorting Library

It is still a work in progress and does not contain all the sorting algorithms. However, you can use it as a template and build on it.

It exposes a sort() as an extension method over IList and requires you to specify the sorting algorithm and a comparer. so your code could be written as follows:

            int[] sortingArray = { 12, 5, 2, 7, 66 }; 
            IComparer<int> comparer = new SortComparer();
            sortingArray.Sort(SortStrategy.HeapSort, comparer);

Let me know if this helps.

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up vote 1 down vote accepted

After doing some research I have found the PowerCollections library from Wintellect.

Aside from supplying various collections it provides a static Algorithms class with quite a few algorithms, including BinarySearch<T> and SortInPlace<T>, which expect any IList<T>.

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You just gave the definition for LINQ with the OrderBy extension method.

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No; he wants to sort in-place – SLaks Jul 22 '09 at 13:32
I think sort is just an example - LINQ has a lot of collection-manipulation functions but I suspect he's interested in other stuff. I've seen Set<T> implementations that do intersection, union, etc. but not sure if that's what he wants. – n8wrl Jul 22 '09 at 13:33

IndexOfKey method of SortedList<> does a BinarySearch internally.

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The Array class might work for you (Sort and IndexOf).

Could do the following:

        IList<string> foo = new List<string>();
        string[] foo_temp = new string[foo.Count];
        foo.CopyTo(foo_temp, 0);
        foo = new List<string>(foo_temp);
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I think the asker is looking for a set algorithms that work a generic collection, not asking for advice on which collection to use. – Binary Worrier Jul 22 '09 at 13:31
No; it only works on arrays. He wants to call things on any IList<T> – SLaks Jul 22 '09 at 13:32
Array.BinarySearch<T> – SwDevMan81 Jul 22 '09 at 13:34
SLaks - exactly. Thank you. – mark Jul 22 '09 at 13:36

Think about what data structures you are using and what algorithms are actually possible on it. I know you don't want to read about collections, but obviously binary search doesn't work on a linked list. What kind of algorithms do you need? The efficient sorting algorithms are there already. Linq and the .NET collections should give you everything you need.

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No, he specifically wants IList algorithms, and the two examples he gives could be implemented for IList in the BCL, but currently aren't. They are tied to List and Array. – Daniel Earwicker Jul 22 '09 at 14:23

I also hit this problem. My solution was to use Reflector to find out the implementations of List.Sort and Array.BinarySearch and rewrite them as extension methods for IList<T>.

Even if you don't write them as extensions but as ordinary static methods (e.g. if you're using C# 2), you don't need your exact syntax:


Just make Sort a static generic method, in an ordinary static (non-generic) class Algorithms, and type inference will do the rest by looking at the type of the argument:

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Check out my own answer. – mark Nov 9 '09 at 14:20

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