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Is there already implemented data structure in .NET library acting like sparse array (where most indexes are empty) with O(1) access by index and O(1) access to next (and previous) element?

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See stackoverflow.com/questions/756329/…. Or you can try Math.Net: numerics.mathdotnet.com –  Monroe Thomas Jul 1 '12 at 18:05

4 Answers 4

Math.Net Numerics has a sparse matrix facility. http://numerics.mathdotnet.com/linear-algebra/

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I don't know of any built-in containers like you want, but as a workaround you can use a Dictionary of the following items:

class Entry<T>
{
    int previdx, nextidx;
    T data;
}

(dictionary in .NET has O(1) lookup, as it's hashtable-based). For the insertion to be O(log n), we need to keep a sorted list of already existing indices (this doesn't exist out-of-the-box, but can be easily emulated)

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Nice, but I believe not that easy to implement. Well, I guess in my case I will just use linked list of nodes storing its index, insert sort and simple array (or dictionary) lookup. O(n) insertion is bugging me a bit, but I don't think there can be done something about it, neither is it that bad after all. –  mrpyo Jul 1 '12 at 18:36
1  
@mrpyo: I've just realized that for fast insertion we need a sorted list of indices, so that you can check at O(log n) time which index is going to be next/prev of the new index. –  Vlad Jul 1 '12 at 18:44

I put together a list of the lists in dotnet a while ago. There is no sparse list there.
I mention it anyway because it can be some aid if you decide on developing one yourself.

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Thanks for sharing. –  Emmad Kareem Jan 28 '14 at 22:53

Here's a sparse array based on a Dictionary (mostly untested, I just put it together after reading this question):

using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;

namespace NobleTech.Products.Library.Linq
{
    public class SparseList<T> : IList<T>
    {
        private T defaultValue;
        private Dictionary<int, T> dict;
        private IEqualityComparer<T> comparer;

        public SparseList(T DefaultValue = default(T))
            : this(DefaultValue, EqualityComparer<T>.Default)
        {
        }

        public SparseList(IEqualityComparer<T> Comparer)
            : this(default(T), Comparer)
        {
        }

        public SparseList(T DefaultValue, IEqualityComparer<T> Comparer)
        {
            defaultValue = DefaultValue;
            dict = new Dictionary<int, T>();
            comparer = Comparer;
        }

        public int IndexOf(T item)
        {
            if (comparer.Equals(item, defaultValue))
                return LinqUtils.Generate().First(i => !dict.ContainsKey(i));
            return dict.Where(kvp => comparer.Equals(item, kvp.Value))
                .Select(kvp => (int?)kvp.Key).FirstOrDefault() ?? -1;
        }

        public void Insert(int index, T item)
        {
            if (index < 0)
                throw new ArgumentOutOfRangeException("index", index, "index must be non-negative");
            if (index < Count)
                dict = dict.ToDictionary(kvp => kvp.Key < index ? kvp.Key : kvp.Key + 1, kvp => kvp.Value);
            this[index] = item;
        }

        public void RemoveAt(int index)
        {
            if (index < 0)
                throw new ArgumentOutOfRangeException("index", index, "index must be non-negative");
            dict.Remove(index);
            if (index < Count)
                dict = dict.ToDictionary(kvp => kvp.Key < index ? kvp.Key : kvp.Key - 1, kvp => kvp.Value);
        }

        public T this[int index]
        {
            get
            {
                if (index < 0)
                    throw new ArgumentOutOfRangeException("index", index, "index must be non-negative");
                if (dict.ContainsKey(index))
                    return dict[index];
                return defaultValue;
            }
            set
            {
                if (index < 0)
                    throw new ArgumentOutOfRangeException("index", index, "index must be non-negative");
                dict[index] = value;
            }
        }

        public void Add(T item) { this[Count] = item; }

        public void Clear() { dict.Clear(); }

        public bool Contains(T item)
        {
            return comparer.Equals(item, defaultValue) || dict.Values.Contains(item, comparer);
        }

        public void CopyTo(T[] array, int arrayIndex)
        {
            if (array == null)
                throw new ArgumentNullException("array");
            if (arrayIndex < 0)
                throw new ArgumentOutOfRangeException("arrayIndex", arrayIndex, "arrayIndex must be non-negative");
            for (int i = 0; i < array.Length - arrayIndex; ++i)
                array[arrayIndex + i] = this[i];
        }

        public int Count { get { return (dict.Keys.Max(i => (int?)i) ?? -1) + 1; } }

        public bool IsReadOnly { get { return false; } }

        public bool Remove(T item)
        {
            int index = IndexOf(item);
            if (index < 0)
                return false;
            RemoveAt(index);
            return true;
        }

        public IEnumerator<T> GetEnumerator()
        {
            return LinqUtils.Generate(i => this[i]).GetEnumerator();
        }

        IEnumerator IEnumerable.GetEnumerator() { return GetEnumerator(); }
    }
}

The implementation of LinqUtils.Generate is left as an exercise for the reader :-)

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