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I just came across the ArraySegment<byte> type while subclassing the MessageEncoder class.

I now understand that it's a segment of a given array, takes an offset, is not enumerable, and does not have an indexer, but I still fail to understand its usage. Can someone please explain with an example?

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It looks like ArraySegment is enumerable in .Net 4.5. – svick Nov 22 '13 at 18:04

5 Answers 5

ArraySegment<T> has become a lot more useful in .NET 4.5 as it now implements:

  • IList<T>
  • ICollection<T>
  • IEnumerable<T>
  • IEnumerable
  • IReadOnlyList<T>
  • IReadOnlyCollection<T>

as opposed to the .NET 4 version which implemented no interfaces whatsoever.

The class is now able to take part in the wonderful world of LINQ so we can do the usual LINQ things like query the contents, reverse the contents without affecting the original array, get the first item, and so on:

var array = new byte[] { 5, 8, 9, 20, 70, 44, 2, 4 };
var segment = new ArraySegment<byte>(array, 2, 3);
segment.Dump(); // output: 9, 20, 70
segment.Reverse().Dump(); // output 70, 20, 9
segment.Any(s => s == 99).Dump(); // output false
segment.First().Dump(); // output 9
array.Dump(); // no change
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  1. Buffer partioning for IO classes - Use the same buffer for simultaneous read and write operations and have a single structure you can pass around the describes your entire operation.
  2. Set Functions - Mathematically speaking you can represent any contiguous subsets using this new structure. That basically means you can create partitions of the array, but you can't represent say all odds and all evens. Note that the phone teaser proposed by The1 could have been elegantly solved using ArraySegment partitioning and a tree structure. The final numbers could have been written out by traversing the tree depth first. This would have been an ideal scenario in terms of memory and speed I believe.
  3. Multithreading - You can now spawn multiple threads to operate over the same data source while using segmented arrays as the control gate. Loops that use discrete calculations can now be farmed out quite easily, something that the latest C++ compilers are starting to do as a code optimization step.
  4. UI Segmentation - Constrain your UI displays using segmented structures. You can now store structures representing pages of data that can quickly be applied to the display functions. Single contiguous arrays can be used in order to display discrete views, or even hierarchical structures such as the nodes in a TreeView by segmenting a linear data store into node collection segments.

In this example, we look at how you can use the original array, the Offset and Count properties, and also how you can loop through the elements specified in the ArraySegment.

using System;

class Program
    static void Main()
        // Create an ArraySegment from this array.
        int[] array = { 10, 20, 30 };
        ArraySegment<int> segment = new ArraySegment<int>(array, 1, 2);

        // Write the array.
        Console.WriteLine("-- Array --");
        int[] original = segment.Array;
        foreach (int value in original)

        // Write the offset.
        Console.WriteLine("-- Offset --");

        // Write the count.
        Console.WriteLine("-- Count --");

        // Write the elements in the range specified in the ArraySegment.
        Console.WriteLine("-- Range --");
        for (int i = segment.Offset; i < segment.Count+segment.Offset; i++)

ArraySegment Structure - what were they thinking?

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ArraySegment is just a structure. My best guess is that its purpose is to allow a segment of an array to be passed around without having to make a copy of it. – Brian Jan 5 '11 at 1:34
I believe the condition statement of the for loop should be i < segment.Offset + segment.Count. – Eren Ersönmez Jun 15 '12 at 11:44
+1 for the facts you mentioned but @Eren is right: You can't iterate a segment's elements like that. – Şafak Gür Oct 21 '12 at 6:20
The "what were they thinking" article is nothing but an ill-informed rant. – Kirk Woll Nov 13 '14 at 2:24
It's usually appropriate to give attribution when you use someone elses code. It's just good manners. Your example originates from – Technik Empire Dec 22 '14 at 9:52

What's about a wrapper class? Just to avoid copy data to temporal buffers.

public class SubArray<T> {
        private ArraySegment<T> segment;

        public SubArray(T[] array, int offset, int count) {
            segment = new ArraySegment<T>(array, offset, count);
        public int Count {
            get { return segment.Count; }

        public T this[int index] {
            get {
               return segment.Array[segment.Offset + index];

        public T[] ToArray() {
            T[] temp = new T[segment.Count];
            Array.Copy(segment.Array, segment.Offset, temp, 0, segment.Count);
            return temp;

        public IEnumerator<T> GetEnumerator() {
            for (int i = segment.Offset; i < segment.Offset + segment.Count; i++) {
                yield return segment.Array[i];
    } //end of the class


byte[] pp = new byte[] { 1, 2, 3, 4 };
SubArray<byte> sa = new SubArray<byte>(pp, 2, 2);

//Console.WriteLine(b[2]); exception

foreach (byte b in sa) {



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It's pretty useless, doesn't get much use inside the .NET framework either. It merely is preferable over the alternative: making a copy of the array segment. That's expensive.

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+1 It's not a wonder structure. :) – Tim Lloyd Jan 5 '11 at 4:38
If it is avoiding an expensive copy, then it is not useless... – CRice Jan 5 '11 at 6:12

The ArraySegment is MUCH more useful than you might think. Try running the following unit test and prepare to be amazed!

    public void ArraySegmentMagic()
        var arr = new[] {0, 1, 2, 3, 4, 5, 6, 7, 8, 9};

        var arrSegs = new ArraySegment<int>[3];
        arrSegs[0] = new ArraySegment<int>(arr, 0, 3);
        arrSegs[1] = new ArraySegment<int>(arr, 3, 3);
        arrSegs[2] = new ArraySegment<int>(arr, 6, 3);
        for (var i = 0; i < 3; i++)
            var seg = arrSegs[i] as IList<int>;
            Console.Write(seg.GetType().Name.Substring(0, 12) + i);
            Console.Write(" {");
            for (var j = 0; j < seg.Count; j++)
                Console.Write("{0},", seg[j]);

You see, all you have to do is cast an ArraySegment to IList and it will do all of the things you probably expected it to do in the first place. Notice that the type is still ArraySegment, even though it is behaving like a normal list.


ArraySegment0 {0,1,2,}
ArraySegment1 {3,4,5,}
ArraySegment2 {6,7,8,}
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