Is it possible to change an array size after declaration? If not, is there any alternative to arrays?
I do not want to create an array with a size of 1000, but I do not know the size of the array when I'm creating it.

15 Answers 15


You can use Array.Resize(), documented in MSDN.

But yeah, I agree with Corey, if you need a dynamically sized data structure, we have Lists for that.

Important: Array.Resize() doesn't resize the array (the method name is misleading), it creates a new array and only replaces the reference you passed to the method.

An example:

var array1 = new byte[10];
var array2 = array1;
Array.Resize<byte>(ref array1, 20);

// Now:
// array1.Length is 20
// array2.Length is 10
// Two different arrays.
  • 1
    If Array.Resize() is just once at the beginning (and not multiple times during the program), is that more suitable than a List?
    – Dan W
    Feb 5, 2012 at 20:40
  • 5
    List<T> uses an Array behind the scenes, so there are very few reasons to use an Array in C#. Lists can be initialized to a suitable size using this constructor: msdn.microsoft.com/en-us/library/dw8e0z9z.aspx. But yes, if your heart is set on Arrays, it's better to resize them as infrequently as possible. Feb 5, 2012 at 20:45
  • I thought List<T> uses a linked list or some data structure behind. So it uses array after all.
    – kazinix
    Sep 8, 2012 at 18:02
  • 8
    Be carefull, Array.Resize does not preserve your reference. Instead, it creates a new array of the required size.
    – Loul G.
    Mar 18, 2015 at 20:58
  • 2
    List<Int> is using Array.Resize under the covers. It uses a generally (though not universally) optimal algorithm under the covers, wherein it doubles the size of the array each time that it grows it. Unless you are working on high performance realtime systems (high-speed trading or mechanical control systems for example) you should use List<Int> as it will be "good enough" and is more maintainable. Dec 21, 2016 at 20:02

No, try using a strongly typed List instead.

For example:

Instead of using

int[] myArray = new int[2];
myArray[0] = 1;
myArray[1] = 2;

You could do this:

List<int> myList = new List<int>();

Lists use arrays to store the data so you get the speed benefit of arrays with the convenience of a LinkedList by being able to add and remove items without worrying about having to manually change its size.

This doesn't mean an array's size (in this instance, a List) isn't changed though - hence the emphasis on the word manually.

As soon as your array hits its predefined size, the JIT will allocate a new array on the heap that is twice the size and copy your existing array across.

  • 2
    Yes by this way: string[] arr1 = new string[]{}; Array.Resize(ref arr1, 7); Apr 9, 2019 at 19:59

You can use Array.Resize() in .net 3.5 and higher. This method allocates a new array with the specified size, copies elements from the old array to the new one, and then replaces the old array with the new one. (So you will need the memory available for both arrays as this probably uses Array.Copy under the covers)


Yes, it is possible to resize an array. For example:

int[] arr = new int[5];
// increase size to 10
Array.Resize(ref arr, 10);
// decrease size to 3
Array.Resize(ref arr, 3);

If you create an array with CreateInstance() method, the Resize() method is not working. For example:

// create an integer array with size of 5
var arr = Array.CreateInstance(typeof(int), 5);
// this not work
Array.Resize(ref arr, 10);

The array size is not dynamic, even we can resize it. If you want a dynamic array, I think we can use generic List instead.

var list = new List<int>();
// add any item to the list
// we can remove it easily as well
foreach(var item in list)

In C#, arrays cannot be resized dynamically.

  • One approach is to use System.Collections.ArrayList instead of a native array.

  • Another (faster) solution is to re-allocate the array with a different size and to copy the contents of the old array to the new array.

    The generic function resizeArray (below) can be used to do that.

    public static System.Array ResizeArray (System.Array oldArray, int newSize)  
          int oldSize = oldArray.Length;
          System.Type elementType = oldArray.GetType().GetElementType();
          System.Array newArray = System.Array.CreateInstance(elementType,newSize);
          int preserveLength = System.Math.Min(oldSize,newSize);
          if (preserveLength > 0)
          System.Array.Copy (oldArray,newArray,preserveLength);
         return newArray; 
     public static void Main ()  
            int[] a = {1,2,3};
            a = (int[])ResizeArray(a,5);
            a[3] = 4;
            a[4] = 5;
            for (int i=0; i<a.Length; i++)
                  System.Console.WriteLine (a[i]); 

Used this approach for array of bytes:


byte[] bytes = new byte[0];

Whenever required (Need to provide original length for extending):

Array.Resize<byte>(ref bytes, bytes.Length + requiredSize);


Array.Resize<byte>(ref bytes, 0);

Typed List Method


List<byte> bytes = new List<byte>();

Whenever required:

bytes.AddRange(new byte[length]);



Use System.Collections.Generic.List


Use a List<T> instead. For instance, instead of an array of ints

private int[] _myIntegers = new int[1000];


private List<int> _myIntegers = new List<int>();



In C#, Array.Resize is the simplest method to resize any array to new size, e.g.:

Array.Resize<LinkButton>(ref area, size);

Here, i want to resize the array size of LinkButton array:

<LinkButton> = specifies the array type
ref area = ref is a keyword and 'area' is the array name
size = new size array

    private void HandleResizeArray()
        int[] aa = new int[2];
        aa[0] = 0;
        aa[1] = 1;

        aa = MyResizeArray(aa);
        aa = MyResizeArray(aa);

    private int[] MyResizeArray(int[] aa)
        Array.Resize(ref aa, aa.GetUpperBound(0) + 2);
        aa[aa.GetUpperBound(0)] = aa.GetUpperBound(0);
        return aa;
  • What do you do by doing UpperBound?
    – whihathac
    Oct 19, 2013 at 18:28

If you really need to get it back into an array I find it easiest to convert the array to a list, expand the list then convert it back to an array.

        string[] myArray = new string[1] {"Element One"};
        // Convert it to a list
        List<string> resizeList = myArray.ToList();
        // Add some elements
        resizeList.Add("Element Two");
        // Back to an array
        myArray = resizeList.ToArray();
        // myArray has grown to two elements.

Use a List (where T is any type or Object) when you want to add/remove data, since resizing arrays is expensive. You can read more about Arrays considered somewhat harmful whereas a List can be added to New records can be appended to the end. It adjusts its size as needed.

A List can be initalized in following ways

Using collection initializer.

List<string> list1 = new List<string>()

Using var keyword with collection initializer.

var list2 = new List<string>()

Using new array as parameter.

string[] array = { "carrot", "fox", "explorer" };
List<string> list3 = new List<string>(array);

Using capacity in constructor and assign.

List<string> list4 = new List<string>(3);
list4.Add(null); // Add empty references. (Not Recommended)
list4[0] = "carrot"; // Assign those references.
list4[1] = "fox";
list4[2] = "explorer";

Using Add method for each element.

List<string> list5 = new List<string>();

Thus for an Object List you can allocate and assign the properties of objects inline with the List initialization. Object initializers and collection initializers share similar syntax.

class Test
    public int A { get; set; }
    public string B { get; set; }

Initialize list with collection initializer.

List<Test> list1 = new List<Test>()
    new Test(){ A = 1, B = "Jessica"},
    new Test(){ A = 2, B = "Mandy"}

Initialize list with new objects.

List<Test> list2 = new List<Test>();
list2.Add(new Test() { A = 3, B = "Sarah" });
list2.Add(new Test() { A = 4, B = "Melanie" });

This worked well for me to create a dynamic array from a class array.

var s = 0;
var songWriters = new SongWriterDetails[1];
foreach (var contributor in Contributors)
    Array.Resize(ref songWriters, s++);
    songWriters[s] = new SongWriterDetails();
    songWriters[s].DisplayName = contributor.Name;
    songWriters[s].PartyId = contributor.Id;

In case you cannot use Array.Reset (the variable is not local) then Concat & ToArray helps:

anObject.anArray.Concat(new string[] { newArrayItem }).ToArray();

Use a generic List (System.Collections.Generic.List).

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