I know an int is a value type, but what are arrays of value types? Reference types? Value types? I want to pass an array to a function to check something. Should I just pass the array, as it will just pass the reference of it, or should I pass it as ref?

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    In the future, you can check if something is passed by reference or by value by creating a variable, passing that variable into a method that changes that variable, and the checking what the value of that variable is after it's run through the method. If it's the same, its passed by value, different, passed by reference.
    – user153498
    Oct 7, 2009 at 19:47
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    @darkassassin93: Passing by reference or by value is unrelated to whether something is a reference type or a value type. (Value types can be passed by reference and reference types can be passed by value.)
    – LukeH
    Oct 7, 2009 at 22:08
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    In most cases if you can store [null] inside a field or variable you can assume that it is a ref type. The exceptions certainly are nullable types (Nullable<int> or int?) as well as strings. Jun 9, 2015 at 12:49
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    @NoëlWidmer Strings are not an exception: they're ref types. Jun 1, 2016 at 1:58
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    @ArthurCastro Argree to 50%: strings inherit from class that means they are reference types. However their equality is based on identity (value comparism) rather than reference and their pass behaviour is overriden to match the behaviour of value types. Basically they are reference types by definition but behave more like value types by implementation. Jun 1, 2016 at 8:05

10 Answers 10


Arrays are mechanisms that allow you to treat several items as a single collection. The Microsoft® .NET Common Language Runtime (CLR) supports single-dimensional arrays, multidimensional arrays, and jagged arrays (arrays of arrays). All array types are implicitly derived from System.Array, which itself is derived from System.Object. This means that all arrays are always reference types which are allocated on the managed heap, and your app's variable contains a reference to the array and not the array itself.


  • 76
    Value types inherit from System.ValueType which itself inherits from System.Object. So just because Array derives from System.Object does not mean it's a reference type. What makes System.Array a reference type is that it's instances are copied by reference. IOW, concentrate on the fact that System.Array is a class. That is what makes it a reference type. Feb 18, 2013 at 20:38
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    <nitpick>I know it may look like the documentation is implying that System.Array deriving from System.Object makes it a reference type. Although it may not be true that any type that derives from System.Object is a reference type, the only exception to this rule is System.ValueType, which is treated differently by the compiler.</nitpick> Feb 19, 2013 at 14:07
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    The link above is broken. Here is another msdn link which shows the inheritance hierarchy of System.Array: msdn.microsoft.com/de-de/library/system.array(v=vs.110).aspx
    – MUG4N
    Aug 1, 2015 at 16:15
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    Anything that derives from System.Object is a reference type, UNLESS it also derives from System.ValueType. @P.Brian.Mackey just because a type is a class doesn't mean it's a reference type, because behind the scenes, structs are just classes which derive from System.ValueType. Nov 16, 2017 at 22:05

The simplest test for reference type vs. value type is that reference types can be null, but value types can not.

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    ... except for nullable value types, which are nullable (you can set the value to null, which means the null value for the type rather than a null reference) and are still value types.
    – Jon Skeet
    Oct 7, 2009 at 19:53
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    Never thought of doing that when trying to understand if they're value types or not! Great idea. Oct 7, 2009 at 20:51

Arrays (even of value types like int) are reference types in C#.


In C#, arrays are actually objects. System.Array is the abstract base type of all array types.


Test to verify if it's a reference or value type:

// we create a simple array of int
var a1 = new int[]{1,2,3};
// copy the array a1 to a2
var a2 = a1;
// modify the first element of a1
// output the first element of a1 and a2
Console.WriteLine("a1:"+a1[0]); // 2
Console.WriteLine("a2:"+a2[0]); // 2
// all the two variable point to the same array
// it's reference type!

You can test it online: https://dotnetfiddle.net/UWFP45

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    It would just have been easier to create an array and attempt to assign it to null. Compilation would fail if it was a value type.. Nov 2, 2017 at 8:26
  • Be forewarned. Once C#8 is released, it will also fail if you are using the nullable reference types feature as non-nullable reference types can't accept null either. Dec 26, 2018 at 21:36

First I want to tell you that Array is a reference type. Why? I explain throw one example over here.


int val = 0; // this is a value type ok
int[] val1 = new int[20] // this is a reference type because space required to store 20 integer value that make array allocated on the heap.

Also reference types can be null whereas value types can't.

value type stored in Stack and reference type stored in Heap

You can pass array to function using out or ref. Only initialize methods are different.



I would like to add to the other answers that though int[] is a reference type, with the introduction of stackalloc in C# you can allocate an array in stack as a value type. This may give you performance gain since placing array to stack reduces GC pressure (by the way, talking about value types in general you may often hear that value type is allocated in stack; it is not always true: https://learn.microsoft.com/en-us/archive/blogs/ericlippert/the-truth-about-value-types):


A stackalloc expression allocates a block of memory on the stack. A stack allocated memory block created during the method execution is automatically discarded when that method returns. You cannot explicitly free the memory allocated with stackalloc. A stack allocated memory block is not subject to garbage collection and doesn't have to be pinned with a fixed statement.

An example of stackalloc usage:

    Span<int> numbers = stackalloc int[10];
    for (int ctr = 0; ctr < numbers.Length; ctr++)
        numbers[ctr] = ctr + 1;
    foreach (int i in numbers)

Using this technique don't forget about the limited stack memory. The link https://learn.microsoft.com/en-us/dotnet/csharp/language-reference/operators/stackalloc provides the necessary information on how to use stackalloc safely considering this limitation.

Additionally, here is an answer that discusses the practical usage of stackalloc: Practical use of `stackalloc` keyword


The array itself is a reference type. The values of that array are value or reference types as determined by the array data type. In your example, the array is a reference type and the values are value types.

All single-dimension arrays implicitly implement IList<T>, where <T> is the data type of the array. You can use that interface as the data type of your method parameter instead. You could also use IEnumerable<T> for the data type. In either case (or even if you just use int[]) you shouldn't need to explicitly pass it as a ref parameter.


//The reference to the array is passed by value. This is the source of the confusion :-) ...

        int[] test = { 1, 2, 3, 4 };

        Console.WriteLine(test[0]); // OK --> 99 le contenu du tableau est modifié

        Console.WriteLine(test.Length); // KO --> 4 La taille n'est pas modifiée


    static void modifContenuSansRef(int[] t)
        t[0] = 99;

    static void modifTailleSansRef(int[] t)
        Array.Resize(ref t, 8);

Arrays always are reference types.it does not matter array would contain value type like int or reference type like string.When you declare array for example

int[] integers=new int[10];

integers variable itself contains only reference to the array which will reside in heap.

Also there is many people mention that you could differ value type from reference type just depend on the fact thhat variable could be null or not. I would like to mention that in the c# currently value types also can be null

for instance

int? integer=null

and it is not good way to identify the type is reference or value only depends on the fact variable could be null or not.

  • There is a clear indication when are making a value type as null there we need special syntactical help which points us to still and ever valid point that the value types cannot be ever plainly assigned a null value. Oct 16, 2021 at 6:18

Just a bit of an insight:

For example, int represents a single integer, int[] represents an array of integers.

To initialize the array with specific dimensions, you can use the new keyword, giving the size in the square brackets after the type name:

//create a new array of 32 ints.
int[] integers = new int[32];

All arrays are reference types and follow reference semantics. Hence, in this code, even though the individual elements are primitive value types, the integers array is a reference type. So if you later write:

int[] copy = integers;

this will simply assign the whole variable copy to refer to the same array, it won't create a new array.

C#'s array syntax is flexible, it allows you to declare arrays without initializing them so that the array can be dynamically sized later in the program. With this technique, you are basically creating a null reference and later pointing that reference at a dynamically allocated stretch of memory locations requested with a new keyword:

int[] integers;
integers = new int[32];

Thank You.

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