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Some guy asked me this question couple of months ago and I couldn't explain it in detail. What is the difference between a reference type and a value type in C#?

I know that value types are int, bool, float, etc and reference types are delegate, interface, etc. Or is this wrong, too?

Can you explain it to me in a professional way?

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As a small note, I think the question is asked about C#, but in reality it's about C# + .NET. You can't analyze C# without analyzing .NET. I won't retag the question because there could be some points to be made on analyzing one without analyzing the other (iterators and closures, I'm looking at you) – xanatos Feb 20 '11 at 14:26

10 Answers 10

up vote 84 down vote accepted

Your examples are a little odd because while int, bool and float are specific types, interfaces and delegates are kinds of type - just like struct and enum are kinds of value types.

I've written an explanation of reference types and value types in this article. I'd be happy to expand on any bits which you find confusing.

The "TL;DR" version is to think of what the value of a variable/expression of a particular type is. For a value type, the value is the information itself. For a reference type, the value is a reference which may be null or may be a way of navigating to an object containing the information.

For example, think of a variable as like a piece of paper. It could have the value "5" or "false" written on it, but it couldn't have my house... it would have to have directions to my house. Those directions are the equivalent of a reference. In particular, two people could have different pieces of paper containing the same directions to my house - and if one person followed those directions and painted my house red, then the second person would see that change too. If they both just had separate pictures of my house on the paper, then one person colouring their paper wouldn't change the other person's paper at all.

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skeet: i think C# in Depth 2.3.1 states a better example:) – naveen Feb 20 '11 at 13:48
@yetanothercoder: I've become quite fond of the house example - but obviously there are lots of different ways of expressing the idea. – Jon Skeet Feb 20 '11 at 13:51
It's important to note that there are at three distinct primary types of semantics a thing can offer: immutable semantics, mutable value semantics, and mutable reference semantics. Conceptually, the kind of semantics a thing implements is orthogonal to whether it's stored as a standalone heap object or a variable/field (struct). In practice, while structs which do not expose their fields can implement any kind of semantics, the fact that .net allows promiscuous sharing of heap references means heap objects cannot implement mutable value semantics. – supercat Nov 29 '11 at 22:21

I found it easier to understand the difference of the two if you know how computer allocate stuffs in memory and know what a pointer is.

Reference is usually associated with a pointer. Meaning the memory address where your variable reside is actually holding another memory address of the actual object in a different memory location.

The example I am about to give is grossly over simplified, so take it with a grain of salt.

Imagine computer memory is a bunch of PO boxes in a row (starting w/ PO Box 0001 to PO Box n) that can hold something inside it. If PO boxes doesn't do it for you, try a hashtable or dictionary or an array or something similar.

Thus, when you do something like:

var a = "Hello";

the computer will do the following:

  1. allocate memory (say starting at memory location 1000 for 5 bytes) and put H (at 1000), e (at 1001), l (at 1002), l (at 1003) and o (at 1004).
  2. allocate somewhere in memory (say at location 0500) and assigned it as the variable a.
    So it's kind of like an alias (0500 is a).
  3. assign the value at that memory location (0500) to 1000 (which is where the string Hello start in memory). Thus the variable a is holding a reference to the actual starting memory location of the "Hello" string.

Value type will hold the actual thing in its memory location.

Thus, when you do something like:

var a = 1;

the computer will do the following:

  1. allocate a memory location say at 0500 and assign it to variable a (the same alias thing)
  2. put the value 1 in it (at memory location 0500).
    Notice that we are not allocating extra memory to hold the actual value (1). Thus a is actually holding the actual value and that's why it's called value type.
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You may be interested in… – Jon Skeet Feb 21 '11 at 7:25
@Jon, Well, that sort of invalidate what I was saying, LOL. But like I said, it is grossly oversimplified to get some understanding between the two types which in my case I found helpful. At least that's how I pictured it in my mind :). – Jimmy Chandra Feb 21 '11 at 9:30

Value type:

Holds some value not memory addresses




Value types are stored on stack.


A value type does not need extra garbage collection. It gets garbage collected together with the instance it lives in. Local variables in methods get cleaned up upon method leave.


  1. When large set of values are passed to a method the receiving variable actually copies so there are two redundant values in memory.

  2. As classes are missed losses all the oop benifits

Reference type:

Holds a memory address of a value not value




Stored on heap


  1. When u pass a reference variable to a method and it changes it indeed changes the original value whereas in value types a copy of the given variable is taken and that's value is changed.

  2. When the size of variable is bigger reference type is good

  3. As class comes in this type of variable oops is promoted so it gives reusability those oop benifits


More work referencing when allocating and dereferences when reading the value.extra overload for garbage collector

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"Variables that are based on value types directly contain values. Assigning one value type variable to another copies the contained value. This differs from the assignment of reference type variables, which copies a reference to the object but not the object itself." from Microsoft's library.

You can find a more complete answer here and here.

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I don't like that explanation, because it sounds like assignment works different for reference types and value types. It doesn't. In both cases, it makes the value of the "target" variable equal to the expression - the value is copied. The difference is in what that value is - for reference types, the value that gets copied is a reference. That's still the value of the variable though. – Jon Skeet Feb 20 '11 at 13:29
I agree with you and I've already known that it could be different, as you can read in this article. But, I'm just repassing the Microsoft's guide about the subject and also how you usually read in books. Please don't blame me! :) – Lucas S. Feb 20 '11 at 14:03
Oh sure... there are plenty of bits of MSDN documentation where there's fault to be found :) – Jon Skeet Feb 20 '11 at 14:16

This is probably wrong in esoterical ways, but, to make it simple:

Value types are values that are passed normally "by value" (so copying them). Reference types are passed "by reference" (so giving a pointer to the original value). There isn't any guarantee by the .NET ECMA standard of where these "things" are saved. You could build an implementation of .NET that is stackless, or one that is heapless (the second would be very complex, but you probably could, using fibers and many stacks)

Structs are value type (int, bool... are structs, or at least are simulated as...), classes are reference type.

Value types descend from System.ValueType. Reference type descend from System.Object.

Now.. In the end you have Value Type, "referenced objects" and references (in C++ they would be called pointers to objects. In .NET they are opaque. We don't know what they are. From our point of view they are "handles" to the object). These lasts are similar to Value Types (they are passed by copy). So an object is composed by the object (a reference type) and zero or more references to it (that are similar to value types). When there are zero references the GC will probably collect it.

In general (in the "default" implementation of .NET), Value type can go on the stack (if they are local fields) or on the heap (if they are fields of a class, if they are variables in an iterator function, if they are variables referenced by a closure, if they are variable in an async function (using the newer Async CTP)...). Referenced value can only go to the heap. References use the same rules as Value types.

In the cases of Value Type that go on the heap because they are in an iterator function, an async function, or are referenced by a closure, if you watch the compiled file you'll see that the compiler created a class to put these variables, and the class is built when you call the function.

Now, I don't know how to write long things, and I have better things to do in my life. If you want a "precise" "academic" "correct" version, read THIS:

It's 15 minutes I'm looking for it! It's better than the msdn versions, because it's a condensed "ready to use" article.

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It's wrong in more than esoteric ways. It's fundamentally wrong I'd say - because reference type values are still passed by value as well; it's just that the value is a reference, not an object. See Oh, and local variables can end up on the heap too, for example if they're captured or part of an iterator block. – Jon Skeet Feb 20 '11 at 13:31
Iterators blocks are converted to classes, so "behind you" they are "fields of a class". Same for closures. Yeah... I forgot to write the distinction between the "pointer" (the reference) and the "pointed" – xanatos Feb 20 '11 at 13:43
@xanatos: Sure, they're fields of a class after compilation - but they're still local variables in the source code. I also wouldn't call the references themselves "value types" - I think I know where you're coming from, but I don't think it's a good idea to muddy the waters in this way. – Jon Skeet Feb 20 '11 at 13:52
@jon Yeah... They are a third type, because pointers are "opaque" in .net, and they don't derive from ValueType. But they are more similar to value types than to references. You can "ref" and "out" them. I had to mud the waters because "someone" had to nitpick the working of iterators. – xanatos Feb 20 '11 at 14:00
Looking at the article I now point to, I've found: "There are three kinds of values: (1) instances of value types, (2) instances of reference types, and (3) references. (Code in C# cannot manipulate instances of reference types directly; it always does so via a reference. In unsafe code, pointer types are treated like value types for the purposes of determining the storage requirements of their values.)". – xanatos Feb 20 '11 at 14:02

This is from a post of mine from a different forum, about two years ago. While the language is (as opposed to C#), the Value Type vs. Reference type concepts are uniform throughout .net, and the examples still hold.

It is also important to remember that within .net, ALL types technically derive from the base type Object. The value types are designed to behave as such, but in the end they also inherit the functionality of base type Object.

A. Value Types are just that- they represent a distinct area in memory where a discrete VALUE is stored. Value types are of fixed memory size and are stored in the stack, which is a collection of addresses of fixed size.

When you make a statement like such:

Dim A as Integer
DIm B as Integer

A = 3
B = A 

You have done the following:

  1. Created 2 spaces in memory sufficient to hold 32 bit integer values.
  2. Placed a value of 3 in the memory allocation assigned to A
  3. Placed a value of 3 in the memory allocation assigned to B by assigning it the same value as the held in A.

The Value of each variable exists discretely in each memory location.

B. Reference Types can be of various sizes. Therefore, they can't be stored in the "Stack" (remember, the stack is a collection of memory allocations of fixed size?). They are stored in the "Managed Heap". Pointers (or "references") to each item on the managed heap are maintained in the stack (Like an Address). Your code uses these pointers in the stack to access objects stored in the managed heap. So when your code uses a reference variable, it is actually using a pointer (or "address" to an memory location in the managed heap).

Say you have created a Class named clsPerson, with a string Property Person.Name

In this case, when you make a statement such as this:

Dim p1 As clsPerson
p1 = New clsPerson
p1.Name = "Jim Morrison"

Dim p2 As Person

p2 = p1

In the case above, the p1.Name Property will Return "Jim Morrison", as you would expect. The p2.Name property will ALSO return "Jim Morrison", as you would Iintuitively expect. I believe that both p1 and p2 represent distinct addresses on the Stack. However, now that you have assigned p2 the value of p1, both p1 and p2 point to the SAME LOCATION on the managed heap.

Now COnsider THIS situation:

Dim p1 As clsPerson
Dim p2 As clsPerson

p1 = New clsPerson
p1.Name = "Jim Morrison"

p2 = p1

p2.Name = "Janis Joplin"

In this situation, You have created one new instance of the person Class on the Managed Heap with a pointer p1 on the Stack which references the object, and assigned the Name Property of the object instance a value of "Jim Morrison" again. Next, you created another pointer p2 in the Stack, and pointed it at the same address on the managed heap as that referenced by p1 (when you made the assignement p2 = p1).

Here comes the twist. When you the Assign the Name property of p2 the value "Janis Joplin" you are changing the Name property for the object REFERENCED by Both p1 and p2, such that, if you ran the following code:

'Will return "Janis Joplin"

'will ALSO return "Janis Joplin"Because both variables (Pointers on the Stack) reference the SAME OBJECT in memory (an Address on the Managed Heap). 

Did that make sense?

Last. If you do THIS:

DIm p1 As New clsPerson
Dim p2 As New clsPerson

p1.Name = "Jim Morrison"
p2.Name = "Janis Joplin"

You now have two distinct Person Objects. However, the minute you do THIS again:

p2 = p1

You have now pointed both back to "Jim Morrison". (I am not exactly sure what happened to the Object on the Heap referenced by p2 . . . I THINK it has now gone out of scope. This is one of those areas where hopefullly someone can set me straight . . .). -EDIT: I BELIEVE this is why you would Set p2 = Nothing OR p2 = New clsPerson before making the new assignment.

Once again, if you now do THIS:

p2.Name = "Jimi Hendrix"


Both msgBoxes will now return "Jimi Hendrix"

This can be pretty confusing for a bit, and I will say one last time, I may have some of the details wrong.

Good Luck, and hopefully others who know better than me will come along to help clarify some of this . . .

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The simplest way to think of reference types is to consider them as being "object-IDs"; the only things one can do with an object ID are create one, copy one, inquire or manipulate the type of one, or compare two for equality. An attempt to do anything else with an object-ID will be regarded as shorthand for doing the indicated action with the object referred to by that id.

Suppose I have two variables X and Y of type Car--a reference type. Y happens to hold "object ID #19531". If I say "X=Y", that will cause X to hold "object ID #19531". Note that neither X nor Y holds a car. The car, otherwise known as "object ID #19531", is stored elsewhere. When I copied Y into X, all I did was copy the ID number. Now suppose I say X.Color=Colors.Blue. Such a statement will be regarded as an instruction to go find "object ID#19531" and paint it blue. Note that even though X and Y now refer to a blue car rather than a yellow one, the statement doesn't actually affect X or Y, because both still refer to "object ID #19531", which is still the same car as it always has been.

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Variable types and Reference Value are easy to apply and well applied to the domain model, facilitate the development process.

To remove any myth around the amount of "value type", I will comment on how this is handled on the platform. NET, specifically in C # (CSharp) when called APIS and send parameters by value, by reference, in our methods, and functions and how to make the correct treatment of the passages of these values​​.

Read this article Variable Type Value and Reference in C #

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This is an English-only Q&A site, unfortunately =\. Thanks for trying to answer, however. Please create full answers, with links as aids only (but not as the full sustained answer). Please take a look at how to answer. – Jesse Apr 24 '13 at 1:52

Suppose v is a value-type expression/variable, and r is a reference-type expression/variable

    x = v  
    update(v)  //x will not change value. x stores the old value of v

    x = r 
    update(r)  //x now refers to the updated r. x only stored a link to r, 
               //and r can change but the link to it doesn't .

So, a value-type variable stores the actual value (5, or "h"). A reference-type varaible only stores a link to a metaphorical box where the value is.

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value data type and reference data type

1) value( contain the data directly ) but reference ( refers to the data )

2) in value( every variable has its own copy) but
in reference (more than variable can refer to some objects)

3) in value (operation variable can`t effect on other variable ) but in reference (variable can affect other )

4) value types are(int, bool, float) but reference type are (array , class objects , string )

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