Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm looking for a clear, concise and accurate answer.

Ideally as the actual answer, although links to good explanations welcome.

share|improve this question

15 Answers 15

up vote 364 down vote accepted

In .NET, there are two categories of types, reference types and value types.

Structs are value types and classes are reference types.

The general difference is that a reference type lives on the heap, and a value type lives inline, that is, wherever it is your variable or field is defined.

A variable containing a value type contains the entire value type value. For a struct, that means that the variable contains the entire struct, with all its fields.

A variable containing a reference type contains a pointer, or a reference to somewhere else in memory where the actual value resides.

This has one benefit, to begin with:

  • *value type*s always contains a value
  • reference types can contain a null-reference, meaning that they don't refer to anything at all at the moment

Internally, *reference type*s are implemented as pointers, and knowing that, and knowing how variable assignment works, there are other behavioral patterns:

  • copying the contents of a value type variable into another variable, copies the entire contents into the new variable, making the two distinct. In other words, after the copy, changes to one won't affect the other
  • copying the contents of a reference type variable into another variable, copies the reference, which means you now have two references to the same somewhere else storage of the actual data. In other words, after the copy, changing the data in one reference will appear to affect the other as well, but only because you're really just looking at the same data both places

When you declare variables or fields, here's how the two types differ:

  • variable: value type lives on the stack, reference type lives on the stack as a pointer to somewhere in heap memory where the actual memory lives
  • class/struct-field: value type lives inside the class, reference type lives inside the class as a pointer to somewhere in heap memory where the actual memory lives.
share|improve this answer
37  
This has to be about the clearest and most helpful answer to this question I have seen. (and I've seen a lot of attempted answers) –  StarPacker Dec 10 '09 at 16:09
11  
In the interest of full completeness, I should mention that Eric Lippert has said that the stack is an implementation detail, whenever I mention stack above, have Eric's post(s) in mind. –  Lasse V. Karlsen Jun 16 '11 at 15:59
2  
Very clear, good, and concise answer. However, a very important difference between a struct and a class, not mentioned is that, with a class you can define data and behavior (by way of methods) whereas with a struct you can only define data. –  Only You Feb 14 '13 at 16:56
3  
another crucial difference is usage. From MSDN: "structs are typically used to encapsulate small group of related variables, such as coordinates of rectangle. Structs can also contain constructors, constants, fields, methods, properties, indexers, operators, events, and nested types, although if several such members are required, you should consider making your type a class instead." –  thewpfguy Feb 27 '13 at 5:08
1  
@KorayTugay No it is not. –  ZoomIn Jun 14 '13 at 11:06

A short summary of each:

Classes Only:

  • Can support inheritance
  • Are reference (pointer) types
  • The reference can be null
  • Have memory overhead per new instance

Structs Only:

  • Cannot support inheritance
  • Are value types
  • Are passed by value (like integers)
  • Cannot have a null reference (unless Nullable is used)
  • Do not have a memory overhead per new instance - unless 'boxed'

Both Classes and Structs:

  • Are compound data types typically used to contain a few variables that have some logical relationship
  • Can contain methods and events
  • Can support interfaces
share|improve this answer
5  
There are some parts of this answer that are not quite right. Classes do not always go on the heap, and structs do not always go on the stack. Current exceptions include struct fields on a class, captured variables in anonymous methods and lambda expressions, iterator blocks, and the already mentioned boxed values. But stack vs heap allocation is a implementation detail and may be subject to change. Eric lippart discusses this here. I've downvoted, but will happily remove it if you update. –  Simon P Stevens Oct 29 '10 at 9:08
    
I read his blog post recently - but forgotten I'd written this answer the way I did. I'll update - let me know if there's anything else wrong :) –  Thomas Bratt Nov 29 '10 at 11:37
    
Is a class a reference type or is an instance of a class a reference type? (asking as a non .NET pgmr) –  grantwparks Jun 5 '12 at 20:12
    
When you create a class it has a type. The type is a reference type as it is always referenced through a pointer. An instance of a class is an instance of a reference type. –  Thomas Bratt Jun 7 '12 at 15:44
    
struct do not support inheritance from other stucts/classes, but you CAN implement an interface on a struct. –  thewpfguy Feb 27 '13 at 5:03

Instances of classes are stored on the managed heap. All variables 'containing' an instance are simply a reference to the instance on the heap. Passing an object to a method results in a copy of the reference being passed, not the object itself.

Structures (technically, value types) are stored wherever they are used, much like a primitive type. The contents may be copied by the runtime at any time and without invoking a customised copy-constructor. Passing a value type to a method involves copying the entire value, again without invoking any customisable code.

The distinction is made better by the C++/CLI names: "ref class" is a class as described first, "value class" is a class as described second. The keywords "class" and "struct" as used by C# are simply something that must be learned.

share|improve this answer

In .Net the struct and class declarations differentiate between reference types and value types.

When you pass round a reference type there is only one actually stored. All the code that accesses the instance is accessing the same one.

When you pass round a value type each one is a copy. All the code is working on it's own copy.

This can be shown with an example:

struct MyStruct 
{
    string MyProperty { get; set; }
}

void ChangeMyStruct(MyStruct input) 
{ 
   input.MyProperty = "new value";
}

...

// Create value type
MyStruct testStruct = new MyStruct { MyProperty = "initial value" }; 

ChangeMyStruct(testStruct);

// Value of testStruct.MyProperty is still "initial value"
// - the method changed a new copy of the structure.

For a class this would be different

class MyClass 
{
    string MyProperty { get; set; }
}

void ChangeMyClass(MyClass input) 
{ 
   input.MyProperty = "new value";
}

...

// Create reference type
MyClass testClass = new MyClass { MyProperty = "initial value" };

ChangeMyClass(testClass);

// Value of testClass.MyProperty is now "new value" 
// - the method changed the instance passed.

Classes can be nothing - the reference can point to a null.

Structs are the actual value - they can be empty but never null. For this reason structs always have a default constructor with no parameters - they need a 'starting value'.

share|improve this answer
    
Why was this downvoted? J&J don't seem to have a problem with people answering their own questions. –  AR. Oct 14 '08 at 21:47
    
Not a clue - this was posted quite early in the beta when we were all still just figuring out the rules. –  Keith Oct 15 '08 at 7:08
    
I think the downvotes may be due to the fact that your two examples are doing different things. In the class example, you're changing the value of a property of input. In the struct example, you're changing the value pointed to by input itself. The example doesn't show anything about structs, but rather, pass-by-value. If input was a class, it's passed by value into the ChangeInt function, so changing the value that it points to won't change the value of the reference in the calling code. Your struct example should show what happens if you change a property/field of a struct. –  Jon Senchyna Sep 7 '12 at 19:12
    
@JonSenchyna - hmm, you're right, examples changed. –  Keith Oct 3 '12 at 8:22

The question is pretty much answered at this point.

It might be of interest a quick and dirty guide to choosing between struct and class in every-day coding.

share|improve this answer
1  
I really liked the article because all of the answers here just talk about the overall differences between struct and class (heap/stack, value/reference). That's all good, but why use one vs. the other; the article gives some explanation to this point. –  atconway Apr 30 '13 at 15:19

I think this article "Type Fundamentals" by Jeffrey Richter is a very good place to start.

share|improve this answer

Well, for starters, a struct is passed by value rather than by reference. Structs are good for relatively simple data structures, while classes have a lot more flexibility from an architectural point of view via polymorphism and inheritance.

Others can probably give you more detail than I, but I use structs when the structure that I am going for is simple.

share|improve this answer

In addition to all the above differences
1. Structs cannot have explicit parameterless constructor where as a class can
2. Structs cannot have destructors, where as a class can
3. Struct can't inherit from another class where as a class can, Both structs and classes can inherit from an interface.

If you are after a video explaining all the differences, you can check this link. http://csharp-video-tutorials.blogspot.com/2012/06/part-29-c-tutorial-difference-between.html

share|improve this answer
1  
Much more significant than the fact that .net languages will generally not allow a struct to define a parameterless constructor (the decision of whether or not to allow it is made by the language compiler) is the fact that structures can come into existence and be exposed to the outside world without any sort of constructor having been run (even when a parameterless constructor is defined). The reason .net languages generally forbid parameterless constructors for structs is to avoid the confusion that would result from having such constructors be sometimes run and sometimes not. –  supercat Jun 15 '12 at 16:57

Besides the basic difference of access specifier, and few mentioned above I would like to add some of the major differences including few of the mentioned above with a code sample with output, which will give a more clear idea of the reference and value

Structs:

  • Are value types and do not require heap allocation.
  • Memory allocation is different and is stored in stack
  • Useful for small data structures
  • Affect performance, when we pass value to method, we pass the entire data structure and all is passed to the stack.
  • Constructor simply returns the struct value itself (typically in a temporary location on the stack), and this value is then copied as necessary
  • The variables each have their own copy of the data, and it is not possible for operations on one to affect the other.
  • Do not support user-specified inheritance, and they implicitly inherit from type object

Class:

  • Reference Type value
  • Stored in Heap
  • Store a reference to a dynamically allocated object
  • Constructors are invoked with the new operator, but that does not allocate memory on the heap
  • Multiple variables may have a reference to the same object
  • It is possible for operations on one variable to affect the object referenced by the other variable

Code Sample

    static void Main(string[] args)
    {
        //Struct
        myStruct objStruct = new myStruct();
        objStruct.x = 10;
        Console.WriteLine("Initial value of Struct Object is: " + objStruct.x);
        Console.WriteLine();
        methodStruct(objStruct);
        Console.WriteLine();
        Console.WriteLine("After Method call value of Struct Object is: " + objStruct.x);
        Console.WriteLine();

        //Class
        myClass objClass = new myClass(10);
        Console.WriteLine("Initial value of Class Object is: " + objClass.x);
        Console.WriteLine();
        methodClass(objClass);
        Console.WriteLine();
        Console.WriteLine("After Method call value of Class Object is: " + objClass.x);
        Console.Read();
    }
    static void methodStruct(myStruct newStruct)
    {
        newStruct.x = 20;
        Console.WriteLine("Inside Struct Method");
        Console.WriteLine("Inside Method value of Struct Object is: " + newStruct.x);
    }
    static void methodClass(myClass newClass)
    {
        newClass.x = 20;
        Console.WriteLine("Inside Class Method");
        Console.WriteLine("Inside Method value of Class Object is: " + newClass.x);
    }
    public struct myStruct
    {
        public int x;
        public myStruct(int xCons)
        {
            this.x = xCons;
        }
    }
    public class myClass
    {
        public int x;
        public myClass(int xCons)
        {
            this.x = xCons;
        }
    }

Output

Initial value of Struct Object is: 10

Inside Struct Method Inside Method value of Struct Object is: 20

After Method call value of Struct Object is: 10

Initial value of Class Object is: 10

Inside Class Method Inside Method value of Class Object is: 20

After Method call value of Class Object is: 20

Here you can clearly see the difference between call by value and call by reference.

share|improve this answer
    
@Brad Thanks for the editing.... –  Arijit Mukherjee Jun 2 at 12:04

Structs are the actual value - they can be empty but never null

This is true, however also note that as of .NET 2 structs support a Nullable version and C# supplies some syntactic sugar to make it easier to use.

int? value = null;
value  = 1;
share|improve this answer
1  
Be aware that this is only syntactic sugar which reads 'Nullable<int> value = null;' –  Erik van Brakel Oct 4 '08 at 22:32
    
@ErikvanBrakel That's not just syntactic sugar. The different boxing rules mean (object)(default(int?)) == null which you can't do with any other value type, because there's more than just sugar going on here. The only sugar is int? for Nullable<int>. –  Jon Hanna Dec 16 '13 at 21:11

Structure vs Class Structure is value type so stored in stack,but class is reference type stored in heap. Structure doesn't support inheritance,polymorphism but,class supports both. By default all the struct members are public but class members are by default private in nature. As structure is value type,we can't assign null to struct object,but it is not the case in class.

share|improve this answer

Remember the answer, as 99% of interviews I've had use it! Here's two more explanations to add the list:

share|improve this answer
    
Yeah, it's one I always ask. –  Keith Oct 7 '08 at 12:29
    
That would be understand the answer, not remember it, right? –  Groo Nov 6 '09 at 8:08
3  
No, remember some text book answer that makes it sound like you work for the CLR team instead of understanding that 90% of the time you won't care blogs.msdn.com/ericlippert/archive/2009/05/04/… –  Chris S Nov 6 '09 at 10:14
    
@Groo To clarify my old comment - of course understand it but (depending on the job) a lot of the time you will never need to create your own structs. –  Chris S Sep 23 '11 at 10:11
    
@ChrisS - That comment was PERFECT!! Reminds me of when the question is asked: "What's the difference between covariance and contravariance" Go with the text book definition that makes it sound like you work next to Eric Lippert on the CLR team. Classic! –  atconway Apr 30 '13 at 15:22

Yeah @dp, I thought that might be a little off topic, but it makes sense to mention that here.

You can also check with ??, so:

int? i = SomeFunctionThatMightGetAnInt();

//if i is null write 0, otherwise write i
Console.Write( i ?? 0 );
share|improve this answer

1.Events declared in a class have their += and -= access automatically locked via a lock(this) to make them thread safe (static events are locked on the typeof the class). Events declared in a struct do not have their += and -= access automatically locked. A lock(this) for a struct would not work since you can only lock on a reference type expression.

2.Creating a struct instance cannot cause a garbage collection (unless the constructor directly or indirectly creates a reference type instance) whereas creating a reference type instance can cause garbage collection.

3.A struct always has a built-in public default constructor.

class DefaultConstructor
{
    static void Eg()
    {
          Direct   yes = new   Direct(); // always compiles ok
        InDirect maybe = new InDirect(); // compiles if c'tor exists and is accessible
        //...
    }
}

This means that a struct is always instantiable whereas a class might not be since all its constructors could be private.

class NonInstantiable
{
    private NonInstantiable() // ok
    {
    }
}

struct Direct
{
    private Direct() // compile-time error
    {
    }
}

4.A struct cannot have a destructor. A destructor is just an override of object.Finalize in disguise, and structs, being value types, are not subject to garabge collection.

struct Direct
{
    ~Direct() {} // compile-time error
}
class InDirect
{
    ~InDirect() {} // compiles ok
}

And the CIL for ~Indirect() looks like this:

.method family hidebysig virtual instance void 
        Finalize() cil managed
{
  // ...
} // end of method Indirect::Finalize
  1. a struct is implicitly sealed, a class isn't. a struct can't be abstract, a class can. a struct can't call : base() in its constructor whereas a class with no explicit base class can. a struct can't extend another class, a class can. a struct can't declare protected members (eg fields, nested types) a class can. a struct can't declare abstract function members, an abstract class can. a struct can't declare virtual function members, a class can. a struct can't declare sealed function members, a class can. a struct can't declare override function members, a class can. The one exception to this rule is that a struct can override the virtual methods of System.Object, viz, Equals(), and GetHashCode(), and ToString().
share|improve this answer
    
In what circumstances would one use an event with a struct? I can imagine that a very carefully-written program could use events with a struct in a way that would work, but only if the struct was never copied or passed by value, in which case it might as well be a class. –  supercat Dec 6 '11 at 16:08
    
@supercat Yeah, a non-static event in a struct would be very strange, and it will be useful only for mutable structs, and the event itself (if it is a "field-like" event) turns the struct into the "mutable" category and also introduces a field of reference type in the struct. Non-static events in structs must be evil. –  Jeppe Stig Nielsen Mar 15 at 22:05
    
@JeppeStigNielsen: The only pattern I could see where it would make sense for a struct to have an event would be if the purpose of the struct was to hold an immutable reference to a class object for which it behaved as a proxy. Auto-events would be totally useless in such a scenario, though; instead, subscribe and unsubscribe events would have to be relayed to the class behind the structure. I wish .NET had (or would make it possible to define) a 'cache-box" structure type with an initially-null hidden field of type Object, which would hold a reference to a boxed copy of the struct. –  supercat Mar 15 at 22:18
    
@JeppeStigNielsen: Structs outperform classes in many proxy usage scenarios; the biggest problem with using structs is that in cases where boxing ends up being necessary, it often ends up getting deferred to an inner loop. If there were a way to avoid having structures get boxed repeatedly, they would be better than classes in many more usage scenarios. –  supercat Mar 15 at 22:23

Every variable or field of a primitive value type or structure type holds a unique instance of that type, including all its fields (public and private). By contrast, variables or fields of reference types may hold null, or may refer to an object, stored elsewhere, to which any number of other references may also exist. The fields of a struct will be stored in the same place as the variable or field of that structure type, which may be either on the stack or may be part of another heap object.

Creating a variable or field of a primitive value type will create it with a default value; creating a variable or field of a structure type will create a new instance, creating all fields therein in the default manner. Creating a new instance of a reference type will start by create all fields therein in the default manner, and then running optional additional code depending upon the type.

Copying one variable or field of a primitive type to another will copy the value. Copying one variable or field of structure type to another will copy all the fields (public and private) of the former instance to the latter instance. Copying one variable or field of reference type to another will cause the latter to refer to the same instance as the former (if any).

It's important to note that in some languages like C++, the semantic behavior of a type is independent of how it is stored, but that isn't true of .net. If a type implements mutable value semantics, copying one variable of that type to another copies the properties of the first to another instance, referred to by the second, and using a member of the second to mutate it will cause that second instance to be changed but not the first. If a type implements mutable reference semantics, copying one variable to another and using a member of the second to mutate the object will affect the object referred to by the first variable; types with immutable semantics do not allow mutation, so it doesn't matter semantically whether copying creates a new instance or creates another reference to the first.

In .net, it is possible for value types to implement any of the above semantics, provided that all of their fields can do likewise. Reference type, however, can only implement mutable reference semantics or immutable semantics; value types with fields of mutable reference types are limited to either implementing mutable reference semantics or weird hybrid semantics.

share|improve this answer

protected by Community Jun 9 at 19:58

Thank you for your interest in this question. Because it has attracted low-quality answers, posting an answer now requires 10 reputation on this site.

Would you like to answer one of these unanswered questions instead?

Not the answer you're looking for? Browse other questions tagged or ask your own question.