While learning C#, this question came to my mind. What is the difference between void and var? Here are the two example I would like to share:

void * voidInt = (void *) 7;
void * voidChar = (void *) 'F';
void * voidCharArray = (void *) "AbcString";

And this is example of var:

var varInt = 7;
var varChar = 'F';
var varCharArray = "AbcString";
  • Is void an anonymous datatype?
  • If yes, then what is the major difference between var and void?

Can someone help me clear this situation?

  • 4
    var is purely syntactic sugar.. Complier tries its best to infer the strong type implicitly. It is as if, you had specified the specific type in source code.. but were lazy to type it yourself. Try setting var x = null; and see the difference. – Vikas Gupta Jan 1 '15 at 6:55
  • 1
    @VikasGupta it gave error: Error Cannot assign <null> to an implicitly-typed local variable – FaizanHussainRabbani Jan 1 '15 at 7:11
  • 4
    @FaizanRabbani Exactly.. :) the key part here is "implicitly-typed local variable" you could assign null to void pointer, but the same is not true for var.. because var is completely different.. Enough has been said below in answer and other comments.. so I'll skip the rest – Vikas Gupta Jan 1 '15 at 8:17
  • 11
    Note: C# supports pointers, including void* pointers - in an unsafe block. Ultimately, the C# equivalent of void* is: void* – Marc Gravell Jan 1 '15 at 9:33
  • 5
    There is a very close analogy to C#'s var foo = some_expression; in C++11/14, and that's auto foo = some_expression;. In both cases, the variable foo is strongly typed, but that type is automatically inferred at compile time from the type of some_expression (which might well be an expression). – David Hammen Jan 1 '15 at 18:56

The other answers here are pretty good but I think they do not get clearly to the fundamentals. It is the fundamentals you are confused about, so let's address those.

  • A variable is a storage location that contains a value.
  • A variable is associated with a type.
  • A local variable has a name.

So voidInt, voidChar, voidCharArray, varInt, varChar and varCharArray are all variables, and they all have types associated with them. Each variable can be assigned a value of that type or produce a value of that type, depending on whether the variable is being written to or read from.

OK, so now what are pointers?

  • A type has a corresponding pointer type. (Note that in unsafe C# only the unmanaged types have corresponding pointer types.)
  • The void * type is a special pointer type.
  • A pointer is a value.
  • A pointer of type T* may be dereferenced to produce a variable of type T. T* must not be void*.
  • A pointer may be explicitly converted to or from any integral type, though these operations are permitted to lose information and are dependent on implementation details.
  • Any pointer value may be implicitly converted to void*.
  • Any void* value may be explicitly converted to any pointer type value.

And what is var in C#?

  • var is a "syntactic sugar" that tells the compiler to deduce the type of the variable from the initialzier rather than requiring that it be written out.

And what are "anonymous types" in C#?

  • Some expressions in C# have a type that is not declared and has no name; these are known as the "anonymous" types.

So now we can look at your program and see what each line does.

void * voidInt = (void *) 7;

voidInt is a variable of type void*. The value assigned to it is the conversion of the integer 7 to a pointer, which is almost certainly a garbage pointer on any modern operating system. This code is essentially nonsensical.

More sensible code would be:

int myInt = 7;
int* intPtr = &myInt;
void* voidInt = intPtr;

This means that myInt is a variable which holds the value 7, intPtr is a variable which holds a pointer; when that pointer is dereferenced it produces variable myInt. voidInt is a variable which holds any pointer, and the value read from intPtr is a pointer. So now voidInt and intPtr both hold a pointer to variable myInt.

void * voidChar = (void *) 'F';

Same thing here. The character F is treated as a number and converted to a pointer value, which is stored in the variable. This is not sensible. Sensible code would be something like:

char myChar = 'F';
void *voidChar = &myChar;

But this makes perfect sense:

void * voidCharArray = (void *) "AbcString";

A string literal in C++ is convertible to a char* which is a pointer to the storage for the first character, and that pointer is convertible to void*.

What about this?

var varInt = 7;
var varChar = 'F';
var varCharArray = "AbcString";

This is just a pleasant way to write

int varInt = 7;
char varChar = 'F';
string varCharArray = "AbcString";

Each variable has its given type, and each assignment stores a value of that type in the variable.

What about anonymous types?

var anon = new { X = 123, Y = 456 };

This makes a variable of anonymous type, where the anonymous type has two properties X and Y both of type int. The type has no name, so there is no way to write out the type in the declaration, hence var must be used.

The key thing here is to make sure that you have a grasp of the fundamentals: pointers are values, they may be dereferenced, and doing so produces a variable. Since pointers are values they may themselves be stored in variables of pointer type. This has almost nothing to do with var, which is a pleasant way in C# to make the compiler do the work of figuring out what type a variable should have.

  • 1
    This is something really good. Awesome @Eric. I think I'll have to change the correct answer. – FaizanHussainRabbani Jan 1 '15 at 17:46

void and var do not really have anything in common:

  • void (as used by pointer variables in C and C++) means an unspecified (not a definite) type. void* aren't permitted* in managed C# (although a very weak type, such as an object reference might be a close approximation). Generally, void* types need to be re-cast in order to be useful.

  • However void return types from a method / function mean the same in both languages, which is to convey that there is no return value (like Unit in Scala)

  • In contrast, var in C# defines an implicitly typed variable - the variable still has a strong type, but the actual type is inferred from the right hand side at compile time.


var v1 = "Foo"; // v1 is a string, because it is inferred from the right hand side
var v2 = XDocument.Parse(@"c:\temp\foo.xml"); // v2 is the return type of the function

var is often required when using anonymous types - this is probably where you've made the connection between var and anonymous types:

var v3 = new { Name = "Foo", Value = 123};  // v3 is strongly typed, anonymous class.

var is especially useful for assigning variables to the return values of LINQ expressions, where the types can be quite complex:

var v3 = db.Persons
      .Join(db.Cities, p => p.CityId, c => c.Id, (p, c) => new {Person = p, City = c})
      .GroupBy(pc => pc.City.Name);

* Actually, that's not entirely true, you can use void* in C# with unsafe


One further thing worth mentioning, that as of C#6, that implicit var typing can only be used for local variables, i.e. C# doesn't support implicit typing of method return types (unlike functional languages like Scala, where the compiler in most instances can also infer the return type of a method).

  • 10
    no it is not anonymous datatype , it is of type what the type will be returned from the right hand side of = . For Example, var i = 1; , now i is of type int – Ehsan Sajjad Jan 1 '15 at 6:59
  • 6
    this is anonymous type : new { Amount = 108, Message = "Hello" } but var will inherit whatever the type on right hand side , and yes in this case it is anonymous type but not every time it is anonymous – Ehsan Sajjad Jan 1 '15 at 7:00
  • 6
    @FaizanRabbani: var in C# is more synonymous to auto in C++. In both cases, the programmer does not need to specify what the exact type is, it is inferred by using the type of the value that is assigned to it. It doesn't mean it is anonymous. – Jeff Mercado Jan 1 '15 at 7:24
  • 2
    @FaizanRabbani: auto is a C++11 feature... you need to use a compiler that supports it and have it enabled. – Jeff Mercado Jan 1 '15 at 7:35
  • 1
    @FaizanRabbani C# is not just static typed, either; see dynamic ;p – Marc Gravell Jan 1 '15 at 9:31
  • In an unsafe context, the equivalent of C++ void* in C# is void*. Any data pointer type can be assigned to a void*.
  • In a safe context, object is (loosely) the corresponding concept. Any class/interface/struct instance can be assigned to it.
  • The equivalent of C# var in C++ is auto. When used to declare and initialize a local variable, it acts as the type of the expression assigned to that variable, if that is possible.
  • 1
    And to be clear, primitive types such as int are structs too in C#, so they too can be assigned to variables of type object. – user743382 Jan 1 '15 at 12:07
  • 1
    minor nitpick... but function pointers cannot be (safely) assigned to void* that's undefined behavior. That said POSIX requires it so as a consequence most compilers support it, albeit with a warning if you have turned those up. – Mgetz Jan 1 '15 at 14:50

You can do this with c++ void pointer:

void * val = (void *) 7;
val = (void *) "Abcd";

But you cannot do this with c# var:

var val = 7;
val = "abcd";

This will throw an error.


If you want to achieve similar behavior of void * you can use dynamic.

dynamic val = (dynamic) 7;
val = (dynamic) "ABC";

When var is used, the actual type of the variable is determined at compile time. But, when dynamic is used, the actual type of the variable is determined at run time.

  • Okay, yes it will. But what is anonymous datatype then? – FaizanHussainRabbani Jan 1 '15 at 7:12
  • You can do that with a C# void* pointer, though ;p – Marc Gravell Jan 1 '15 at 9:32
  • @FaizanRabbani that just means a type that the compiler has created in the background for you that you cannot explicitly refer to by name (it is unpronounceable); here you must use one of var, object or dynamic, because you don't have any other options: you can't use the actual name because you don't know it. For example: var foo = new { Id = 123, Name = "abc" }; – Marc Gravell Jan 1 '15 at 9:34
  • but that would be unsafe – th1rdey3 Jan 1 '15 at 9:35

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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