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Use of var keyword in C#

In C#, how does keyword "var" work?

marked as duplicate by Matthew Jones, Rex M, Fredrik Mörk, Henk Holterman, John Hartsock Dec 1 '10 at 1:45

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up vote 139 down vote accepted

It means that the type of the local being declared will be inferred by the compiler:

// This statement:
var foo = "bar";
// Is equivalent to this statement:
string foo = "bar";

Notably, var does not define a variable to be of a dynamic type. So this is NOT legal:

var foo = "bar";
foo = 1; // Compiler error, the foo variable holds strings, not ints

var has only two uses:

  1. It requires less typing to declare variables, especially when declaring a variable as a nested generic type.
  2. It must be used when storing a reference to an object of an anonymous type, because the type name cannot be known in advance: var foo = new { Bar = "bar" };

You cannot use var as the type of anything but locals. So you can't use the keyword var to declare field/property/parameter/return types.

  • 2
    This is a good example of what answers need to be like on Stack Exchange. Sometimes people omit important information and/or fail to be short and to the point. – Panzercrisis Apr 12 '16 at 14:03
  • @cdhowie What if while saying, var foo = new Foo(), foo could be of type Foo or any of its super classes. How can that be any legal? – John Strood Aug 21 '16 at 17:26
  • 2
    @Djack It's not legal, and that's not the case. var foo = new Foo(); is the same thing as Foo foo = new Foo();, which means that foo can contain a Foo reference, or a reference to an object any Foo subtype, not a Foo supertype. – cdhowie Aug 21 '16 at 21:13

It means the data type is derived (implied) from the context.

From http://msdn.microsoft.com/en-us/library/bb383973.aspx

Beginning in Visual C# 3.0, variables that are declared at method scope can have an implicit type var. An implicitly typed local variable is strongly typed just as if you had declared the type yourself, but the compiler determines the type. The following two declarations of i are functionally equivalent:

var i = 10; // implicitly typed
int i = 10; //explicitly typed

var is useful for eliminating keyboard typing and visual noise, e.g.,

MyReallyReallyLongClassName x = new MyReallyReallyLongClassName();

becomes

var x = new MyReallyReallyLongClassName();

but can be overused to the point where readability is sacrificed.

"var" means the compiler will determine the explicit type of the variable, based on usage. For example,

var myVar = new Connection();

would give you a variable of type Connection.

Did you ever hated to write such variable initializers?

XmlSerializer xmlSerializer = new XmlSerialzer(typeof(int))

So, starting with C# 3.0, you can replace it with

var xmlSerializer = new XmlSerialzer(typeof(int))

One notice: Type is resolved during compilation, so no problems with performance. But Compiler should be able to detect type during build step, so code like var xmlSerializer; won't compile at all.

It declares a type based on what is assigned to it in the initialisation.

A simple example is that the code:

var i = 53;

Will examine the type of 53, and essentially rewrite this as:

int i = 53;

Note that while we can have:

long i = 53;

This won't happen with var. Though it can with:

var i = 53l; // i is now a long

Similarly:

var i = null; // not allowed as type can't be inferred.
var j = (string) null; // allowed as the expression (string) null has both type and value.

This can be a minor convenience with complicated types. It is more important with anonymous types:

var i = from x in SomeSource where x.Name.Length > 3 select new {x.ID, x.Name};
foreach(var j in i)
  Console.WriteLine(j.ID.ToString() + ":" + j.Name);

Here there is no other way of defining i and j than using var as there is no name for the types that they hold.

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