Type-testing and conversion operators (C# reference)

You can use the following operators to perform type checking or type conversion:

• is operator: to check if the runtime type of an expression is compatible with a given type
• as operator: to explicitly convert an expression to a given type if its runtime type is compatible with that type
• cast operator (): to perform an explicit conversion
• typeof operator: to obtain the System.Type instance for a type

is operator

The is operator checks if the runtime type of an expression result is compatible with a given type. Starting with C# 7.0, the is operator also tests an expression result against a pattern.

The expression with the type-testing is operator has the following form

E is T


where E is an expression that returns a value and T is the name of a type or a type parameter. E cannot be an anonymous method or a lambda expression.

The E is T expression returns true if the result of E is non-null and can be converted to type T by a reference conversion, a boxing conversion, or an unboxing conversion; otherwise, it returns false. The is operator doesn't consider user-defined conversions.

The following example demonstrates that the is operator returns true if the runtime type of an expression result derives from a given type, that is, there exists a reference conversion between types:

public class Base { }

public class Derived : Base { }

public static class IsOperatorExample
{
public static void Main()
{
object b = new Base();
Console.WriteLine(b is Base);  // output: True
Console.WriteLine(b is Derived);  // output: False

object d = new Derived();
Console.WriteLine(d is Base);  // output: True
Console.WriteLine(d is Derived); // output: True
}
}


The next example shows that the is operator takes into account boxing and unboxing conversions but doesn't consider numeric conversions:

int i = 27;
Console.WriteLine(i is System.IFormattable);  // output: True

object iBoxed = i;
Console.WriteLine(iBoxed is int);  // output: True
Console.WriteLine(iBoxed is long);  // output: False


For information about C# conversions, see the Conversions chapter of the C# language specification.

Type testing with pattern matching

Starting with C# 7.0, the is operator also tests an expression result against a pattern. In particular, it supports the type pattern in the following form:

E is T v


where E is an expression that returns a value, T is the name of a type or a type parameter, and v is a new local variable of type T. If the result of E is non-null and can be converted to T by a reference, boxing, or unboxing conversion, the E is T v expression returns true and the converted value of the result of E is assigned to variable v.

The following example demonstrates the usage of the is operator with the type pattern:

int i = 23;
object iBoxed = i;
int? jNullable = 7;
if (iBoxed is int a && jNullable is int b)
{
Console.WriteLine(a + b);  // output 30
}


as operator

The as operator explicitly converts the result of an expression to a given reference or nullable value type. If the conversion is not possible, the as operator returns null. Unlike the cast operator (), the as operator never throws an exception.

The expression of the form

E as T


where E is an expression that returns a value and T is the name of a type or a type parameter, produces the same result as

E is T ? (T)(E) : (T)null


except that E is only evaluated once.

The as operator considers only reference, nullable, boxing, and unboxing conversions. You cannot use the as operator to perform a user-defined conversion. To do that, use the cast operator ().

The following example demonstrates the usage of the as operator:

IEnumerable<int> numbers = new[] { 10, 20, 30 };
IList<int> indexable = numbers as IList<int>;
if (indexable != null)
{
Console.WriteLine(indexable[0] + indexable[indexable.Count - 1]);  // output: 40
}


Note

As the preceding example shows, you need to compare the result of the as expression with null to check if the conversion is successful. Starting with C# 7.0, you can use the is operator both to test if the conversion succeeds and, if it succeeds, assign its result to a new variable.

Cast operator ()

A cast expression of the form (T)E performs an explicit conversion of the result of expression E to type T. If no explicit conversion exists from the type of E to type T, a compile-time error occurs. At run time, an explicit conversion might not succeed and a cast expression might throw an exception.

The following example demonstrates explicit numeric and reference conversions:

double x = 1234.7;
int a = (int)x;
Console.WriteLine(a);   // output: 1234

IEnumerable<int> numbers = new int[] { 10, 20, 30 };
IList<int> list = (IList<int>)numbers;
Console.WriteLine(list.Count);  // output: 3
Console.WriteLine(list[1]);  // output: 20


For information about supported explicit conversions, see the Explicit conversions section of the C# language specification. For information about how to define a custom explicit or implicit type conversion, see User-defined conversion operators.

Other usages of ()

You also use parentheses to call a method or invoke a delegate.

Other use of parentheses is to specify the order in which to evaluate operations in an expression. For more information, see the Adding parentheses section of the Operators article. For the list of operators ordered by precedence level, see C# operators.

typeof operator

The typeof operator obtains the System.Type instance for a type. An argument of the typeof operator must be the name of a type or a type parameter, as the following example shows:

void PrintType<T>() => Console.WriteLine(typeof(T));

Console.WriteLine(typeof(List<string>));
PrintType<int>();
PrintType<System.Int32>();
PrintType<Dictionary<int, char>>();
// Output:
// System.Collections.Generic.List1[System.String]
// System.Int32
// System.Int32
// System.Collections.Generic.Dictionary2[System.Int32,System.Char]


You also can use the typeof operator with unbound generic types. The name of an unbound generic type must contain the appropriate number of commas, which is one less than the number of type parameters. The following example shows the usage of the typeof operator with an unbound generic type:

Console.WriteLine(typeof(Dictionary<,>));
// Output:
// System.Collections.Generic.Dictionary2[TKey,TValue]


An expression cannot be an argument of the typeof operator. To get the System.Type instance for the runtime type of the expression result, use the Object.GetType method.

Type testing with the typeof operator

Use the typeof operator to check if the runtime type of the expression result exactly matches a given type. The following example demonstrates the difference between type checking performed with the typeof operator and the is operator:

public class Animal { }

public class Giraffe : Animal { }

public static class TypeOfExample
{
public static void Main()
{
object b = new Giraffe();
Console.WriteLine(b is Animal);  // output: True
Console.WriteLine(b.GetType() == typeof(Animal));  // output: False

Console.WriteLine(b is Giraffe);  // output: True
Console.WriteLine(b.GetType() == typeof(Giraffe));  // output: True
}
}


The is, as, and typeof operators are not overloadable.
A user-defined type cannot overload the ()` operator, but can define custom type conversions that can be performed by a cast expression. For more information, see User-defined conversion operators.