This browser is no longer supported.
Upgrade to Microsoft Edge to take advantage of the latest features, security updates, and technical support.
Download Microsoft Edge
More info about Internet Explorer and Microsoft Edge
generic <typename T, typename TResult>
public delegate TResult Func(T arg);
public delegate TResult Func<in T,out TResult>(T arg);
public delegate TResult Func<T,TResult>(T arg);
type Func<'T, 'Result> = delegate of 'T -> 'Result
Public Delegate Function Func(Of In T, Out TResult)(arg As T) As TResult
Public Delegate Function Func(Of T, TResult)(arg As T) As TResult
Type Parameters
This type parameter is covariant. That is, you can use either the type you specified or any type that is more derived. For more information about covariance and contravariance, see
Covariance and Contravariance in Generics
.
Parameters
Examples
The following example demonstrates how to declare and use a
Func<T,TResult>
delegate. This example declares a
Func<T,TResult>
variable and assigns it a lambda expression that converts the characters in a string to uppercase. The delegate that encapsulates this method is subsequently passed to the
Enumerable.Select
method to change the strings in an array of strings to uppercase.
// Declare a Func variable and assign a lambda expression to the
// variable. The method takes a string and converts it to uppercase.
Func<string, string> selector = str => str.ToUpper();
// Create an array of strings.
string[] words = { "orange", "apple", "Article", "elephant" };
// Query the array and select strings according to the selector method.
IEnumerable<String> aWords = words.Select(selector);
// Output the results to the console.
foreach (String word in aWords)
Console.WriteLine(word);
This code example produces the following output:
ORANGE
APPLE
ARTICLE
ELEPHANT
open System
open System.Linq
// Declare a Func variable and assign a lambda expression to the
// variable. The function takes a string and converts it to uppercase.
let selector = Func<string, string>(fun str -> str.ToUpper())
// Create a list of strings.
let words = [ "orange"; "apple"; "Article"; "elephant" ]
// Query the list and select strings according to the selector function.
let aWords = words.Select selector
// Output the results to the console.
for word in aWords do
printfn $"{word}"
// This code example produces the following output:
// ORANGE
// APPLE
// ARTICLE
// ELEPHANT
Imports System.Collections.Generic
Imports System.Linq
Module Func
Public Sub Main()
' Declare a Func variable and assign a lambda expression to the
' variable. The method takes a string and converts it to uppercase.
Dim selector As Func(Of String, String) = Function(str) str.ToUpper()
' Create an array of strings.
Dim words() As String = { "orange", "apple", "Article", "elephant" }
' Query the array and select strings according to the selector method.
Dim aWords As IEnumerable(Of String) = words.Select(selector)
' Output the results to the console.
For Each word As String In aWords
Console.WriteLine(word)
End Sub
End Module
' This code example produces the following output:
' ORANGE
' APPLE
' ARTICLE
' ELEPHANT
// Declare a delegate
delegate String ^ MyDel(String ^);
// Create wrapper class and function that takes in a string and converts it to uppercase
ref class DelegateWrapper {
public:
String ^ ToUpper(String ^ s) {
return s->ToUpper();
int main() {
// Declare delegate
DelegateWrapper ^ delegateWrapper = gcnew DelegateWrapper;
MyDel ^ DelInst = gcnew MyDel(delegateWrapper, &DelegateWrapper::ToUpper);
// Cast into Func
Func<String ^, String ^> ^ selector = reinterpret_cast<Func<String ^, String ^> ^>(DelInst);
// Create an array of strings
array<String ^> ^ words = { "orange", "apple", "Article", "elephant" };
// Query the array and select strings according to the selector method
Generic::IEnumerable<String ^> ^ aWords = Enumerable::Select((Generic::IEnumerable<String^>^)words, selector);
// Output the results to the console
for each(String ^ word in aWords)
Console::WriteLine(word);
This code example produces the following output:
ORANGE
APPLE
ARTICLE
ELEPHANT
You can use this delegate to represent a method that can be passed as a parameter without explicitly declaring a custom delegate. The encapsulated method must correspond to the method signature that is defined by this delegate. This means that the encapsulated method must have one parameter that is passed to it by value, and that it must return a value.
To reference a method that has one parameter and returns
void
(or in Visual Basic, that is declared as a
Sub
rather than as a
Function
), use the generic
Action<T>
delegate instead.
When you use the
Func<T,TResult>
delegate, you do not have to explicitly define a delegate that encapsulates a method with a single parameter. For example, the following code explicitly declares a delegate named
ConvertMethod
and assigns a reference to the
UppercaseString
method to its delegate instance.
using System;
delegate string ConvertMethod(string inString);
public class DelegateExample
public static void Main()
// Instantiate delegate to reference UppercaseString method
ConvertMethod convertMeth = UppercaseString;
string name = "Dakota";
// Use delegate instance to call UppercaseString method
Console.WriteLine(convertMeth(name));
private static string UppercaseString(string inputString)
return inputString.ToUpper();
type ConvertMethod = delegate of string -> string
let uppercaseString (inputString: string) =
inputString.ToUpper()
// Instantiate delegate to reference uppercaseString function
let convertMeth = ConvertMethod uppercaseString
let name = "Dakota"
// Use delegate instance to call uppercaseString function
printfn $"{convertMeth.Invoke name}"
' Declare a delegate to represent string conversion method
Delegate Function ConvertMethod(ByVal inString As String) As String
Module DelegateExample
Public Sub Main()
' Instantiate delegate to reference UppercaseString method
Dim convertMeth As ConvertMethod = AddressOf UppercaseString
Dim name As String = "Dakota"
' Use delegate instance to call UppercaseString method
Console.WriteLine(convertMeth(name))
End Sub
Private Function UppercaseString(inputString As String) As String
Return inputString.ToUpper()
End Function
End Module
The following example simplifies this code by instantiating the
Func<T,TResult>
delegate instead of explicitly defining a new delegate and assigning a named method to it.
// Instantiate delegate to reference UppercaseString method
Func<string, string> convertMethod = UppercaseString;
string name = "Dakota";
// Use delegate instance to call UppercaseString method
Console.WriteLine(convertMethod(name));
string UppercaseString(string inputString)
return inputString.ToUpper();
// This code example produces the following output:
// DAKOTA
open System
let uppercaseString (inputString: string) =
inputString.ToUpper()
// Instantiate delegate to reference uppercaseString function
let convertMethod = Func<string, string> uppercaseString
let name = "Dakota"
// Use delegate instance to call uppercaseString function
printfn $"{convertMethod.Invoke name}"
// This code example produces the following output:
// DAKOTA
Module GenericFunc
Public Sub Main()
' Instantiate delegate to reference UppercaseString method
Dim convertMethod As Func(Of String, String) = AddressOf UppercaseString
Dim name As String = "Dakota"
' Use delegate instance to call UppercaseString method
Console.WriteLine(convertMethod(name))
End Sub
Private Function UppercaseString(inputString As String) As String
Return inputString.ToUpper()
End Function
End Module
You can also use the
Func<T,TResult>
delegate with anonymous methods in C#, as the following example illustrates. (For an introduction to anonymous methods, see
Anonymous Methods
.)
Func<string, string> convert = delegate(string s)
{ return s.ToUpper();};
string name = "Dakota";
Console.WriteLine(convert(name));
// This code example produces the following output:
// DAKOTA
You can also assign a lambda expression to a
Func<T,TResult>
delegate, as the following example illustrates. (For an introduction to lambda expressions, see
Lambda Expressions (VB)
,
Lambda Expressions (C#)
and
Lambda Expressions (F#)
.)
Func<string, string> convert = s => s.ToUpper();
string name = "Dakota";
Console.WriteLine(convert(name));
// This code example produces the following output:
// DAKOTA
open System
let convert = Func<string, string>(fun s -> s.ToUpper())
let name = "Dakota"
printfn $"{convert.Invoke name}"
// This code example produces the following output:
// DAKOTA
Module LambdaExpression
Public Sub Main()
Dim convert As Func(Of String, String) = Function(s) s.ToUpper()
Dim name As String = "Dakota"
Console.WriteLine(convert(name))
End Sub
End Module
The underlying type of a lambda expression is one of the generic
Func
delegates. This makes it possible to pass a lambda expression as a parameter without explicitly assigning it to a delegate. In particular, because many methods of types in the
System.Linq
namespace have
Func<T,TResult>
parameters, you can pass these methods a lambda expression without explicitly instantiating a
Func<T,TResult>
delegate.
Extension Methods
Lambda Expressions (C# Programming Guide)
Lambda Expressions: The fun Keyword (F#)
Lambda Expressions (Visual Basic)
Delegates (C# Programming Guide)
Delegates (F#)
Delegates (Visual Basic)
