Bits & Bytes

Posts Tagged ‘delegate’

Creating Multicast Delegates in C#

As stated in my prior post on C# delegates, a C# delegate is similar to a function pointer in C++. There, I gave a couple of examples of how to use delegates and said that I would cover multicast delagates later.

So, what is a multicast delegate? A multicast delegate is a function pointer that can be set to point to multiple functions at the same time. It calls each of them in order when it is called. Since a function can only return one value, multicast delegates must return a void type; that is, they must not have a return type.

The program below demonstrates how to use a multicast delegate. First, the delegate type DPrintMultipleOfNumber is declared. Then, inside the Main() function, we declare an instance of the delegate called pfnMulticast and initialize it with function OneTimes() that is defined below the Main() function. The next two lines add the functions TwoTimes() and ThreeTimes() to it via the =+ operator. Finally, we call all three of the functions via the delegate with the argument 13.

The output of the program looks like this:

UsingMulticast

Program.cs

using System;

namespace UsingMulticastDelegates {
    class Program {

        delegate void DPrintMultipleOfNumber(double dX);

        static void Main(string[] args) {
            DPrintMultipleOfNumber pfnMulticast = OneTimes;
            pfnMulticast += TwoTimes;
            pfnMulticast += ThreeTimes;
            pfnMulticast(13);
        }

        static void OneTimes(double dX) {
            Console.WriteLine("One times {0} is {1}", dX, dX);
        }

        static void TwoTimes(double dX) {
            Console.WriteLine("Two times {0} is {1}", dX, 2.0*dX);
        }

        static void ThreeTimes(double dX) {
            Console.WriteLine("Three times {0} is {1}", dX, 3.0*dX);
        }
    }
}

Using C# Delegates to Call Static and Instance Functions

A delegate allows a programmer to abstract functions as variable values in the same way that he abstracts other data, such as integers and doubles, as variable values. Simply put, a delegate is a variable type that defines a specific type of function. An instance of the delegate can hold a reference to any function of that type.

Basic Steps for Using Delegates

  1. Declare a delegate type
  2. Create an instance of the type
  3. Assign that instance to a function
  4. Call the function via the delegate

The essential steps for using a delegate are listed above and demonstrated in the program below. The program consists of two files: Program.cs and CMyDelegateTester.cs–the additional class file is only needed for the second example.

For the first example, we can layout the steps very easily. First, we have the delegate declaration just above the Main() function, which designates our delegate type, DDoSomething. Next, we have the instantiation, pfnFunction, of the delegate type right after the first comment inside the Main() function. This instance is assigned to the static Square() function in the same line. Finally, we call the Square() function via the delegate in the next line with the value 3.0 and output the result.

In the second example, we do the same thing with an instance function of the CMyDelegateTester class. Notice that we need to instantiate the class and that we assign the function, along with its object, to the delegate. This is important because the delegate is attached to and will depend on the object in this case.

Executing the program, we see the output for each function call:

UsingDelegates

Program.cs

using System;

namespace UsingDelegates {
    class Program {

        delegate double DDoSomething(double dX);

        static void Main(string[] args) {

            // 1. An example using a static function
            DDoSomething pfnFunction = Square;
            Console.WriteLine("The static function returned " + pfnFunction(3.0));

            // 2. An example using a member function
            CMyDelegateTester qTesterObject = new CMyDelegateTester();
            DDoSomething mpfnMemberFunction = qTesterObject.MultiplyByTen;
            Console.WriteLine("The member function returned " + mpfnMemberFunction(3.0));
        }

        static double Square(double dX) {
            return dX * dX;
        }
    }
}

CMyDelegateTester.cs

namespace UsingDelegates {
    public class CMyDelegateTester {

        public CMyDelegateTester() {
        }

        public double MultiplyByTen(double dX) {
            return 10.0 * dX;
        }
    }
}

C# Delegates Versus C++ Function Pointers

A C# delegate is similar to a C++ function pointer. However, there are some subtle differences:

  1. C# delegates require the creation of a new data type. In fact, a delegate declaration is equivalent to a C++ typedef declaration of a function pointer type. While C++ does not require a new type definition to use function pointers, it is good practice.
  2. Like C++ function pointers, C# delegate types are detemined by the arguments and the return value. However, C++ distinguishes between static and instance functions and does not allow them to be used interchangeably as C# does. This is demonstrated in the C# code above.
  3. A C# delegate with a return type of void may be multicast to call multiple functions with one call. This is odd, but it is used with events and listeners, and will be illustrated in a future C# post.
 

© 2007–2024 XoaX.net LLC. All rights reserved.