Introduction
Delegate is a very powerful feature available in the .NET Framework. In this article, we will explore delegate & its new features which are being introduced in the framework. I will be using Visual Studio 2013 for coding sample code, assuming that you do have basic knowledge of .NET C# code.
I will be explaining the following flavors in this articles:
Func
Action
Predicate
Converter
Comparison
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Background
As part of the Interview panel, I have been asked to interview a lot of candidates for the job opening we had. At the time of interview, when questions were asked about delegates & their features, very few candidates were able to answer this question. Even one of my team members was surprised when I optimized his code & started using action delegate. Hence, I decided to write this article which shares some details on delegates & some of its features.
What are Delegates?
If I can put it in simple words, Delegate is a pointer to a method. Delegate can be passed as a parameter to a method. We can change the method implementation dynamically at run-time, the only thing we need to follow doing so would be to maintain the parameter type & return type.
For example: If I declare delegate with return type int
& two parameters as string
and int
respectively, all the references which are set using this delegate should follow this signature.
internal class Program
{
protected delegate int tempFunctionPointer(string strParameter, int intParamater);
public static void Main()
{
DelegateSample tempObj = new DelegateSample();
tempFunctionPointer funcPointer = tempObj.FirstTestFunction;
funcPointer("hello", 1);
Console.ReadKey();
funcPointer = tempObj.SecondTestFunction;
funcPointer("hello", 1);
Console.ReadKey();
}
}
public class Employee
{
public string Name { get; set; }
public int Age { get; set; }
}
public class XEmployee
{
public string Name { get; set; }
public int Age { get; set; }
public bool IsExEmployee {
get { return true; }
}
}
public class DelegateSample
{
public int FirstTestFunction(string strParameter, int intParamater)
{
Console.WriteLine("First Test Function Execution");
Console.WriteLine(strParameter);
return intParamater;
}
public int SecondTestFunction(string strParameter, int intParamater)
{
Console.WriteLine("Second Test Function Execution");
Console.WriteLine(strParameter);
return intParamater;
}
public void ThirdTestFunction(string strParameter, int intParamater)
{
Console.WriteLine("Third Test Function Execution");
Console.WriteLine(strParameter);
}
public bool FourthTestFunction(Employee employee)
{
return employee.Age < 27;
}
public XEmployee FifthTestFunction(Employee employee)
{
return new XEmployee() {Name = employee.Name, Age = employee.Age};
}
public int SixTestFunction(Employee strParameter1, Employee strParamater2)
{
return strParameter1.Name.CompareTo(strParamater2.Name);
}
}
Delegates can be executed synchronous or asynchronously. The code sample mentioned above is an example of synchronous processing. To make it an Asynchronous process, we need to use BeginInvoke
method.
funcPointer.BeginInvoke("Hello", 1, null, null);
The first two parameters are the inputs for the function. The third parameter can be set for getting call back after execution of process. Detailed explanation of making Asynchronous call is available here.
When Do I Use Delegate?
Looking at the sample above, a lot of us might think this can be also achieved using Interface or abstract class, then why do we need delegate.
Delegate can be used in the following scenarios:
- If you don’t want to pass your interface or abstract class dependence to internal class or layers.
- If the code doesn't need access to any other attributes or method of the class from which logic needs to be processed.
- Event driven implementation needs to be done.
Different Flavors of Delegate
As .NET Framework evolved over a period of time, new flavors have been added to keep implementation simple & optimized. By default, you get all the features & functionality with flavors which you get with delegate. Let’s have a look at Func
delegate.
Func<TParameter, TOutput>
Func
is logically similar to base delegate implementation. The difference is in the way we declare. At the time of declaration, we need to provide the signature parameter & its return type.
Func<string, int, int> tempFuncPointer;
First two parameters are the method input parameters. 3rd parameter (always the last parameter) is the out
parameter which should be the output return type of the method.
Func<string, int, int> tempFuncPointer = tempObj.FirstTestFunction;
int value = tempFuncPointer("hello", 3);
Console.ReadKey();
Func
is always used when you have return object or type from method. If you have void
method, you should be using Action
.
Action<TParameter>
Action
is used when we do not have any return type from method. Method with void
signature is being used with Action
delegate.
Action<string, int> tempActionPointer;
Similar to Func
delegate, the first two parameters are the method input parameters. Since we do not have return object or type, all the parameters are considered as input parameters.
Action<string, int> tempActionPointer = tempObj.ThirdTestFunction;
tempActionPointer("hello", 4);
Console.ReadKey();
Predicate<in T>
Predicate
is a function pointer for method which returns boolean value. They are commonly used for iterating a collection or to verify if the value does already exist. Declaration for the same looks like this:
Predicate<Employee> tempPredicatePointer;
For sample, I have created an Array which holds a list of Employee
s. Predicate
is used to get employee
below age of 27
:
Predicate<Employee> tempPredicatePointer = tempObj.FourthTestFunction;
Employee[] lstEmployee = (new Employee[]
{
new Employee(){ Name = "Ashwin", Age = 31},
new Employee(){ Name = "Akil", Age = 25},
new Employee(){ Name = "Amit", Age = 28},
new Employee(){ Name = "Ajay", Age = 29},
});
Employee tempEmployee = Array.Find(lstEmployee, tempPredicatePointer);
Console.WriteLine("Person below 27 age :" + tempEmployee.Name);
Console.ReadKey();
<pre lang="cs">
public bool FourthTestFunction(Employee employee)
{
return employee.Age < 27;
}
Converter<TInput, TOutput>
Convertor
delegate is used when you need to migrate / convert one collection into another by using some algorithm. Object A
gets converted into Object B
.
Converter<Employee, XEmployee> tempConvertorPointer
= new Converter<Employee, XEmployee>(tempObj.FifthTestFunction);
For sample, I have created XEmployee
entity. All the Employee
s in the collection get migrated to XEmployee
Entity.
Employee[] lstEmployee = (new Employee[]
{
new Employee(){ Name = "Ashwin", Age = 31},
new Employee(){ Name = "Akil", Age = 25},
new Employee(){ Name = "Amit", Age = 28},
new Employee(){ Name = "Ajay", Age = 29},
});
Converter<Employee, XEmployee> tempConvertorPointer
= new Converter<Employee, XEmployee>(tempObj.FifthTestFunction);
XEmployee[] xEmployee = Array.ConvertAll(lstEmployee, tempConvertorPointer);
Console.ReadKey();
public XEmployee FifthTestFunction(Employee employee)
{
return new XEmployee() {Name = employee.Name, Age = employee.Age};
}
Comparison<T>
Comparison
delegate is used to sort or order the data inside a collection. It takes two parameters as generic input type and return type should always be int
. This is how we can declare Comparison
delegate.
Comparison<string> tempComparison = new Comparison<string>(tempObj.SixTestFunction);
In this sample, Employee
Name is used to Sort the order. All the entity inside the collection will be processed using SixthTestFunction
which contains the logic for processing / sorting the data as per our requirement.
Comparison<Employee> tempComparisonPointer
= new Comparison<Employee>(tempObj.SixTestFunction);
Array.Sort(lstEmployee, tempComparisonPointer);
Console.ReadKey();
public int SixTestFunction(Employee strParameter1, Employee strParamater2)
{
return strParameter1.Name.CompareTo(strParamater2.Name);
}
Points of Interest
Using the new delegates, we can achieve better level of abstraction & performance can also been gained by avoiding unnecessary iteration or conversion logic. All three delegates (Predicate
, Converter
, Comparison
) do have optimized internal logic for iteration.
References
History
- 31st December, 2019: Initial version