C# Lambda Expression

C# Lambda Expression is a short block of code that accepts parameters and returns a value. It is defined as an anonymous function (function without a name). For example,

num => num * 7

Here, num is an input parameter and num * 7 is a return value. The lambda expression does not execute on its own. Instead, we use it inside other methods or variables.

Let's learn about lambda expressions in detail below.


How to Define a Lambda Expression

We can define lambda expression in C# as,

(parameterList) => lambda body

Here,

  • parameterList - list of input parameters
  • => - a lambda operator
  • lambda body - can be an expression or statement

Based on lambda body, the C# lambda expression is divided into two types.


Types of Lambda Expression

The two types of lambda expressions are:

  1. Expression Lambda
  2. Statement Lambda

1. Expression Lambda: Expression lambda contains a single expression in the lambda body. For example,

(int num) => num * 5;

The above expression lambda contains a single expression num * 5 in the lambda body. It takes an int input, multiplies it by 5, and returns the output.

2. Statement Lambda: Statement lambda encloses one or more statements in the lambda body. We use curly braces {} to wrap the statements. For example,

(int a, int b) =>
{
    var sum = a + b;
    return sum;
};

The above expression is a statement lambda which contains two statements in the lambda body. This takes two int inputs and returns its sum.

Let's see examples to get a clear understanding of C# lambda.


Example: C# Expression Lambda

using System;
class Program
{
    static void Main()
    {
// expression lambda that returns the square of a number var square = (int num) => num * num;
// passing input to the expression lambda Console.WriteLine("Square of number: " + square(5)); } }

Output

Square of number: 25

In the above example, the expression lambda is

(int num) => num * num;

Here, the expression lambda returns the square of num. We have then assigned the expression lambda to the square variable.

So, when we pass 5 as an input in square, we get 25 as an output.


Example: C# Statement Lambda

using System;
class Program
{
    static void Main()
    {
// statement lambda that takes two int inputs and returns the sum var resultingSum = (int a, int b) => { int calculatedSum = a + b; return calculatedSum; };
// find the sum of 5 and 6 Console.WriteLine("Total sum: " + resultingSum(5, 6)); } }

Output

Total sum: 11

In the above example, we have used the statement lambda as,

(int a, int b) =>
{
    int calculatedSum = a + b;
    return calculatedSum;
}

Here, the statement lambda takes two integer parameters - a and b. On the right side of the lambda operator => we have enclosed two statements that:

  • calculate the sum of a and b
  • return the sum

Note: Before C# 9.0, explicitly defining the delegate type was necessary when using var with lambda expressions. C# 9.0 introduced the ability to assign lambda expressions to var without specifying the delegate type.


Lambda Expression with Delegate

In C#, we can assign lambda expressions to the delegate types like Func. For example,

using System;
class Program
{
    static void Main()
    {
// using lambda expression with delegate type // take an int input, multiply it with 3 and return the result Func<int, int> multiply = num => num * 3;
// calls multiply() by passing 5 as an input Console.WriteLine(multiply(5)); } }

Output

15

In the above example, we have assigned lambda expression num => num * 3; to the Func delegate multiply.

Here, the lambda expression takes an int type input num, multiplies it with 3 and returns the result to multiply().

Hence, when we pass 5 in multiply(), it returns 15.

Note: The Func<> delegate type takes 0 or more input values and returns an output value. For example, Func<int,int,string> takes two int inputs and returns a string output. To learn more about delegates, visit C# delegates.


Use of Lambda Expression

Some of the uses of the lambda expression are:

1. Writing Easy and Simple Delegate Code

Using lambda expressions, we can write much easier and simpler code. Let's see programs with and without using a lambda expression in a delegate.

Program Without Using Lambda Expression

using System;
class Program
{
    static void Main()
    {
        // method that returns square of a number
        int Square(int num)
        {
            return num * num;
        }

        // delegate that points the Square() method 
        Func<int, int> square = Square;

        // calling square() delegate 
        Console.WriteLine(square(7));
    }
}

Output

49

In the above program, we have defined a delegate square of Func type that points to the Square() method.

Program With Using Lambda Expression

using System;
class Program
{
    static void Main()
    {
        // delegate using lambda expression 
        Func<int, int> square = num => num * num;

        // calling square() delegate 
        Console.WriteLine(square(7));
    }
}

Output

49

Here, we don't need to define a separate method. We have replaced the pointer to the square() method with the lambda expression.

2. Passing Parameter in Method

We can pass a lambda expression as a parameter in a method call.

Let's take a built-in Count() method of C# array and pass a lambda expression as its parameter.

using System;
class Program
{
    static void Main()
    {
        // array containing integer values 
        int[] numbers = { 2, 13, 1, 4, 13, 5 };

// lambda expression as method parameter // returns the total count of 13 in the numbers array int totalCount = numbers.Count(x => x == 13);
Console.WriteLine("Total number of 13: " + totalCount); } }

Output

Total number of 13: 2

In the above example, we have passed the lambda expression x => x == 13 as a method parameter.

The Count() method checks each element of the numbers array and counts the total number of 13 in the array.

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