C# Queue<T>

A Queue<T> is a generic class that arranges elements of a specified data type using First In First Out (FIFO) principles. For example,

using System;
using System.Collections.Generic;

class Program
{
    public static void Main()
    {
        // create a queue 
        Queue<string> fruits = new Queue<string>();

        // adds "Apple" and "Orange" to the queue
        fruits.Enqueue("Apple");
        fruits.Enqueue("Orange");

        // print elements of the queue 
        foreach (string item in fruits)
        {
            Console.WriteLine(item);
        }
    }
}

Output

Apple
Orange

Here, fruits is a queue that contains string elements ("Apple" and "Orange").

We will learn about Queue<T> in detail.


Queue Implementation

In the queue, elements are stored and accessed in First In First Out (FIFO) manner. That is, elements that are added first will be removed first.

Working of queue data structure: first in first out
Working of Queue data structure

Create a Queue in C#

To create Queue<T> in C#, we need to use the System.Collection.Generic namespace. Here is how we can create Queue<T> in C#,

Queue<dataType> queueName = new Queue<dataType>();

Here, dataType indicates the queue's type. For example,

// create integer type stack
Queue<int> queue1 = new Queue<int>();

// create string type stack
Queue<string> queue2 = new Queue<string>();

C# Queue Methods

C# provides 3 major Queue<T> methods. These methods are:

  • Enqueue() - adds an element to the end of the queue
  • Dequeue() - removes and returns an element from the beginning of the queue
  • Peek() - returns an element from the beginning of the queue without removing

Let's learn each method in detail.


Queue Enqueue() Method

To add an element to the end of the queue, we use the Enqueue() method. For example,

using System;
using System.Collections.Generic;

class Program
{
    public static void Main()
    {
        // create a queue 
        Queue<int> numbers = new Queue<int>();

// adds 65 and 17 to the queue numbers.Enqueue(65); numbers.Enqueue(17
); // print elements of the queue foreach (int item in numbers) { Console.WriteLine(item); } } }

Output

65
17

In the above example, we have created Queue<T> class named numbers.

Then we added elements to the queue using the Enqueue() method.

  • numbers.Enqueue(65) - adds 65 to the queue
  • numbers.Enqueue(17) - adds 17 to the queue

We then printed those elements using a foreach loop.

Since the queue follows FIFO principle, the element added at the first (65) is displayed at the first in the output.


Queue Dequeue() Method

To remove an element from the beginning of the queue, we use the Dequeue() method. For example,

using System;
using System.Collections.Generic;

class Program
{
    public static void Main()
    {
        // create a queue 
        Queue<string> colors = new Queue<string>();

        // adds "Red" and "Blue" to the queue
        colors.Enqueue("Red");
        colors.Enqueue("Blue");

// removes element from the beginning of the colors queue var removedElement = colors.Dequeue();
Console.WriteLine("Removed Element: " + removedElement); } }

Output

Removed Element: Red

In the above example, we have used the Dequeue() method to remove an element from the colors queue.

The method removed and returned "Red" from the beginning of the queue.


Queue Peek() Method

The Peek() method returns the element from the beginning of the queue without removing it. For example,

using System;
using System.Collections.Generic;

class Program
{
    public static void Main()
    {
        // create a queue 
        Queue<string> planet = new Queue<string>();

        // adds "Earth" and "Jupiter" to the queue
        planet.Enqueue("Earth");
        planet.Enqueue("Jupiter");

// returns element from the beginning of the planet queue Console.WriteLine("Element at beginning of queue: " + planet.Peek());
} }

Output

Element at beginning of queue: Earth

Here, we have displayed the element present at the beginning of the planet queue using the Peek() method.


Check Whether an Element is Present Inside a Queue

We can use the Contains() method to check whether an element is present inside the queue or not.

The method returns True if a specified element exists in the queue. If not it returns False. For example,

using System;
using System.Collections.Generic;

class Program
{
    public static void Main()
    {
        // create a queue 
        Queue<string> planet = new Queue<string>();

        // adds "Earth" and "Jupiter" to the queue
        planet.Enqueue("Earth");
        planet.Enqueue("Jupiter");

// check if queue contains "Mars" Console.WriteLine(planet.Contains("Mars"));
// check if queue contains "Jupiter" Console.WriteLine(planet.Contains("Jupiter")); } }

Output

False
True
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