Queues | Programming and Data Structures - Computer Science Engineering (CSE) PDF Download

Queue is an abstract data structure, somewhat similar to Stacks. Unlike stacks, a queue is open at both its ends. One end is always used to insert data (enqueue) and the other is used to remove data (dequeue). Queue follows First-In-First-Out methodology, i.e., the data item stored first will be accessed first.

Data Structures,GATE,CSE,ITE,Queues

A real-world example of queue can be a single-lane one-way road, where the vehicle enters first, exits first. More real-world examples can be seen as queues at the ticket windows and bus-stops.

Queue Representation

As we now understand that in queue, we access both ends for different reasons. The following diagram given below tries to explain queue representation as data structure −

Data Structures,GATE,CSE,ITE,Queues

As in stacks, a queue can also be implemented using Arrays, Linked-lists, Pointers and Structures. For the sake of simplicity, we shall implement queues using one-dimensional array.

Basic Operations

Queue operations may involve initializing or defining the queue, utilizing it, and then completely erasing it from the memory. Here we shall try to understand the basic operations associated with queues −

  • enqueue() − add (store) an item to the queue.

  • dequeue() − remove (access) an item from the queue.

Few more functions are required to make the above-mentioned queue operation efficient. These are −

  • peek() − Gets the element at the front of the queue without removing it.

  • isfull() − Checks if the queue is full.

  • isempty() − Checks if the queue is empty.

In queue, we always dequeue (or access) data, pointed by front pointer and while enqueing (or storing) data in the queue we take help of rear pointer.

Let's first learn about supportive functions of a queue −

peek()

This function helps to see the data at the front of the queue. The algorithm of peek() function is as follows −

Algorithm 

begin procedure peek

return queue[front]

end procedure

Implementation of peek() function in C programming language −

Example

int peek() {
return queue[front];
}

isfull()

As we are using single dimension array to implement queue, we just check for the rear pointer to reach at MAXSIZE to determine that the queue is full. In case we maintain the queue in a circular linked-list, the algorithm will differ. Algorithm of isfull() function −

Algorithm

begin procedure isfull

if rear equals to MAXSIZE
return true
else
return false
endif

end procedure

Implementation of isfull() function in C programming language −

Example

bool isfull() {
if(rear == MAXSIZE - 1)
return true;
else
return false;
}

isempty()

Algorithm of isempty() function −

Algorithm

begin procedure isempty

if front is less than MIN OR front is greater than rear
return true
else
return false
endif

end procedure

If the value of front is less than MIN or 0, it tells that the queue is not yet initialized, hence empty.

Here's the C programming code −

Example

bool isempty() {
if(front < 0 || front > rear)
return true;
else
return false;
}

Enqueue Operation

Queues maintain two data pointers, front and rear. Therefore, its operations are comparatively difficult to implement than that of stacks.

The following steps should be taken to enqueue (insert) data into a queue −

  • Step 1 − Check if the queue is full.

  • Step 2 − If the queue is full, produce overflow error and exit.

  • Step 3 − If the queue is not full, increment rear pointer to point the next empty space.

  • Step 4 − Add data element to the queue location, where the rear is pointing.

  • Step 5 − return success.

Data Structures,GATE,CSE,ITE,Queues

Sometimes, we also check to see if a queue is initialized or not, to handle any unforeseen situations.

Algorithm for enqueue operation

procedure enqueue(data)      
if queue is full
return overflow
endif

rear ← rear + 1

queue[rear] ← data

return true

end procedure

Implementation of enqueue() in C programming language −

Example

int enqueue(int data)      
if(isfull())
return 0;

rear = rear + 1;
queue[rear] = data;

return 1;
end procedure

Dequeue Operation

Accessing data from the queue is a process of two tasks − access the data where front is pointing and remove the data after access. The following steps are taken to perform dequeue operation −

  • Step 1 − Check if the queue is empty.

  • Step 2 − If the queue is empty, produce underflow error and exit.

  • Step 3 − If the queue is not empty, access the data where front is pointing.

  • Step 4 − Increment front pointer to point to the next available data element.

  • Step 5 − Return success.

Data Structures,GATE,CSE,ITE,Queues

Algorithm for dequeue operation

procedure dequeue
if queue is empty
return underflow
end if

data = queue[front]
front ← front + 1

return true
end procedure

Implementation of dequeue() in C programming language −

Example

int dequeue() {

if(isempty())
return 0;

int data = queue[front];
front = front + 1;

return data;
}

Applications of Queue:
Queue is used when things don’t have to be processed immediatly, but have to be processed in First InFirst Out order. This property of Queue makes it also useful in following kind of scenarios.

1) When a resource is shared among multiple consumers. Examples include CPU scheduling, Disk Scheduling.
2) When data is transferred asynchronously (data not necessarily received at same rate as sent) between two processes. Examples include IO Buffers, pipes, file IO, etc.

The document Queues | Programming and Data Structures - Computer Science Engineering (CSE) is a part of the Computer Science Engineering (CSE) Course Programming and Data Structures.
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FAQs on Queues - Programming and Data Structures - Computer Science Engineering (CSE)

1. What is a queue in computer science?
Ans. A queue is a linear data structure that follows the FIFO (First-In-First-Out) principle. It is similar to a real-life queue, where the first person who joins the line is the first to be served. In computer science, a queue allows elements to be added at one end (rear) and removed from the other end (front).
2. How is a queue different from a stack?
Ans. A queue and a stack are both linear data structures, but they differ in terms of their operation principles. While a queue follows the FIFO principle, a stack follows the LIFO (Last-In-First-Out) principle. In a stack, the last element added is the first one to be removed, whereas in a queue, the first element added is the first one to be removed.
3. What are the main operations performed on a queue?
Ans. The main operations performed on a queue are: - Enqueue: Adding an element to the rear of the queue. - Dequeue: Removing the element from the front of the queue. - Peek: Viewing the element at the front of the queue without removing it. - IsEmpty: Checking if the queue is empty or not. - Size: Finding the number of elements in the queue.
4. How can a queue be implemented in computer programming?
Ans. A queue can be implemented using various data structures, such as arrays or linked lists. In array implementation, a fixed-size array is used, and the front and rear pointers keep track of the elements' positions. In linked list implementation, each element contains a value and a pointer to the next element, and the front and rear pointers point to the first and last elements, respectively.
5. What are the real-life examples of a queue?
Ans. Some real-life examples of a queue include: - Waiting in line at a grocery store checkout. - Processing print jobs in a printer queue. - Handling customer service calls in a call center. - Sending and receiving messages in a messaging application. - Processing tasks in a multi-threaded program, where each thread is assigned a specific task in a queue-like manner.
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