What is singly linked list explain Insert and Delete in SLL?
Types of Linked List and Operation on Linked ListIn the previous blog, we have seen the structure and properties of a Linked List. In this blog, we will discuss the types of a linked list and basic operations that can be performed on a linked list. Show
Types of Linked ListFollowing are the types of linked list
Singly Linked ListA Singly-linked list is a collection of nodes linked together in a sequential way where each node of the singly linked list contains a data field and an address field that contains the reference of the next node. The structure of the node in the Singly Linked List is The nodes are connected to each other in this form where the value of the next variable of the last node is NULL i.e. next = NULL, which indicates the end of the linked list. Doubly Linked ListA Doubly Linked List contains an extra memory to store the address of the previous node, together with the address of the next node and data which are there in the singly linked list. So, here we are storing the address of the next as well as the previous nodes. The following is the structure of the node in the Doubly Linked List(DLL): The nodes are connected to each other in this form where the first node has prev = NULL and the last node has next = NULL. Advantages over Singly Linked List-
Disadvantages over Singly Linked List-
Circular Linked ListA circular linked list is either a singly or doubly linked list in which there are no NULL values. Here, we can implement the Circular Linked List by making the use of Singly or Doubly Linked List. In the case of a singly linked list, the next of the last node contains the address of the first node and in case of a doubly-linked list, the next of last node contains the address of the first node and prev of the first node contains the address of the last node. Advantages of a Circular linked list
Disadvantages of Circular linked list
Basic Operations on Linked List
We will see the various implementation of these operations on a singly linked list. Following is the structure of the node in a linked list: class Node{ int data // variable containing the data of the node Node next // variable containing the address of next node }Linked List TraversalThe idea here is to step through the list from beginning to end. For example, we may want to print the list or search for a specific node in the list. The algorithm for traversing a list
Linked List node InsertionThere can be three cases that will occur when we are inserting a node in a linked list.
Insertion at the beginning Since there is no need to find the end of the list. If the list is empty, we make the new node as the head of the list. Otherwise, we we have to connect the new node to the current head of the list and make the new node, the head of the list. Insertion at end We will traverse the list until we find the last node. Then we insert the new node to the end of the list. Note that we have to consider special cases such as list being empty. In case of a list being empty, we will return the updated head of the linked list because in this case, the inserted node is the first as well as the last node of the linked list. Insertion after a given node We are given the reference to a node, and the new node is inserted after the given node. NOTE: If the address of the prevNode is not given, then you can traverse to that node by finding the data value. Linked List node DeletionTo delete a node from a linked list, we need to do these steps
In the deletion, there is a special case in which the first node is deleted. In this, we need to update the head of the linked list. Linked List node SearchingTo search any value in the linked list, we can traverse the linked list and compares the value present in the node. bool searchLL(Node head, int val) { Node temp = head // creating a temp variable pointing to the head of the linked list while( temp != NULL) // traversing the list { if( temp.data == val ) return true temp = temp.next } return false }Linked List node UpdationTo update the value of the node, we just need to set the data part to the new value. Below is the implementation in which we had to update the value of the first node in which data is equal to val and we have to set it to newVal. void updateLL(Node head, int val, int newVal) { Node temp = head while(temp != NULL) { if( temp.data == val) { temp.data = newVal return } temp = temp.next } }Suggested Problems to solve in Linked List
Happy coding! Enjoy Algorithms. Linked List Operations: Traverse, Insert and DeleteIn this tutorial, you will learn different operations on a linked list. Also, you will find implementation of linked list operations in C/C++, Python and Java. There are various linked list operations that allow us to perform different actions on linked lists. For example, the insertion operation adds a new element to the linked list. Here's a list of basic linked list operations that we will cover in this article.
Before you learn about linked list operations in detail, make sure to know about Linked List first. Things to Remember about Linked List
In all of the examples, we will assume that the linked list has three nodes 1 --->2 --->3 with node structure as below: struct node { int data; struct node *next; };Graphical Depiction of NodeA node is a name for each element in a linked list. A single node includes data as well as a pointer to the next node, which aids in the list’s structure. The head is the first node in the list; it points to the first node in the list and allows us to access all of the other elements in the list. The last node, commonly known as the tail, refers to NULL, which allows us to determine when the list comes to an end. The following is a graphical depiction of a node in a single linked list: What is a singly linked list?A singly linked list is a type of linked list that is unidirectional, that is, it can be traversed in only one direction from head to the last node (tail). Each element in a linked list is called a node. A single node contains data and a pointer to the next node which helps in maintaining the structure of the list. The first node is called the head; it points to the first node of the list and helps us access every other element in the list. The last node, also sometimes called the tail, points to NULL which helps us in determining when the list ends. Linked List Data Structure
Practice Problems on Linked List A linked list is a linear data structure, in which the elements are not stored at contiguous memory locations. The elements in a linked list are linked using pointers as shown in the below image: In simple words, a linked list consists of nodes where each node contains a data field and a reference(link) to the next node in the list. Topics :
Singly Linked List :
More >> Circular Linked List :
More >> Doubly Linked List :
More >> Misc :
Quick Links :
If you still need more assistance with your placement preparation, have a look at our Complete Interview Preparation Course. The course has been designed by our expert mentors to help students crack the coding interview of top product or service-based organizations . You get access to premium lectures, 200+ coding questions bank, resume building tips, and lifetime access to the course content. So to make sure that your next programming interview doesn’t feel like an interrogation, enroll in Complete Interview Preparation and give a boost to your placement preparation. Please write comments if you find anything incorrect, or you want to share more information about the topic discussed above. |