1. Linked List Basics
· Introduction to Linked Lists
· Creating a Singly Linked List
· Traversing a Linked List
· Inserting at the Beginning
· Inserting at the End
· Inserting at a Given Position
· Deleting a Node by Value
· Deleting a Node by Position
· Deleting the First Node
· Deleting the Last Node
2. Search and Length Operations
· Searching for an Element in a Linked List
· Finding the Length of a Linked List
· Counting Occurrences of a Given Element
· Finding the Middle of a Linked List
· Finding the Nth Node from the End
· Detecting a Loop in a Linked List (Floyd’s Cycle Detection)
· Removing a Loop in a Linked List
· Finding the Start of a Loop
· Checking if a Linked List is Circular
· Checking if a Linked List is a Palindrome
3. Linked List Reversal
· Reversing a Linked List Iteratively
· Reversing a Linked List Recursively
· Reversing a Linked List in Groups of K
· Reversing Alternate K Nodes
· Reversing the First Half of the Linked List
· Reversing the Second Half of the Linked List
· Reverse Nodes Between M and N
· Reverse Every Alternate Node in a Linked List
· Reverse Pairs in a Linked List
· Reverse a Doubly Linked List
4. Linked List with Recursion
· Recursive Approach to Traversal
· Recursive Approach to Search
· Recursive Approach to Insertion
· Recursive Approach to Deletion
· Recursive Merge of Two Sorted Linked Lists
· Recursive Reversal of Linked List
· Recursive Approach to Flatten a Multilevel Linked List
· Recursive Palindrome Check
· Recursive Segregation of Even and Odd Nodes
· Recursive Pairwise Swap of Nodes
5. Two Pointer Techniques in Linked Lists
· Finding Intersection of Two Linked Lists
· Detecting and Removing Loop (Two Pointer Method)
· Finding the Middle Node (Tortoise and Hare Approach)
· Merging Two Sorted Linked Lists
· Detecting Intersection in Circular Linked Lists
· Reordering Linked List (Odd-Even Nodes)
· Finding the Intersection Point of Two Linked Lists
· Sorting a Linked List Using Merge Sort (Two Pointers)
· Quick Sort on Linked List Using Two Pointers
· Reversing Nodes in a Linked List with Two Pointers
6. Advanced Linked List Operations
· Merge K Sorted Linked Lists
· Flattening a Multilevel Linked List
· Clone a Linked List with Random Pointers
· Rotate a Linked List Left by K Positions
· Rotate a Linked List Right by K Positions
· Segregate Even and Odd Nodes in a Linked List
· Add Two Numbers Represented by Linked Lists
· Subtract Two Numbers Represented by Linked Lists
· Multiply Two Numbers Represented by Linked Lists
· Divide Two Numbers Represented by Linked Lists
7. Circular Linked Lists
· Introduction to Circular Linked Lists
· Creating a Circular Linked List
· Insertion at the Beginning of a Circular Linked List
· Insertion at the End of a Circular Linked List
· Deletion from a Circular Linked List
· Converting a Singly Linked List to a Circular Linked List
· Splitting a Circular Linked List into Two Halves
· Josephus Problem in Circular Linked List
· Detecting Loop in a Circular Linked List
· Traversing a Circular Linked List
8. Doubly Linked Lists
· Introduction to Doubly Linked Lists
· Creating a Doubly Linked List
· Insertion at the Beginning of a Doubly Linked List
· Insertion at the End of a Doubly Linked List
· Insertion After a Given Node in a Doubly Linked List
· Deletion of a Node from a Doubly Linked List
· Reversing a Doubly Linked List
· Flattening a Doubly Linked List
· Converting a Binary Tree to a Doubly Linked List
· Traversing a Doubly Linked List in Both Directions
9. Specialized Linked Lists
· Skip List Implementation
· XOR Linked List (Memory Efficient Doubly Linked List)
· Flattening a Linked List with Child Pointers
· LRU Cache Implementation Using Doubly Linked List
· Implementing Stack Using Linked List
· Implementing Queue Using Linked List
· Convert Binary Numbers in Linked List to Integer
· Clone a Multilevel Linked List
· Add 1 to a Number Represented by Linked List
· Implementing a Priority Queue Using Linked List
10. Complex Problems on Linked Lists
· Intersection Point of Y-Shaped Linked Lists
· Swapping Nodes in a Linked List Without Swapping Data
· Rotate a Linked List in Blocks of K
· Delete Nodes Which Have Greater Value on the Right Side
· Delete N Nodes After M Nodes
· Flatten a Linked List Where Each Node Has a Next and Child Pointer
· Segregate 0s, 1s, and 2s in a Linked List
· Flatten a Linked List of Linked Lists
· Convert a Sorted Linked List to a Balanced BST
· Rearrange a Linked List in Zig-Zag Fashion
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