We have discussed Insertion Sort for arrays. In this article we are going to discuss Insertion Sort for linked list.
Below is a simple insertion sort algorithm for a linked list.
1) Create an empty sorted (or result) list. 2) Traverse the given list, do following for every node. ......a) Insert current node in sorted way in sorted or result list. 3) Change head of given linked list to head of sorted (or result) list.
The main step is (2.a) which has been covered in the post Sorted Insert for Singly Linked List
Below is implementation of above algorithm:
Javascript
<script> // Javascript program to sort link list // using insertion sort var head = null ; var sorted = null ; class node { constructor(val) { this .val = val; this .next = null ; } } function push(val) { // Allocate node var newnode = new node(val); // Link the old list off the // new node newnode.next = head; // Move the head to point to // the new node head = newnode; } // Function to sort a singly linked list // using insertion sort function insertionSort(headref) { // Initialize sorted linked list var sorted = null ; var current = headref; // Traverse the given linked list // and insert every node to sorted while (current != null ) { // Store next for next iteration var next = current.next; // Insert current in sorted // linked list sortedInsert(current); // Update current current = next; } // Update head_ref to point to // sorted linked list head = sorted; } /* Function to insert a new_node in a Linked List. Note that this function expects a pointer to head_ref as this can modify the head of the input linked list (similar to push()) */ function sortedInsert(newnode) { // Special case for the head end if (sorted == null || sorted.val >= newnode.val) { newnode.next = sorted; sorted = newnode; } else { var current = sorted; /* Locate the node before the point of insertion */ while (current.next != null && current.next.val < newnode.val) { current = current.next; } newnode.next = current.next; current.next = newnode; } } // Function to print linked list function printlist(head) { while (head != null ) { document.write(head.val + " " ); head = head.next; } } // Driver code push(5); push(20); push(4); push(3); push(30); document.write( "Linked List before Sorting..<br/>" ); printlist(head); insertionSort(head); document.write( "<br/>LinkedList After sorting<br/>" ); printlist(sorted); // This code is contributed by aashish1995 </script> |
Output:
Linked List before sorting 30 3 4 20 5 Linked List after sorting 3 4 5 20 30
Time Complexity: O(n2), in the worst case, we might have to traverse all nodes of the sorted list for inserting a node, and there are “n” such nodes.
Space Complexity: O(1), no extra space is required depending on the size of the input, thus it is constant.
Please refer complete article on Insertion Sort for Singly Linked List for more details!
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