C++ Program For Deleting A Given Node In Linked List Under Given Constraints Last Updated : 22 Jun, 2022 Comments Improve Suggest changes Like Article Like Report Given a Singly Linked List, write a function to delete a given node. Your function must follow the following constraints: It must accept a pointer to the start node as the first parameter and node to be deleted as the second parameter i.e., a pointer to the head node is not global.It should not return a pointer to the head node.It should not accept pointer to pointer to the head node. You may assume that the Linked List never becomes empty.Let the function name be deleteNode(). In a straightforward implementation, the function needs to modify the head pointer when the node to be deleted is the first node. As discussed in previous post, when a function modifies the head pointer, the function must use one of the given approaches, we can't use any of those approaches here. Solution: We explicitly handle the case when the node to be deleted is the first node, we copy the data of the next node to head and delete the next node. The cases when a deleted node is not the head node can be handled normally by finding the previous node and changing the next of the previous node. The following are the implementation. C++ // C++ program to delete a given node // in linked list under given constraints #include <bits/stdc++.h> using namespace std; // Structure of a linked list // node class Node { public: int data; Node *next; }; void deleteNode(Node *head, Node *n) { // When node to be deleted is // head node if(head == n) { if(head->next == NULL) { cout << "There is only one node." << " The list can't be made empty "; return; } // Copy the data of next node // to head head->data = head->next->data; // Store address of next node n = head->next; // Remove the link of next node head->next = head->next->next; // Free memory free(n); return; } // When not first node, follow // the normal deletion process // Find the previous node Node *prev = head; while(prev->next != NULL && prev->next != n) prev = prev->next; // Check if node really exists in // Linked List if(prev->next == NULL) { cout << "Given node is not present in Linked List"; return; } // Remove node from Linked List prev->next = prev->next->next; // Free memory free(n); return; } /* Utility function to insert a node at the beginning */ void push(Node **head_ref, int new_data) { Node *new_node = new Node(); new_node->data = new_data; new_node->next = *head_ref; *head_ref = new_node; } /* Utility function to print a linked list */ void printList(Node *head) { while(head != NULL) { cout << head->data << " "; head = head->next; } cout << endl; } // Driver code int main() { Node *head = NULL; /* Create following linked list 12->15->10->11->5->6->2->3 */ push(&head,3); push(&head,2); push(&head,6); push(&head,5); push(&head,11); push(&head,10); push(&head,15); push(&head,12); cout << "Given Linked List: "; printList(head); /* Let us delete the node with value 10 */ cout << "Deleting node " << head->next->next->data << " "; deleteNode(head, head->next->next); cout << "Modified Linked List: "; printList(head); // Let us delete the first node cout << "Deleting first node "; deleteNode(head, head); cout << "Modified Linked List: "; printList(head); return 0; } // This code is contributed by rathbhupendra Output: Given Linked List: 12 15 10 11 5 6 2 3 Deleting node 10: Modified Linked List: 12 15 11 5 6 2 3 Deleting first node Modified Linked List: 15 11 5 6 2 3 Time Complexity: O(n), where n represents the size of the given array.Auxiliary Space: O(1), no extra space is required, so it is a constant. Please refer complete article on Delete a given node in Linked List under given constraints for more details! Comment More infoAdvertise with us Next Article C++ Program For Deleting A Given Node In Linked List Under Given Constraints kartik Follow Improve Article Tags : Linked List C++ Programs C++ DSA Linked Lists +1 More Practice Tags : CPPLinked List Similar Reads C++ Program for Deleting a Node in a Linked List Write a C++ program to delete a node from the given link list.ExamplesInput: Linked List: 10 -> 20 -> 30 -> 40 -> 50, Position to delete: 3Output: 10 -> 20 -> 40 -> 50Explanation: The node at position 3 is removed. The list then connects node 20 directly to node 40.Input: Linked 6 min read C++ Program For Deleting A Node In A Doubly Linked List Pre-requisite: Doubly Link List Set 1| Introduction and Insertion Write a function to delete a given node in a doubly-linked list. Original Doubly Linked List Recommended: Please solve it on "PRACTICE" first, before moving on to the solution. Approach: The deletion of a node in a doubly-linked list 4 min read C++ Program For Deleting Last Occurrence Of An Item From Linked List Using pointers, loop through the whole list and keep track of the node prior to the node containing the last occurrence key using a special pointer. After this just store the next of next of the special pointer, into to next of special pointer to remove the required node from the linked list. C++ // 6 min read C++ Program For Writing A Function To Delete A Linked List Algorithm For C++:Iterate through the linked list and delete all the nodes one by one. The main point here is not to access the next of the current pointer if the current pointer is deleted. Implementation: C++ // C++ program to delete a linked list #include <bits/stdc++.h> using namespace std 2 min read C++ Program To Delete Alternate Nodes Of A Linked List Given a Singly Linked List, starting from the second node delete all alternate nodes of it. For example, if the given linked list is 1->2->3->4->5 then your function should convert it to 1->3->5, and if the given linked list is 1->2->3->4 then convert it to 1->3. Recomm 3 min read C++ Program To Delete Middle Of Linked List Given a singly linked list, delete the middle of the linked list. For example, if the given linked list is 1->2->3->4->5 then the linked list should be modified to 1->2->4->5 If there are even nodes, then there would be two middle nodes, we need to delete the second middle element. For example, if g 4 min read C++ Program To Delete N Nodes After M Nodes Of A Linked List Given a linked list and two integers M and N. Traverse the linked list such that you retain M nodes then delete next N nodes, continue the same till end of the linked list.Difficulty Level: Rookie Examples: Input: M = 2, N = 2 Linked List: 1->2->3->4->5->6->7->8 Output: Linked L 3 min read C++ Program For Removing Every K-th Node Of The Linked List Given a singly linked list, Your task is to remove every K-th node of the linked list. Assume that K is always less than or equal to length of Linked List.Examples : Input: 1->2->3->4->5->6->7->8 k = 3 Output: 1->2->4->5->7->8 As 3 is the k-th node after its deletion list would be 1->2->4->5->6->7-> 3 min read Delete all Non-Prime Nodes from a Singly Linked List Given a singly linked list containing N nodes, the task is to delete all nodes from the list which are not prime. Examples: Input : List = 15 -> 16 -> 6 -> 7 -> 17 Output : Final List = 7 -> 17 Input : List = 15 -> 3 -> 4 -> 2 -> 9 Output : Final List = 3 ->2 Approach: 15+ min read Menu Driven Program to implement all the operations of Doubly Circular Linked List Circular Doubly Linked List has properties of both Doubly Linked List and Circular Linked List in which two consecutive elements are linked or connected by previous and next pointer and the last node points to the first node by next pointer and also the first node points to the last node by the prev 15+ min read Like