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2-3-delete-middle-node.cpp
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2-3-delete-middle-node.cpp
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/**
* Cracking the coding interview - edition 6
* Problem 2.3 Delete middle node:
* Implement an algorithm to delete a node in the middle of a singly linked list.
* We are given pointer to that node.
*
* Approach:
* In order to remove a node 'A' from a list, We will need to connect pointer of
* A's previous node to A's next node. Here we don't have access to previous node.
* However, we have pointer to that node, we can copy the data of next node to
* the pointed node and then remove the next node.
* Assumption here is that we are not given last node of the list for deletion.
*/
#include <iostream>
struct Node {
char data;
Node * next;
Node( char c ) : data{ c }, next{ nullptr } { }
};
/**
* [printList - Helper routine to print the list]
* @param head [head of the list]
*/
void printList( Node * head ) {
while( head ) {
std::cout << head->data << "-->";
head = head->next;
}
std::cout << "nullptr" << std::endl;
}
/**
* [deleteNode - delete the "node" from the list]
* @param node [node to be deleted]
*/
void deleteNode( Node * node ) {
if ( node == nullptr || node->next == nullptr ) {
return;
}
Node * nextNode = node->next;
node->data = nextNode->data;
node->next = nextNode->next;
delete nextNode;
}
int main() {
Node * head = new Node('a');
head->next = new Node('b');
head->next->next = new Node('c');
head->next->next->next = new Node('d');
head->next->next->next->next = new Node('e');
std::cout << "List before deletion:\n";
printList(head);
std::cout << "Deleting node containing data as 'c'\n";
deleteNode(head->next->next);
std::cout << "List after deletion:\n";
printList(head);
return 0;
}