给定一个已排序的链表,您将如何以排序方式插入
给定一个排序的链表和一个要插入的值,编写一个函数来以排序的方式插入值。
初始链表
插入 9 后的链表
算法:
让输入链表按升序排序。
1) If Linked list is empty then make the node as
head and return it.
2) If the value of the node to be inserted is smaller
than the value of the head node, then insert the node
at the start and make it head.
3) In a loop, find the appropriate node after
which the input node (let 9) is to be inserted.
To find the appropriate node start from the head,
keep moving until you reach a node GN (10 in
the below diagram) who's value is greater than
the input node. The node just before GN is the
appropriate node (7).
4) Insert the node (9) after the appropriate node
(7) found in step 3.执行:
C++
/* Program to insert in a sorted list */
#include
using namespace std;
/* Link list node */
class Node {
public:
int data;
Node* next;
};
/* function to insert a new_node
in a 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())*/
void sortedInsert(Node** head_ref,
Node* new_node)
{
Node* current;
/* Special case for the head end */
if (*head_ref == NULL
|| (*head_ref)->data
>= new_node->data) {
new_node->next = *head_ref;
*head_ref = new_node;
}
else {
/* Locate the node before the
point of insertion */
current = *head_ref;
while (current->next != NULL
&& current->next->data
< new_node->data) {
current = current->next;
}
new_node->next = current->next;
current->next = new_node;
}
}
/* BELOW FUNCTIONS ARE JUST
UTILITY TO TEST sortedInsert */
/* A utility function to
create a new node */
Node* newNode(int new_data)
{
/* allocate node */
Node* new_node = new Node();
/* put in the data */
new_node->data = new_data;
new_node->next = NULL;
return new_node;
}
/* Function to print linked list */
void printList(Node* head)
{
Node* temp = head;
while (temp != NULL) {
cout << temp->data << " ";
temp = temp->next;
}
}
/* Driver program to test count function*/
int main()
{
/* Start with the empty list */
Node* head = NULL;
Node* new_node = newNode(5);
sortedInsert(&head, new_node);
new_node = newNode(10);
sortedInsert(&head, new_node);
new_node = newNode(7);
sortedInsert(&head, new_node);
new_node = newNode(3);
sortedInsert(&head, new_node);
new_node = newNode(1);
sortedInsert(&head, new_node);
new_node = newNode(9);
sortedInsert(&head, new_node);
cout << "Created Linked List\n";
printList(head);
return 0;
}
// This is code is contributed by rathbhupendra C
/* Program to insert in a sorted list */
#include
#include
/* Link list node */
struct Node {
int data;
struct Node* next;
};
/* function to insert a new_node
in a 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())*/
void sortedInsert(struct Node** head_ref,
struct Node* new_node)
{
struct Node* current;
/* Special case for the head end */
if (*head_ref == NULL
|| (*head_ref)->data
>= new_node->data) {
new_node->next = *head_ref;
*head_ref = new_node;
}
else {
/* Locate the node before
the point of insertion */
current = *head_ref;
while (current->next != NULL
&& current->next->data < new_node->data) {
current = current->next;
}
new_node->next = current->next;
current->next = new_node;
}
}
/* BELOW FUNCTIONS ARE JUST UTILITY TO TEST sortedInsert */
/* A utility function to create a new node */
struct Node* newNode(int new_data)
{
/* allocate node */
struct Node* new_node
= (struct Node*)malloc(
sizeof(struct Node));
/* put in the data */
new_node->data = new_data;
new_node->next = NULL;
return new_node;
}
/* Function to print linked list */
void printList(struct Node* head)
{
struct Node* temp = head;
while (temp != NULL) {
printf("%d ", temp->data);
temp = temp->next;
}
}
/* Driver program to test count function*/
int main()
{
/* Start with the empty list */
struct Node* head = NULL;
struct Node* new_node = newNode(5);
sortedInsert(&head, new_node);
new_node = newNode(10);
sortedInsert(&head, new_node);
new_node = newNode(7);
sortedInsert(&head, new_node);
new_node = newNode(3);
sortedInsert(&head, new_node);
new_node = newNode(1);
sortedInsert(&head, new_node);
new_node = newNode(9);
sortedInsert(&head, new_node);
printf("\n Created Linked List\n");
printList(head);
return 0;
} Java
// Java Program to insert in a sorted list
class LinkedList {
Node head; // head of list
/* Linked list Node*/
class Node {
int data;
Node next;
Node(int d)
{
data = d;
next = null;
}
}
/* function to insert a
new_node in a list. */
void sortedInsert(Node new_node)
{
Node current;
/* Special case for head node */
if (head == null || head.data
>= new_node.data) {
new_node.next = head;
head = new_node;
}
else {
/* Locate the node before point of insertion. */
current = head;
while (current.next != null
&& current.next.data < new_node.data)
current = current.next;
new_node.next = current.next;
current.next = new_node;
}
}
/*Utility functions*/
/* Function to create a node */
Node newNode(int data)
{
Node x = new Node(data);
return x;
}
/* Function to print linked list */
void printList()
{
Node temp = head;
while (temp != null) {
System.out.print(temp.data + " ");
temp = temp.next;
}
}
/* Driver function to test above methods */
public static void main(String args[])
{
LinkedList llist = new LinkedList();
Node new_node;
new_node = llist.newNode(5);
llist.sortedInsert(new_node);
new_node = llist.newNode(10);
llist.sortedInsert(new_node);
new_node = llist.newNode(7);
llist.sortedInsert(new_node);
new_node = llist.newNode(3);
llist.sortedInsert(new_node);
new_node = llist.newNode(1);
llist.sortedInsert(new_node);
new_node = llist.newNode(9);
llist.sortedInsert(new_node);
System.out.println("Created Linked List");
llist.printList();
}
}
/* This code is contributed by Rajat Mishra */Python
# Python program to insert in a sorted list
# Node class
class Node:
# Constructor to initialize the node object
def __init__(self, data):
self.data = data
self.next = None
class LinkedList:
# Function to initialize head
def __init__(self):
self.head = None
def sortedInsert(self, new_node):
# Special case for the empty linked list
if self.head is None:
new_node.next = self.head
self.head = new_node
# Special case for head at end
elif self.head.data >= new_node.data:
new_node.next = self.head
self.head = new_node
else :
# Locate the node before the point of insertion
current = self.head
while(current.next is not None and
current.next.data < new_node.data):
current = current.next
new_node.next = current.next
current.next = new_node
# Function to insert a new node at the beginning
def push(self, new_data):
new_node = Node(new_data)
new_node.next = self.head
self.head = new_node
# Utility function to print it the linked LinkedList
def printList(self):
temp = self.head
while(temp):
print temp.data,
temp = temp.next
# Driver program
llist = LinkedList()
new_node = Node(5)
llist.sortedInsert(new_node)
new_node = Node(10)
llist.sortedInsert(new_node)
new_node = Node(7)
llist.sortedInsert(new_node)
new_node = Node(3)
llist.sortedInsert(new_node)
new_node = Node(1)
llist.sortedInsert(new_node)
new_node = Node(9)
llist.sortedInsert(new_node)
print "Create Linked List"
llist.printList()
# This code is contributed by Nikhil Kumar Singh(nickzuck_007)C#
// C# Program to insert in a sorted list
using System;
public class LinkedList {
Node head; // head of list
/* Linked list Node*/
class Node {
public int data;
public Node next;
public Node(int d)
{
data = d;
next = null;
}
}
/* function to insert a new_node in a list. */
void sortedInsert(Node new_node)
{
Node current;
/* Special case for head node */
if (head == null || head.data >= new_node.data) {
new_node.next = head;
head = new_node;
}
else {
/* Locate the node before
point of insertion. */
current = head;
while (current.next != null && current.next.data < new_node.data)
current = current.next;
new_node.next = current.next;
current.next = new_node;
}
}
/*Utility functions*/
/* Function to create a node */
Node newNode(int data)
{
Node x = new Node(data);
return x;
}
/* Function to print linked list */
void printList()
{
Node temp = head;
while (temp != null) {
Console.Write(temp.data + " ");
temp = temp.next;
}
}
/* Driver code */
public static void Main(String[] args)
{
LinkedList llist = new LinkedList();
Node new_node;
new_node = llist.newNode(5);
llist.sortedInsert(new_node);
new_node = llist.newNode(10);
llist.sortedInsert(new_node);
new_node = llist.newNode(7);
llist.sortedInsert(new_node);
new_node = llist.newNode(3);
llist.sortedInsert(new_node);
new_node = llist.newNode(1);
llist.sortedInsert(new_node);
new_node = llist.newNode(9);
llist.sortedInsert(new_node);
Console.WriteLine("Created Linked List");
llist.printList();
}
}
/* This code is contributed by 29AjayKumar */Javascript
输出:
Created Linked List
1 3 5 7 9 10 复杂度分析:
- 时间复杂度: O(n)。
只需要遍历一次列表。 - 辅助空间: O(1)。
不需要额外的空间。
使用双指针的较短实现:
感谢Murat M Ozturk提供此解决方案。请参阅下面 Murat M Ozturk 的评论以了解完整函数。该代码使用双指针来跟踪上一个节点的下一个指针(在该节点之后插入新节点)。
请注意,代码中的以下行将current更改为具有节点中下一个指针的地址。
current = &((*current)->next);另外,请注意下面的评论。
/* Copies the value-at-address current to
new_node's next pointer*/
new_node->next = *current;
/* Fix next pointer of the node (using its address)
after which new_node is being inserted */
*current = new_node; 时间复杂度: O(n)
参考资料: http : //cslibrary.stanford.edu/105/LinkedListProblems.pdf
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