Invertir una lista enlazada según su tamaño

Dada una lista enlazada con n Nodes, inviértala de la siguiente manera: 
 

  1. Si n es par, inviértalo en un grupo de n/2 Nodes.
  2. Si n es impar, mantenga el Node medio como está, invierta los primeros n/2 elementos e invierta los últimos n/2 elementos.

Ejemplos: 
 

Entrada: 1 2 3 4 5 6 (n es par) 
Salida: 3 2 1 6 5 4
Entrada: 1 2 3 4 5 6 7 (n es impar) 
Salida: 3 2 1 4 7 6 5 
 

Enfoque: La idea es similar a Invertir una lista enlazada en grupos de tamaño k donde k es n/2. Solo necesita verificar el Node medio. 
 

  • Si n es par, divida la lista enlazada en dos partes, es decir, los primeros n/2 elementos y los últimos n/2 elementos e invierta ambas partes.
  • Si n es impar, divida la lista enlazada en tres partes, es decir, los primeros n/2 elementos, (n/2 + 1) el elemento th y los últimos n/2 elementos e invierta ambas partes excepto (n/2 + 1) el elemento th.

C++

// C++ program to reverse given
// linked list according to its size
#include <bits/stdc++.h>
using namespace std;
 
struct Node {
    int data;
    Node* next;
};
 
// Function to create a new Node
Node* newNode(int data)
{
    Node *temp = new Node;
    temp->data = data;
    temp->next = NULL;
    return temp;
}
 
// Prints a list.
void printList(Node* head)
{
    Node *temp = head;
    while (temp) {
        cout << temp->data << " ";
        temp = temp->next;
    }
    cout << endl;
}
 
/* Function to push a Node */
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;
}
 
// Returns size of list.
int getSize(Node* head)
{
    Node* curr = head;
    int count = 0;
    while (curr) {
        curr = curr->next;
        count++;
    }
    return count;
}
 
// Function to reverse the linked
// list according to its size
Node* reverseSizeBy2Util(Node* head, int k,
                            bool skipMiddle)
{
    if (!head)
        return NULL;
 
    int count = 0;
    Node* curr = head;
    Node* prev = NULL;
    Node* next;
 
    // Reverse current block of list.
    while (curr && count < k) {
        next = curr->next;
        curr->next = prev;
        prev = curr;
        curr = next;
        count++;
    }
 
    // If size is even, reverse next block too.
    if (!skipMiddle)
        head->next = reverseSizeBy2Util(next, k, false);
 
    else {
 
        // if size is odd, skip next element
        // and reverse the block after that.
        head->next = next;
        if (next)
            next->next = reverseSizeBy2Util(next->next,
                                              k, true);
    }
    return prev;
}
 
Node* reverseBySizeBy2(Node* head)
{
    // Get the size of list.
    int n = getSize(head);
 
    // If the size is even, no need
    // to skip middle Node.
    if (n % 2 == 0)
        return reverseSizeBy2Util(head, n/2, false);
 
    // If size is odd, middle Node has
    // to be skipped.
    else
        return reverseSizeBy2Util(head, n/2, true);
}
 
// Drivers code
int main()
{
    /* Start with the empty list */
    Node* head = NULL;
 
    /* Created Linked list is 1->2->3->4->5->6->7->8->9 */
    push(&head, 9);
    push(&head, 8);
    push(&head, 7);
    push(&head, 6);
    push(&head, 5);
    push(&head, 4);
    push(&head, 3);
    push(&head, 2);
    push(&head, 1);
 
    cout << "Original List : ";
    printList(head);
 
    cout << "Reversed List : ";
    Node* reversedHead = reverseBySizeBy2(head);
    printList(reversedHead);
 
    return 0;
}

Java

// Java program to reverse given
// linked list according to its size
class GFG
{
 
static class Node
{
    int data;
    Node next;
};
 
// Function to create a new Node
static Node newNode(int data)
{
    Node temp = new Node();
    temp.data = data;
    temp.next = null;
    return temp;
}
 
// Prints a list.
static void printList(Node head)
{
    Node temp = head;
    while (temp != null)
    {
        System.out.print( temp.data + " ");
        temp = temp.next;
    } System.out.println();
}
 
// Function to push a Node
static Node 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;
    return head_ref;
}
 
// Returns size of list.
static int getSize(Node head)
{
    Node curr = head;
    int count = 0;
    while (curr != null)
    {
        curr = curr.next;
        count++;
    }
    return count;
}
 
// Function to reverse the linked
// list according to its size
static Node reverseSizeBy2Util(Node head, int k,
                            boolean skipMiddle)
{
    if (head == null)
        return null;
 
    int count = 0;
    Node curr = head;
    Node prev = null;
    Node next=null;
 
    // Reverse current block of list.
    while (curr!=null && count < k)
    {
        next = curr.next;
        curr.next = prev;
        prev = curr;
        curr = next;
        count++;
    }
 
    // If size is even, reverse next block too.
    if (!skipMiddle)
        head.next = reverseSizeBy2Util(next, k, false);
 
    else
    {
 
        // if size is odd, skip next element
        // and reverse the block after that.
        head.next = next;
        if (next != null)
            next.next = reverseSizeBy2Util(next.next,
                                            k, true);
    }
    return prev;
}
 
static Node reverseBySizeBy2(Node head)
{
    // Get the size of list.
    int n = getSize(head);
 
    // If the size is even, no need
    // to skip middle Node.
    if (n % 2 == 0)
        return reverseSizeBy2Util(head, n/2, false);
 
    // If size is odd, middle Node has
    // to be skipped.
    else
        return reverseSizeBy2Util(head, n/2, true);
}
 
// Driver code
public static void main(String args[])
{
    // Start with the empty list /
    Node head = null;
 
    // Created Linked list is 1.2.3.4.5.6.7.8.9 /
    head = push(head, 9);
    head = push(head, 8);
    head = push(head, 7);
    head = push(head, 6);
    head = push(head, 5);
    head = push(head, 4);
    head = push(head, 3);
    head = push(head, 2);
    head = push(head, 1);
 
    System.out.print( "Original List : ");
    printList(head);
 
    System.out.print( "Reversed List : ");
    Node reversedHead = reverseBySizeBy2(head);
    printList(reversedHead);
}
}
 
// This code is contributed by Arnab Kundu

Python3

# Python3 program to reverse given
# linked list according to its size
 
class Node:
     
    def __init__(self, data):
        self.data = data
        self.next = None
 
# Prints a list.
def printList(head):
  
    temp = head
    while temp: 
        print(temp.data, end = " ")
        temp = temp.next
      
    print()
 
# Function to push a Node
def push(head_ref, new_data):
  
    new_Node = Node(new_data)
    new_Node.next = head_ref
    head_ref = new_Node
     
    return head_ref
 
# Returns size of list.
def getSize(head):
  
    curr = head
    count = 0
    while curr: 
        curr = curr.next
        count += 1
      
    return count
  
# Function to reverse the linked
# list according to its size
def reverseSizeBy2Util(head, k, skipMiddle):
  
    if not head:
        return None
 
    count = 0
    curr, prev, next = head, None, None
     
    # Reverse current block of list.
    while curr and count < k:
        next = curr.next
        curr.next = prev
        prev = curr
        curr = next
        count += 1
      
    # If size is even, reverse next block too.
    if not skipMiddle:
        head.next = reverseSizeBy2Util(next, k, False)
 
    else:
 
        # if size is odd, skip next element
        # and reverse the block after that.
        head.next = next
        if next:
            next.next = reverseSizeBy2Util(next.next,
                                            k, True)
      
    return prev
  
def reverseBySizeBy2(head):
  
    # Get the size of list.
    n = getSize(head)
 
    # If the size is even, no
    # need to skip middle Node.
    if n % 2 == 0:
        return reverseSizeBy2Util(head, n//2, False)
 
    # If size is odd, middle
    # Node has to be skipped.
    else:
        return reverseSizeBy2Util(head, n//2, True)
  
# Drivers code
if __name__ == "__main__":
  
    # Start with the empty list
    head = None
 
    # Created Linked list is 1.2.3.4.5.6.7.8.9
    head = push(head, 9)
    head = push(head, 8)
    head = push(head, 7)
    head = push(head, 6)
    head = push(head, 5)
    head = push(head, 4)
    head = push(head, 3)
    head = push(head, 2)
    head = push(head, 1)
 
    print("Original List : ", end = "")
    printList(head)
 
    print("Reversed List : ", end = "")
    reversedHead = reverseBySizeBy2(head)
    printList(reversedHead)
  
# This code is contributed by Rituraj Jain

C#

// C# program to reverse given
// linked list according to its size
using System;
     
class GFG
{
 
public class Node
{
    public int data;
    public Node next;
};
 
// Function to create a new Node
static Node newNode(int data)
{
    Node temp = new Node();
    temp.data = data;
    temp.next = null;
    return temp;
}
 
// Prints a list.
static void printList(Node head)
{
    Node temp = head;
    while (temp != null)
    {
        Console.Write( temp.data + " ");
        temp = temp.next;
    } Console.WriteLine();
}
 
// Function to push a Node
static Node 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;
    return head_ref;
}
 
// Returns size of list.
static int getSize(Node head)
{
    Node curr = head;
    int count = 0;
    while (curr != null)
    {
        curr = curr.next;
        count++;
    }
    return count;
}
 
// Function to reverse the linked
// list according to its size
static Node reverseSizeBy2Util(Node head, int k,
                            Boolean skipMiddle)
{
    if (head == null)
        return null;
 
    int count = 0;
    Node curr = head;
    Node prev = null;
    Node next=null;
 
    // Reverse current block of list.
    while (curr!=null && count < k)
    {
        next = curr.next;
        curr.next = prev;
        prev = curr;
        curr = next;
        count++;
    }
 
    // If size is even, reverse next block too.
    if (!skipMiddle)
        head.next = reverseSizeBy2Util(next, k, false);
 
    else
    {
 
        // if size is odd, skip next element
        // and reverse the block after that.
        head.next = next;
        if (next != null)
            next.next = reverseSizeBy2Util(next.next,
                                            k, true);
    }
    return prev;
}
 
static Node reverseBySizeBy2(Node head)
{
    // Get the size of list.
    int n = getSize(head);
 
    // If the size is even, no need
    // to skip middle Node.
    if (n % 2 == 0)
        return reverseSizeBy2Util(head, n/2, false);
 
    // If size is odd, middle Node has
    // to be skipped.
    else
        return reverseSizeBy2Util(head, n/2, true);
}
 
// Driver code
public static void Main(String []args)
{
    // Start with the empty list /
    Node head = null;
 
    // Created Linked list is 1.2.3.4.5.6.7.8.9 /
    head = push(head, 9);
    head = push(head, 8);
    head = push(head, 7);
    head = push(head, 6);
    head = push(head, 5);
    head = push(head, 4);
    head = push(head, 3);
    head = push(head, 2);
    head = push(head, 1);
 
    Console.Write( "Original List : ");
    printList(head);
 
    Console.Write( "Reversed List : ");
    Node reversedHead = reverseBySizeBy2(head);
    printList(reversedHead);
}
}
 
// This code is contributed by Rajput-Ji

Javascript

<script>
 
      // JavaScript program to reverse given
      // linked list according to its size
      class Node {
        constructor() {
          this.data = 0;
          this.next = null;
        }
      }
 
      // Function to create a new Node
      function newNode(data) {
        var temp = new Node();
        temp.data = data;
        temp.next = null;
        return temp;
      }
 
      // Prints a list.
      function printList(head) {
        var temp = head;
        while (temp != null) {
          document.write(temp.data + " ");
          temp = temp.next;
        }
        document.write("<br>");
      }
 
      // Function to push a Node
      function push(head_ref, new_data) {
        var new_Node = new Node();
        new_Node.data = new_data;
        new_Node.next = head_ref;
        head_ref = new_Node;
        return head_ref;
      }
 
      // Returns size of list.
      function getSize(head) {
        var curr = head;
        var count = 0;
        while (curr != null) {
          curr = curr.next;
          count++;
        }
        return count;
      }
 
      // Function to reverse the linked
      // list according to its size
      function reverseSizeBy2Util(head, k, skipMiddle) {
        if (head == null) return null;
 
        var count = 0;
        var curr = head;
        var prev = null;
        var next = null;
 
        // Reverse current block of list.
        while (curr != null && count < k) {
          next = curr.next;
          curr.next = prev;
          prev = curr;
          curr = next;
          count++;
        }
 
        // If size is even, reverse next block too.
        if (!skipMiddle) head.next =
        reverseSizeBy2Util(next, k, false);
        else {
          // if size is odd, skip next element
          // and reverse the block after that.
          head.next = next;
          if (next != null) next.next =
          reverseSizeBy2Util(next.next, k, true);
        }
        return prev;
      }
 
      function reverseBySizeBy2(head) {
        // Get the size of list.
        var n = getSize(head);
 
        // If the size is even, no need
        // to skip middle Node.
        if (n % 2 == 0)
        return reverseSizeBy2Util(head, parseInt(n / 2), false);
        // If size is odd, middle Node has
        // to be skipped.
        else
        return reverseSizeBy2Util(head, parseInt(n / 2), true);
      }
 
      // Driver code
      // Start with the empty list /
      var head = null;
 
      // Created Linked list is 1.2.3.4.5.6.7.8.9 /
      head = push(head, 9);
      head = push(head, 8);
      head = push(head, 7);
      head = push(head, 6);
      head = push(head, 5);
      head = push(head, 4);
      head = push(head, 3);
      head = push(head, 2);
      head = push(head, 1);
 
      document.write("Original List : ");
      printList(head);
 
      document.write("Reversed List : ");
      var reversedHead = reverseBySizeBy2(head);
      printList(reversedHead);
       
</script>
Producción: 

Original List : 1 2 3 4 5 6 7 8 9 
Reversed List : 4 3 2 1 5 9 8 7 6

 

Publicación traducida automáticamente

Artículo escrito por Aashish Chauhan y traducido por Barcelona Geeks. The original can be accessed here. Licence: CCBY-SA

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