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Maksimalna uzastopno rastuća duljina staze u binarnom stablu

S obzirom na binarno stablo pronađite duljinu najduže staze koja se sastoji od čvorova s ​​uzastopnim vrijednostima u rastućem redoslijedu. Svaki čvor se smatra stazom duljine 1. 

Primjeri: 



 10 /  /  11 9 /  / /  /  13 12 13 8 Maximum Consecutive Path Length is 3 (10 11 12)   Note  : 10 9 8 is NOT considered since the nodes should be in increasing order. 5 /  /  8 11 /  /  9 10 / / / / 6 15 Maximum Consecutive Path Length is 2 (8 9).

Svaki čvor u binarnom stablu može ili postati dio staze koja počinje od jednog od njegovih roditeljskih čvorova ili nova staza može započeti od samog čvora. Ključ je rekurzivno pronaći duljinu staze za lijevo i desno podstablo i zatim vratiti maksimum. Neke slučajeve treba uzeti u obzir tijekom obilaska stabla o kojima se govori u nastavku.

  • prev : pohranjuje vrijednost nadređenog čvora. Inicijalizirajte prev s jednom vrijednošću manje od korijenskog čvora tako da staza koja počinje od korijena može imati duljinu od najmanje 1. 
  • samo : Pohranjuje duljinu staze koja završava na roditelju trenutno posjećenog čvora.

Slučaj 1 : Vrijednost trenutnog čvora je prev +1 
U ovom slučaju povećajte duljinu staze za 1, a zatim rekurzivno pronađite duljinu staze za lijevo i desno podstablo, a zatim vratite maksimum između dvije duljine.

Slučaj 2 : Vrijednost trenutnog čvora NIJE prev+1 
Nova staza može započeti iz ovog čvora pa rekurzivno pronađite duljinu staze za lijevo i desno podstablo. Put koji završava na nadređenom čvoru trenutnog čvora može biti veći od puta koji počinje od ovog čvora. Dakle, uzmite maksimum puta koji počinje od ovog čvora i koji završava na prethodnom čvoru.



Ispod je implementacija gornje ideje.

C++
// C++ Program to find Maximum Consecutive // Path Length in a Binary Tree #include    using namespace std; // To represent a node of a Binary Tree struct Node {  Node *left *right;  int val; }; // Create a new Node and return its address Node *newNode(int val) {  Node *temp = new Node();  temp->val = val;  temp->left = temp->right = NULL;  return temp; } // Returns the maximum consecutive Path Length int maxPathLenUtil(Node *root int prev_val int prev_len) {  if (!root)  return prev_len;  // Get the value of Current Node  // The value of the current node will be  // prev Node for its left and right children  int cur_val = root->val;  // If current node has to be a part of the  // consecutive path then it should be 1 greater  // than the value of the previous node  if (cur_val == prev_val+1)  {  // a) Find the length of the Left Path  // b) Find the length of the Right Path  // Return the maximum of Left path and Right path  return max(maxPathLenUtil(root->left cur_val prev_len+1)  maxPathLenUtil(root->right cur_val prev_len+1));  }  // Find length of the maximum path under subtree rooted with this  // node (The path may or may not include this node)  int newPathLen = max(maxPathLenUtil(root->left cur_val 1)  maxPathLenUtil(root->right cur_val 1));  // Take the maximum previous path and path under subtree rooted  // with this node.  return max(prev_len newPathLen); } // A wrapper over maxPathLenUtil(). int maxConsecutivePathLength(Node *root) {  // Return 0 if root is NULL  if (root == NULL)  return 0;  // Else compute Maximum Consecutive Increasing Path  // Length using maxPathLenUtil.  return maxPathLenUtil(root root->val-1 0); } //Driver program to test above function int main() {  Node *root = newNode(10);  root->left = newNode(11);  root->right = newNode(9);  root->left->left = newNode(13);  root->left->right = newNode(12);  root->right->left = newNode(13);  root->right->right = newNode(8);  cout << 'Maximum Consecutive Increasing Path Length is '  << maxConsecutivePathLength(root);  return 0; } 
Java
// Java Program to find Maximum Consecutive  // Path Length in a Binary Tree  import java.util.*; class GfG { // To represent a node of a Binary Tree  static class Node  {   Node left right;   int val;  } // Create a new Node and return its address  static Node newNode(int val)  {   Node temp = new Node();   temp.val = val;   temp.left = null;  temp.right = null;   return temp;  }  // Returns the maximum consecutive Path Length  static int maxPathLenUtil(Node root int prev_val int prev_len)  {   if (root == null)   return prev_len;   // Get the value of Current Node   // The value of the current node will be   // prev Node for its left and right children   int cur_val = root.val;   // If current node has to be a part of the   // consecutive path then it should be 1 greater   // than the value of the previous node   if (cur_val == prev_val+1)   {   // a) Find the length of the Left Path   // b) Find the length of the Right Path   // Return the maximum of Left path and Right path   return Math.max(maxPathLenUtil(root.left cur_val prev_len+1)   maxPathLenUtil(root.right cur_val prev_len+1));   }   // Find length of the maximum path under subtree rooted with this   // node (The path may or may not include this node)   int newPathLen = Math.max(maxPathLenUtil(root.left cur_val 1)   maxPathLenUtil(root.right cur_val 1));   // Take the maximum previous path and path under subtree rooted   // with this node.   return Math.max(prev_len newPathLen);  }  // A wrapper over maxPathLenUtil().  static int maxConsecutivePathLength(Node root)  {   // Return 0 if root is NULL   if (root == null)   return 0;   // Else compute Maximum Consecutive Increasing Path   // Length using maxPathLenUtil.   return maxPathLenUtil(root root.val-1 0);  }  //Driver program to test above function  public static void main(String[] args)  {   Node root = newNode(10);   root.left = newNode(11);   root.right = newNode(9);   root.left.left = newNode(13);   root.left.right = newNode(12);   root.right.left = newNode(13);   root.right.right = newNode(8);   System.out.println('Maximum Consecutive Increasing Path Length is '+maxConsecutivePathLength(root));  }  }  
Python3
# Python program to find Maximum consecutive  # path length in binary tree # A binary tree node class Node: # Constructor to create a new node def __init__(self val): self.val = val self.left = None self.right = None # Returns the maximum consecutive path length def maxPathLenUtil(root prev_val prev_len): if root is None: return prev_len # Get the value of current node # The value of the current node will be  # prev node for its left and right children curr_val = root.val # If current node has to be a part of the  # consecutive path then it should be 1 greater # than the value of the previous node if curr_val == prev_val +1 : # a) Find the length of the left path  # b) Find the length of the right path # Return the maximum of left path and right path return max(maxPathLenUtil(root.left curr_val prev_len+1) maxPathLenUtil(root.right curr_val prev_len+1)) # Find the length of the maximum path under subtree  # rooted with this node newPathLen = max(maxPathLenUtil(root.left curr_val 1) maxPathLenUtil(root.right curr_val 1)) # Take the maximum previous path and path under subtree # rooted with this node return max(prev_len  newPathLen) # A Wrapper over maxPathLenUtil() def maxConsecutivePathLength(root): # Return 0 if root is None if root is None: return 0 # Else compute maximum consecutive increasing path  # length using maxPathLenUtil return maxPathLenUtil(root root.val -1  0) # Driver program to test above function root = Node(10) root.left = Node(11) root.right = Node(9) root.left.left = Node(13) root.left.right = Node(12) root.right.left = Node(13) root.right.right = Node(8) print ('Maximum Consecutive Increasing Path Length is') print (maxConsecutivePathLength(root)) # This code is contributed by Nikhil Kumar Singh(nickzuck_007) 
C#
// C# Program to find Maximum Consecutive  // Path Length in a Binary Tree using System; class GfG  {  // To represent a node of a Binary Tree   class Node   {   public Node left right;   public int val;   }  // Create a new Node and return its address   static Node newNode(int val)   {   Node temp = new Node();   temp.val = val;   temp.left = null;  temp.right = null;   return temp;   }   // Returns the maximum consecutive Path Length   static int maxPathLenUtil(Node root   int prev_val int prev_len)   {   if (root == null)   return prev_len;   // Get the value of Current Node   // The value of the current node will be   // prev Node for its left and right children   int cur_val = root.val;   // If current node has to be a part of the   // consecutive path then it should be 1 greater   // than the value of the previous node   if (cur_val == prev_val+1)   {   // a) Find the length of the Left Path   // b) Find the length of the Right Path   // Return the maximum of Left path and Right path   return Math.Max(maxPathLenUtil(root.left cur_val prev_len+1)   maxPathLenUtil(root.right cur_val prev_len+1));   }   // Find length of the maximum path under subtree rooted with this   // node (The path may or may not include this node)   int newPathLen = Math.Max(maxPathLenUtil(root.left cur_val 1)   maxPathLenUtil(root.right cur_val 1));   // Take the maximum previous path and path under subtree rooted   // with this node.   return Math.Max(prev_len newPathLen);   }   // A wrapper over maxPathLenUtil().   static int maxConsecutivePathLength(Node root)   {   // Return 0 if root is NULL   if (root == null)   return 0;   // Else compute Maximum Consecutive Increasing Path   // Length using maxPathLenUtil.   return maxPathLenUtil(root root.val - 1 0);   }   // Driver code  public static void Main(String[] args)   {   Node root = newNode(10);   root.left = newNode(11);   root.right = newNode(9);   root.left.left = newNode(13);   root.left.right = newNode(12);   root.right.left = newNode(13);   root.right.right = newNode(8);   Console.WriteLine('Maximum Consecutive' +  ' Increasing Path Length is '+  maxConsecutivePathLength(root));   }  }  // This code has been contributed by 29AjayKumar 
JavaScript
<script> // Javascript Program to find Maximum Consecutive  // Path Length in a Binary Tree  // To represent a node of a Binary Tree  class Node  {  constructor(val)  {  this.val = val;  this.left = this.right = null;  } } // Returns the maximum consecutive Path Length  function maxPathLenUtil(rootprev_valprev_len) {  if (root == null)   return prev_len;     // Get the value of Current Node   // The value of the current node will be   // prev Node for its left and right children   let cur_val = root.val;     // If current node has to be a part of the   // consecutive path then it should be 1 greater   // than the value of the previous node   if (cur_val == prev_val+1)   {     // a) Find the length of the Left Path   // b) Find the length of the Right Path   // Return the maximum of Left path and Right path   return Math.max(maxPathLenUtil(root.left cur_val prev_len+1)   maxPathLenUtil(root.right cur_val prev_len+1));   }     // Find length of the maximum path under subtree rooted with this   // node (The path may or may not include this node)   let newPathLen = Math.max(maxPathLenUtil(root.left cur_val 1)   maxPathLenUtil(root.right cur_val 1));     // Take the maximum previous path and path under subtree rooted   // with this node.   return Math.max(prev_len newPathLen);  } // A wrapper over maxPathLenUtil().  function maxConsecutivePathLength(root) {  // Return 0 if root is NULL   if (root == null)   return 0;     // Else compute Maximum Consecutive Increasing Path   // Length using maxPathLenUtil.   return maxPathLenUtil(root root.val-1 0);  } // Driver program to test above function  let root = new Node(10);  root.left = new Node(11);  root.right = new Node(9);  root.left.left = new Node(13);  root.left.right = new Node(12);  root.right.left = new Node(13);  root.right.right = new Node(8);  document.write('Maximum Consecutive Increasing Path Length is '+  maxConsecutivePathLength(root)+'  
'
); // This code is contributed by rag2127 </script>

Izlaz
Maximum Consecutive Increasing Path Length is 3

Vremenska složenost: O(n^2) gdje je n broj čvorova u danom binarnom stablu.
Pomoćni prostor: O(log(n))