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📜  计算给定数组中按位XOR大于K的对

📅  最后修改于: 2021-04-22 07:01:11             🧑  作者: Mango

给定大小为N且整数K的数组arr [] ,任务是计算给定数组中的对数,以使每对的按位XOR大于K。

例子:

天真的方法:解决此问题的最简单方法是遍历给定数组并生成给定数组的所有可能的对,对于每对,检查该对的按位XOR是否大于K。如果发现为真,则增加按位XOR大于K的对计数。最后,打印获得的此类对的计数。

时间复杂度:O(N 2 )
辅助空间: O(1)

高效的方法:使用Trie可以解决问题。想法是遍历给定数组,并对每个数组元素,计算Trie中与当前元素按位XOR大于K的元素数,然后将当前元素的二进制表示形式插入Trie 。最后,打印按位XOR大于K的对数。请按照以下步骤解决问题:

  • 创建一个具有根节点的Trie,例如说root,以存储给定数组的每个元素的二进制表示形式。
  • 遍历给定的数组,并计算Trie中与当前元素按位XOR大于K的元素数,并插入当前元素的二进制表示形式。
  • 最后,打印满足给定条件的对数。

下面是上述方法的实现:

C++
// C++ program to implement
// the above approach
 
#include 
using namespace std;
 
// Structure of Trie
struct TrieNode
{
    // Stores binary represention
    // of numbers
    TrieNode *child[2];
 
    // Stores count of elements
    // present in a node 
    int cnt;
     
    // Function to initialize
    // a Trie Node
    TrieNode() {
        child[0] = child[1] = NULL;
        cnt = 0;
    }
};
 
 
// Function to insert a number into Trie
void insertTrie(TrieNode *root, int N) {
     
    // Traverse binary representation of X.
    for (int i = 31; i >= 0; i--) {
         
        // Stores ith bit of N
        bool x = (N) & (1 << i);
         
        // Check if an element already
        // present in Trie having ith bit x.
        if(!root->child[x]) {
             
            // Create a new node of Trie.
            root->child[x] = new TrieNode();
        }
         
        // Update count of elements
        // whose ith bit is x
        root->child[x]->cnt+= 1;
         
        // Update root.
        root= root->child[x];
    }
}
 
 
// Function to count elements
// in Trie whose XOR with N
// exceeds K
int cntGreater(TrieNode * root,
                int N, int K)
{
     
    // Stores count of elements
    // whose XOR with N exceeding K
    int cntPairs = 0;
     
    // Traverse binary representation
    // of N and K in Trie
    for (int i = 31; i >= 0 &&
                     root; i--) {
                                    
        // Stores ith bit of N                        
        bool x = N & (1 << i);
         
        // Stores ith bit of K
        bool y = K & (1 << i);
         
        // If the ith bit of K is 1
        if (y) {
             
            // Update root.
            root =
                root->child[1 - x];
        }
         
        // If the ith bit of K is 0
        else{
             
            // If an element already
            // present in Trie having
            // ith bit (1 - x)
            if (root->child[1 - x]) {
                 
                // Update cntPairs
                cntPairs +=
                root->child[1 - x]->cnt;
            }
             
            // Update root.
            root = root->child[x];
        }
    }
    return cntPairs;
}
 
// Function to count pairs that
// satisfy the given conditions.
int cntGreaterPairs(int arr[], int N,
                             int K) {
     
    // Create root node of Trie
    TrieNode *root = new TrieNode();
     
    // Stores count of pairs that
    // satisfy the given conditions
    int cntPairs = 0;
     
    // Traverse the given array.
    for(int i = 0;i < N; i++){
         
        // Update cntPairs
        cntPairs += cntGreater(root,
                           arr[i], K);
         
        // Insert arr[i] into Trie.
        insertTrie(root, arr[i]);
    }
    return cntPairs;
}
 
//Driver code
int main()
{
    int arr[] = {3, 5, 6, 8};
    int K= 2;
    int N = sizeof(arr) / sizeof(arr[0]);
     
    cout<


Java
// Java program to implement
// the above approach
import java.util.*;
class GFG{
 
// Structure of Trie
static class TrieNode
{
  // Stores binary represention
  // of numbers
  TrieNode []child = new TrieNode[2];
 
  // Stores count of elements
  // present in a node 
  int cnt;
 
  // Function to initialize
  // a Trie Node
  TrieNode()
  {
    child[0] = child[1] = null;
    cnt = 0;
  }
 
};
 
// Function to insert a number
// into Trie
static void insertTrie(TrieNode root,
                       int N)
{
  // Traverse binary representation
  // of X.
  for (int i = 31; i >= 0; i--)
  {
    // Stores ith bit of N
    int x = (N) & (1 << i);
 
    // Check if an element already
    // present in Trie having ith
    // bit x.
    if (x < 2 && root.child[x] == null)
    {
      // Create a new node of Trie.
      root.child[x] = new TrieNode();
    }
 
    // Update count of elements
    // whose ith bit is x
    if(x < 2 && root.child[x] != null)
      root.child[x].cnt += 1;
 
    // Update root.
    if(x < 2)
      root = root.child[x];
  }
}
 
// Function to count elements
// in Trie whose XOR with N
// exceeds K
static int cntGreater(TrieNode root,
                      int N, int K)
{
  // Stores count of elements
  // whose XOR with N exceeding K
  int cntPairs = 1;
 
  // Traverse binary representation
  // of N and K in Trie
  for (int i = 31; i >= 0 &&
           root!=null; i--)
  {
    // Stores ith bit of N
    int x = N & (1 << i);
 
    // Stores ith bit of K
    int y = K & (1 << i);
 
    // If the ith bit of K is 1
    if (y == 1)
    {
      // Update root.
      root = root.child[1 - x];
    }
 
    // If the ith bit of K is 0
    else
    {
      // If an element already
      // present in Trie having
      // ith bit (1 - x)
      if (x < 2 &&
          root.child[1 - x] != null)
      {
        // Update cntPairs
        cntPairs += root.child[1 - x].cnt;
      }
 
      // Update root.
      if(x < 2)
        root = root.child[x];
    }
  }
  return cntPairs;
}
 
// Function to count pairs that
// satisfy the given conditions.
static int cntGreaterPairs(int arr[],
                           int N, int K)
{
  // Create root node of Trie
  TrieNode root = new TrieNode();
 
  // Stores count of pairs that
  // satisfy the given conditions
  int cntPairs = 0;
 
  // Traverse the given array.
  for (int i = 0; i < N; i++)
  {
    // Update cntPairs
    cntPairs += cntGreater(root,
                           arr[i], K);
 
    // Insert arr[i] into Trie.
    insertTrie(root, arr[i]);
  }
  return cntPairs;
}
 
// Driver code
public static void main(String[] args)
{
  int arr[] = {3, 5, 6, 8};
  int K = 2;
  int N = arr.length;
  System.out.print(cntGreaterPairs(arr,
                                   N, K));
}
}
 
// This code is contributed by shikhasingrajput


Python3
# Python3 program to implement
# the above approach
  
# Structure of Trie
class TrieNode:
 
    # Function to initialize
    # a Trie Node
    def __init__(self):
         
        self.child = [None, None]
        self.cnt = 0
 
# Function to insert a number into Trie
def insertTrie(root, N):
     
    # Traverse binary representation of X.
    for i in range(31, -1, -1):
         
        # Stores ith bit of N
        x = bool((N) & (1 << i))
          
        # Check if an element already
        # present in Trie having ith bit x.
        if (root.child[x] == None):
              
            # Create a new node of Trie.
            root.child[x] = TrieNode()
             
        # Update count of elements
        # whose ith bit is x
        root.child[x].cnt += 1
          
        # Update root
        root= root.child[x]
  
# Function to count elements
# in Trie whose XOR with N
# exceeds K
def cntGreater(root, N, K):
      
    # Stores count of elements
    # whose XOR with N exceeding K
    cntPairs = 0
      
    # Traverse binary representation
    # of N and K in Trie
    for i in range(31, -1, -1):
        if (root == None):
            break
                                     
        # Stores ith bit of N                        
        x = bool(N & (1 << i))
          
        # Stores ith bit of K
        y = K & (1 << i)
          
        # If the ith bit of K is 1
        if (y != 0):
              
            # Update root
            root = root.child[1 - x]
          
        # If the ith bit of K is 0
        else:
             
            # If an element already
            # present in Trie having
            # ith bit (1 - x)
            if (root.child[1 - x]):
                  
                # Update cntPairs
                cntPairs += root.child[1 - x].cnt
              
            # Update root
            root = root.child[x]
 
    return cntPairs
 
# Function to count pairs that
# satisfy the given conditions.
def cntGreaterPairs(arr, N, K):
      
    # Create root node of Trie
    root = TrieNode()
      
    # Stores count of pairs that
    # satisfy the given conditions
    cntPairs = 0
      
    # Traverse the given array.
    for i in range(N):
          
        # Update cntPairs
        cntPairs += cntGreater(root, arr[i], K)
          
        # Insert arr[i] into Trie.
        insertTrie(root, arr[i])
     
    return cntPairs
 
# Driver code
if __name__=='__main__':
     
    arr = [ 3, 5, 6, 8 ]
    K = 2
    N = len(arr)
      
    print(cntGreaterPairs(arr, N, K))
     
# This code is contributed by rutvik_56


C#
// C# program to implement
// the above approach
using System;
 
class GFG{
 
// Structure of Trie
public class TrieNode
{
 
  // Stores binary represention
  // of numbers
  public TrieNode []child = new TrieNode[2];
   
  // Stores count of elements
  // present in a node 
  public int cnt;
   
  // Function to initialize
  // a Trie Node
  public TrieNode()
  {
    child[0] = child[1] = null;
    cnt = 0;
  }
};
 
// Function to insert a number
// into Trie
static void insertTrie(TrieNode root,
                       int N)
{
   
  // Traverse binary representation
  // of X.
  for(int i = 31; i >= 0; i--)
  {
     
    // Stores ith bit of N
    int x = (N) & (1 << i);
 
    // Check if an element already
    // present in Trie having ith
    // bit x.
    if (x < 2 && root.child[x] == null)
    {
       
      // Create a new node of Trie.
      root.child[x] = new TrieNode();
    }
 
    // Update count of elements
    // whose ith bit is x
    if(x < 2 && root.child[x] != null)
      root.child[x].cnt += 1;
 
    // Update root.
    if(x < 2)
      root = root.child[x];
  }
}
 
// Function to count elements
// in Trie whose XOR with N
// exceeds K
static int cntGreater(TrieNode root,
                      int N, int K)
{
   
  // Stores count of elements
  // whose XOR with N exceeding K
  int cntPairs = 1;
 
  // Traverse binary representation
  // of N and K in Trie
  for(int i = 31; i >= 0 &&
      root != null; i--)
  {
     
    // Stores ith bit of N
    int x = N & (1 << i);
 
    // Stores ith bit of K
    int y = K & (1 << i);
 
    // If the ith bit of K is 1
    if (y == 1)
    {
       
      // Update root.
      root = root.child[1 - x];
    }
 
    // If the ith bit of K is 0
    else
    {
       
      // If an element already
      // present in Trie having
      // ith bit (1 - x)
      if (x < 2 &&
          root.child[1 - x] != null)
      {
         
        // Update cntPairs
        cntPairs += root.child[1 - x].cnt;
      }
 
      // Update root.
      if(x < 2)
        root = root.child[x];
    }
  }
  return cntPairs;
}
 
// Function to count pairs that
// satisfy the given conditions.
static int cntGreaterPairs(int []arr,
                           int N, int K)
{
   
  // Create root node of Trie
  TrieNode root = new TrieNode();
 
  // Stores count of pairs that
  // satisfy the given conditions
  int cntPairs = 0;
 
  // Traverse the given array.
  for(int i = 0; i < N; i++)
  {
     
    // Update cntPairs
    cntPairs += cntGreater(root,
                           arr[i], K);
 
    // Insert arr[i] into Trie.
    insertTrie(root, arr[i]);
  }
  return cntPairs;
}
 
// Driver code
public static void Main(String[] args)
{
  int []arr = { 3, 5, 6, 8 };
  int K = 2;
  int N = arr.Length;
   
  Console.Write(cntGreaterPairs(arr,
                                N, K));
}
}
 
// This code is contributed by gauravrajput1


输出:
6

时间复杂度:O(N * 32)
辅助空间: O(N * 32)