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📜  K 长度子数组中元素的最大不同质因数

📅  最后修改于: 2021-09-06 06:19:11             🧑  作者: Mango

给定一个由N 个正整数组成的数组arr[]和一个整数K ,任务是在长度为K的子数组中找到最大的不同质因数。

例子:

朴素的方法:最简单的方法是生成所有可能的长度为K 的子数组,并遍历每个子数组并计算其元素的不同质因子。最后,打印为任何子数组获得的不同质因子的最大计数。
时间复杂度: O(N 2 log N)
辅助空间: O(N)

高效的方法:这个想法是使用滑动窗口技术来解决这个问题。请按照以下步骤操作:

  1. 使用 Sieve 生成并存储每个元素的最小素因数。
  2. 将前 K 个数组元素的不同质因数存储在 Map 中。
  3. 通过将当前元素添加到前一个子数组并删除前一个子数组的第一个元素来遍历剩余数组,保持 K 长度窗口
  4. 找到子数组中新添加元素的所有质因数并将其存储在Map 中。从Map 中减去被移除元素的质因数的频率。
  5. 对整个数组完成上述操作后,打印任意子数组得到的最大Map大小作为答案。

下面是上述方法的实现:

C++
// C++ program for the above approach
  
#include 
using namespace std;
  
#define Max 100001
  
// Stores smallest prime
// factor for every number
int spf[Max];
  
// Function to calculate smallest
// prime factor of every number
void sieve()
{
    // Marking smallest prime factor
    // of every number to itself
    for (int i = 1; i < Max; i++)
        spf[i] = i;
  
    // Seperately marking smallest prime
    // factor of every even number to be 2
    for (int i = 4; i < Max; i = i + 2)
        spf[i] = 2;
  
    for (int i = 3; i * i < Max; i++)
  
        // If i is prime
        if (spf[i] == i) {
  
            // Mark spf for all numbers divisible by i
            for (int j = i * i; j < Max; j = j + i) {
  
                // Marking spf[j] if it is not
                // previously marked
                if (spf[j] == j)
                    spf[j] = i;
            }
        }
}
  
// Function to find maximum distinct
// prime factors of subarray of length k
int maximumDPF(int arr[], int n, int k)
{
    // Precalculate Smallest
    // Prime Factors
    sieve();
  
    int ans = 0, num;
  
    // Stores distinct prime factors
    // for subarrays of size k
    unordered_map maps;
  
    // Calculate total prime factors
    // for first k array elements
    for (int i = 0; i < k; i++) {
  
        // Calculate prime factors of
        // every element in O(logn)
        num = arr[i];
        while (num != 1) {
  
            maps[spf[num]]++;
            num = num / spf[num];
        }
    }
  
    // Update maximum distinct
    // prime factors obtained
    ans = max((int)maps.size(), ans);
  
    for (int i = k; i < n; i++) {
  
        // Remove prime factors of
        // the removed element
        num = arr[i - k];
        while (num != 1) {
  
            // Reduce frequencies
            // of prime factors
            maps[spf[num]]--;
  
            if (maps[spf[num]] == 0)
  
                // Erase that index from map
                maps.erase(spf[num]);
  
            num = num / spf[num];
        }
  
        // Find prime factoes of
        // added element
        num = arr[i];
        while (num != 1) {
  
            // Increase frequencies
            // of prime factors
            maps[spf[num]]++;
            num = num / spf[num];
        }
  
        // Update maximum distinct
        // prime factors obtained
        ans = max((int)maps.size(), ans);
    }
  
    return ans;
}
  
// Driver Code
int main()
{
    int arr[] = { 4, 2, 6, 10 };
    int k = 3;
    int n = sizeof(arr) / sizeof(arr[0]);
  
    cout << maximumDPF(arr, n, k) << endl;
  
    return 0;
}


Java
// Java program for the above approach
import java.io.*;
import java.util.*;
  
class GFG {
  
    static int Max = 100001;
    static int spf[] = new int[Max];
  
    // Function to precalculate smallest
    // prime factor of every number
    public static void sieve()
    {
        // Marking smallest prime factor
        // of every number to itself.
        for (int i = 1; i < Max; i++)
            spf[i] = i;
  
        // Seperately marking smallest prime
        // factor of every even number to be 2
        for (int i = 4; i < Max; i = i + 2)
            spf[i] = 2;
  
        for (int i = 3; i * i < Max; i++)
  
            // If i is prime
            if (spf[i] == i) {
  
                // Mark spf for all numbers divisible by i
                for (int j = i * i; j < Max; j = j + i) {
  
                    // Marking spf[j] if it is not
                    // previously marked
                    if (spf[j] == j)
                        spf[j] = i;
                }
            }
    }
  
    // Function to find maximum distinct
    // prime factors of subarray of length k
    public static int maximumDPF(int arr[], int n, int k)
    {
        // Precalculate smallest
        // prime factor
        sieve();
  
        int ans = 0, num;
  
        // Stores distinct prime factors
        // for subarrays of size k
        Map maps
            = new HashMap();
  
        // Calculate total prime factors
        // for first k array elements
        for (int i = 0; i < k; i++) {
  
            // Calculate prime factors of
            // every element in O(logn)
            num = arr[i];
            while (num != 1) {
  
                maps.put(spf[num],
                         maps.getOrDefault(spf[num], 0)
                             + 1);
                num = num / spf[num];
            }
        }
  
        // Update maximum distinct
        // prime factors obtained
        ans = Math.max((int)maps.size(), ans);
  
        for (int i = k; i < n; i++) {
  
            // Remove prime factors of
            // the removed element
            num = arr[i - k];
            while (num != 1) {
  
                // Reduce frequencies
                // of prime factors
                maps.put(spf[num],
                         maps.getOrDefault(spf[num], 0)
                             - 1);
  
                if (maps.get(spf[num]) == 0)
                    maps.remove(spf[num]);
  
                num = num / spf[num];
            }
  
            // Insert prime factors of
            // the added element
            num = arr[i];
            while (num != 1) {
  
                // Increase frequencies
                // of prime factors
                maps.put(spf[num],
                         maps.getOrDefault(spf[num], 0)
                             + 1);
                num = num / spf[num];
            }
  
            // Update maximum distinct
            // prime factors obtained
            ans = Math.max((int)maps.size(), ans);
        }
  
        return ans;
    }
  
    // Driver Code
    public static void main(String[] args)
    {
        int arr[] = { 4, 2, 6, 10 };
  
        int k = 3;
        int n = arr.length;
  
        System.out.println(maximumDPF(arr, n, k));
    }
}


Python3
# Python program for the above approach
import math as mt
  
Max = 100001
  
# Stores smallest prime factor for
# every number
spf = [0 for i in range(Max)]
  
# Function to precalculate smallest
# prime factor of every number
  
  
def sieve():
  
  # Marking smallest prime factor of every
    # number to itself.
    for i in range(1, Max):
        spf[i] = i
  
    # Separately marking spf for
    # every even number as 2
    for i in range(4, Max, 2):
        spf[i] = 2
  
    for i in range(3, mt.ceil(mt.sqrt(Max))):
  
        # Checking if i is prime
        if (spf[i] == i):
  
            # marking SPF for all numbers
            # divisible by i
            for j in range(i * i, Max, i):
  
                # marking spf[j] if it is
                # not previously marked
                if (spf[j] == j):
                    spf[j] = i
  
# Function to find maximum 
# distinct prime factors
# of the subarray of length k
  
  
def maximumDPF(arr, n, k):
  
    # precalculating Smallest Prime Factor
    sieve()
  
    ans = 0
  
    # map to store distinct prime factor
    # for subarray of size k
    maps = {}
  
    # Calculating the total prime factors
    # for first k elements
    for i in range(0, k):
  
        # Calculating prime factors of
        # every element in O(logn)
        num = arr[i]
        while num != 1:
            maps[spf[num]] = maps.get(
                             spf[num], 0)+1
            num = int(num / spf[num])
  
    ans = max(len(maps), ans)
  
    for i in range(k, n):
        
        # Perform operation for
        # removed element
        num = arr[i - k]
        while num != 1:
  
            maps[spf[num]] = maps.get(
                             spf[num], 0)-1
  
            # if value in map become 0,
            # then erase that index from map
            if maps.get(spf[num], 0) == 0:
                maps.pop(spf[num])
  
            num = int(num / spf[num])
  
        # Perform operation for
        # added element
        num = arr[i]
        while num != 1:
  
            maps[spf[num]] = int(maps.get(
                                 spf[num], 0))+1
            num = int(num / spf[num])
  
        ans = max(len(maps), ans)
  
    return ans
  
  
# Driver Code
if __name__ == '__main__':
  
    # Given array arr
    arr = [4, 2, 6, 10]
  
    # Given subarray size K
    k = 3
    n = len(arr)
  
    # Function call
    print(maximumDPF(arr, n, k))


C#
// C# program for the above approach
using System;
using System.Collections.Generic;
  
public class GFG {
  
    public static int Max = 100001;
  
    static int[] spf = new int[Max];
  
    // Function to precalculate smallest
    // prime factor of every number
    public static void sieve()
    {
        // Marking smallest prime factor
        // of every number to itself
        for (int i = 1; i < Max; i++)
            spf[i] = i;
  
        // Marking smallest prime factor
        // of every even number to be 2
        for (int i = 4; i < Max; i = i + 2)
            spf[i] = 2;
  
        for (int i = 3; i * i < Max; i++)
  
            // checking if i is prime
            if (spf[i] == i) {
  
                // Marking spf for all
                // numbers divisible by i
                for (int j = i * i; j < Max; j = j + i) {
  
                    // Marking spf[j] if it is not
                    // previously marked
                    if (spf[j] == j)
                        spf[j] = i;
                }
            }
    }
  
    // Function to find maximum
    // distinct prime factors
    // of the subarray of length k
    public static int maximumDPF(int[] arr,
                                 int n, int k)
    {
        // precalculating Smallest Prime Factor
        sieve();
  
        int ans = 0, num, currentCount;
  
        // Stores distinct prime factors
        // for subarrays of size k
        var maps = new Dictionary();
  
        // Calculating the total prime factors
        // for first k array elements
        for (int i = 0; i < k; i++) {
  
            // Calculating prime factors of
            // every element in O(logn)
            num = arr[i];
            while (num != 1) {
  
                // Increase frequencies of
                // prime factors
                maps.TryGetValue(spf[num],
                                 out currentCount);
                maps[spf[num]] = currentCount + 1;
                num = num / spf[num];
            }
        }
  
        // Update maximum distinct
        // prime factors obtained
        ans = Math.Max(maps.Count, ans);
  
        for (int i = k; i < n; i++) {
  
            // Remove prime factors of
            // removed element
            num = arr[i - k];
            while (num != 1) {
  
                // Reduce frequencies
                // of prime factors
                maps.TryGetValue(spf[num],
                                 out currentCount);
                maps[spf[num]] = currentCount - 1;
  
                if (maps[spf[num]] == 0)
  
                    // Erase that index from map
                    maps.Remove(spf[num]);
  
                num = num / spf[num];
            }
  
            // Insert prime factors
            // added element
            num = arr[i];
            while (num != 1) {
  
                // Increase frequencies
                // of prime factors
                maps.TryGetValue(spf[num],
                                 out currentCount);
                maps[spf[num]] = currentCount + 1;
                num = num / spf[num];
            }
  
            ans = Math.Max(maps.Count, ans);
        }
  
        // Update maximum distinct
        // prime factors obtained
        return ans;
    }
  
    // Driver code
    static public void Main()
    {
  
        // Given array arr[]
        int[] arr = { 4, 2, 6, 10 };
  
        // Given subarray size K
        int k = 3;
        int n = arr.Length;
  
        Console.Write(maximumDPF(arr, n, k));
    }
}


输出:
3

时间复杂度: O(N * log N)
辅助空间: O(N)

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