给定正整数N ,任务是重新排列给定整数的数字,以使该整数成为2的幂。如果存在多个解决方案,则打印可能的最小整数而不以0开头。否则,打印-1 。
例子:
Input: N = 460
Output: 64
Explanation:
64 is a power of 2, the required output is 64.
Input: 36
Output: -1
Explanation:
Possible rearrangement of the integer are { 36, 63 }.
Therefore, the required output is -1.
方法:想法是生成给定整数的所有数字排列。对于每个排列,请检查整数是否为2的幂。如果发现为真,则打印整数。否则,打印-1 。请按照以下步骤解决问题:
- 将给定的整数转换为字符串,例如str 。
- 按升序对字符串进行排序。
- 生成字符串的所有可能排列。对于每个排列,请检查字符串的等效整数值是否为2的幂。如果发现是真实的,则打印数字。
- 如果不存在整数的这种排列,则打印-1 。
下面是上述方法的实现:
C++
// C++ program to implement
// the above approach
#include
using namespace std;
// Function to rearrange the digits of N
// such that N become power of 2
int reorderedPowerOf2(int n)
{
// Stores digits of N
string str = to_string(n);
// Sort the string
// ascending order
sort(str.begin(), str.end());
// Stores count of digits in N
int sz = str.length();
// Generate all permutation and check if
// the permutation if power of 2 or not
do {
// Update n
n = stoi(str);
// If n is power of 2
if (n && !(n & (n - 1))) {
return n;
}
} while (next_permutation(str.begin(), str.end()));
return -1;
}
// Driver Code
int main()
{
int n = 460;
cout << reorderedPowerOf2(n);
return 0;
} Java
// Java program to implement
// the above approach
import java.io.*;
import java.util.*;
class GFG {
static void swap(char[] chars, int i, int j)
{
char ch = chars[i];
chars[i] = chars[j];
chars[j] = ch;
}
static void reverse(char[] chars, int start)
{
for (int i = start, j = chars.length - 1; i < j;
i++, j--) {
swap(chars, i, j);
}
}
// Function to find lexicographically next permutations
// of a string. It returns true if the string could be
// rearranged as a lexicographically greater permutation
// else it returns false
static boolean next_permutation(char[] chars)
{
// Find largest index i such
// that chars[i - 1] is less than chars[i]
int i = chars.length - 1;
while (chars[i - 1] >= chars[i]) {
// if i is first index of the string,
// that means we are already at
// highest possible permutation i.e.
// string is sorted in desc order
if (--i == 0) {
return false;
}
}
// if we reach here, substring chars[i..n)
// is sorted in descending order
// i.e. chars[i-1] < chars[i] >= chars[i+1] >=
// chars[i+2] >= ... >= chars[n-1]
// Find highest index j to the right of index i such
// that chars[j] > chars[i–1]
int j = chars.length - 1;
while (j > i && chars[j] <= chars[i - 1]) {
j--;
}
// swap characters at index i-1 with index j
swap(chars, i - 1, j);
// reverse the substring chars[i..n) and return true
reverse(chars, i);
return true;
}
// Function to rearrange the digits of N
// such that N become power of 2
static int reorderedPowerOf2(int n)
{
// Stores digits of N
String str = Integer.toString(n);
char[] Str = str.toCharArray();
// Sort the string
// ascending order
Arrays.sort(Str);
// Stores count of digits in N
int sz = Str.length;
// Generate all permutation and check if
// the permutation if power of 2 or not
do {
// Update n
n = Integer.parseInt(new String(Str));
// If n is power of 2
if (n > 0 && ((n & (n - 1)) == 0)) {
return n;
}
} while (next_permutation(Str));
return -1;
}
// Driver code
public static void main(String[] args)
{
int n = 460;
System.out.print(reorderedPowerOf2(n));
}
}
// This code is contributed by Dharanendra L V.Python3
# python program to implement
# the above approach
def next_permutation():
global a
i = len(a) - 2
while not (i < 0 or int(a[i]) < int(a[i + 1])):
i -= 1
if i < 0:
return False
# else
j = len(a) - 1
while not (int(a[j]) > int(a[i])):
j -= 1
a[i], a[j] = a[j], a[i] # swap
# reverse elements from position i+1 till the end of the sequence
a[i + 1:] = reversed(a[i + 1:])
return True
# Function to rearrange the digits of N
# such that N become power of 2
def reorderedPowerOf2(n):
global a
# Sort the string
# ascending order
a = sorted(a)
# Stores count of digits in N
sz = len(a)
# Generate all permutation and check if
# the permutation if power of 2 or not
while True:
# Update n
n = int("".join(a))
# If n is power of 2
if (n and not (n & (n - 1))):
return n
if not next_permutation():
break
return -1
# Driver Code
if __name__ == '__main__':
n = 460
a = [i for i in str(n)]
print(reorderedPowerOf2(n))
# This code is contributed by mohit kumar 29C#
// C# program to implement
// the above approach
using System;
using System.Collections.Generic;
class GFG {
static void swap(char[] chars, int i, int j)
{
char ch = chars[i];
chars[i] = chars[j];
chars[j] = ch;
}
static void reverse(char[] chars, int start)
{
for (int i = start, j = chars.Length - 1; i < j;
i++, j--) {
swap(chars, i, j);
}
}
// Function to find lexicographically next permutations
// of a string. It returns true if the string could be
// rearranged as a lexicographically greater permutation
// else it returns false
static bool next_permutation(char[] chars)
{
// Find largest index i such
// that chars[i - 1] is less than chars[i]
int i = chars.Length - 1;
while (chars[i - 1] >= chars[i]) {
// if i is first index of the string,
// that means we are already at
// highest possible permutation i.e.
// string is sorted in desc order
if (--i == 0) {
return false;
}
}
// if we reach here, substring chars[i..n)
// is sorted in descending order
// i.e. chars[i-1] < chars[i] >= chars[i+1] >=
// chars[i+2] >= ... >= chars[n-1]
// Find highest index j to the right of index i such
// that chars[j] > chars[i–1]
int j = chars.Length - 1;
while (j > i && chars[j] <= chars[i - 1]) {
j--;
}
// swap characters at index i-1 with index j
swap(chars, i - 1, j);
// reverse the substring chars[i..n) and return true
reverse(chars, i);
return true;
}
// Function to rearrange the digits of N
// such that N become power of 2
static int reorderedPowerOf2(int n)
{
// Stores digits of N
string str = n.ToString();
char[] Str = str.ToCharArray();
// Sort the string
// ascending order
Array.Sort(Str);
// Stores count of digits in N
int sz = Str.Length;
// Generate all permutation and check if
// the permutation if power of 2 or not
do {
// Update n
n = Convert.ToInt32(new string(Str));
// If n is power of 2
if (n > 0 && ((n & (n - 1)) == 0)) {
return n;
}
} while (next_permutation(Str));
return -1;
}
// Driver code
static void Main()
{
int n = 460;
Console.WriteLine(reorderedPowerOf2(n));
}
}
// This code is contributed by divyeshrabadiya07.Java
// Java program to implement
// the above approach
import java.io.*;
import java.util.*;
class GFG {
public static int reorderedPowerOf2(int N)
{
int[] arr = digitarr(N);
// N is the given number
// arr have the digit count of N
for (int i = 0; i < 31; i++) {
// check if arr matches with any digitcount
// array of 2^i
if (Arrays.equals(arr, digitarr(1 << i)))
return (int)Math.pow(2, i);
}
return -1;
}
public static int[] digitarr(int n)
{
int[] res
= new int[10]; // stores the digit count of n
while (n > 0) {
if (n % 10 != 0) {
res[n % 10]++;
}
n /= 10;
}
return res;
}
// Driver code
public static void main(String[] args)
{
int n = 460;
System.out.print(reorderedPowerOf2(n));
}
}输出
64时间复杂度: O(log 10 N *(log 10 N)!)
辅助空间: O(log 10 N)
方法二:
我们将创建一个数字数组,该数字数组存储给定数字的数字计数,并迭代2的幂,并检查是否有任何digitcount数组与给定数字digitcount数组匹配。
下面是该方法的实现:
Java
// Java program to implement
// the above approach
import java.io.*;
import java.util.*;
class GFG {
public static int reorderedPowerOf2(int N)
{
int[] arr = digitarr(N);
// N is the given number
// arr have the digit count of N
for (int i = 0; i < 31; i++) {
// check if arr matches with any digitcount
// array of 2^i
if (Arrays.equals(arr, digitarr(1 << i)))
return (int)Math.pow(2, i);
}
return -1;
}
public static int[] digitarr(int n)
{
int[] res
= new int[10]; // stores the digit count of n
while (n > 0) {
if (n % 10 != 0) {
res[n % 10]++;
}
n /= 10;
}
return res;
}
// Driver code
public static void main(String[] args)
{
int n = 460;
System.out.print(reorderedPowerOf2(n));
}
}
输出
64