You are given a positive integer p. Consider an array nums (1-indexed) that consists of the integers in the inclusive range [1, 2p - 1] in their binary representations. You are allowed to do the following operation any number of times:
- Choose two elements
xandyfromnums. - Choose a bit in
xand swap it with its corresponding bit iny. Corresponding bit refers to the bit that is in the same position in the other integer.
For example, if x = 1101 and y = 0011, after swapping the 2nd bit from the right, we have x = 1111 and y = 0001.
Find the minimum non-zero product of nums after performing the above operation any number of times. Return this product modulo 109 + 7.
Note: The answer should be the minimum product before the modulo operation is done.
Example 1:
Input: p = 1 Output: 1 Explanation: nums = [1]. There is only one element, so the product equals that element.
Example 2:
Input: p = 2 Output: 6 Explanation: nums = [01, 10, 11]. Any swap would either make the product 0 or stay the same. Thus, the array product of 1 * 2 * 3 = 6 is already minimized.
Example 3:
Input: p = 3
Output: 1512
Explanation: nums = [001, 010, 011, 100, 101, 110, 111]
- In the first operation we can swap the leftmost bit of the second and fifth elements.
- The resulting array is [001, 110, 011, 100, 001, 110, 111].
- In the second operation we can swap the middle bit of the third and fourth elements.
- The resulting array is [001, 110, 001, 110, 001, 110, 111].
The array product is 1 * 6 * 1 * 6 * 1 * 6 * 7 = 1512, which is the minimum possible product.
Constraints:
1 <= p <= 60
class Solution:
def minNonZeroProduct(self, p: int) -> int:
mod = 10**9 + 7
return (2**p - 1) * pow(2**p - 2, 2 ** (p - 1) - 1, mod) % modclass Solution {
public int minNonZeroProduct(int p) {
final int mod = (int) 1e9 + 7;
long a = ((1L << p) - 1) % mod;
long b = qmi(((1L << p) - 2) % mod, (1L << (p - 1)) - 1, mod);
return (int) (a * b % mod);
}
long qmi(long a, long k, long p) {
long res = 1;
while (k != 0) {
if ((k & 1) == 1) {
res = res * a % p;
}
k >>= 1;
a = a * a % p;
}
return res;
}
}class Solution {
public:
int minNonZeroProduct(int p) {
const int mod = 1e9 + 7;
long long a = ((1LL << p) - 1) % mod;
long long b = qmi(((1LL << p) - 2) % mod, (1L << (p - 1)) - 1, mod);
return a * b % mod;
}
long long qmi(long long a, long long k, int p) {
long long res = 1;
while (k != 0) {
if ((k & 1) == 1) {
res = res * a % p;
}
k >>= 1;
a = a * a % p;
}
return res;
}
};func minNonZeroProduct(p int) int {
const mod int = 1e9 + 7
a := ((1 << p) - 1) % mod
b := qmi(((1<<p)-2)%mod, (1<<(p-1))-1, mod)
return a * b % mod
}
func qmi(a, k, p int) int {
res := 1
for k != 0 {
if k&1 == 1 {
res = res * a % p
}
k >>= 1
a = a * a % p
}
return res
}