假设我们有两个整数x和n,我们的任务是搜索长度大于或等于n的值的第一个连续的1s(32位二进制)流,并返回其位置。如果不存在这样的字符串,则返回-1。例如,如果x = 35,并且n = 2,则结果将为31。32位整数中35的二进制表示类似于-
00000000000000000000000000000000100011。因此在索引31处出现两个连续的1,因此答案为31。
为了解决这个问题,我们必须找到前导零的数量,然后从该计数中找出连续的1。让我们看一下示例以获得更好的主意。
#include<iostream>
using namespace std;
int leadingZeroCount(int x) {
unsigned y;
int n;
n = 32;
for(int i = 16; i > 1; i = i/2 ){
y = x >> i;
if(y != 0){
n -= i;
x = y;
}
}
y = x >> 1;
if (y != 0)
return n - 2;
return n - x;
}
int consecutiveOnePosition(unsigned x, int n) {
int k, p;
p = 0;
while (x != 0) {
k = leadingZeroCount(x);
x = x << k;
p = p + k;
k = leadingZeroCount(~x);
if (k >= n)
return p + 1;
x = x << k;
p = p + k;
}
return -1;
}
int main() {
int x = 35;
int n = 2;
cout << "Consecutive 1s of length " << n << " is starting from index: " << consecutiveOnePosition(x, n);
}输出结果
Consecutive 1s of length 2 is starting from index: 31