Description:
You are given an array $$$a$$$ consisting of $$$n$$$ distinct elements and an integer $$$k$$$. Each element in the array is a non-negative integer not exceeding $$$2^k-1$$$.
Let's define the XOR distance for a number $$$x$$$ as the value of
$$$$$$f(x) = \min\limits_{i = 1}^{n} \min\limits_{j = i + 1}^{n} |(a_i \oplus x) - (a_j \oplus x)|,$$$$$$
where $$$\oplus$$$ denotes the bitwise XOR operation.
For every integer $$$x$$$ from $$$0$$$ to $$$2^k-1$$$, you have to calculate $$$f(x)$$$.
Input:
The first line contains two integers $$$n$$$ and $$$k$$$ ($$$1 \le k \le 19$$$; $$$2 \le n \le 2^k$$$).
The second line contains $$$n$$$ integers $$$a_1, a_2, \dots, a_n$$$ ($$$0 \le a_i \le 2^k-1$$$). All these integers are distinct.
Output:
Print $$$2^k$$$ integers. The $$$i$$$-th of them should be equal to $$$f(i-1)$$$.
Sample Input:
3 3
6 0 3
Sample Output:
3 1 1 2 2 1 1 3
Sample Input:
3 4
13 4 2
Sample Output:
2 2 6 6 3 1 2 2 2 2 1 3 6 6 2 2
Note:
Consider the first example:
- for $$$x = 0$$$, if we apply bitwise XOR to the elements of the array with $$$x$$$, we get the array $$$[6, 0, 3]$$$, and the minimum absolute difference of two elements is $$$3$$$;
- for $$$x = 1$$$, if we apply bitwise XOR to the elements of the array with $$$x$$$, we get the array $$$[7, 1, 2]$$$, and the minimum absolute difference of two elements is $$$1$$$;
- for $$$x = 2$$$, if we apply bitwise XOR to the elements of the array with $$$x$$$, we get the array $$$[4, 2, 1]$$$, and the minimum absolute difference of two elements is $$$1$$$;
- for $$$x = 3$$$, if we apply bitwise XOR to the elements of the array with $$$x$$$, we get the array $$$[5, 3, 0]$$$, and the minimum absolute difference of two elements is $$$2$$$;
- for $$$x = 4$$$, if we apply bitwise XOR to the elements of the array with $$$x$$$, we get the array $$$[2, 4, 7]$$$, and the minimum absolute difference of two elements is $$$2$$$;
- for $$$x = 5$$$, if we apply bitwise XOR to the elements of the array with $$$x$$$, we get the array $$$[3, 5, 6]$$$, and the minimum absolute difference of two elements is $$$1$$$;
- for $$$x = 6$$$, if we apply bitwise XOR to the elements of the array with $$$x$$$, we get the array $$$[0, 6, 5]$$$, and the minimum absolute difference of two elements is $$$1$$$;
- for $$$x = 7$$$, if we apply bitwise XOR to the elements of the array with $$$x$$$, we get the array $$$[1, 7, 4]$$$, and the minimum absolute difference of two elements is $$$3$$$.