Problem Statement

There is a huge kusunoki (camphor tree) in front of the clock tower of Kyoto University. It is reported that this kusunoki has the following structure.

• There exists a positive integer N and the kusunoki has 2^N-1 branch points, which are numbered from 1 to 2^N-1.
• For each integer i that holds 1 \leq i \leq 2^{N-1}-1, the kusunoki has branches according to the following rules.
  • Branch point i and 2i are connected with a branch.
  • Branch point i and 2i + 1 are connected with a branch.
• There is no branch that does not hold the above rules.

For example, for N=3, the structure of the kusunoki is as follows.

Kusunoki N=3

You want to climb this kusunoki. You can climb from branch point S to T if and only if S=T or there exists a path of branches from S to T, where the numbers of branch points are in ascending order from S to T. Given two integers S and T, determine whether you can climb from branch point S to T. Also, if it is possible, answer the lowerst number of branches you need to climb.

Constraints

• 1 \leq N \leq 25
• 1 \leq S \leq 2^N-1
• 1 \leq T \leq 2^N-1
• N,S,T are integers.

Sample Input 1

3 2 4

Sample Output 1

1

Since you can climb from branch point 2 to 4 through one branch, print 1.

Sample Input 2

3 7 1

Sample Output 2

-1

Sample Input 3

4 2 2

Sample Output 3

0