Let's say Pak Chanek has an array $$$A$$$ consisting of $$$N$$$ positive integers. Pak Chanek will do a number of operations. In each operation, Pak Chanek will do the following:

1. Choose an index $$$p$$$ ($$$1 \leq p \leq N$$$).
2. Let $$$c$$$ be the number of operations that have been done on index $$$p$$$ before this operation.
3. Decrease the value of $$$A_p$$$ by $$$2^c$$$.
4. Multiply the value of $$$A_p$$$ by $$$2$$$.

After each operation, all elements of $$$A$$$ must be positive integers.

An array $$$A$$$ is said to be sortable if and only if Pak Chanek can do zero or more operations so that $$$A_1 < A_2 < A_3 < A_4 < \ldots < A_N$$$.

Pak Chanek must find an array $$$A$$$ that is sortable with length $$$N$$$ such that $$$A_1 + A_2 + A_3 + A_4 + \ldots + A_N$$$ is the minimum possible. If there are more than one possibilities, Pak Chanek must choose the array that is lexicographically minimum among them.

Pak Chanek must solve the following things:

• Pak Chanek must print the value of $$$A_1 + A_2 + A_3 + A_4 + \ldots + A_N$$$ for that array.
• $$$Q$$$ questions will be given. For the $$$i$$$-th question, an integer $$$P_i$$$ is given. Pak Chanek must print the value of $$$A_{P_i}$$$.

Help Pak Chanek solve the problem.

Note: an array $$$B$$$ of size $$$N$$$ is said to be lexicographically smaller than an array $$$C$$$ that is also of size $$$N$$$ if and only if there exists an index $$$i$$$ such that $$$B_i < C_i$$$ and for each $$$j < i$$$, $$$B_j = C_j$$$.