A state with $n$ flags of ON or OFF can be represented by a sequence of bits where $0, 1, ..., n-1$ -th flag corresponds to 1 (ON) or 0 (OFF). The state can be managed by the corresponding decimal integer, because the sequence of bits is a binary representation where each bit is 0 or 1.
On the other hand, a mask is a special bit sequence which can be used to set specified bits of a given bit sequence to ON/OFF. It can also be used to extract/exclude a bit sequence based on a specified pattern.
Given a sequence of bits with 64 flags which represent a state, perform the following operations using a set of pre-defined masks. Note that each flag of the bits is initialized by OFF.
The input is given in the following format.
$n$
$mask_0$
$mask_1$
:
$mask_{n-1}$
$q$
$query_1$
$query_2$
:
$query_q$
$n$ is the number of masks. $mask_i$ represents state of $i$-th mask and is given in the following format:
$k$ $b_0$ $b_1$ ... $b_k$
$k$ is the number of ON in the bits. The following $k$ integers $b_j$ show that $b_j$-th bit is ON.
$query_i$ represents $i$-th query and is given in the following format:
0 $i$
or
1 $m$
or
2 $m$
or
3 $m$
or
4 $m$
or
5 $m$
or
6 $m$
or
7 $m$
or
8 $m$
The first digit 0, 1,...,8 represents the operation test(i), set(m), clear(m), flip(m), all(m), any(m), none(m), count(m) or val(m) respectively.
Print the result in a line for each test, all, any, none, count and val operation.
3 3 0 1 3 1 3 3 0 1 2 8 1 0 2 1 3 1 4 2 5 2 6 2 7 2 8 2
0 1 0 2 3