Problem - 1703C - Codeforces

Codeforces Round 806 (Div. 4)
Finished

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Luca has a cypher made up of a sequence of $$$n$$$ wheels, each with a digit $$$a_i$$$ written on it. On the $$$i$$$-th wheel, he made $$$b_i$$$ moves. Each move is one of two types:

up move (denoted by $$$\texttt{U}$$$): it increases the $$$i$$$-th digit by $$$1$$$. After applying the up move on $$$9$$$, it becomes $$$0$$$.
down move (denoted by $$$\texttt{D}$$$): it decreases the $$$i$$$-th digit by $$$1$$$. After applying the down move on $$$0$$$, it becomes $$$9$$$.

$\text{[math]}$ Example for $$$n=4$$$. The current sequence is 0 0 0 0.

Luca knows the final sequence of wheels and the moves for each wheel. Help him find the original sequence and crack the cypher.

Input

The first line contains a single integer $$$t$$$ ($$$1 \leq t \leq 100$$$) — the number of test cases.

The first line of each test case contains a single integer $$$n$$$ ($$$1 \leq n \leq 100$$$) — the number of wheels.

The second line contains $$$n$$$ integers $$$a_i$$$ ($$$0 \leq a_i \leq 9$$$) — the digit shown on the $$$i$$$-th wheel after all moves have been performed.

Then $$$n$$$ lines follow, the $$$i$$$-th of which contains the integer $$$b_i$$$ ($$$1 \leq b_i \leq 10$$$) and $$$b_i$$$ characters that are either $$$\texttt{U}$$$ or $$$\texttt{D}$$$ — the number of moves performed on the $$$i$$$-th wheel, and the moves performed. $$$\texttt{U}$$$ and $$$\texttt{D}$$$ represent an up move and a down move respectively.

Output

For each test case, output $$$n$$$ space-separated digits — the initial sequence of the cypher.

Example

Input

3
3
9 3 1
3 DDD
4 UDUU
2 DU
2
0 9
9 DDDDDDDDD
9 UUUUUUUUU
5
0 5 9 8 3
10 UUUUUUUUUU
3 UUD
8 UUDUUDDD
10 UUDUUDUDDU
4 UUUU

Output

2 1 1 
9 0 
0 4 9 6 9

Note

In the first test case, we can prove that initial sequence was $$$[2,1,1]$$$. In that case, the following moves were performed:

On the first wheel: $$$2 \xrightarrow[\texttt{D}]{} 1 \xrightarrow[\texttt{D}]{} 0 \xrightarrow[\texttt{D}]{} 9$$$.
On the second wheel: $$$1 \xrightarrow[\texttt{U}]{} 2 \xrightarrow[\texttt{D}]{} 1 \xrightarrow[\texttt{U}]{} 2 \xrightarrow[\texttt{U}]{} 3$$$.
On the third wheel: $$$1 \xrightarrow[\texttt{D}]{} 0 \xrightarrow[\texttt{U}]{} 1$$$.

The final sequence was $$$[9,3,1]$$$, which matches the input.