Petra and Jan have just received a box full of free goodies, and want to divide the goodies between them. However, it is not easy to do this fairly, since they both value different goodies differently.
To divide the goodies, they have decided upon the following procedure: they choose goodies one by one, in turn, until all the goodies are chosen. A coin is tossed to decide who gets to choose the first goodie.
Petra and Jan have different strategies in deciding what to choose. When faced with a choice, Petra always selects the goodie that is most valuable to her. In case of a tie, she is very considerate and picks the one that is least valuable to Jan. (Since Petra and Jan are good friends, they know exactly how much value the other places on each goodie.)
Jan’s strategy, however, consists of maximizing his own final value. He is also very considerate, so if multiple choices lead to the same optimal result, he prefers Petra to have as much final value as possible.
You are given the result of the initial coin toss. After Jan and Petra have finished dividing all the goodies between themselves, what is the total value of the goodies each of them ends up with?
On the first line a positive integer: the number of test cases, at most 100. After that per test case:
One line with an integer $n$ $(1\le n\le 1\, 000)$: the number of goodies.
One line with a string, either “Petra” or “Jan”: the person that chooses first.
$n$ lines with two integers $p_ i$ and $j_ i$ $(0\le p_ i,j_ i\le 1\, 000)$ each: the values that Petra and Jan assign to the $i$-th goodie, respectively.
Per test case:
One line with two integers: the value Petra gets and the value Jan gets. Both values must be according to their own valuations.
|Sample Input 1||Sample Output 1|
3 4 Petra 100 80 70 80 50 80 30 50 4 Petra 10 1 1 10 6 6 4 4 7 Jan 4 1 3 1 2 1 1 1 1 2 1 3 1 4
170 130 14 16 9 10