As this term is going to end, DRD needs to prepare for his final exams.

DRD has $n$ exams. They are all hard, but their difficulties are different. DRD will spend at least $r_i$ hours on the $i$-th course before its exam starts, or he will fail it. The $i$-th course's exam will take place $e_i$ hours later from now, and it will last for $l_i$ hours. When DRD takes an exam, he must devote himself to this exam and cannot (p)review any courses. Note that DRD can review for discontinuous time.

So he wonder whether he can pass all of his courses.

No two exams will collide.

DRD has $n$ exams. They are all hard, but their difficulties are different. DRD will spend at least $r_i$ hours on the $i$-th course before its exam starts, or he will fail it. The $i$-th course's exam will take place $e_i$ hours later from now, and it will last for $l_i$ hours. When DRD takes an exam, he must devote himself to this exam and cannot (p)review any courses. Note that DRD can review for discontinuous time.

So he wonder whether he can pass all of his courses.

No two exams will collide.

First line: an positive integer $T \leq 20$ indicating the number of test cases.

There are T cases following. In each case, the first line contains an positive integer $n \leq 10^5$, and $n$ lines follow. In each of these lines, there are 3 integers $r_i, e_i, l_i$, where $0 \leq r_i, e_i, l_i \leq 10^9$.

There are T cases following. In each case, the first line contains an positive integer $n \leq 10^5$, and $n$ lines follow. In each of these lines, there are 3 integers $r_i, e_i, l_i$, where $0 \leq r_i, e_i, l_i \leq 10^9$.

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