| Codeforces Round 797 (Div. 3) |
|---|
| Finished |
Recently, Polycarp completed $$$n$$$ successive tasks.
For each completed task, the time $$$s_i$$$ is known when it was given, no two tasks were given at the same time. Also given is the time $$$f_i$$$ when the task was completed. For each task, there is an unknown value $$$d_i$$$ ($$$d_i>0$$$) — duration of task execution.
It is known that the tasks were completed in the order in which they came. Polycarp performed the tasks as follows:
- As soon as the very first task came, Polycarp immediately began to carry it out.
- If a new task arrived before Polycarp finished the previous one, he put the new task at the end of the queue.
- When Polycarp finished executing the next task and the queue was not empty, he immediately took a new task from the head of the queue (if the queue is empty — he just waited for the next task).
Find $$$d_i$$$ (duration) of each task.
The first line contains a single integer $$$t$$$ ($$$1 \le t \le 10^4$$$) — the number of test cases.
The descriptions of the input data sets follow.
The first line of each test case contains one integer $$$n$$$ ($$$1 \le n \le 2 \cdot 10^5$$$).
The second line of each test case contains exactly $$$n$$$ integers $$$s_1 < s_2 < \dots < s_n$$$ ($$$0 \le s_i \le 10^9$$$).
The third line of each test case contains exactly $$$n$$$ integers $$$f_1 < f_2 < \dots < f_n$$$ ($$$s_i < f_i \le 10^9$$$).
It is guaranteed that the sum of $$$n$$$ over all test cases does not exceed $$$2 \cdot 10^5$$$.
For each of $$$t$$$ test cases print $$$n$$$ positive integers $$$d_1, d_2, \dots, d_n$$$ — the duration of each task.
430 3 72 10 11210 1511 16912 16 90 195 1456 1569 3001 5237 1927513 199 200 260 9100 10000 10914 91066 5735533101000000000
2 7 1 1 1 1 183 1 60 7644 900 914 80152 5644467 1000000000
First test case:
The queue is empty at the beginning: $$$[ ]$$$. And that's where the first task comes in. At time $$$2$$$, Polycarp finishes doing the first task, so the duration of the first task is $$$2$$$. The queue is empty so Polycarp is just waiting.
At time $$$3$$$, the second task arrives. And at time $$$7$$$, the third task arrives, and now the queue looks like this: $$$[7]$$$.
At the time $$$10$$$, Polycarp finishes doing the second task, as a result, the duration of the second task is $$$7$$$.
And at time $$$10$$$, Polycarp immediately starts doing the third task and finishes at time $$$11$$$. As a result, the duration of the third task is $$$1$$$.
An example of the first test case.
