Along the railroad there are stations indexed from $$$1$$$ to $$$10^9$$$. An express train always travels along a route consisting of $$$n$$$ stations with indices $$$u_1, u_2, \dots, u_n$$$, where ($$$1 \le u_i \le 10^9$$$). The train travels along the route from left to right. It starts at station $$$u_1$$$, then stops at station $$$u_2$$$, then at $$$u_3$$$, and so on. Station $$$u_n$$$ — the terminus.

It is possible that the train will visit the same station more than once. That is, there may be duplicates among the values $$$u_1, u_2, \dots, u_n$$$.

You are given $$$k$$$ queries, each containing two different integers $$$a_j$$$ and $$$b_j$$$ ($$$1 \le a_j, b_j \le 10^9$$$). For each query, determine whether it is possible to travel by train from the station with index $$$a_j$$$ to the station with index $$$b_j$$$.

For example, let the train route consist of $$$6$$$ of stations with indices [$$$3, 7, 1, 5, 1, 4$$$] and give $$$3$$$ of the following queries:

• $$$a_1 = 3$$$, $$$b_1 = 5$$$

  It is possible to travel from station $$$3$$$ to station $$$5$$$ by taking a section of the route consisting of stations [$$$3, 7, 1, 5$$$]. Answer: YES.

• $$$a_2 = 1$$$, $$$b_2 = 7$$$

  You cannot travel from station $$$1$$$ to station $$$7$$$ because the train cannot travel in the opposite direction. Answer: NO.

• $$$a_3 = 3$$$, $$$b_3 = 10$$$

  It is not possible to travel from station $$$3$$$ to station $$$10$$$ because station $$$10$$$ is not part of the train's route. Answer: NO.