409099: GYM103438 E Replace Sort
Description
Consider an array $$$A$$$ and a set $$$B$$$ of integers such that all numbers in $$$A$$$ and $$$B$$$ are distinct. Your task is to turn $$$A$$$ into a sorted array. To do this you can take any number from $$$B$$$ and replace any element of $$$A$$$ with it. You can perform this operation any number of times, but each element of $$$B$$$ can be used at most once.
Determine the minimum number of operations needed to turn $$$A$$$ into a sorted array, or determine that it is impossible.
InputThe first line of input contains two integers $$$N$$$ and $$$M$$$ ($$$1 \le N, M \le 5 \cdot 10^5$$$) — the sizes of $$$A$$$ and $$$B$$$ respectively.
The second line contains $$$N$$$ integers $$$A_1, A_2, \ldots, A_N$$$.
The third line contains $$$M$$$ integers $$$B_1, B_2, \ldots, B_M$$$.
All the $$$(N + M)$$$ elements are distinct, positive and do not exceed $$$10^9$$$.
OutputIf it is impossible to turn $$$A$$$ into a sorted array, print $$$-1$$$. Otherwise, print the minimum number of operations needed.
ExamplesInput4 1 2 6 13 10 5Output
-1Input
4 2 2 6 13 10 5 4Output
2Input
4 3 2 6 13 10 5 4 19Output
1Note
In all three examples, the issue is that $$$13 > 10$$$, so we have to change at least one of them.
In the first one, we can decrease $$$13$$$ by replacing it with $$$5$$$, but it breaks the other side, so there is no solution.
In the second one, we also have $$$4$$$, which we can use to fix the broken side. It is impossible to do with less than $$$2$$$ operations.
In the third example we can finally increase the last element, thus fixing $$$A$$$ in 1 operation.