Hide

Problem I
Once in a Blue Moon

Languages en ja sv

Luna and her brother Solomon live very far from each other. To make sure they still meet now and then Luna has already booked in a number of days in which she will go and visit Solomon. The only way for Luna to get to Solomon is by taking the Orbital. Since Solomon is pretty hot-tempered, Luna never stays during the night but goes there and home during the same day. It’s probably for the best, since Luna works night shifts.

Taking the Orbital of course costs money – orbiting is not a natural law! There are different types of tickets for the Orbital, where each ticket has a certain time of validity and a price (for example there may be a moonthly ticket). A ticket with a longer time of validity is always more expensive than a ticket with a shorter time of validity. Usually, Luna shops at WHMars, but sometimes she travels because of work and can instead visit Sevenus Elevenus, where everything costs half as much as at WHMars.

Luna is visiting Solomon during $N$ different days, $d_1, \dots , d_ N$. There are $M$ different types of tickets, where the $i$’th ticket is valid for $g_ i$ days and costs $p_ i$. $p_ i$ is here the price of the ticket at WHMars. The tickets are only valid for an entire day and night and is valid for exactly $g_ i$ days and nights. This means that if ticket $i$ is purchased during day $d$, it is valid during days $d, d+1, \dots , d+g_ i-1$. If a work trip happens on the same day as a visit to Solomon, Luna is able to buy the cheaper ticket and use it during that day. Note that a ticket purchased during any of these days becomes valid immediately – you can never delay activating a ticket.

Help Luna to buy orbital tickets for all her visits to Solomon and tell her what the smallest possible price is!

Input

The input contains five lines. The first line contains three integers:

  • the number of days $N$ during which Luna visits Solomon ($1\leq N\leq 10^5$)

  • the number of types of tickets $M$ ($1\leq M\leq 10$)

  • the number of days $K$ during which Luna travels due to work ($0\leq K\leq 10^5$).

The second line contains $N$ integers $d_ i$ ($1 \leq d_ i \leq 5\cdot 10^5$), the days during which Luna visits Solomon.

The third line contains $M$ integers $g_ i$ ($1 \leq g_ i \leq 5\cdot 10^5$), the times of validity for the various tickets.

The fourth line contains $M$ integers $p_ i$ ($2 \leq p_ i \leq 10^4$), the prices for the different types of the tickets at WHMars. $p_ i$ is always even.

The fifth and final line contains $K$ integers $r_ i$ ($1 \leq r_ i \leq 5\cdot 10^5$), the days during which Luna travels due to work and can buy tickets for half the price.

The numbers on the four last lines are given in strictly increasing order.

Output

Output should contain a single integer, the smallest amount Luna must pay so that she always has a valid ticket when she travels to Solomon.

She does not need any kind of ticket when she goes on a work trip.

Scoring

Your solution will be tested on a set of test case groups. To get the points for a group, you need to pass all the test cases in the group.

Group

Points

Constraints

$1$

$15$

$N, K\leq 4, M\leq 4, d_ i,g_ i,r_ i\leq 7$

$2$

$9$

$N, K\leq 300, d_ i,g_ i,r_ i\leq 1000$

$3$

$23$

$N, K\leq 300$

$4$

$28$

$K=0$

$5$

$15$

$g_ i=i$ for every $1\leq i\leq M$

$6$

$10$

No further constraints

Explanations of samples

In the first sample it’s cheapest to buy a single ticket valid for 4 days at the price of $8$.

In the second sample it’s cheapest to buy two tickets vlaid a single day, at a total price of $12$.

In the third sample it’s cheapest to buy a single ticket valid for 4 days to the price of $7$ (since Luna is on a work trip day $1$).

In the fourth sample it’s cheapest to buy a ticket valid one day at day $1$ and a ticket valid five days at day $5$ – for a total cost of $6$.

Sample Input 1 Sample Output 1
2 2 1
1 4
1 4
6 8
5
8
Sample Input 2 Sample Output 2
2 2 1
1 4
1 4
6 14
5
12
Sample Input 3 Sample Output 3
2 2 1
1 4
1 4
6 14
1
7
Sample Input 4 Sample Output 4
4 2 0
1 5 6 7
1 5
2 4

6

Please log in to submit a solution to this problem

Log in