The princess of the kingdom of Hackadia has been kidnapped by an evil dragon. As always the prince Z.A.Y. is going to try to rescue her. The evil dragon is keeping the princess prisoner in his deepest dungeon, and the prince has to solve a puzzle to get her out safely.
There are two straight boards in front of the dungeon, both divided into a large number of sections. Each section contains a sparkling gemstone. Each stone has a color. We will denote these colors with numbers.
Let's say these boards Board1 and Board2 contain N and M sections respectively. Let's call a pair of integers x, y a magic pair if they have the following properties:
- 0 ≤ x < N
- 0 ≤ y < M
- The set of different colors in Board1[0...x] equals the set of different colors in Board2[0...y]
The prince has asked you to find out how many magic pairs exist for the given two boards, so he can free the princess and become the hero. He will take all the glory from this, so you will have to make do with points in this competition as payment for your help.
Since the numbers N and M might be very large, the colors of the
gemstones will be supplied through a pseudo random generator. This works as
follows:
Board1[0] = x1
Board2[0] = x2
Board1[i] = (a1 * Board1[(i-1) % N] + b1 * Board2[(i-1) % M] + c1) % r1, for 0 < i < N
Board2[i] = (a2 * Board1[(i-1) % N] + b2 * Board2[(i-1) % M] + c2) % r2, for 0 < i < M
Input
The first line of the input consists of a single integer T, the number of
test cases.
Each test case starts with a line containing the integers N, M
The second line of each test case contains five integers x1, a1,
b1, c1, r1
The third line of each test case contains five integers x2, a2,
b2, c2, r2
Output
For each test case i numbered from 1 to T, output "Case #i: ", followed by the number of magic pairs for the two boards.
Constraints
1 ≤ T ≤ 20
1 ≤ N, M ≤ 10^6
0 ≤ x1, x2, a1, a2, b1, b2, c1, c2 ≤ 10^9
1 ≤ r1, r2 ≤ 10^9
Examples
The first example produces the following boards:
Board1 = [0, 3, 2, 0, 4, 2, 1, 3]
Board2 = [0, 4, 2, 1, 4, 3]
There are 3 magic pairs:
pair(0, 0) ==> (0)
pair(6, 5) ==> (0, 1, 2, 3, 4)
pair(7, 5) ==> (0, 1, 2, 3, 4)