Always Turn Left

Time Limit: 2000/1000MS (Java/Others) Memory Limit: 128000/64000KB (Java/Others)

Problem Description

You find yourself standing outside of a perfect maze. A maze is defined as "perfect" if it meets the following conditions:

  • It is a rectangular grid of rooms, R rows by C columns.
  • There are exactly two openings on the outside of the maze: the entrance and the exit.
  • The entrance is always on the north wall, while the exit could be on any wall.
  • There is exactly one path between any two rooms in the maze (that is, exactly one path that does not involve backtracking).

You decide to solve the perfect maze using the "always turn left" algorithm, which states that you take the leftmost fork at every opportunity.

If you hit a dead end, you turn right twice (180 degrees clockwise) and continue. (If you were to stick out your left arm and touch the wall while following this algorithm, you'd solve the maze without ever breaking contact with the wall.)

Once you finish the maze, you decide to go the extra step and solve it again (still always turning left), but starting at the exit and finishing at the entrance.

The path you take through the maze can be described with three characters: 'W' means to walk forward into the next room, 'L' means to turn left (or counterclockwise) 90 degrees, and 'R' means to turn right (or clockwise) 90 degrees.

You begin outside the maze, immediately adjacent to the entrance, facing the maze.

You finish when you have stepped outside the maze through the exit.

For example, if the entrance is on the north and the exit is on the west, your path through the following maze would be WRWWLWWLWWLWLWRRWRWWWRWWRWLW:

If the entrance and exit were reversed such that you began outside the west wall and finished out the north wall, your path would be WWRRWLWLWWLWWLWWRWWRWWLW.

Given your two paths through the maze (entrance to exit and exit to entrance), your code should return a description of the maze.

Input

The first line of input gives the number of cases, N.

N test cases follow. Each case is a line formatted as:

"entrance_to_exit exit_to_entrance"

1 ≤ N ≤ 100.

2 ≤ len(entrance_to_exit) ≤ 10000.

2 ≤ len(exit_to_entrance) ≤ 10000.

Output

You can assume that the size(row or column) of the maze will not lager than 100.

All paths will be at least two characters long, consist only of the characters 'W', 'L', and 'R', and begin and end with 'W'.

For each test case, output one line containing "Case #x:" by itself. The next R lines give a description of the R by C maze.

There should be C characters in each line, representing which directions it is possible to walk from that room. Refer to the following legend:

Character Can walk north? Can walk south? Can walk west? Can walk east?

Character Can walk north? Can walk south? Can walk west? Can walk east?
1 Yes No No No
2 No Yes No No
3 Yes Yes No No
4 No No Yes No
5 Yes No Yes No
6 No Yes Yes No
7 Yes Yes Yes No
8 No No No Yes
9 Yes No No Yes
a No Yes No Yes
b Yes Yes No Yes
c No No Yes Yes
d Yes No Yes Yes
e No Yes Yes Yes
f Yes Yes Yes Yes

Sample Input

3
WRWWLWWLWWLWLWRRWRWWWRWWRWLW WWRRWLWLWWLWWLWWRWWRWWLW
WW WW
WLW WWRRWLW

Sample Output

Case #1:
ac5
386
9c7
e43
9c5
Case #2:
3
Case #3:
8d

Source

codejam

Manager

Information
Solved Number15
Submit Number51
Problem Tags
implementation
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温馨提示:AC后可以编辑标签哦. ^-^
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