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Problem B
Folding a Cube

It is well known that a set of six unit squares that are attached together in a “cross” can be folded into a cube.

\includegraphics[width=0.9\textwidth ]{folding-1.png}

But what about other initial shapes? That is, given six unit squares that are attached together along some of their sides, can we form a unit cube by folding this arrangement?

Input

Input consists of $6$ lines each containing $6$ characters, describing the initial arrangement of unit squares. Each character is either a ., meaning it is empty, or a # meaning it is a unit square.

There are precisely $6$ occurrences of # indicating the unit squares. These form a connected component, meaning it is possible to reach any # from any other # without touching a . by making only horizontal and vertical movements. Furthermore, there is no $2 \times 2$ subsquare consisting of only #. That is, the pattern

##
##

does not appear in the input.

Output

If you can fold the unit squares into a cube, display can fold. Otherwise display cannot fold.

Sample Input 1 Sample Output 1
......
......
######
......
......
......
cannot fold
Sample Input 2 Sample Output 2
......
#.....
####..
#.....
......
......
can fold
Sample Input 3 Sample Output 3
..##..
...#..
..##..
...#..
......
......
cannot fold
Sample Input 4 Sample Output 4
......
...#..
...#..
..###.
..#...
......
can fold

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