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Statement

 Goal

For several years now, in elementary schools, we have seen the emergence of a new educational model, playful programming. The students must program a small robot using assembly blocks. This allows them to get familiar with programming from an early age while exercising their logic and perception of space.

You are a student at one such school. The purpose of the exercise is simple: your teacher tells you how many moves n the robot may make, and you must find out the final position of the robot at end of execution.

To do this you need to know some principles of robot operation.
– When the robot encounters an obstacle (represented by #) it turns right otherwise on an empty area (represented by .) it moves straight ahead.
– The robot initially moves upwards.
– The robot stops after n moves.
– The top left corner represents the coordinates (0,0)
– The robot's environment is represented as follows, where O is the robot's initial position:
...#........
...........#
............
............
..#O........
..........#.
Input
¤ Width w and height h of the map.
¤ Number n of operations to be performed by the robot
¤ The map where the robot moves with . representing a free space, # an obstacle and O the starting position.
Output
¤ The final position x y of the robot at end of execution, where x is the horizontal position and y is the vertical position.
Constraints
¤ 0 < w <= 20
¤ 0 < h <= 10
¤ The obstacles are placed in such a way that the robot will never leave the map
¤ The robot will never be blocked between obstacles
¤ n < 2^53
Example
Input
12 6
987
...#........
...........#
............
............
..#O........
..........#.
Output
7 1
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