Alice and Bob play the following game:
1) They choose a permutation of the first N numbers to begin with.
2) They play alternately and Alice plays first.
3) In a turn, they can remove any one remaining number from the permutation.
4) The game ends when the remaining numbers form an increasing sequence. The person who played the last turn (after which the sequence becomes increasing) wins the game.
Assuming both play optimally, who wins the game?
Input: The first line contains the number of test cases T. T test cases follow. Each case contains an integer N on the first line, followed by a permutation of the integers 1..N on the second line.
Output: Output T lines, one for each test case, containing "Alice" if Alice wins the game and "Bob" otherwise.
1 3 2
5 3 2 1 4
1 <= T <= 100
2 <= N <= 15
The permutation will not be an increasing sequence initially.
I am trying to solve above problem. I have derived till far but I am stuck at a point. Please help me to proceed further.
In above problem, for permutation of length 2, player 1 always wins.
For a permutation of length 3, player 2 wins if the string is strictly increasing or decreasing.
For a permutation of length 4, If player 1 is able to make the string strictly increasing or decreasing by removing a character, she wins else player 2 wins.
Hence a conclusion is:
If current player is able to make the string strictly increasing he/she wins. (Trivial case)
If he/she is able to make it strictly decreasing the the winner is decided by the number of elements in that sequence. If there are even number of elements in that sequence, current player looses, else wins.
But what should be done if the resultant string is neither increasing nor decreasing??