I have a maxiumum 35 character grid it maybe (1x35..5x7) or anything else .The value of each cell on the grid can be binary only.In simulating a game having certain moves which implies a possible change in the grade state after a move .If I have to detect the cycle/the period of this game,what algorithm/data structure can I use in the least possible time complexity? I tried a log n tree based approach to store the state of the grid but it wasn't fast enough for my purpose when the period is larger than 2^17. Is there a technique to perform hashing on the grid state without taking too much memory?
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What form do the state transitions take?– Vaughn CatoOct 6, 2012 at 21:38
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@Vaughn Cato:Well transitions actually depend on number of true states in the grid– user1724072Oct 6, 2012 at 21:59
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@VaughnCato:Transformations may increase/decrease number of true states ,almost in a pseudu random manner– user1724072Oct 6, 2012 at 22:00
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Can you be more specific? There may be some special structure in the state transitions that can be exploited. Is there a known starting state?– Vaughn CatoOct 6, 2012 at 22:03
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@I had an idea ,couldn't I store a single hash for 32 or 64 states– user1724072Oct 6, 2012 at 22:06
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1 Answer
the grid is a 35-bit number, so you can store the grid as an integer (on a 64-bit machine) or 2 words on a lesser one. you can keep states you've already seen in a giant direct-address array or a hash table.
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:I am aware of that,but the trouble is what would be the time complexity of your solution? Oct 6, 2012 at 21:09
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:is it faster than log n? and there are 2^35 states for the game ,you can't hash table with those many values that is 10^10 memory Oct 6, 2012 at 21:10
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:can you answer in more detail with a proper example ,it will really help me Oct 6, 2012 at 21:11
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remembering if you've seen 2^35 states only requires a 4GB array. and a hash table can handle smaller periods with much less memory. you can do that in RAM, a memory-mapped file, swap file, etc.– jspcalOct 6, 2012 at 21:19