# DataStructure for Elevator Mechanism

This question was asked to me during company interview - Which data-structure is efficient for Implementing Elevator Mechanism?

I am not able to find the efficient data-structure for it even after a lot of Googling.

I can think of Priority queue to Implement it.Is priority queue an efficient data structure or more efficient data structure is there for implementing Elevator Mechanism?

Thanks!

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could you provide a link to something showing what "elevator mechanism" is? –  andrew cooke Aug 17 '12 at 16:29
This has been answered before on Stackoverflow. Basically there is no "most efficient" way, as it depends mostly on the exact applications and the complexity of the elevator's operations. –  StuckAtWork Aug 17 '12 at 16:37
@StuckAtWork That's a different one - the question at your link talks about an elevator bank, not a single elevator. –  dasblinkenlight Aug 17 '12 at 16:42
It is much the same algorithm; Elevator object which queries a Request bank and acts accordingly. The only difference is there is no 'choosing' going on in the request side. –  StuckAtWork Aug 17 '12 at 16:44
@StuckAtWork I disagree: the answer mentions a single "request list", letting the elevator encapsulate nearly all the details that are very relevant here. This is an oversimplification: a correct implementation of the elevator algorithm requires hundreds of lines of code, with nasty logic piled on top of even nastier logic. I saw an elevator problem offered for a programming contest at TopCoder - it was the first problem in their history that failed to get a single correct solution during the contest, even though some extremely strong programmers were competing there at the time. –  dasblinkenlight Aug 17 '12 at 16:53

Since you cannot implement mechanisms in software (although you can certainly model them), I assume that the question has been about the Elevator algorithm.

The algorithm looks deceivingly simple, yet it is surprisingly very tough to implement, even with a good set of data structures in hand. A good structure to use for this algorithm is three priority queues - (1) for the current direction with entries past the current point, (2) for the opposite direction, and (3) for the current direction prior to the current point. Your implementation would first decide the direction, then pick a queue into which to place the requested pair of `{from, to}` values.

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:: Yup,this is what i exactly wanted ..Thankyou dasblinkenlight.. –  ritesh_NITW Aug 17 '12 at 20:16
is it a priority queue or tree like data structure. Because suppose you are at 3 and moving upwards than when you reach at 4 you need to search through the priority queue which is O(N). But if it is Tree then you can find in O(logN). Am i missing something here? –  Trying Dec 10 '13 at 22:39
@Trying One priority queue is not going to do it - unless you are willing to search all requests on every floor that you pass (which is expensive) you need to separate the requests into multiple queues. –  dasblinkenlight Dec 10 '13 at 22:46
why can't i maintain two BitSets, one for upward moment and another form downward. no of bits is equal to no of floors. Suppose the lift is in 3rd floor than it need to just check for the corresponding bit if set than open else don't open. It is same for whether the button is pressed from outside or inside the elevator. Please share your input. Thanks. –  Trying Dec 10 '13 at 22:49
@Trying Different implementations are definitely possible. Bitsets let you see if you need to open the door at the current floor, but to see if it's time to reverse the direction or stop you need to scan the rest of the bitset after each stop. Again, the best thing to do at this point is to try it out and see for yourself. The problem is surprisingly full of corner cases. –  dasblinkenlight Dec 10 '13 at 22:57