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I am a long time lurker, and just had an interview with Google where they asked me this question:

Various artists want to perform at the Royal Albert Hall and you are responsible for scheduling their concerts. Requests for performing at the Hall are accommodated on a first come first served policy. Only one performance is possible per day and, moreover, there cannot be any concerts taking place within 5 days of each other

Given a requested time d which is impossible (i.e. within 5 days of an already sched- uled performance), give an O(log n)-time algorithm to find the next available day d2 (d2 > d).

I had no clue how to solve it, and now that the interview is over, I am dying to figure out how to solve it. Knowing how smart most of you folks are, I was wondering if you can give me a hand here. This is NOT for homework, or anything of that sort. I just want to learn how to solve it for future interviews. I tried asking follow up questions but he said that is all I can tell you.

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Search on Google: stackoverflow.com/questions/2307283/… can give you a direction to learn what it means. –  user2117725 Feb 28 '13 at 2:22
I know what O(logn) means, I just have a problem with this specific problem –  NoNameY0 Feb 28 '13 at 2:23
What is n counting in O(log n)? Already scheduled concerts? –  phs Feb 28 '13 at 3:47
+1 nice question. –  SparKot ॐ Feb 28 '13 at 7:23
Don't repost your question if it doesn't get the answer you want the first time around. I realise that it's something that works in practice, but the problem is that if people start doing this the site will degenerate even more than it already has. –  keyser Sep 27 at 17:17

7 Answers 7

You need a normal binary search tree of intervals of available dates. Just search for the interval containing d. If it does not exist, take the interval next (in-order) to the point where the search stopped.

Note: contiguous intervals must be fused together in a single node. For example: the available-dates intervals {2 - 15} and {16 - 23} should become {2 - 23}. This might happen if a concert reservation was cancelled.

Alternatively, a tree of non-available dates can be used instead, provided that contiguous non-available intervals are fused together.

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Worst case when interval containing d already booked is O(n) with in-order traversal, isn't it? –  SparKot ॐ Feb 28 '13 at 7:17
@DoSparKot, no, it's O(log N). The node we need is near the point where we stopped. In the worst case, we have to go up to the root by the side of one subtree and down again by the side of the other subtree –  comocomocomocomo Feb 28 '13 at 7:23
OK, considering today 28-Feb-2013 and all intervals are booked for rest of the year from 02-Mar-2013. What's the complexity for booking 01-Mar-2013? –  SparKot ॐ Feb 28 '13 at 7:27
@DoSparKot. Easy: O(1), since the tree has only one or two elements. Contiguous intervals collapse together –  comocomocomocomo Feb 28 '13 at 7:31
I will remove the first part of the answer (the one about [augmented] interval trees). A normal binary search tree is enough. –  comocomocomocomo Feb 28 '13 at 9:32

Store the scheduled concerts in a binary search tree and find a feasible solution by doing a binary search.

Something like this:

FindDateAfter(tree, x):
  n = tree.root
  if n.date < x 
    n = FindDateAfter(n.right, x)
  else if n.date > x and n.left.date < x
    return n
  return FindDateAfter(n.left, x)

FindGoodDay(tree, x):
  n = FindDateAfter(tree, x)
  while (n.date + 10 < n.right.date)
    n = FindDateAfter(n, n.date + 5)
  return n.date + 5
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can you give me a more elaborative answer. I would really really appreciate it –  NoNameY0 Feb 28 '13 at 2:34
how would you do binary search if there is no 10 day interval your search will return null it means you cannot schedule a date let's say you have these numbers 1,4,6,9,14,16,18,20,21,23,26, –  NoNameY0 Feb 28 '13 at 2:38
updated the answer –  perreal Feb 28 '13 at 3:02
@perreal That is not O(log N).The first function is, but the second one calls it from a loop... –  comocomocomocomo Feb 28 '13 at 4:42
@comocomocomocomo, it only calls the first function from the last search result. The loop, and the function call never re-search the entire tree. –  perreal Feb 28 '13 at 4:43

I think all he is asking is a binary search implementation. Find the element that is the next higher one. This can follow the same mechanism as standard binary search but if you needed to implement maintaining a sorted array then you can use a tree as perreal said. For the current question in the interview a bsearch would have sufficed.

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Store the number of used nights per year, quarter, and month. To find a free night, find the first year that is not fully booked, then the quarter within that year, then the month. Then check each of the nights in that month.

Irregularities in the calendar system makes this a little tricky so instead of using years and months you can apply the idea for units of 4 nights as "month", 16 nights as "quarter", and so on.

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Why not try to use Union-Find? You can group each concert day + the next 5 days as part of one set and then perform a FIND on the given day which would return the next set ID which would be your next concert date.

If implemented using a tree, this gives a O(log n) time complexity.

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Assume, at level 1 all schedule details are available. Group schedule of 16 days schedule at level 2. Group 16 level 2 status at level 3. Group 16 level 3 status at level 4. Depends on number of days that you want to expand, increase the level.

Now search from higher level and do binary search at the end.

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Asymtotic complexity:- It means runtime is changing as the input grows. suppose we have an input string “abcd”. Here we traverse through each character to find its length thus the time taken is proportional to the no of characters in the string like n no of char. Thus O(n). but if we put the length of the string “abcd” in a variable then no matter how long the string be we still can find the length of thestring by looking at the variable len. (len=4). ex: return 23. no matter what you input is we still have the output as 23. thus the complexity is O(1). Thus th program will be running in a constant time wrt input size. for O(log n) - the operations are happening in logarithmic steps.


Observe the image in the above link. Over here we can see the bended line(logarithmic line). Here we can say that for smaller inputs the O(log n) notation works good as the time taken is less as we can see in the bended line but when the input grows the linear notation i.e O(n) is considered as better way. There are also the best and worst case scenarios to be seen. Like the above example.

You can also refer to this cheat for the algorithms: http://bigocheatsheet.com/

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