This is exercise problem 1.4.24 from Robert Sedgewick's Algorithms 4th Edition.

Suppose that you have an N-story building and plenty of eggs. Suppose also that
an egg is broken if it is thrown off floor F or higher, and unhurt otherwise.
First, devise a strategy to determine the value of F such that the number of
broken eggs is ~lgN when using ~lgN throws, then find a way to reduce the cost to

While the lgN solution is easy to think up, I totally have no idea about the 2lgF solution. Anyway, we are not given the value of F, so where the ground of 2lgF solution is?

Can anyone give some light on this question? Thanks.

  • it's a search problem given an ordered set. maybe that helps :). – Randy Jul 1 '13 at 12:38
  • Hay Randy, any links or further reading? – Guibao Wang Jul 1 '13 at 12:39
  • Do binary search on the building, drop from n/2 floor, if it is broken, then go down which is n/4 and so one. So u may break at most lgN eggs and will get to that point in lgN steps – Elbek Jul 1 '13 at 12:41
  • possible duplicate of Generalised Two-Egg Puzzle – David Eisenstat Aug 3 '13 at 0:39

logN: start at the top, always cut search space in half -> binary search

2 * logF start at 1, next 2, 4, 8 (i.e., 2^i), once the egg breaks (after log F steps) do binary search in the smaller search space (range < F and hence number of searches < log F) --> exponential search

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  • Nice explanation, very useful. @timothy-shields your solution's good as well, thanks very much. – Guibao Wang Jul 1 '13 at 12:54
  • And how does that determine the value of F? – Pavel Apr 30 '15 at 9:32
  • I don't understand how in the lgN part we get lgN broken eggs with lgN throws, if we keep dividing we get to the 1st floor at the end, but what if F = 7 and N = 8? we don't get lgN broken eggs. In the 2lgF part I don't understand how we get 2lgF broken eggs either, sounds like you just do 2lgF steps but your amount of broken eggs is 1. – Pavel Apr 30 '15 at 9:53
  • Ohh, okay, sorry, I thought that the point of the exercise was to achieve the given number of broken eggs, but it's actually to find F, thanks. I get really confused with these exercises, most of the time I don't understand what they ask. – Pavel Apr 30 '15 at 9:58

The lg(F) solution is to do 1, 2, 4, 8, ... until the first egg breaks at 2^(k+1), then do a binary search in the range 2^K to 2^(k+1).

Another alternative is to carry out the same process until the first egg breaks at 2^(k+1) then start over except adding 2^k to each height: 2^k + 1, 2^k + 2, 2^k + 4, 2^k + 8, .... You can keep repeating this process to keep reducing the size of the range you do exponential search in.

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  • +1 for mentioning 2^k + 1, 2^k + 2, 2^k + 4, 2^k + 8, .... I think this is very necessary as 2^(k+1) is likely to be "out of boundary" in a bounded list. Thanks a lot. Very inspiring. – Rick Dec 7 '18 at 15:32

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