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This is a homework exercise from Steven Skiena's "The algorithm design manual" 2nd edition, p 143.

Suppose that you are given a sorted sequence of distinct integers {A1,A2,...An}, drawn from 1 to m where n < m. Give an O(lgN) algorithm to find an integer <= m that is not present in A. For full credit, find the smallest such integer.

A sorted sequence, and O(lgN) both suggest a binary search algorithm. The only way I could think of is to run through numbers from 1 through m, and for each number do a binary search to see if it exists in sequence A. But that means O(mlgN), not really O(lgN).

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This is an old brainteaser. Hint: Sum(1..N) = N(N+1)/2. –  Diego Basch Dec 10 '12 at 1:29
@DiegoBasch That hint is for a different problem. In this problem, there can be more than one missing number. Hint for this problem: If no numbers are missing, then A[i]=i. –  Raymond Chen Dec 10 '12 at 1:31
The way I'm thinking about it, my hint works for this problem too. –  Diego Basch Dec 10 '12 at 1:32
that's a dichotomic search with a comparison between the element and its rank. –  didierc Dec 10 '12 at 2:44

1 Answer 1

There is an integer less than A[k] missing if and only if

A[k] > k

(using 1-based indexing).

So to find the smallest missing number, binary search. Start with the middle index m. If A[m] > m, then there is a number smaller than A[m] missing, search in the left half. Otherwise, if A[m] == m, there is no smaller number than m missing, and you search the right half.

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