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Given an infinite array (unknown array length) and there are n elements of integer sorted in this infinite array. The n (the number of sorted element) is unknown. Find the position of an integer i in this infinite array in log n time.

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closed as not a real question by George Stocker Sep 21 '12 at 17:04

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center. If this question can be reworded to fit the rules in the help center, please edit the question.

infinite array != unknown array length –  raam86 Sep 20 '12 at 16:30
The answer to the question is Binary Tree –  raam86 Sep 20 '12 at 16:32
Probably algorithm analysis class –  leobelones Sep 20 '12 at 16:52
infinite array IS unknown length because you will never know the length of array. I know BT is part of the solution but it's not the complete solution. –  ealeon Sep 20 '12 at 17:09

2 Answers 2

log n means dividing the array by 2 all the time until you find it, as in binary search... so you need to know the value of n.

C# code:

The code to call your function:

int position = findInteger(array, 0, searchedValue);

The function:

public int findInteger(int[] array, int position, int searchValue)
    if(array[position] = searchValue)
        return position;
    else if (array[position] > searchValue)
        position = position / 2;
    else // array[position] < searchValue
        position = (array.Count() + position)/2;
    findInteger(array, position, searchValue);
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I edited the answer cause I sent it before it was complete by accident –  leobelones Sep 20 '12 at 16:50
Yes I was thinking about that but what if there are duplicates. I.e. there is a million 0s in the beginning of the array. And the search value was 10 then which 10 come after a million of zeros so it cant never find it because it will look from 0 to 10. Rather than focusing on finding the index of x. how can i find the how many sorted elements there are? –  ealeon Sep 20 '12 at 17:08

From the problem statement it appears that there is an array A of indefinite length, of which at least n entries exist and are in sorted order. We will suppose the first n entries are positive integers in ascending order and that accessing A[j] returns nil if j >= n. At the outset, n is unknown. Given i, the problem is to determine j such that A[j] == i (or if no such j<n exists, return nil).

  1. Set k=0, L=1.
  2. While true, do step 3.
  3. Set k = L and L = 2*L. If A[L] is nil break to step 4. If A[L] > i break to step 5. Else continue (in the while loop of step 2).
  4. Now k < n < L. Do a binary search in A[k:L] to find last non-nil entry A[n-1]; set L=n-1; then go to step 5.
  5. Now A[L] >= i. Do a binary search in A[k:L] to find i. Return its index if found, else return nil.

To see that the stated method is O(ln n) bounded, note that it uses at most 2*lg(n) steps to find n (or an L such that A[L] > i), and then at most lg(n) steps to find i in A[k:L], where lg(n) = ln(n)/ln(2).

If you assume that accessing A[j] does not return nil when j >= n, but instead returns a “random number”, this approach breaks down; for one thing, it might find A[j] == i but with j > n; for another, the O(ln n) time bound may not hold, or will hold only probabilistically; the algorithm would need to be restated to detect decreases in the A[L] value sequence; and if A is such that A[n+1] > A[n] > A[n-1], then n cannot be determined anyway.

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great answer!!! perfect. thank you. –  ealeon Sep 20 '12 at 19:16

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