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Given an integer k and an sorted array A (can consist of both positive and negative numbers), output 2 integers from A such that a-b=k in O(n) time and O(1) space

O(n logn) Solution:

  1. Traverse the array: O(n)
  2. For element a[i], find a[i]+k in the array using binary search :O(log n)

Total Time: O(n logn)

O(n) Solution:

  1. Store all elements of the array in a Hash Table: O(n)
  2. For element a[i], check whether a[i]+k in the hash table : O(1)

Total Time: O(n)

Space: O(n)

But he wants an O(n) solution with O(1) extraspace. Anyone have any idea?

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I think you mean to say he wants a solution in O(1) space and O(n) time.. its not possible to look through the entire array in O(1) time, and the right answer might require you to go up till the end of the array –  adi92 Jun 6 '12 at 5:40
@adi92: typo ... fixed. –  Ravi Gupta Jun 6 '12 at 5:42
What do you mean by "ve"? "nos"? –  ninjagecko Jun 6 '12 at 5:44
@ninjagecko This is shorthand for 'positive' (+ve) and 'negative' (-ve) –  RJ Lohan Jun 6 '12 at 5:45
Search time or storage time? Build a binary tree with <k on one side and >k on the other. <a> must be >= <k>. For each item on one side of the tree do a binary search on the other side. Ok, so... It's the best I got:O –  starbolin Jun 6 '12 at 5:51

2 Answers 2

up vote 5 down vote accepted

The idea is to use two pointers into the array say a and b. Originally they both point to the beginning (a=b=0).

If ar[a]+k < ar[b], then you advance a.

If ar[a]+k > ar[b], then you advance b.

If ar[a]+k == ar[b], then you have found a solution.

That's O(n) time and O(1) space.

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The OP stated the equation is a - b = k, which in your notation, is ar[a] - ar[b] = k. Your solution works if you flip your indices a and b (e.g., "if ar[b] + k < ar[a], then you advance a". Also, to keep notation consistent with the original problem, I would use i instead of a for the first index, j instead of b for the second index, and A instead of ar. Then the solution would be a = A[i] and b = A[j], and you would return a and b. –  gotgenes Jun 6 '12 at 19:59
"if ar[b] + k < ar[a], then you advance a"is WRONG. Try it and you'll see. And the way the variables are named doesn't really matter, although I agree some choices for them are better than other :) –  Petar Ivanov Jun 7 '12 at 4:06

Make two index pointers - Left and Right, initialize both to the start of array (0). If a[Left] + k > a[Right], increment Right, else increment Left. Stop when equal

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what index are you initially assigning to Left and Right?... by there names, I am assuming 0 and N-1 resp. and if so, increment Right will make it to point to an index out of bound of array. –  Ravi Gupta Jun 6 '12 at 5:51
@Ravi Gupta I tried to give only the idea, not solution. And incrementing of both assumes that Right cannot be at the end when starting. –  MBo Jun 6 '12 at 6:12

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