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Given the following problem , I'd appreciate for any corrections since I have no solution for the current question (taken from one of my professor's exams !!!) :

Remark: this is no homework !


Given two sorted arrays A (with length n) & B (with length m) , where each

element (in both arrays) is a real number , and a number X (also a real number) ,

we'd like to know whether or not exists a ∈ A and b ∈ B , such as :

a + b = X , in O(n+m) running time .

Solution :

First , we start to check from the end of both arrays , since we don't need the numbers that are bigger than X :

  • i = n
  • k = m

  • while A[i] > X , i = i -1

  • while B[k] > X , k = k -1

Define j = 0 . Now start running from the current i in A , and from j in B :

  • while i > 0 , j < k :
  • if A[i]+B[j] == X , then return both cells
  • else j = j+1 , i = i -1

In the end we'd have either the two elements , or we'd reach out of bounds in one or both of the arrays , which means that no two elements such a + b = X are indeed exist .

Any remarks would be much appreciated


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maybe you can write down your entire algorithm in pseudo-code. The mix between english and pseudo-code confuses me. –  Rodin Jun 27 '12 at 14:35
Notice that you can omit the preprocessing. You can leave decrementing i to the main loop, and for j use a suitable loop condition (j ≤ m and B[j] ≤ X). You should not do any such optimization in cases where negative numbers are allowed in the arrays. –  MvG Jun 27 '12 at 14:42

2 Answers 2

up vote 11 down vote accepted

You shouldn't adjust i and j at the same time. If the sum is too big, you should decrease i. If it is too small, increase j.

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Great thing to notice. However, doesn't this still lead to an O(n*m) solution? –  BlackVegetable Jun 27 '12 at 14:36
@BlackVegetable: O(n+m) it was, and yes, it does. At each step you move in one array or the other array, so combined you cannot move more ofthen than the sum of both array lengths. –  MvG Jun 27 '12 at 14:37
Ah, of course! Thank you for clearing that up for me. –  BlackVegetable Jun 27 '12 at 14:59

This problem is a special case of the following question: Find number in sorted matrix (Rows n Columns) in O(log n)

Consider a matrix filled with the C[i,j] = A[i] + B[j], then starting from one of the corners, you decrease i if the sum is too big, and if it's too small, increase j. Of course you don't have to create and/or fill this matrix C in your program, just assume you know any element of this matrix: it's A[i] + B[j], you can compute it immediately at any moment. The resulting algorithm is O(m+n).

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I put a more concise question link :) –  unkulunkulu Jun 27 '12 at 14:40

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