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Given an array of natural numbers and an another natural T, how to find the contiguous subarray with sum less than or equal to T but the number of element in this subarray is maximized?

For example, if the given array is:

{3, 1, 2, 1, 1} and T = 5. Then the maximum contigous subarray is {1, 2, 1, 1} because it will contain 5 elements and the sum is equal to 5.

Another example: {10,1,1,1,1,3,6,7} with T = 8. Then the maximum contigous subarray is ${1,1,1,1,3}$

I can do it with O(n^2) operation. However I am looking for a linear time solution for this problem. Any ideas?

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To me it seems a version of the Knapsack Problem. –  Juan Lopes Mar 4 '13 at 18:59

2 Answers 2

up vote 2 down vote accepted

It ought to be possible to do this with O(n). I've not tested this, but it looks OK:

int start = 0, end = 0;
int beststart = 0, bestend = 0;
int sum = array[0];

while (end + 1 < arraysize) {
  if (array[end + 1] + sum <= T)
    sum += array[end++];
    sum -= array[start++];
  if ((end - start) > (bestend - beststart)) {
    beststart = start;
    bestend = end;

So, basically, it moves a sliding window along the array and records the point at which end - start is the greatest.

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I think you need another check ` if ((end - start) > (bestend - beststart)) { beststart = start; bestend = end; }` at the end. –  VelvetThunder Mar 4 '13 at 17:38
@Quixotic: is that better now? –  ams Mar 4 '13 at 17:46

It seems to be a capped version of the Maximum subarray problem: I guess you can find inspirations with existing algorithms.

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