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I was solving practice questions from a book when I stumbled upon this one :

*Describe a recursive algorithm that will check if an array A of integers contains an integer A[i] that is the sum of two integers that appear earlier in A, that is, such that

 A[i] = A[j] +A[k] for j,k < i.


I have been thinking about this for a few hours but haven't been able to come up with a good recursive algorithm.

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You formula allows j and k to be the same element, is that on purpose? –  harold Aug 29 '11 at 6:24
I just copied the statement as it is from the book. But i guess both should not be same. –  vjain27 Aug 31 '11 at 2:46

4 Answers 4

up vote 2 down vote accepted

A recursive solution without any loops (pseudocode):

bool check (A, i, j, k)
    if (A[j] + A[k] == A[i])
        return true
        if      (k + 1 < j)      return check (A, i, j, k + 1)
        else if (j + 1 < i)      return check (A, i, j + 1, 0)
        else if (i + 1 < A.size) return check (A, i + 1, 1, 0)
        else                     return false

The recursive function is called with check(A, 2, 1, 0). To highlight the main part of the algorithm it does not check if the array initially has more than two elements.

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Not very efficient but..

search(A, j, k) {
   for (int i = 0; i < A.length; i++) {
      if (A[i] == A[j] + A[k]) {
         return i;
   if (k + 1 == A.length) {
      if (j + 1 < A.length) {
         return search(A, j + 1, 0);
      return -1; // not found
   return search (A, j, k + 1);

Start the search with

search(A, 0, 0);
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Thanks for the reply but if you could please describe the function as recursion relation in text, that would make it clearer to me. Also i am wondering that if we pass search(A,0,0) the first time loop on top would check if (A[0] = A[0] + A[0]).Should this be changed? –  vjain27 Aug 29 '11 at 5:48

In python. The first function (search is less efficient O(n3)), but it also gives the j and k, the second one is more efficient (O(n2)), but only returns i.

def search(A, i):
    for j in xrange(i):
        for k in xrange(i):
            if A[i] == (A[j] + A[k]):
                return i, j, k

    if i > 0:
        return search(A, i - 1)

def search2(A, i, sums):
    if A[i] in sums:
        return i

    if i == len(A) - 1:
        return None

    for j in range(i + 1):
        sums.add(A[i] + A[j])
    return search2(A, i + 1, sums)

if __name__ == '__main__':
    print search([1, 4, 3], 2)
    print search([1, 3, 4], 2)

    print search2([1, 4, 3], 0, set())
    print search2([1, 3, 4], 0, set())

It will print:

(2, 0, 1)
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This algorithm should be fairly efficient (well, O(n2)):

import Data.Set (Set, empty, fromList, member, union)

-- Helper function (which does all the work)
hassum' :: (Ord a, Num a) => Set a -> [a] -> [a] -> Bool
-- Parameters:
--   1. All known sums upto the current element
--   2. The already handles elements
--   3. The not yet checked elements

-- If there are no elements left to check, there is no sum 
hassum' _    _    []     = False
-- Otherwise...
hassum' sums done (x:xs)
   -- Check if the next element is a known sum
   | x `member` sums     = True
   -- Otherwise calculate new possible sums and check the remaining elements
   | otherwise           = hassum' sums' done' xs
       where sums' = sums `union` fromList [x+d | d <- done]
             done' = x:done

-- Main function
hassum :: (Ord a, Num a) => [a] -> Bool
hassum as = hassum' empty [] as

I hope you can make sense of it even if you might not know Haskell.

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Thanks but I don't understand haskell so even from the comments i am not able to make out what the function is doing.If you could describe in text it would be great. –  vjain27 Aug 29 '11 at 5:53

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