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# Swap the elements of two sequences, such that the difference of the element-sums gets minimal.

An interview question:

Given two non-ordered integer sequences `a` and `b`, their size is n, all numbers are randomly chosen: Exchange the elements of `a` and `b`, such that the sum of the elements of `a` minus the sum of the elements of `b` is minimal.

Given the example:

``````a = [ 5 1 3 ]
b = [ 2 4 9 ]
``````

The result is (1 + 2 + 3) - (4 + 5 + 9) = -12.

My algorithm: Sort them together and then put the first smallest `n` ints in `a` and left in `b`. It is O(n lg n) in time and O(n) in space. I do not know how to improve it to an algorithm with O(n) in time and O(1) in space. O(1) means that we do not need more extra space except seq 1 and 2 themselves.

Any ideas ?

An alternative question would be: What if we need to minimize the absolute value of the differences (minimize `|sum(a) - sum(b)|`)?

A python or C++ thinking is preferred.

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Sounds like a homework. If so, please tag accordingly. – celtschk Jan 28 '12 at 19:35
It can't be O(1) in space if you consider the original a and b lists. If you don't consider them, then simply swap the values directly. In either case, please provide more details in the question. – GaretJax Jan 28 '12 at 19:56
@GaretJax, How to swap efficiently with O(n) time ? – user1002288 Jan 28 '12 at 20:05
Simply use a single temporary variable for a single element (O(1) space) and iterate over the list (O(n) time)). – GaretJax Jan 28 '12 at 20:12
-1 "exchange elements of a and b" is extremely vague -- I detect about 2.01 understandings of this in the answers. – John Machin Jan 28 '12 at 21:22

Revised solution:

1. Merge both lists x = merge(a,b).

2. Calculate median of x (complexity O(n) See http://en.wikipedia.org/wiki/Selection_algorithm )

3. Using this median swap elements between a and b. That is, find an element in a that is less than median, find one in b that is more than median and swap them

Final complexity: O(n)

Minimizing absolute difference is NP complete since it is equivalent to the knapsack problem.

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Could you explain the equivalence? It seems clear to me that the OP's solution of sorting and putting the smallest values in a will minimize sum(a)-sum(b): what am I missing? – DSM Jan 28 '12 at 20:09
Are you talking about the second part (minimizing the absolute value) or both? Because I don't think it applies to the first one, to obtain the highest negative difference place the n/2 lowest numbers in one list and the n/2 highest in the other, as the OP said. – GaretJax Jan 28 '12 at 20:12
@DSM I thought you were calculating absolute minimum. If is is just minimum use the new solution. No sorting required :) – ElKamina Jan 28 '12 at 20:17
For the median you have to sort x! If you sort x, complexity is not O(n). – Christian Ammer Jan 28 '12 at 20:29
@ChristianAmmer It is possible to find median in O(n). See: en.wikipedia.org/wiki/Selection_algorithm – ElKamina Jan 28 '12 at 21:24

What comes into my mind is following algorithm outline:

1. C = A v B
2. Partitially sort #A (number of A) Elements of C
3. Subtract the sum of the last #B Elements from C from the sum of the first #A Elements from C.

You should notice, that you don't need to sort all elements, it is enough to find the number of A smallest elements. Your example given:

1. C = {5, 1, 3, 2, 4, 9}
2. C = {1, 2, 3, 5, 4, 9}
3. (1 + 2 + 3) - (5 + 4 + 9) = -12

A C++ solution:

``````#include <iostream>
#include <vector>
#include <algorithm>

int main()
{
// Initialize 'a' and 'b'
int ai[] = { 5, 1, 3 };
int bi[] = { 2, 4, 9 };
std::vector<int> a(ai, ai + 3);
std::vector<int> b(bi, bi + 3);

// 'c' = 'a' merged with 'b'
std::vector<int> c;
c.insert(c.end(), a.begin(), a.end());
c.insert(c.end(), b.begin(), b.end());

// partitially sort #a elements of 'c'
std::partial_sort(c.begin(), c.begin() + a.size(), c.end());

// build the difference
int result = 0;
for (auto cit = c.begin(); cit != c.end(); ++cit)
result += (cit < c.begin() + a.size()) ? (*cit) : -(*cit);

// print result (and it's -12)
std::cout << result << std::endl;
}
``````
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That's not O(N) though, but O(N log N/2) if we want the optimal solution (ie the N/2 smallest values). – Voo Jan 28 '12 at 21:12
@Voo: You are right, but does an O(N) algorithm exist – I can't think of any? And I think the median solution is also not O(N), for getting the median, the sequence has to be sorted, otherwise you are picking a random element from the middle (or am I wrong)? – Christian Ammer Jan 28 '12 at 21:18
Oh I agree that O(N log N/2) seems to be the best possible solution. After all we need the N/2 smallest values and I really don't see how that'd be possible in O(N). – Voo Jan 28 '12 at 21:23