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Give a Set S, partition the set into k disjoint subsets such that the difference of their sums is minimal.

say, S = {1,2,3,4,5} and k = 2, so { {3,4}, {1,2,5} } since their sums {7,8} have minimal difference. For S = {1,2,3}, k = 2 it will be {{1,2},{3}} since difference in sum is 0.

The problem is similar to The Partition Problem from The Algorithm Design Manual. Except Steven Skiena discusses a method to solve it without rearrangement.

I was going to try Simulated Annealing. So i wondering, if there was a better method?

Thanks in advance.

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This problem is dope. I'll definitely think about it = ) – Phonon Mar 28 '11 at 13:01
What do you mean by 'without rearrangement'? – dfb Mar 28 '11 at 20:22
@spinning_plate, In the skiena version, the order of the elements mattered, you couldn't shuffle them it wasn't a "set" persay. – st0le Mar 29 '11 at 4:42
How do you define the "difference of their sums" when k > 2? – mbeckish Mar 29 '11 at 17:40
@mbeckish, I'd say something like max( sum(A)-sum(B) ) for all A,B – dfb Mar 29 '11 at 17:45
up vote 3 down vote accepted

The pseudo-polytime algorithm for a knapsack can be used for k=2. The best we can do is sum(S)/2. Run the knapsack algorithm

for s in S:
    for i in 0 to sum(S):
        if arr[i] then arr[i+s] = true;

then look at sum(S)/2, followed by sum(S)/2 +/- 1, etc.

For 'k>=3' I believe this is NP-complete, like the 3-partition problem.

The simplest way to do it for k>=3 is just to brute force it, here's one way, not sure if it's the fastest or cleanest.

import copy
arr = [1,2,3,4]

def t(k,accum,index):
    print accum,k
    if index == len(arr):
            return copy.deepcopy(accum);
            return [];

    element = arr[index];
    result = []

    for set_i in range(len(accum)):
        if k>0:
            clone_new = copy.deepcopy(accum);
            result.extend( t(k-1,clone_new,index+1) );

        for elem_i in range(len(accum[set_i])):
            clone_new = copy.deepcopy(accum);
            result.extend( t(k,clone_new,index+1) );

    return result

print t(3,[[]],0);

Simulated annealing might be good, but since the 'neighbors' of a particular solution aren't really clear, a genetic algorithm might be better suited to this. You'd start out by randomly picking a group of subsets and 'mutate' by moving numbers between subsets.

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I've solved it the same way for k=2, need for k>=3 – st0le Mar 29 '11 at 4:43
see edits for an idea – dfb Mar 29 '11 at 17:31

If the sets are large, I would definitely go for stochastic search. Don't know exactly what spinning_plate means when writing that "the neighborhood is not clearly defined". Of course it is --- you either move one item from one set to another, or swap items from two different sets, and this is a simple neighborhood. I would use both operations in stochastic search (which in practice could be tabu search or simulated annealing.)

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