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I am given

struct point
{
    int x;
    int y;
};

and the table of points:

point tab[MAX];

Program should return the minimal distance between the centers of gravity of any possible pair of subsets from tab. Subset can be any size (of course >=1 and < MAX). I am obliged to write this program using recursion.

So my function will be int type because I have to return int. I globally set variable min (because while doing recurssion I have to compare some values with this min)

int min = 0;

My function should for sure, take number of elements I add, sum of Y coordinates and sum of X coordinates.

int return_min_distance(int sY, int sX, int number, bool iftaken[])

I will be glad for any help further. I thought about another table of bools which I pass as a parameter to determine if I took value or not from table. Still my problem is how to implement this, I do not know how to even start.

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1  
Is this a homework problem? –  Randall Cook Jan 16 '14 at 23:45
    
Do you have any code that you have tried for return_min_distance()? –  zero298 Jan 16 '14 at 23:47
    
@Randall Cook I think it can be classified as homework problem. It is one of problems which appeared on test years ago, and I am preparing to pass this test and recursion is my weakest point. –  Marcin Majewski Jan 16 '14 at 23:48
    
It wasn't me who downvoted your question, but it has been my experience that homework problems are frowned upon here. Just and FYI. –  Randall Cook Jan 16 '14 at 23:56
    
@RandallCook Only homework questions that show little to no attempt at solving the problem oneself. –  Dukeling Jan 17 '14 at 0:01

1 Answer 1

I think you need a function that can iterate through all subsets of the table, starting with either nothing or an existing iterator. The code then gets easy:

int min_distance = MAXINT;
SubsetIterator si1(0, tab);
while (si1.hasNext())
{
    SubsetIterator si2(&si1, tab);

    while (si2.hasNext())
    {
        int d = subsetDistance(tab, si1.subset(), si2.subset());

        if (d < min_distance)
        {
            min_distance = d;
        }
    }
}

The SubsetIterators can be simple base-2 numbers capable of counting up to MAX, where a 1 bit indicates membership in the subset. Yes, it's a O(N^2) algorithm, but I think it has to be.

The trick is incorporating recursion. Sorry, I just don't see how it helps here. If I can think of a way to use it, I'll edit my answer.

Update: I thought about this some more, and while I still can't see a use for recursion, I found a way to make the subset processing easier. Rather than run through the entire table for every distance computation, the SubsetIterators could store precomputed sums of the x and y values for easy distance computation. Then, on every iteration, you subtract the values that are leaving the subset and add the values that are joining. A simple bit-and operation can reveal these. To be even more efficient, you could use gray coding instead of two's complement to store the membership bitmap. This would guarantee that at each iteration exactly one value enters and/or leaves the subset. Minimal work.

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