3

I have a set of N groups, each group contains a variable number of elements. I want a function which will return all possible permutations (of length 1 to N) of all elements, where only one element per group can appear in any permutation.

For example, consider the 2 groups {A, B}, and {C, D, E}
Then I want to return the following Lists:

{A}, {B}, {C}, {D}, {E},
{AC}, {AD}, {AE}, {BC}, {BD}, {BE}, {CA}, {CB}, {DA}, {DB}, {EA}, {EB}

I tried writing a recursive function, but I can't seem to make it work... Here's what I have so far. Any help in getting it to work would be much appreciated.

public class Test {
    public static void main(String[] args) {

        List<String> g1 = new ArrayList<String>();
        g1.add("a");
        g1.add("b");
        List<String> g2 = new ArrayList<String>();
        g2.add("c");
        g2.add("d");
        g2.add("e");
        List<List<String>> groups = new ArrayList<List<String>>();
        groups.add(g1);
        groups.add(g2);
        int size = 2;

        List<List<String>> perms = generatePermutations(groups, size);
        System.out.println(perms.size());

    }

    private static List<List<String>> generatePermutations(List<List<String>> groups, int size) {
        List<List<String>> permutations = new ArrayList<List<String>>();
        if ( groups.size() == 0 ) {
            return permutations;
        }
        int n = groups.size();
        for ( int i=0; i<n; i++ ) {
            List<List<String>> otherGroups = new ArrayList<List<String>>(groups);
            otherGroups.remove(i);
            for ( int j=0; j<groups.get(i).size(); j++ ) {
                String aKey = groups.get(i).get(j);
                for ( List<String> subPerm : generatePermutations(otherGroups, size - 1) ) {
                    List<String> newList = new ArrayList<String>();
                    newList.add(aKey);
                    newList.addAll(subPerm);
                    permutations.add(newList);
                }
            }
        }
        return permutations;
    }
}
  • Why don't you work with simple arrays, wouldn't it make everything less verbose? – Luigi Cortese May 30 '15 at 10:42
0

When I have to solve problems like these, I always try do divide them in smaller tasks, each one resulting in a distinct method call instead of using many inner loops since the beginning.

I would do something like this

public class Main {

    public static void main(String[] args) {
        char[] x={'A','B'},y={'C','D','E'},z={'F','G','H','I'};
        char[][]group={x,y,z};
        perm(group);
    }

    static void perm(char[][]g){
        // Reorganize "g" changing the order of the components (x, y and z in this case)
        // in all possible ways and call perm2().
        // Here you perform the "upper level" permutation between sets.
        // In this case it will result in 6 calls
            perm2(g);
    }

    static void perm2(char[][]g){
        // perform a "lower level" permutation on the given order of x, y, z
    }

}

that is easier to test and verify. Eventually, when you find the solution, you can think of "compressing" the solution in one method with multiple inner loops.

Hope it helps!

0

Maybe I'm misunderstanding the problem... but I think the problem is a bit convoluted. I'd like to help but I need to understand the problem a bit better. If I understood it properly you need to:

Find the powerset ot the 'set of sets' given as input:

{A,B} {C,D,E} --> {} {A,B} {C,D,E} {{A,B},{C,D,E}}

Then, compute the cartesian product of each member of the powerset:

{} {A,B} {C,D,E} {{A,B},{C,D,E}} --> {} {A,B} {C,D,E} {AC,AD,AE,BC,BD,BE}

And then compute permutations over the contents of the sets obtained:

{} {A,B} {C,D,E} {AC,AD,AE,BC,BD,BE} --> {} {A,B} {C,D,E} {AC,AD,AE,BC,BD,BE,CA,DA,EA,CB,DB,EB}

Finally, all sets would be 'flattened' in a single set:

{A,B,C,D,EAC,AD,AE,BC,BD,BE,CA,DA,EA,CB,DB,EB}

Is that so? There are ways to compute powerset, cartesian product and permutation recursively.

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