# divide bags of candies among three children evenly

I have n bags of candies such that no two bags have the same number of candies inside (i.e. it's a set A[] = {a0,a1,a2,...,ai,...,aj} where ai != aj).

I know how many candies is in each bag and the total number M of candies I have.

I need to divide the bags among three children so that the candies are distributed as fairly as possible (i.e. each child gets as close to M/3 as possible).

Needless to say, I may not tear into the bags to even out the counts -- then the question would be trivial.

Does anyone have any thoughts how to solve this -- preferably in Java?

EDIT:

the interviewer wanted me to use a 2-D array to solve the problem: the first kid gets x, the second kid y, the third gets the rest: S[x][y].

This after I tried following:

1] sort array n lg n
2] starting with largest remaining bag, give bag to kid with fewest candy.

Here is my solution for partitioning to two children (it is the correct answer). Maybe it will help with getting the 3-way partition.

int evenlyForTwo(int[] A, int M) {
boolean[] S = new boolean[M+1];
S[0]=true;//empty set
for(int i=0; i<A.length; i++)
for(int x=M; x >= A[i]; x--)
if(!S[x])
S[x]=S[x-A[i]];
int k = (int) M/2;
while(!S[k])
k--;
return k;//one kid gets k the other the rest.
}//
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Are the kids of roughly equal physical stature? Also, are we assuming that they are rational beings (except when it comes to health issues) with the goal of consuming as much candy as possible? –  Ben Taitelbaum Apr 20 '12 at 21:14
Ask one kid to split up the candies, then each kid gets to pick their bag. The kid that did the splitting picks last. Of course that's not in Java though :) –  Eric Petroelje Apr 20 '12 at 21:15
This is the 3-partition problem (en.wikipedia.org/wiki/Partition_problem), which is NP-hard. –  Keith Randall Apr 20 '12 at 21:17
There is always the option of brute force. No one said anything about performance. –  erikxiv Apr 20 '12 at 21:19
@Keith +1, and here's the direct link: en.wikipedia.org/wiki/3-partition_problem. Some of the (NP) solutions or (P) approximate solutions for the subset-sum or partition problems may be helpful. –  Eric Petroelje Apr 20 '12 at 21:22

## 2 Answers

The problem you describe is known as the 3-Partition problem and is known to be NP-hard. The problem is discussed a bit on MathOverflow. You might find some of the pointers there of some value.

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Here is a little solution, crude but gives correct results. And you can even change the number of children, bags, etc.

public class BagOfCandies {

static public void main(String...args) {
int repeat = 10;
int childCount = 3;
int bagsCount = childCount + (int) (Math.random() * 10);

for (int k=0; k<repeat; k++) {
int candyCount = 0, n=0;
int[] bags = new int[bagsCount];
for (int i=0; i<bags.length; i++) {
n += 1 + (int) (Math.random() * 2);
bags[i] = n;
candyCount += n;
}
shuffle(bags);   // completely optional! It works regardless

boolean[][] dist = divideBags(bags, childCount);

System.out.println("Bags of candy : " + Arrays.toString(bags) + " = " + bags.length);
System.out.println("Total calculated candies is " + candyCount);
int childCandySum = 0;
for (int c=0; c<childCount; c++) {
int childCandies = countSumBags(bags, dist[c]);
System.out.println("Child " + (c+1) + " = " + childCandies + " --> " + Arrays.toString(dist[c]));
childCandySum += childCandies;
}
System.out.println("For a total of " + childCandySum + " candies");
System.out.println("----------------");
}
}

static private void shuffle(int[] bags) {
for (int i=0, len=bags.length; i<len; i++) {
int a = (int)Math.floor(Math.random()*len);
int b = (int)Math.floor(Math.random()*len);
int v = bags[a];
bags[a] = bags[b];
bags[b] = v;
}
}

static private boolean[][] divideBags(int[] bags, int childCount) {
int bagCount = bags.length;

boolean[][] dist = new boolean[childCount][bagCount];
for (int c=0; c<childCount; c++)
Arrays.fill(dist[c], false);

for (int i=0; i<bagCount; i+=childCount)
for (int j=i, c=0; c<childCount && j<bagCount; j++, c++)
dist[c][j] = true;

if (childCount == 1) return dist;  // shortcut here

int sumDiff = 1;
int oldDiff = 0;

while (sumDiff != oldDiff) {
oldDiff = sumDiff;
sumDiff = 0;

// start comparing children in pair
for (int child1=0; child1<childCount-1; child1++) {
for (int child2=child1+1; child2<childCount; child2++) {

int count1 = countSumBags(bags, dist[child1]);
int count2 = countSumBags(bags, dist[child2]);
int diff = Math.abs(count1 - count2);

// a difference less than 2 is negligeable
if (diff > 1) {
// find some bags with can swap to even their difference
int c1=-1, c2=-1, cdiff;
boolean swap = false;

for (int i=0; i<bagCount-1; i++) {
for (int j=i; j<bagCount; j++) {
if (dist[child1][i] && dist[child2][j]) {
cdiff = Math.abs((count1 - bags[i] + bags[j]) - (count2 + bags[i] - bags[j]));
if (cdiff < diff) {
c1 = i; c2 = j;
diff = cdiff;
swap = true;
}
}
if (dist[child1][j] && dist[child2][i]) {
cdiff = Math.abs((count1 - bags[j] + bags[i]) - (count2 + bags[j] - bags[i]));
if (cdiff < diff) {
c1 = j; c2 = i;
diff = cdiff;
swap = true;
}
}
}
}

if (swap) {
//System.out.println("Swaping " + c1 + " with " + c2);
dist[child1][c1] = false; dist[child1][c2] = true;
dist[child2][c1] = true;  dist[child2][c2] = false;
}
}

//System.out.println("Diff between " + child1 + "(" + countSumBags(bags, dist[child1]) + ") and " + child2 + "(" + countSumBags(bags, dist[child2]) + ") is " + diff);

sumDiff += diff;
}
}

//System.out.println("oldDiff="+oldDiff+", sumDiff="+sumDiff);
}

return dist;
}

static private int countSumBags(int[] bags, boolean[] t) {
int count = 0;
for (int i=0; i<t.length; i++) {
if (t[i]) {
count+=bags[i];
}
}
return count;
}

}

I don't know if this the result you were looking for, but it seems to be, from my understanding of the question.

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