A friend asked me a question today about an assignment problem. I found a quite straightforward solution, but I feel that it can be made simpler and faster. Your help would be appreciated.

The problem:
Assuming that I have **N** people, I need to assign them into **M** buildings, each building can house **K** people. Not all people are willing to live with each other, so i have a matrix of N*N cells and a 1 that marks the people that are willing to live with each other. If a cell contains 1 it means that I and J can live together. Obviously the matrix is symmetrical around the main diagonal.

My solution is as follows (pseudo Code):

```
int[] Match(int[] people, int[][] pairs, int numBuildings, int buildingsSize)
{
int[] freePeople = findFreePeople(people);
if(freePeople) = 0
{
return people;
}
foreach(int person in freePeople)
{
for(int buildingIndex=0 to numBuildings)
{
if( CheckIfPersonFitsInBuilding(...) )
{
int[] tempPeople = people.Copy();
tempPeople[person] = buildingIndex;
int[] result = Match(tempPeople,pairs,numBuildings,buildingsSize);
if(result != null)
{
return result;
}
}
}
}
return null;
}
```

I just cover all the possible arrangements using recursion. I feel this could be optimized greatly, and I'm not talking about heuristics but a solution with far lesser complexity.

- Is there a formal well known problem that is similar to this?
- Is there a better algorithm?

I think that this might be related to the stable marriage problem, though I'm not sure.