If you know what this kind of problem is called, let me know (unless you actually know the answer to the question).
If I have a set Z of objects, is there an algorithm for diving them up between a bunch of containers (each holding a certain number of objects)?
To slightly complicate the problem, let's assume the set of objects we start with has a subset X. There are X containers, and each container must hold a single element of X, in addition to other objects (if it has room).
The best way I can think of doing this currently is looking at the disjunction of Z and X, let's call it Y. Then we can generate the z choose x combinations, and then expand that out for all possible combinations of x.
Example: The actual problem is basically generating all events in a space. Suppose we have two event triggers (X) and 2 event arguments (Y), where Z = X U Y. Each event must have a trigger, and it can have 0...N arguments (depending on the type of event, but that isn't important for now. A trigger can also be an argument. Clearly, in this situation we can have a single event with one trigger and 3 arguments (one of which is the second trigger)
Our event space is as follows (Trigger[Arguments], + indicates a new event):
X1 + X2 X1[Y1] + X2 X1[Y2] + X2 X1 + X2[Y1] X1 + X2[Y2] X1[Y1] + X2[Y2] X1[Y2] + X2[Y1] X1[X2] X1[X2,Y1] X1[X2,Y2] X1[X2,Y1,Y2] X2[X1] X2[X1,Y1] X2[X1,Y2] X2[X1,Y1,Y2]
I'm pretty sure that's all the combinations.
Update: After thinking a bit more about the problem, I have a few thoughts on constraints and stuff: Rules for creating "events": 1) There is an event for every trigger, and every event must have a trigger 2) Event must have > 0 arguments 3) Events cannot share arguments 4) Triggers can be used as arguments
For a brute force solution, perhaps one could generate all permutations of the triggers + events and then eliminate results that don't match the above 4 rules, and treat the ordering as grouping of events?
Thanks for any problem names or ideas!