The problem "specification":
It's Christmas! You have to buy presents!
You have a set of already existing bundles of toys, and the corresponding price of the bundle:
1 0 0 1 0 1 1 1 0 => 58 0 1 0 0 1 1 1 0 0 => 27 1 1 1 0 0 0 1 0 0 => 46 0 0 0 0 1 1 1 1 0 => 73 ...
1 indicates that the toy is in the bundle, and a
0 that it is not.
Now, Santa Claus promo is coming and a leftover bundle
X is offered to you at a "special promo price". We will say
X is a bad deal if there exists another bundle
Y so that:
Edit: to make it easier, I dropped condition 3 but changed condition 1 from "subset" into "strict subset"
Xis a strict subset of
Xis more expensive than
The objective is to implement a function
bool isBadSubset(X) which finds out efficiently whether
X is good or not.
Given that there are millions of bundles, comparing it to each one is obviously not feasible. Moreover, you can take the assumption that in the existing collection of bundles, a subset of toys is always cheaper than a superset.
- comparing whether a set is a subset or not of another set is easy
- one may limit the comparisons to set which are both containing at least
Nmore toys and cheaper. However, the list might still be big.
- something in the direction of a sieve would be good
- you don't need to know which bundle is better ...just that there exists one which is better
The challenge: is it possible to achieve this in constant time? (independent of the amount of bundles presently in the collection) ...or at least in log(n)?