I have to make a flash game like this: There is a board with holes in it (more than 1000). Initially, there are 3 pegs placed on the board and a rubber band around them. We have 3 possible operations: 1. Add peg - adds a peg on the board 2. Remove peg - removes a peg ( if there are more than 3 pegs) - the rubber band must take the shape of the remaining pegs. 3. Move peg - rubber band must be updated with current positions of the pegs.
How would you solve the problem of finding the rubber band's shape optimally?
I have 2 ideeas, but I have to work on them a little bit. The main ideea is that we have to change the rubber band's shape only at "Move" operation, and we use the same number of pegs, only one is changing position:
A derivation from convex hull algorithm. We have to know wich pegs are inside the rubber band and wich are outside. It might get a little complicated.
We work with only 3 pegs: 2 anchors and 1 middle. The 2 anchors form a boundary line for the interaction of the 1 middle peg. On the active side of the line the rubber band functions as 2 segments between the 2 anchor pegs and the middle peg. On the inactive side the 1 middle peg is free to move while the rubber band functions as a straight line between the 2 anchor pegs. The caveat to the above is that there are cases in which movement of the 1 middle peg in the active side of the boundary line can can cause one of the 2 segments to contact a 4th peg. The program must detect this occurrence and update the new anchor pegs accordingly. These are just suggestions from some limited experience with this concept. The developer should determine the best approach based on his experience and judgement.
Do you have any other ideeas, or suggestions?