I have the following problem.
I have a large region populated with a random number of circles of different sizes. If a new circle of random radius is inserted in a random location, I'd like to find a nearby position for it so it doesn't overlap with any of the others. It's optimal if the circles stay close.
The number of circles and their size are limited, but random. The region will be quite large, (2500x2500, maybe) so an array of pixels as proposed here is out of the question. A person who answered that same question proposed a grid, in which the cells are the size of the circles. That would solve my problem, using cells the size of the largest possible circle, but I would like the circles to remain as close as possible, so it wouldn't entirely satisfy my needs.
A very basic approach consists of detecting collisions on placement of the new circle, and moving it away from the circle it collides with. After that, check for collisions again and repeat the process. This is obviously not very elegant and it's prone to infinite loops (more often than you might think).
The goal is to find the closest possible position for the newly inserted circle so it does not overlap with anyone else.
A very nice thing, but a different matter, and not my main objective, would be to rearrange as many circles as it's necessary, instead of relocating just the one, as though they were 'pushing' each other. I'd favor distance over number of circles moved. That is, I'd prefer many circles to move a little than one circle to move very far away from its original position.