I'm looking for a technique to keep nearly-sorted data in nearly-sorted order over time, despite the values changing slightly.
Here's the scenario:
In the world of 3D graphics, it is often beneficial to order your objects from front-to-back before drawing. As your scene changes or your view of the scene changes, this data may require re-sorting, however it will usually be very close to the sorted order (i.e. it won't change very much between frames). It's also not critical that the data be exactly in sorted order. The worst thing that will happen is that a polygon will be rendered and then completely hidden. It's a small performance hit, but not the end of the world.
With this in mind, is it possible to sort the data once ahead of time and then apply a minimal patch to the data once per frame to ensure that the data stays mostly sorted? In this scenario, the data would be considered mostly sorted if most of the objects were in ascending order. That is, 1 object that is 10 steps away from it's proper location is much better (10x better) than 10 objects that are 1 step away from their proper location.
It's also worth noting that the data could continue to be patched on a semi regular basis, as the data is typically rendered 30 times per second (or so). As long as the calculation was efficient, it could continue to be done over time until the changes stop and the list was completely sorted.
My knee jerk reaction to this problem is:
n log nsort to the data when it is loaded, and on large changes (which I can track pretty easily).
When the data starts changing slowly (e.g. when the scene is rotated), apply a single (linear) pass of some sort on the data to swap backwards neighbors and try to maintain sort order (I think this is basically shell sort - maybe there is a better algorithm to use for this single pass).
Keep doing a single pass of the partial sort each frame until the changes stop and the data is completely sorted
Go back to step 2 and wait for more changes.