If you deal with millions of polygons, you need some kind of space partitioning, or it's gonna be slow, no matter how optimized your hit-test function is or how many threads work on solving your query.
What kind of space partitioning ? it depends:
- 2D? 3D?
- Is your polygon set static? If not, do it changes frequently?
- What kind of request are you doing on this set?
- What kind of polygon is it? Triangle? Convex? Concave? Complex? With holes?
We need more information to help you.
Here is a simple space partitioning scheme.
Suppose there is a Cartesian grid over your 2D space with a given step.
When you add a polygon:
- Compute its bounding box
- Find all the grid cells that intersect with the bounding box
- For each cell, add a line in a special table.
The table looks like this:
polygon_id. Add the proper indexes (at least
Of course, you want to choose your grid step so most of the polygons lay in less than 10 cells, or else your cell table will quickly becomes huge.
It's now easy to find the polygons at a given point:
- Compute in which cell your point belongs
- Get all polygons associated to this cell
- For each polygon, use your hit-test function
This solution is far from optimal, but easy to implements.