Given an irregular polygon and a point within that polygon, how do I determine which edge in the polygon is closest to the point?
I will likely have to run this calculation for a large set of points within the polygon (e.g. 50200 points).
Given an irregular polygon and a point within that polygon, how do I determine which edge in the polygon is closest to the point? I will likely have to run this calculation for a large set of points within the polygon (e.g. 50200 points). 


Each step of this algorithm is linear time (O(n)). Here are the basic formulas for each of the steps: Calculate closest point on the line that is tangent to each edge of the polygon.
Calculate closest point on each line segment (edge of the polygon) to the point in question. The point
Calculate the distance from the closest point on each line segment to the point in question.
Find the minimum distance. The corresponding polygonedge with the minimum distance is the answer.
Here is a diagram to help you understand what the points and terminology in this post represent: 


Se this post on SO for inspiration distance from point within a polygon to polygon edge or this one Shortest distance between a point and a line segment 


The right answer depends on the biggerpicture structure of the problem: what happens when you take into account multiple queries? I assume that each query will deal with a different point. But what about the polygon? Do you expect to receive multiple queries for the same polygon? Or each time the polygon is different? If each query is applied to a different, unpredictable polygon, then the only solution you have is essentially the total inspection of all polygon edges with pointtosegment distance testing for each one. It can be optimized in various [heuristic] ways (to discard the unnecessary tests early), but in the worst case there's no way around the full test. However, if you expect some kind of predictability and stability on the polygon side of the problem (sufficiently many pointqueries to the same polygon or to a fixed set of polygons), then the situation changes dramatically. The best approach in this case would be to prebuild the edgebased Voronoi diagram inside the polygon(s). Then you can solve the pointlocation problem (for which there are known efficient algorithms) in order to determine which Voronoi region the query point falls into. That will immediately tell you which edge is the closest. The latter is incomparably more efficient when you need to handle many pointqueries to the same polygon(s), but requires quite an effort to implement. So, it all depends on what kind of solution you need. P.S. I see that you state in your question that your are going to run it for a large set of points for a single polygon. This immediately makes the Voronoidiagrambased solution the way to go. Extra nuances of the algorithm might depend on whether that large set of points is entirely known in advance or arrives pointbypoint in unpredictable way. 

