I'm trying to create a fast 2D point inside polygon algorithm, for use in hittesting (e.g. Polygon.contains(p:Point)
). Suggestions for effective techniques would be appreciated.

You forgot to tell us about your perceptions on the question of right or left handedness  which can also be interpreted as "inside" vs "outside"  RT – Richard T Oct 20 '08 at 5:40

13Yes, I realize now the question leaves many details unspecified, but at this point I'm sorta interested in seeing the variety of responses. – Scott Evernden Oct 20 '08 at 6:03

4A 90 sided polygon is called a enneacontagon and a 10,000 sided polygon is called a myriagon. – user263678 Feb 1 '10 at 16:28

"Most elegant" is out of the target, since I have had trouble with finding a "work at all"algorithm. I must figure it out myself : stackoverflow.com/questions/14818567/… – davidkonrad Aug 17 '13 at 19:21
This seems to work in R (apologies for ugliness, would like to see better version!).
pnpoly < function(nvert,vertx,verty,testx,testy){
c < FALSE
j < nvert
for (i in 1:nvert){
if( ((verty[i]>testy) != (verty[j]>testy)) &&
(testx < (vertx[j]vertx[i])*(testyverty[i])/(verty[j]verty[i])+vertx[i]))
{c < !c}
j < i}
return(c)}
This only works for convex shapes, but Minkowski Portal Refinement, and GJK are also great options for testing if a point is in a polygon. You use minkowski subtraction to subtract the point from the polygon, then run those algorithms to see if the polygon contains the origin.
Also, interestingly, you can describe your shapes a bit more implicitly using support functions which take a direction vector as input and spit out the farthest point along that vector. This allows you to describe any convex shape.. curved, made out of polygons, or mixed. You can also do operations to combine the results of simple support functions to make more complex shapes.
More info: http://xenocollide.snethen.com/mpr2d.html
Also, game programming gems 7 talks about how to do this in 3d (: