Im looking for some fairly easy (I know polygon union is NOT an easy operation but maybe someone could point me in the right direction with a relativly easy one) algorithm on merging two intersecting polygons. Polygons could be concave without holes and also output polygon should not have holes in it. Polygons are represented in counter-clockwise manner. What I mean is presented on a picture. As you can see even if there is a hole in union of polygons I dont need it in the output. Input polygons are for sure without holes. I think without holes it should be easier to do but still I dont have an idea.
You can proceed as below:
first add to your set of points all the points of intersection of your polygons.
then I would proceed like graham scan algorithm but with one more constraint.
Instead of selecting the point that make the highest angle with the previous line (have a look at graham scan to see what I mean (*)), chose the one with th highest angle that was part of one of the previous polygon.
you will get an envellope (not convex) that will describe your shape.
it's similar to finding the convex hull of your points.
For example graham scan algorithm will help you find the convex hull of the set of points in O(N*ln(N)) where N is the number of points.
look up for convex hull algorithms, and you can find some ideas.
Hope it helps.
In the convex hull algorithm you chose the point of the angle that makes the largest angle with the previous side.
To "stick" with your previous polygon, just add the constraint that you must select a side that previously existed.
and you take off the constraint of haveing angle less than 180°
hope i'm clear