# OpenStreetMap: Get all entrances in a park

I've extracted some National Parks from Openstreetmap. But now I want to find out where the entrances are. Openstreetmap has some tags for it but it isn't used that often.

So I tought: An entrance into a national park is a road which crosses the border of that park. Must be true: You are going into the park. The only downside I can think off is that it could be a private road for staff or something but that should be a small percentage.

So what is the best ways to find these points?

My guess: I know the boundaries of the park. So I can download all roads in that park. Then I can use the "Ray casting algorithm" for all sections of all roads in the parks to see if it crosses a border. When it does: that is a road that goes into the park. However, that might be very slow. If you have a large park with lots of roads inside it, it might take ages to check all segments.
Is there a more clever way?

You could use overpass turbo for this task: the following solution will identify all ways, which intersect with the boundary of a national park relation.

Try it in overpass turbo! http://overpass-turbo.eu/s/aSN

Just navigate to the area you're interested in and hit "Run".

Here's a brief explanation how this query works:

``````// restrict search to current bounding box
[bbox:{{bbox}}];
// get all relations with tag boundary = national_park
rel[boundary=national_park];
// get all ways in this relation and store it in inputset boundaryways
way(r)->.boundaryways;
// now get all highway ways, which intersect our ways in boundaryways
way[highway](around.boundaryways:0);
// exclude ways with tag highway=* which are part of the boundary relation
(._; - way.boundaryways[highway];);
// print result
out geom;
``````

Modern computers are really fast. The Ray casting algorithm is fairly cheap. Unless you need to check billions of points it shouldn't be much of a problem.

One simple optimization is to sort the park border line segments. If you cast rays along the y axis, then sort them on the lowest x coordinate. For every point you check, you can stop checking when the lowest x coordinate of a line segment is larger than the x coordinate of the point.