Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:


Please take a look at pic1 above first. 2 points combine a line, let's call it LineAB, and we can get a normal from our eye sight direction, let's call it view-direction, vector(lineAB) X view-direction, we can get a normal named plane-normal. in the pic1, plane-normal is directed to the top (green arrow), and the plane with plane-normal cut the map into 2 parts.

As the point C is on the same direction of the plane-normal, we regard it as inside, let's return true. Point D is on the anti-direction of plane-normal, it is outside, return false.

My problem is in the pic2 as following: Pic2

Now, there are many points A,A1,A2...A5,... An, build many lines such as lineAA1, line A1A2, ... LineAn-1An (one condition is: every angle between 2 adjacent lines are equal to or more than 90 degree) and plus with view direction (the direction from our eye sight), we can get many planes PAA1, PA1P2, ... PAn-1An which also cut the map to 2 parts.

I need to check one point is inside or outside. for example, point C is inside but point D is outside.

share|improve this question
Is it possible, that your A1..An points will produce a polygon? If yes, then can it be self-intersected? Or may be even many polygons? Are complex cases, such as one point inside first polygon and another is inside second polygon, e t.c. ? – Alma Do May 26 '14 at 10:09

2 Answers 2

Regarding one plane separating the dim(3)-space isn't difficult, to consider a piecewise assembled dim(2)-plane we need to dive deeper:

The problem may be reduced to separating the dim(2)-space.
If only for the calculation of the normal the 3rd dimension is considered, then that can solved in a different way:
Let v = (a,b) be the vector of a lineAB. The normal is (b, -a) or (-b, a) respectively.

If you want to check only if a point is within a polygon, just use the ray-casting-algorithm.

When it comes to dividing the dim(2)-space into two separate spaced by your polygonal chain, it won't be enough to check if the point is on the positive directon of the normals on each part line(A[i-1])(A[i]):

Polygonal chain
Point P is positive with respect to normal N0, but negative w.r.t. normal N1. Also, the upper angles are all above 90° (some counter angles are also displayed), but the polygon chain isn't convex either w.r.t. the upward y-axis.
To solve your issue, you can use the ray-casting-algorithm, going towards negative y-direction, i.e. "downwards", and see if the amount of intersections is odd.

  • If the line ends at a higher x-coordinate than the start point, an odd amount of intersections means "true"
  • If the line ends at a lower x-coordinate than the start point, an odd amount of intersections means "false"
share|improve this answer

You can find if a ray from point C (with view direction) intersects with one of the segments AiAi+1. It could be done with binary search by X-coordinate (to find potential segment quickly)

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.