Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

From the man page for XFillPolygon

· If shape is Complex, the path may self-intersect. Note that con‐ tiguous coincident points in the path are not treated as self- intersection.

· If shape is Convex, for every pair of points inside the polygon, the line segment connecting them does not intersect the path. If known by the client, specifying Convex can improve performance. If you specify Convex for a path that is not convex, the graphics results are undefined.

· If shape is Nonconvex, the path does not self-intersect, but the shape is not wholly convex. If known by the client, specifying Nonconvex instead of Complex may improve performance. If you specify Nonconvex for a self-intersecting path, the graphics results are undefined.

I am having performance problems with fill XFillPolygon and as the man page suggests the first step I want to take is to specify the correct shape of the Polygon ( I am currently using Complex to be on the safe side).

Is there an effecient algorithm to determine if a polygon (defined by a series of coordinates) is convex, non convex or complex.

share|improve this question
See this question for information about checking for complex/simple polygons:… – Drew Noakes Oct 24 '10 at 2:07
up vote 17 down vote accepted

See Gift Wrapping Algorithm.

alt text

Edit: Assuming all your polygons are in counter-clockwise order, the moment your non-initial polar angle makes left turn, you know it's not convex.

You could see if the line segments intersect with each other to figure out if the polygon is complex (Not sure if that's the fastest way).

share|improve this answer
Please correct me if I am wrong. If the Convex hull that is computed by the Gift Wrapping Algorithm doesn't include all the points in the polygon then it is nonconvex? What about the case when the polygon is complex (intersecting sides)? – hhafez Jan 23 '09 at 5:37
This algorithm was easier to implement correctly so finally decided to use it (had problems with Loren's answer because acos in C would not return values over 180 degree which is the criteria need to determine if the polygon was convex. – hhafez Jan 28 '09 at 0:31

You can make things a lot easier than the Gift-Wrapping Algorithm... that's a good answer when you have a set of points w/o any particular boundary and need to find the convex hull.

A polygon is a set of points in a list where the consecutive points form the boundary. It is much easier to figure out whether a polygon is convex or not (and you don't have to calculate any angles, either):

For each consecutive pair of edges of the polygon (each triplet of points), compute the z-component of the cross product of the vectors defined by the edges pointing towards the points in increasing order. Take the cross product of these vectors:

 given p[k], p[k+1], p[k+2] each with coordinates x, y:
 dx1 = x[k+1]-x[k]
 dy1 = y[k+1]-y[k]
 dx2 = x[k+2]-x[k+1]
 dy2 = y[k+2]-y[k+1]
 zcrossproduct = dx1*dy2 - dy1*dx2

The polygon is convex if the z-components of the cross products are either all positive or all negative. Otherwise the polygon is nonconvex.

If there are N points, make sure you calculate N cross products, e.g. be sure to use the triplets (p[N-2],p[N-1],p[0]) and (p[N-1],p[0],p[1]).

share|improve this answer
I know this post is more than two years old, but this answer comes up first in Google and it's not right: what you need is the cross product, not the dot product. The sign of the dot product only tells you if the angle between the vectors is greater than 90º, what you need is the sign of the cross product, which tells you if vector B is to the left or right the vector A. I really hope this is right. – Rellikiox Feb 14 '12 at 22:24
ah, I think you are correct. I'll change the answer. Thanks! – Jason S Feb 15 '12 at 0:05
@JasonS I think you need to use vectors with a magnitude of 1 for this to work. – Josh C. Nov 2 '12 at 14:42
?? no, it doesn't matter, you're just looking for the sign – Jason S Nov 3 '12 at 17:29
Correct me if I am wrong, but won't this fail for some complex polygons? For instance [[1 3] [9 7] [7 9] [7 2] [9 6] [1 8]]] – zenna May 28 '13 at 5:39

I've implemented JasonS's solution in JAVA.

Perhaps it would be helpful

public boolean isConvex()
    if (_vertices.size()<4)
        return true;
    boolean sign=false;
    int n=_vertices.size();
    for(int i=0;i<n;i++)
        double dx1 = _vertices.get((i+2)%n).X-_vertices.get((i+1)%n).X;
        double dy1 = _vertices.get((i+2)%n).Y-_vertices.get((i+1)%n).Y;
        double dx2 = _vertices.get(i).X-_vertices.get((i+1)%n).X;
        double dy2 = _vertices.get(i).Y-_vertices.get((i+1)%n).Y;
        double zcrossproduct = dx1*dy2 - dy1*dx2;
        if (i==0)
            if (sign!=(zcrossproduct>0))
                return false;
    return true;
share|improve this answer

Convex is fairly easy to test for: Consider each set of three points along the polygon. If every angle is 180 degrees or less you have a convex polygon. This test runs in O(n) time.

Note, also, that in most cases this calculation is something you can do once and save--most of the time you have a set of polygons to work with that don't go changing all the time.

Some more information on your data might help.

Edit: Peter Kirkham pointed out a polygon that this test won't catch. It's easy enough to catch his polygon, also: When you figure out each angle, also keep a running total of (180 - angle). For a convex polygon this will total 360.

share|improve this answer
Thats sounds like a good approach to the problem, but it still leave the problem of complex polygons – hhafez Jan 23 '09 at 5:39
You can successfully use this algorithm for every case. Polygons whose sides intersect will fail this angle test. – Frederick The Fool Jan 23 '09 at 6:46
I can't try this solution till I get back to work. But it looks promissing and it should work. – hhafez Jan 23 '09 at 7:44 has all exterior angles > 180 (interior angles 180 or less), but is complex. – Pete Kirkham Jan 23 '09 at 14:54
For a convex polygon the total of interior angles in (n-2)*180 which is another way of looking at it – Pete Kirkham Jan 24 '09 at 12:59

I tried to implement the algorithm Jason S provided above. As written I could not get it to work.

Looking around I found that it appears to be cross product that is needed, not dot product. Here is what I ended up using:

share|improve this answer

To test if a polygon is convex, every point of the polygon should be level with or behind each line.

Here's an example picture:

enter image description here

share|improve this answer
I have no idea what this means. What does it mean for a point to be level, behind, or in front of a line? – emory Oct 16 '15 at 1:26

Adapted Uri's code into matlab. Hope this may help.

% M [ x1 x2 x3 ...
%     y1 y2 y3 ...]
% test if a polygon is convex

function ret = isConvex(M)
    N = size(M,2);
    if (N<4)
        ret = 1;

    x0 = M(1, 1:end);
    x1 = [x0(2:end), x0(1)];
    x2 = [x0(3:end), x0(1:2)];
    y0 = M(2, 1:end);
    y1 = [y0(2:end), y0(1)];
    y2 = [y0(3:end), y0(1:2)];
    dx1 = x2 - x1;
    dy1 = y2 - y1;
    dx2 = x0 - x1;
    dy2 = y0 - y1;
    zcrossproduct = dx1 .* dy2 - dy1 .* dx2;

    % equality allows two consecutive edges to be parallel
    t1 = sum(zcrossproduct >= 0);  
    t2 = sum(zcrossproduct <= 0);  
    ret = t1 == N || t2 == N;

share|improve this answer

This is a comment on the Java method above: public boolean isConvex(). I would like it to give false in the case of collinear points, including 3 points on the same line being flagged as NOT a triangle. So

if (_vertices.size()<4) 

could become

if (_vertices.size()<3)

and after

double zcrossproduct = dx1*dy2 - dy1*dx2;


if(zcrossproduct == 0) return false;
share|improve this answer
This does not provide an answer to the question. To critique or request clarification from an author, leave a comment below their post - you can always comment on your own posts, and once you have sufficient reputation you will be able to comment on any post. – hoijui Oct 16 '15 at 7:37

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.