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I am trying to get the points which form a polygon to fill it with some color. I have a set of points and then I calculate the Voronoi Diagram for it. The result is this:

Voronoi Diagram

Green points are the points I define and blue points are the calculated vertices for the Voronoi Diagram. I want to fill the polygon which is generated by an specific green point so I need to know which points are around it to form the polygon and fill it.

I have read about Gift Wrapping Algorithm and Convex Hull but it doesn't seems to be what I need. Is there any algorithms to suit this need ? I am programming in C++ but any help in Java or C# would be helpful.

  • Matlab voronoi(x,y) function gives you full info you need. – David May 28 '13 at 16:26
  • I am doing it in C++, so Matlab is not an alternative, I need an algorithm to write in my program – Andres May 28 '13 at 16:28
  • C++ calls matlab (via COM) is no problem, the point is whether you want to dive into the black box. – David May 28 '13 at 16:29
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    There is a platform independent C++ standalone library? Because then I will distribute my program and I can't install Matlab everywhere. I don't know too much about Matlab so I am asking. – Andres May 28 '13 at 16:31
  • if you want to deploy it to other PC, this is no longer a choice. Though feasible, but very cumbersome and it will consume you a lot of time. Leave it. – David May 28 '13 at 16:32
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The Gift Wrapping algorithm (which is a convex hull algorithm) is for finding the smallest convex polygon that contains a set of points in the plane. That's not what you want here.

Fortune's algorithm is a good solution for finding the actual boundaries of your Voronoi diagram. It's not a trivial algorithm, but a full pseudocode is provided on the linked Wikipedia page. At the bottom of the Wikipedia page, there are links to implementations of Fortune's algorithm in a few different languages.

  • check en.wikipedia.org/wiki/Fortune's_algorithm the pseudo code is here, and C code here ect.bell-labs.com/who/sjf/voronoi.tar – Ph.T May 28 '13 at 18:24
  • @Ph.T I already have exactly that link in my answer. Did you not see it? – Timothy Shields May 28 '13 at 18:25
  • Sorry timothy just saw it now, I did not click the link to be sincere.. good job – Ph.T May 28 '13 at 18:26
  • @Ph.T Haha no problem - I was just confused why you were commenting with the same exact link. :) – Timothy Shields May 28 '13 at 18:27
  • The algorithm I am using is fortune algorithm which generates the image I uploaded but it gives me the points of the polygon but I don't know to what site it is associated and that's what I need. I have searched the algorithm because is a little complicated to implement or I can't fully understand it :/ – Andres May 28 '13 at 19:06
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Your implementation of Fortune's algorithm appears to compute the natural embedding, which can be used to extract edge lists for the faces. Here is the critical data structure.

struct Halfedge 
{
    struct  Halfedge    *ELleft, *ELright;
    struct  Edge    *ELedge;
    int     ELrefcnt;
    char    ELpm;
    struct  Site    *vertex;
    float   ystar;
    struct  Halfedge *PQnext;
};

ELleft and ELright appear to be a doubly-linked list that contains the edges incident to a particular vertex or face, sorted by angle. If it's a face, you're golden; otherwise, you can iterate around a face by updating the half-edge e to the reverse of the next half-edge in (counter)clockwise order about its destination vertex (i.e., the reverse of ELleft).

  • Nice I have been examining the source code and I see it. I have seen other Voronoid libraries like blog.ivank.net/fortunes-algorithm-and-implementation.html, the Voronoi Diagram generated is not always right but I have that kind of information. Seems like the struct I want is: struct Halfedge *PQhash – Andres May 29 '13 at 23:49

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