# OpenCV: How to do Delaunay Triangulation and return an adjacency matrix?

I am trying to do Delaunay Triangulation for a set of points in OpenCV, but encountered a problem.

The function takes a matrix of coordinates and return an adjacency matrix. (If there is and edge connecting the point i and the point j, then adj(i,j) = 1, otherwise 0.)

I didn't get it working. The code below give strange results.

An example of Delaunay Triangulation is given here.

``````#include <iostream>
#include <opencv2/core.hpp>
#include <opencv2/imgproc.hpp>
#include <opencv2/highgui.hpp>

using namespace std;
using namespace cv;

Mat delaunay(const Mat& points, int imRows, int imCols)
/// Return the Delaunay triangulation, under the form of an adjacency matrix
/// points is a Nx2 mat containing the coordinates (x, y) of the points
{

/// Create subdiv and insert the points to it
Subdiv2D subdiv(Rect(0,0,imCols,imRows));
for(int p = 0; p < points.rows; p++)
{
float xp = points.at<float>(p, 0);
float yp = points.at<float>(p, 1);
Point2f fp(xp, yp);
subdiv.insert(fp);
}

/// Get the number of edges
vector<Vec4f> edgeList;
subdiv.getEdgeList(edgeList);
int nE = edgeList.size();

for(int e = 1; e <= nE; e++)
{
int p = subdiv.edgeOrg(e); // Edge's origin
int q = subdiv.edgeDst(e); // Edge's destination

if(p < points.rows && q < points.rows)
//        else
//        {
//            cout<<p<<", "<<q<<endl;
//            assert(p < points.rows && q < points.rows);
//        }
}
}

int main()
{
Mat points = Mat(100, 2, CV_32F);
randu(points, 0, 99);

int rows = 100, cols = 100;
Mat im(rows, cols, CV_8UC3, Scalar::all(0));
Mat adj = delaunay(points, rows, cols);

for(int i = 0; i < points.rows; i++)
{
int xi = points.at<float>(i,0);
int yi = points.at<float>(i,1);
/// Draw the edges
for(int j = i+1; j < points.rows; j++)
{
{
int xj = points.at<float>(j,0);
int yj = points.at<float>(j,1);
line(im, Point(xi,yi), Point(xj,yj), Scalar(255,0,0), 1);
}
/// Draw the nodes
circle(im, Point(xi, yi), 1, Scalar(0,0,255), -1);
}
}
namedWindow("im", CV_WINDOW_NORMAL);
imshow("im",im);
waitKey();
return 0;
}
``````

You are inserting into the adjacency matrix the indices of the `Subdiv2d` edges, which don't correspond to the indices of the points.

You can fix this, for example, storing the points and their index into a `std::map`. When you retrieve edges from the `Subdiv2d`, you check that the edges is formed by your points, and not from boundary points added by `Subdiv2d`. Having stored the point indices, you're now able to built the adjacency matrix correctly.

Have a look at the code:

``````#include <map>
#include <opencv2/opencv.hpp>
using namespace std;
using namespace cv;

struct lessPoint2f
{
bool operator()(const Point2f& lhs, const Point2f& rhs) const
{
return (lhs.x == rhs.x) ? (lhs.y < rhs.y) : (lhs.x < rhs.x);
}
};

Mat delaunay(const Mat1f& points, int imRows, int imCols)
/// Return the Delaunay triangulation, under the form of an adjacency matrix
/// points is a Nx2 mat containing the coordinates (x, y) of the points
{
map<Point2f, int, lessPoint2f> mappts;

/// Create subdiv and insert the points to it
Subdiv2D subdiv(Rect(0, 0, imCols, imRows));
for (int p = 0; p < points.rows; p++)
{
float xp = points(p, 0);
float yp = points(p, 1);
Point2f fp(xp, yp);

if (mappts.count(fp) == 0)
{
// Save point and index
mappts[fp] = p;

subdiv.insert(fp);
}
}

/// Get the number of edges
vector<Vec4f> edgeList;
subdiv.getEdgeList(edgeList);
int nE = edgeList.size();

for (int i = 0; i < nE; i++)
{
Vec4f e = edgeList[i];
Point2f pt0(e[0], e[1]);
Point2f pt1(e[2], e[3]);

if (mappts.count(pt0) == 0 || mappts.count(pt1) == 0) {
// Not a valid point
continue;
}

int idx0 = mappts[pt0];
int idx1 = mappts[pt1];

// Symmetric matrix
}
}

int main()
{
Mat1f points(10, 2);
randu(points, 0, 99);

int rows = 100, cols = 100;
Mat3b im(rows, cols, Vec3b(0,0,0));
Mat1b adj = delaunay(points, rows, cols);

for (int i = 0; i < points.rows; i++)
{
int xi = points.at<float>(i, 0);
int yi = points.at<float>(i, 1);

/// Draw the edges
for (int j = i + 1; j < points.rows; j++)
{
{
int xj = points(j, 0);
int yj = points(j, 1);
line(im, Point(xi, yi), Point(xj, yj), Scalar(255, 0, 0), 1);
}
}
}

for (int i = 0; i < points.rows; i++)
{
int xi = points(i, 0);
int yi = points(i, 1);

/// Draw the nodes
circle(im, Point(xi, yi), 1, Scalar(0, 0, 255), -1);
}

imshow("im", im);
waitKey();
return 0;
}
``````