Exemplo n.º 1
0
bool TriangulatorAdaptor::triangulate(int *triangleIndexes) {
    int XX, YY;
    from3DTo2D(XX, YY);

    map<pair<double, double> , int> coorToPosMap; // coordinate to position map
    for (int i = 0; i < polygon.size(); i++) {
        coorToPosMap.insert(
                pair<pair<double, double> , int>(
                        pair<double, double>(polygon[i][XX], polygon[i][YY]), i));
    }

    TPPLPoly poly;
    poly.Init(polygon.size());
    for (int i = 0; i < polygon.size(); i++) {
        poly[i].x = polygon[i][XX];
        poly[i].y = polygon[i][YY];
    }

    if (poly.GetOrientation() == TPPL_CW) {
        isClockwise = true;
        poly.Invert(); // polygon has to be counter-clockwise
    } else if(poly.GetOrientation() == TPPL_CCW) {
        isClockwise = false;
    } else {
    	return false;
    }

    list<TPPLPoly> triangles;

    TPPLPartition triangulator; // see http://code.google.com/p/polypartition/
    int success = triangulator.Triangulate_OPT(&poly, &triangles);
    if (success != 1) {
        cout << "Error: polygon cannot be triangulated!" << endl;
        cout << "Polygon:" << endl;
        for (int i=0; i<polygon.size(); i++) {
            cout << polygon[i][0] << "   " << polygon[i][1] << "   " << polygon[i][2] << endl;
        }
		return false;
    }
    //assert(success == 1);
    assert(triangles.size() +2 == polygon.size());
    int count = 0;
    for (list<TPPLPoly>::iterator it = triangles.begin(); it != triangles.end(); it++) {
        if (!isClockwise) {
            for (int j = 0; j < 3; j++) {
                triangleIndexes[count * 3 + j] = coorToPosMap[pair<double, double>((*it)[j].x,
                        (*it)[j].y)];
            }
        } else {
            for (int j = 0; j < 3; j++) {
                triangleIndexes[count * 3 + 2 - j] = coorToPosMap[pair<double, double>((*it)[j].x,
                        (*it)[j].y)];
            }
        }
        count++;
    }
    assert(count == triangles.size());
    return true;
}
Exemplo n.º 2
0
void GenerateTestData() {
	TPPLPartition pp;
	
	list<TPPLPoly> testpolys,result,expectedResult;

	ReadPolyList("test_input.txt",&testpolys);

	DrawPolyList("test_input.bmp",&testpolys);

	pp.Triangulate_EC(&testpolys,&result);
	//pp.Triangulate_EC(&(*testpolys.begin()),&result);
	DrawPolyList("test_triangulate_EC.bmp",&result);
	WritePolyList("test_triangulate_EC.txt",&result);

	result.clear(); expectedResult.clear();

	pp.Triangulate_OPT(&(*testpolys.begin()),&result);
	DrawPolyList("test_triangulate_OPT.bmp",&result);
	WritePolyList("test_triangulate_OPT.txt",&result);

	result.clear(); expectedResult.clear();

	pp.Triangulate_MONO(&testpolys,&result);
	//pp.Triangulate_MONO(&(*testpolys.begin()),&result);
	DrawPolyList("test_triangulate_MONO.bmp",&result);
	WritePolyList("test_triangulate_MONO.txt",&result);

	result.clear(); expectedResult.clear();

	pp.ConvexPartition_HM(&testpolys,&result);
	//pp.ConvexPartition_HM(&(*testpolys.begin()),&result);
	DrawPolyList("test_convexpartition_HM.bmp",&result);
	WritePolyList("test_convexpartition_HM.txt",&result);

	result.clear(); expectedResult.clear();

	pp.ConvexPartition_OPT(&(*testpolys.begin()),&result);
	DrawPolyList("test_convexpartition_OPT.bmp",&result);
	WritePolyList("test_convexpartition_OPT.txt",&result);
}
Exemplo n.º 3
0
 void partition() {
   TPPLPoly poly;
   std::vector<Point> nodes = polygons_[0].nodes_;
   poly.Init(nodes.size());
   unsigned int i = 0;
   for (std::vector<Point>::const_iterator p = nodes.begin(); p != nodes.end(); ++p, ++i) {
     poly[i].x = p->lat;
     poly[i].y = p->lon;
   }
   std::list<TPPLPoly> convex_polys;
   TPPLPartition partitioner;
   partitioner.Triangulate_OPT(&poly, &convex_polys);
   //partitioner.ConvexPartition_HM(&poly, &convex_polys);
   polygons_.clear();
   for (std::list<TPPLPoly>::iterator p = convex_polys.begin(); p != convex_polys.end(); ++p) {
     add_polygon();
     for (long i = 0; i < p->GetNumPoints(); ++i) {
       TPPLPoint point = p->GetPoint(i);
       add_node(Point(point.x, point.y));
     }
   }
 }