Exemplo n.º 1
0
 public void checkValidity() {
   final Coordinate[] coords = new Coordinate[getFaceOrder() + 1];
   final WB_Point point = geometryfactory.createPoint();
   final WB_Map2D context = geometryfactory.createEmbeddedPlane(getPlane());
   HE_Halfedge he = _halfedge;
   int i = 0;
   do {
     context.mapPoint3D(he.getVertex(), point);
     coords[i] = new Coordinate(point.xd(), point.yd(), i);
     he = he.getNextInFace();
     i++;
   } while (he != _halfedge);
   context.mapPoint3D(he.getVertex(), point);
   coords[i] = new Coordinate(point.xd(), point.yd(), i);
   he = he.getNextInFace();
   final Polygon inputPolygon = new GeometryFactory().createPolygon(coords);
   final IsValidOp isValidOp = new IsValidOp(inputPolygon);
   if (!IsValidOp.isValid(inputPolygon)) {
     System.out.println(this);
     System.out.println(this.getFaceArea() + " " + this.getFaceNormal());
     he = _halfedge;
     i = 0;
     do {
       System.out.println("  " + i + ": " + he.getVertex());
       he = he.getNextInFace();
       i++;
     } while (he != _halfedge);
     System.out.println(isValidOp.getValidationError());
   }
 }
Exemplo n.º 2
0
 /*
  * (non-Javadoc)
  *
  * @see wblut.hemesh.HE_Creator#create()
  */
 @Override
 protected HE_Mesh createBase() {
   final WB_Point[] vertices = new WB_Point[(tubefacets + 1) * (torusfacets + 1)];
   final WB_Point[] uvws = new WB_Point[(tubefacets + 1) * (torusfacets + 1)];
   final double dtua = (2 * Math.PI) / tubefacets;
   final double dtoa = (2 * Math.PI) / torusfacets;
   final double dv = 1.0 / tubefacets;
   final double du = 1.0 / torusfacets;
   final double dtwa = (twist * dtoa) / tubefacets;
   int id = 0;
   WB_Point basevertex;
   for (int j = 0; j < torusfacets + 1; j++) {
     final int lj = (j == torusfacets) ? 0 : j;
     final double ca = Math.cos(lj * dtoa);
     final double sa = Math.sin(lj * dtoa);
     for (int i = 0; i < tubefacets + 1; i++) {
       final int li = (i == tubefacets) ? 0 : i;
       basevertex =
           new WB_Point(
               Ro + (Ri * Math.cos((dtua * li) + (j * dtwa))),
               0,
               Ri * Math.sin((dtua * li) + (j * dtwa)));
       vertices[id] = new WB_Point(ca * basevertex.xd(), sa * basevertex.xd(), basevertex.zd());
       uvws[id] = new WB_Point(j * du, i * dv, 0);
       id++;
     }
   }
   final int nfaces = tubefacets * torusfacets;
   id = 0;
   final int[][] faces = new int[nfaces][];
   int j = 0;
   for (j = 0; j < torusfacets; j++) {
     for (int i = 0; i < tubefacets; i++) {
       faces[id] = new int[4];
       faces[id][0] = i + (j * (tubefacets + 1));
       faces[id][1] = i + ((j + 1) * (tubefacets + 1));
       faces[id][2] = (i + 1) + ((j + 1) * (tubefacets + 1));
       faces[id][3] = (i + 1) + (j * (tubefacets + 1));
       id++;
     }
   }
   /*
    * for (int i = 0; i < tubefacets; i++) { faces[id] = new int[4];
    * faces[id][0] = i + ((torusfacets - 1) * (tubefacets + 1));
    * faces[id][1] = (i + twist) % (tubefacets + 1) + (torusfacets *
    * (tubefacets + 1)); faces[id][2] = (i + twist + 1) % (tubefacets + 1)
    * + (torusfacets * (tubefacets + 1)); faces[id][3] = (i + 1) +
    * ((torusfacets - 1) * (tubefacets + 1)); id++; }
    */
   final HEC_FromFacelist fl = new HEC_FromFacelist();
   fl.setVertices(vertices).setFaces(faces).setUVW(uvws);
   return fl.createBase();
 }