Exemplo n.º 1
0
 public override void VertexMove(MoveArgs data)
 {
     if (VertexTable.Contains(new VertexLookup()
     {
         Id = data.id
     }))
     {
         VertexLookup vdata = VertexTable.Find(item => item.Id == data.id);
         foreach (VertexLookup vLookup in VertexTable)
         {
             if (vLookup.Line && vLookup.Line.vStart == vdata.Vertex)
             {
                 vLookup.Line.MoveStart(data.pos);
             }
             if (vLookup.Line && vLookup.Line.vEnd == vdata.Vertex)
             {
                 vLookup.Line.MoveEnd(data.pos);
             }
         }
         curve.Vector3(GetVertexPositions(), Lr);
         if (label)
         {
             label.position = _labelPosition();
         }
     }
     curve.Vector3(GetVertexPositions(), Lr);
 }
Exemplo n.º 2
0
        protected VirgisFeature _drawFeature(IEnumerable <LineString> LinearRings, string gisId = null, Dictionary <string, object> properties = null)
        {
            LineString perimeter = (LinearRings as ReadOnlyCollection <LineString>)[0];

            Vector3[] poly  = perimeter.Vector3();
            DCurve3   curve = new DCurve3();

            curve.Vector3(poly, true);
            Vector3 center = (Vector3)curve.Center();
            //Create the GameObjects
            GameObject dataPoly = Instantiate(PolygonPrefab, center, Quaternion.identity, transform);



            // add the gis data from geoJSON
            Datapolygon p = dataPoly.GetComponent <Datapolygon>();

            p.gisId         = gisId;
            p.gisProperties = properties ?? new Dictionary <string, object>();

            if (symbology["body"].ContainsKey("Label") && symbology["body"].Label != null && (properties?.ContainsKey(symbology["body"].Label) ?? false))
            {
                //Set the label
                GameObject labelObject = Instantiate(LabelPrefab, dataPoly.transform, false);
                labelObject.transform.Translate(dataPoly.transform.TransformVector(Vector3.up) * symbology["point"].Transform.Scale.magnitude, Space.Self);
                Text labelText = labelObject.GetComponentInChildren <Text>();
                labelText.text = (string)properties[symbology["body"].Label];
            }


            List <Dataline> polygon = new List <Dataline>();

            // Darw the LinearRing
            foreach (LineString LinearRing in LinearRings)
            {
                Vector3[]  lr       = LinearRing.Vector3();
                GameObject dataLine = Instantiate(LinePrefab, dataPoly.transform, false);
                Dataline   com      = dataLine.GetComponent <Dataline>();
                com.Draw(lr, true, symbology, LinePrefab, HandlePrefab, null, mainMat, selectedMat, lineMain, lineSelected);
                polygon.Add(com);
            }

            //Draw the Polygon
            p.Draw(polygon, bodyMain);

            return(p);
        }
Exemplo n.º 3
0
        /// <summary>
        /// Makes the actual mesh
        /// </summary>
        protected void _redraw()
        {
            if (lines.Count > 0)
            {
                Polygon = new List <DCurve3>();
                foreach (Dataline ring in lines)
                {
                    foreach (VertexLookup v in ring.VertexTable)
                    {
                        VertexTable.Add(v);
                    }
                    DCurve3 curve = new DCurve3();
                    curve.Vector3(ring.GetVertexPositions(), true);
                    Polygon.Add(curve);
                }
            }

            MeshFilter mf = Shape.GetComponent <MeshFilter>();

            MeshCollider[] mc = Shape.GetComponents <MeshCollider>();
            mf.mesh = null;
            Mesh mesh  = new Mesh();
            Mesh imesh = new Mesh();

            mesh.indexFormat  = UnityEngine.Rendering.IndexFormat.UInt32;
            imesh.indexFormat = UnityEngine.Rendering.IndexFormat.UInt32;
            Frame3f frame = new Frame3f();

            Vector3[]        vertices;
            GeneralPolygon2d polygon2d;
            Delaunator       delaunator;
            List <int>       triangles = new List <int>();

            try {
                //
                // Map 3d Polygon to the bext fit 2d polygon and also return the frame used for the mapping
                //
                polygon2d = Polygon.ToPolygon(ref frame);

                //
                // calculate the dalaunay triangulation of the 2d polygon
                //
                delaunator = new Delaunator(polygon2d.AllVerticesItr().ToPoints());

                IEnumerable <Vector2d> vlist = delaunator.Points.ToVectors2d();
                vertices = new Vector3[vlist.Count()];

                //
                // for each vertex in the dalaunay triangulatin - map back to a 3d point and also populate the vertex table
                //
                for (int i = 0; i < vlist.Count(); i++)
                {
                    Vector2d v = vlist.ElementAt(i);
                    try {
                        Vector3d v1 = Polygon.AllVertexItr().Find(item => v.Distance(frame.ToPlaneUV((Vector3f)item, 2)) < 0.001);
                        vertices[i] = Shape.transform.InverseTransformPoint((Vector3)v1);
                        VertexLookup vl = VertexTable.Find(item => v1.Distance(item.Com.transform.position) < 0.001);
                        if (vl != null)
                        {
                            vl.pVertex = i;
                        }
                    } catch {
                        Debug.Log("Mesh Error");
                    }
                }

                //
                // eaxtract the triangles from the delaunay triangulation
                //
                IEnumerable <ITriangle> tris = delaunator.GetTriangles();
                for (int i = 0; i < tris.Count(); i++)
                {
                    ITriangle tri = tris.ElementAt(i);

                    if (polygon2d.Contains(tri.CetIncenter()))
                    {
                        int index = 3 * i;
                        triangles.Add(delaunator.Triangles[index]);
                        triangles.Add(delaunator.Triangles[index + 1]);
                        triangles.Add(delaunator.Triangles[index + 2]);
                    }
                }
            } catch (Exception e) {
                throw new Exception("feature is not a valid Polygon : " + e.ToString());
            }

            //
            // build the mesh entity
            //
            mesh.vertices  = vertices;
            mesh.triangles = triangles.ToArray();
            mesh.uv        = BuildUVs(vertices);

            mesh.RecalculateBounds();
            mesh.RecalculateNormals();

            imesh.vertices  = mesh.vertices;
            imesh.triangles = triangles.Reverse <int>().ToArray();
            imesh.uv        = mesh.uv;

            imesh.RecalculateBounds();
            imesh.RecalculateNormals();

            mf.mesh = mesh;
            try {
                mc[0].sharedMesh = mesh;
                mc[1].sharedMesh = imesh;
            } catch (Exception e) {
                Debug.Log(e.ToString());
            }
        }