예제 #1
0
        List <QPolygonF> CollectPolys()
        {
            List <QPolygonF> resPolys = new List <QPolygonF>();

            // for (auto & e : SplitPoly)
            foreach (var e in SplitPoly)
            {
                if (!e.Visited)
                {
                    QPolygonF splitPoly = new QPolygonF();
                    var       curSide   = e;

                    do
                    {
                        curSide.Visited = true;
                        // curSide->Visited = true;
                        splitPoly.Add(curSide.StartPos);
                        // splitPoly.append(curSide->StartPos);

                        curSide = curSide.Next;
                        // curSide = curSide->Next;
                    }while (!ReferenceEquals(curSide, e));

                    resPolys.Add(splitPoly);
                }
            }

            return(resPolys);
        }
예제 #2
0
        // only support pairs split points
        List <QPolygonF> SplitEdges2(QPolygonF poly, QLineF line)
        {
            if (SplitPoly != null)
            {
                SplitPoly.Clear();
            }

            if (EdgesOnLine != null)
            {
                EdgesOnLine.Clear();
            }

            // line = new QLineF(new QPointF(new PointLatLngAlt(31.840743072180324, 121.46284818649292)), new QPointF(new PointLatLngAlt(31.840615471377312 , 121.46491885185242)));

            for (int i = 0; i < (poly.Count); i++)
            {
                QLineF edge = new QLineF(poly.ElementAtOrDefault(i), poly.ElementAtOrDefault((i + 1) % poly.Count));

                LineSide edgeStartSide = GetSideOfLine(line, edge.p1());
                LineSide edgeEndSide   = GetSideOfLine(line, edge.p2());
                SplitPoly.Add(new PolyEdge(poly[i], edgeStartSide));
                // SplitPoly.push_back(PolyEdge{ poly[i], edgeStartSide});

                // if (edgeStartSide == LineSide.On)
                // {
                //     EdgesOnLine.Add(SplitPoly.LastOrDefault());
                //     // EdgesOnLine.push_back(&SplitPoly.back());
                // }
                // else if (!edgeStartSide.Equals(edgeEndSide) && edgeEndSide != LineSide.On)
                if (!edgeStartSide.Equals(edgeEndSide) && edgeEndSide != LineSide.On)
                {
                    QPointF ip;
                    ip = edge.intersect(line);

                    // assert(res != QLineF::NoIntersection);
                    if (ip != null)
                    {
                        SplitPoly.Add(new PolyEdge(ip, LineSide.On));
                        // SplitPoly.push_back(PolyEdge{ ip, LineSide::On});
                        EdgesOnLine.Add(SplitPoly.LastOrDefault());
                        // EdgesOnLine.Add(&SplitPoly.back());
                    }
                }
            }


            int              poly_in_split_pair = 0;
            List <QPointF>   split_pair         = new List <QPointF>();
            List <QPolygonF> resPolys           = new List <QPolygonF>();
            // connect doubly linked list and split it into pieces poly
            // first->prev and last->next
            QPolygonF split_out   = new QPolygonF();
            QPointF   start_point = new QPointF(new PointLatLng());
            QPointF   end_point   = new QPointF(new PointLatLng());

            int ii = 0;

            for (ii = 0; ii < (SplitPoly.Count); ii++) // .begin(); iter!=std::prev(SplitPoly.end()); iter++)
            // for (auto iter = SplitPoly.begin(); iter != std::prev(SplitPoly.end()); iter++)
            {
                if (SplitPoly.ElementAtOrDefault(ii).StartSide != LineSide.On) // normal points
                {
                    QPointF qp_added = new QPointF(new PointLatLng(SplitPoly.ElementAtOrDefault(ii).StartPos.x(), SplitPoly.ElementAtOrDefault(ii).StartPos.y()));
                    split_out.Add(qp_added);
                }
                else // edge points
                {
                    if (0 == (poly_in_split_pair %= 2)) // new start point, then find out the end point
                    {
                        poly_in_split_pair = 0;


                        QPolygonF split_out2 = new QPolygonF(); // 2nd poly

                        // add start point
                        start_point = new QPointF(new PointLatLng(SplitPoly.ElementAtOrDefault(ii).StartPos.x(), SplitPoly.ElementAtOrDefault(ii).StartPos.y()));
                        split_out.Add(start_point);
                        split_out2.Add(start_point);

                        // find next split point to 1st poly
                        // SplitPoly.ElementAtOrDefault(ii - 1).Next = SplitPoly.ElementAtOrDefault(ii);
                        bool collect_pnt = false;
                        for (int jj = ii + 1; jj < (SplitPoly.Count); jj++) // .begin(); iter!=std::prev(SplitPoly.end()); iter++)
                        {
                            if (collect_pnt)
                            {
                                QPointF qp_added = new QPointF(new PointLatLng(SplitPoly.ElementAtOrDefault(jj).StartPos.x(), SplitPoly.ElementAtOrDefault(jj).StartPos.y()));
                                split_out.Add(qp_added);
                            }
                            else if (SplitPoly.ElementAtOrDefault(jj).StartSide == LineSide.On) // end points
                            {
                                end_point = new QPointF(new PointLatLng(SplitPoly.ElementAtOrDefault(jj).StartPos.x(), SplitPoly.ElementAtOrDefault(jj).StartPos.y()));
                                split_out.Add(end_point);
                                // split_out2.Add(qp_added);
                                collect_pnt = true;
                            }
                            else // 2nd poly
                            {
                                QPointF qp_added = new QPointF(new PointLatLng(SplitPoly.ElementAtOrDefault(jj).StartPos.x(), SplitPoly.ElementAtOrDefault(jj).StartPos.y()));
                                split_out2.Add(qp_added);
                            }
                        }


                        resPolys.Add(split_out);

                        split_out2.Add(end_point);
                        resPolys.Add(split_out2);

                        start_point = new QPointF(new PointLatLng());
                        end_point   = new QPointF(new PointLatLng());
                        split_out   = new QPolygonF();
                        split_out2  = new QPolygonF();
                    }
                    poly_in_split_pair++;
                }


                // auto nextIter = std::next(iter);
                // iter.Next = nextIter;
                // nextIter->Prev = &(* iter);
            }

            // add last poly
            // resPolys.Add(split_out);

            return(resPolys);
        }