// public void GetVisuArc2D(BeanArc_internal p_arc, string p_label, Color p_couleurCourante) { //SpatialTrace.Enable(); string v_message; //SpatialTrace.SetFillColor(p_couleurCourante); //SpatialTrace.SetLineColor(p_couleurCourante); v_message = "arc " + p_arc.p00_idArc + " (" + p_arc.p01_hcodeArc + ")"; if (p_label != "") { v_message += " " + p_label; } bool v_generePointSiConfondus_vf = true; Geometry v_lineGeom; v_lineGeom = FLabServices.createUtilitaires().GetGeometryArc(p_arc, v_generePointSiConfondus_vf); if (v_lineGeom.OgcGeometryType != OgcGeometryType.LineString) { v_message += " PB GEOM (Arc est: " + v_lineGeom.OgcGeometryType + ")"; } //SpatialTrace.TraceGeometry(v_lineGeom, v_message, v_message); // //GetVisuPoint2D(p_arc.p11_pointDbt, " =>Dbt>", p_couleurCourante, 10); //GetVisuPoint2D(p_arc.p12_pointFin, " =>Fin>", p_couleurCourante, 10); //SpatialTrace.Disable(); }
public BeanTopologieFacettes GetBeanTopologieByVoronoiGraph(VoronoiGraph p_voronoiGraph, BeanAlimentationVoronoi p_beanAlimentationVoronoi) { BeanTopologieFacettes v_topologie = new BeanTopologieFacettes(); try { List <BeanArc_internal> v_arcsVoronoi = new List <BeanArc_internal>(); Dictionary <string, BeanArc_internal> v_arcsParHCode = new Dictionary <string, BeanArc_internal>(); int v_srid = p_beanAlimentationVoronoi.p11_srid; // Dictionary <string, BeanPoint_internal> v_pointsDesArcsByCode = new Dictionary <string, BeanPoint_internal>(); Dictionary <int, BeanArc_internal> v_arcs = new Dictionary <int, BeanArc_internal>(); Dictionary <int, int> v_DicoPointSourceGaucheParArc = new Dictionary <int, int>(); Dictionary <int, int> v_DicoPointSourceDroitParArc = new Dictionary <int, int>(); // //Création du réseau double v_vorX_Left; double v_vorY_Left; double v_vorX_Right; double v_vorY_Right; double v_OrigX_Left; double v_OrigY_Left; double v_OrigX_Right; double v_OrigY_Right; double v_CorrectionX = 0; double v_CorrectionY = 0; ITopologieService v_topologieService = new TopologieService(); int v_KeyArc = 0; HashSet <string> v_testDoublesLignes = new HashSet <string>(); if (p_beanAlimentationVoronoi.p12_parametrage.reductionCoordonneesVf) { v_CorrectionX = (double)p_beanAlimentationVoronoi.p55_origineXCorrigee; v_CorrectionY = (double)p_beanAlimentationVoronoi.p56_origineYCorrigee; } BeanPoint_internal v_pt1; BeanPoint_internal v_pt2; BeanArc_internal v_arc; //On créé une facette/ilot pour chaque point; BeanFacette_internal v_facette; Dictionary <int, BeanFacette_internal> v_toutesFacettes; v_toutesFacettes = p_beanAlimentationVoronoi.p10_dicoDesPointsSources.ToDictionary(c => c.Key, c => new BeanFacette_internal()); //[ATTENTION! On doit mettre à jour l'id foreach (KeyValuePair <int, BeanFacette_internal> v_fac in v_toutesFacettes) { v_fac.Value.p00_idFacette = v_fac.Key; } //On parcourt les arcs: string v_hcodePt1; string v_hcodePt2; string v_hcodeGraineVoronoiAGauche; string v_hcodeGraineVoronoiADroite; int v_idIlotAGauche; int v_idIlotADroite; foreach (VoronoiEdge v_Edges in p_voronoiGraph.Edges) { if (!v_Edges.IsInfinite && !v_Edges.IsPartlyInfinite) { v_KeyArc++; //L'arc voronoi v_vorX_Left = v_Edges.VVertexA[0] + v_CorrectionX; v_vorY_Left = v_Edges.VVertexA[1] + v_CorrectionY; v_vorX_Right = v_Edges.VVertexB[0] + v_CorrectionX; v_vorY_Right = v_Edges.VVertexB[1] + v_CorrectionY; // v_hcodePt1 = FLabServices.createUtilitaires().GetHCodeGeogPoint(new double[2] { v_vorX_Left, v_vorY_Left }); if (v_pointsDesArcsByCode.ContainsKey(v_hcodePt1)) { v_pt1 = v_pointsDesArcsByCode[v_hcodePt1]; } else { v_pt1 = new BeanPoint_internal(v_vorX_Left, v_vorY_Left, 0, v_srid); v_pointsDesArcsByCode.Add(v_hcodePt1, v_pt1); } // v_hcodePt2 = FLabServices.createUtilitaires().GetHCodeGeogPoint(new double[2] { v_vorX_Right, v_vorY_Right }); if (v_pointsDesArcsByCode.ContainsKey(v_hcodePt2)) { v_pt2 = v_pointsDesArcsByCode[v_hcodePt2]; } else { v_pt2 = new BeanPoint_internal(v_vorX_Right, v_vorY_Right, 0, v_srid); v_pointsDesArcsByCode.Add(v_hcodePt2, v_pt2); } // v_arc = new BeanArc_internal(v_pt1, v_pt2); // if (!v_arcsParHCode.ContainsKey(v_arc.p01_hcodeArc)) { v_arcsParHCode.Add(v_arc.p01_hcodeArc, v_arc); } //On référence les points 'graines' voronoi à droite et à gauche v_OrigX_Left = v_Edges.LeftData[0] + v_CorrectionX; v_OrigY_Left = v_Edges.LeftData[1] + v_CorrectionY; v_OrigX_Right = v_Edges.RightData[0] + v_CorrectionX; v_OrigY_Right = v_Edges.RightData[1] + v_CorrectionY; // v_hcodeGraineVoronoiAGauche = FLabServices.createUtilitaires().GetHCodeGeogPoint(new double[2] { v_OrigX_Left, v_OrigY_Left }); v_hcodeGraineVoronoiADroite = FLabServices.createUtilitaires().GetHCodeGeogPoint(new double[2] { v_OrigX_Right, v_OrigY_Right }); // v_facette = null; if (p_beanAlimentationVoronoi.p31_correspondanceHCodePointvsIdPoint.ContainsKey(v_hcodeGraineVoronoiAGauche)) { v_idIlotAGauche = p_beanAlimentationVoronoi.p31_correspondanceHCodePointvsIdPoint[v_hcodeGraineVoronoiAGauche]; v_facette = v_toutesFacettes[v_idIlotAGauche]; v_facette.p02_arcs.Add(v_arc); v_arc.p21_facetteGauche = v_facette; } else { v_arc.p20_statutArc = enumStatutArc.arcExterne; } v_facette = null; if (p_beanAlimentationVoronoi.p31_correspondanceHCodePointvsIdPoint.ContainsKey(v_hcodeGraineVoronoiADroite)) { v_idIlotADroite = p_beanAlimentationVoronoi.p31_correspondanceHCodePointvsIdPoint[v_hcodeGraineVoronoiADroite]; v_facette = v_toutesFacettes[v_idIlotADroite]; v_facette.p02_arcs.Add(v_arc); v_arc.p21_facetteGauche = v_facette; } else { v_arc.p20_statutArc = enumStatutArc.arcExterne; } } //Fin if (!v_Edges.IsInfinite && !v_Edges.IsPartlyInfinite) } //Fin foreach //Création de la topologie v_arcsVoronoi = v_arcsParHCode.Values.OrderBy(c => c.p01_hcodeArc).ToList(); //On actualise les points des facettes: foreach (KeyValuePair <int, BeanFacette_internal> v_fac in v_toutesFacettes) { List <BeanPoint_internal> v_points = v_fac.Value.p02_arcs.Select(c => c.p11_pointDbt).ToList(); v_points.AddRange(v_fac.Value.p02_arcs.Select(c => c.p12_pointFin).ToList()); HashSet <string> v_pointsDeja = new HashSet <string>(); foreach (BeanPoint_internal v_pt in v_points) { if (!v_pointsDeja.Contains(v_pt.p01_hCodeGeog)) { v_fac.Value.p01_pointsDeFacette.Add(v_pt); v_pointsDeja.Add(v_pt.p01_hCodeGeog); } } } // v_topologie = new BeanTopologieFacettes(v_arcsVoronoi); v_topologie.p13_facettesById = v_toutesFacettes; //On supprime les éventuelles facettes sans dimension List <int> v_idFacettesASupprimer; v_idFacettesASupprimer = v_toutesFacettes.Where(c => c.Value.p02_arcs.Count < 3).Select(c => c.Key).ToList(); BeanFacette_internal v_facetteASupprimer; foreach (int v_idFacASuppr in v_idFacettesASupprimer) { v_facetteASupprimer = v_topologie.p13_facettesById[v_idFacASuppr]; v_topologie.FacetteSupprimer(v_facetteASupprimer); } //Géométrie: List <int> v_idFacettes = v_topologie.p13_facettesById.Keys.ToList(); IGeometry v_geomFacette; BeanFacette_internal v_facettePourGeom; foreach (int v_idFac in v_idFacettes) { v_facettePourGeom = v_topologie.p13_facettesById[v_idFac]; v_geomFacette = FLabServices.createCalculMedium().GetGeometryPolygoneFacetteEtOrdonnePointsFacette(ref v_facettePourGeom, ref v_topologie); v_facettePourGeom.p04_geomFacette = v_geomFacette; } } catch (Exception v_ex) { throw v_ex; } return(v_topologie); }