public DependencyZoneRelationships(DependencyZone zone, DependencyZones allZones) { this.Zone = zone; foreach (DependencyZone aZone in allZones.AllZones) { HashSet <Vertex> overlap; if (aZone != this.Zone) { switch (aZone.GetRelationship(this.Zone, out overlap)) { case DependencyZone.Relationship.Super: this.SuperZones.Add(aZone.Id, aZone); break; case DependencyZone.Relationship.Sub: this.SubZones.Add(aZone.Id, aZone); break; case DependencyZone.Relationship.Overlap: this.OverlappingZones.Add(aZone.Id, aZone); break; case DependencyZone.Relationship.Alternative: this.AlternativeZones.Add(aZone.Id, aZone); break; } } } }
public ZoneGroups(DependencyZones zones, GroupingStrategy strategy, bool nonZonesOnly, double dependencyThreshold) { this.zones = zones; this.DUPLICITY_FILTER = this.zones.DUPLICITY_FILTER; if (this.DUPLICITY_FILTER == DependencyZone.DuplicityFilter.MultiEgo) { this.DUPLICITY_FILTER = DependencyZone.DuplicityFilter.All; } this.AllGroups = new List <ZoneGroup>(); this.Strategy = strategy; this.NonZonesOnly = nonZonesOnly; this.DependencyThreshold = dependencyThreshold; this.calculateGroups(); this.CompleteAndFilterDuplicities(); }
public int SumCommZoneOverlapSize = 0; // public Statistics(WeightedNetwork.DependencyZones zones) { this.NodesCount = zones.Network.Vertices.Count; this.EdgesCount = zones.Network.Edges.Count; this.ZonesCount = zones.AllZones.Count; }