/// <summary> /// Returns all the connected pairs of shapes in the active page /// </summary> /// <param name="flag"></param> /// <returns></returns> public IList<VACONNECT.ConnectorEdge> GetTransitiveClosure(VACONNECT.ConnectorEdgeHandling flag) { this.Client.Application.AssertApplicationAvailable(); this.Client.Document.AssertDocumentAvailable(); var app = this.Client.Application.Get(); return VACONNECT.PathAnalysis.GetTransitiveClosure(app.ActivePage, flag); }
internal ConnectionPointValues(int shapeid, VACONNECT.ConnectionPointCells point) { this.ShapeID = shapeid; this.Type = point.Type.Formula.Value; this.X = point.X.Formula.Value; this.Y = point.Y.Formula.Value; this.DirX = point.DirX.Formula.Value; this.DirY = point.DirY.Formula.Value; }
public IList<VACONNECT.ConnectorEdge> GetDirectedEdges(VACONNECT.ConnectorEdgeHandling flag) { this.Client.Application.AssertApplicationAvailable(); this.Client.Document.AssertDocumentAvailable(); var application = this.Client.Application.Get(); var directed_edges = VACONNECT.PathAnalysis.GetDirectedEdges(application.ActivePage, flag); return directed_edges; }
public IList<int> Add( string fx, string fy, CONS.ConnectionPointType type) { this.AssertApplicationAvailable(); return this.Add(null, fx, fy, type); }
public IList<int> Add( IList<IVisio.Shape> target_shapes, string fx, string fy, CONS.ConnectionPointType type) { this.Client.Application.AssertApplicationAvailable(); this.Client.Document.AssertDocumentAvailable(); var shapes = this.GetTargetShapes(target_shapes); if (shapes.Count < 1) { return new List<int>(0); } int dirx = 0; int diry = 0; var indices = new List<int>(shapes.Count); var app = this.Client.Application.Get(); using (var undoscope = this.Client.Application.NewUndoScope("Add Connection Point")) { var cp = new CONS.ConnectionPointCells(); cp.X = fx; cp.Y = fy; cp.DirX = dirx; cp.DirY = diry; cp.Type = (int)type; foreach (var shape in shapes) { int index = CONS.ConnectionPointHelper.Add(shape, cp); indices.Add(index); } } return indices; }