Ejemplo n.º 1
0
        /// <summary>
        /// If a connector has connectorPins, their edges get added to the combined graph.
        /// </summary>
        /// <param name="combinedGraph"></param>
        /// <param name="connector"></param>
        private static void AddConnectorEdgesIncludingPinEdges(GraphLayout.Graph combinedGraph, ConnectorModel connector, Guid?start = null, Guid?end = null)
        {
            ///Bail if there are no connectorPins
            if (connector.ConnectorPinModels.Count < 1)
            {
                Guid startGuid = start == null ? connector.Start.Owner.GUID : (Guid)start;
                Guid endGuid   = end == null ? connector.End.Owner.GUID : (Guid)end;

                combinedGraph.AddEdge(startGuid, endGuid,
                                      connector.Start.Center.X, connector.Start.Center.Y, connector.End.Center.X, connector.End.Center.Y);
                return;
            }

            ///Add an edge between the left-most (start) node
            ///(its corresponding port) to which this connector connects, and the first connectorPin.
            combinedGraph.AddEdge(connector.Start.Owner.GUID,
                                  connector.ConnectorPinModels[0].GUID,
                                  connector.Start.Center.X,
                                  connector.Start.Center.Y,
                                  connector.ConnectorPinModels[0].CenterX,
                                  connector.ConnectorPinModels[0].CenterY);

            ///Add an edge between all other connectorPins that follow,
            ///from left to right (except for last one)
            for (int i = 0; i < connector.ConnectorPinModels.Count; i++)
            {
                if (i != connector.ConnectorPinModels.Count - 1)
                {
                    combinedGraph.AddEdge(connector.ConnectorPinModels[i].GUID,
                                          connector.ConnectorPinModels[i + 1].GUID,
                                          connector.ConnectorPinModels[i].CenterX,
                                          connector.ConnectorPinModels[i].CenterY,
                                          connector.ConnectorPinModels[i + 1].CenterX,
                                          connector.ConnectorPinModels[i + 1].CenterY);
                }
            }

            ///Add an edge between the last connectorPin and the right-most (end) node
            ///(its corresponding port) to which this connector connects.
            combinedGraph.AddEdge(connector.ConnectorPinModels[connector.ConnectorPinModels.Count - 1].GUID,
                                  connector.End.Owner.GUID,
                                  connector.ConnectorPinModels[connector.ConnectorPinModels.Count - 1].CenterX,
                                  connector.ConnectorPinModels[connector.ConnectorPinModels.Count - 1].CenterY,
                                  connector.End.Center.X,
                                  connector.End.Center.Y);
        }
Ejemplo n.º 2
0
        private void DoGraphAutoLayout(object o)
        {
            if (Model.Nodes.Count == 0)
            {
                return;
            }

            var graph  = new GraphLayout.Graph();
            var models = new Dictionary <ModelBase, UndoRedoRecorder.UserAction>();

            foreach (NodeModel x in Model.Nodes)
            {
                graph.AddNode(x.GUID, x.Width, x.Height, x.Y);
                models.Add(x, UndoRedoRecorder.UserAction.Modification);
            }

            foreach (ConnectorModel x in Model.Connectors)
            {
                graph.AddEdge(x.Start.Owner.GUID, x.End.Owner.GUID, x.Start.Center.Y, x.End.Center.Y);
                models.Add(x, UndoRedoRecorder.UserAction.Modification);
            }

            Model.RecordModelsForModification(new List <ModelBase>(Model.Nodes));

            // Sugiyama algorithm steps
            graph.RemoveCycles();
            graph.AssignLayers();
            graph.OrderNodes();

            // Assign coordinates to node models
            graph.NormalizeGraphPosition();
            foreach (var x in Model.Nodes)
            {
                var id = x.GUID;
                x.X = graph.FindNode(id).X;
                x.Y = graph.FindNode(id).Y;
                x.ReportPosition();
            }

            // Fit view to the new graph layout
            DynamoSelection.Instance.ClearSelection();
            ResetFitViewToggle(null);
            FitViewInternal();
        }
Ejemplo n.º 3
0
        private void DoGraphAutoLayout(object o)
        {
            if (Model.Nodes.Count() == 0)
            {
                return;
            }

            var graph  = new GraphLayout.Graph();
            var models = new Dictionary <ModelBase, UndoRedoRecorder.UserAction>();

            foreach (AnnotationModel x in Model.Annotations)
            {
                // Treat a group as a graph layout node/vertex
                graph.AddNode(x.GUID, x.Width, x.Height, x.Y);
                models.Add(x, UndoRedoRecorder.UserAction.Modification);
            }

            foreach (NodeModel x in Model.Nodes)
            {
                AnnotationModel group = Model.Annotations.Where(
                    s => s.SelectedModels.Contains(x)).ToList().FirstOrDefault();

                // Do not process nodes within groups
                if (group == null)
                {
                    graph.AddNode(x.GUID, x.Width, x.Height, x.Y);
                    models.Add(x, UndoRedoRecorder.UserAction.Modification);
                }
            }

            foreach (ConnectorModel x in Model.Connectors)
            {
                AnnotationModel startGroup = null, endGroup = null;
                startGroup = Model.Annotations.Where(
                    s => s.SelectedModels.Contains(x.Start.Owner)).ToList().FirstOrDefault();
                endGroup = Model.Annotations.Where(
                    s => s.SelectedModels.Contains(x.End.Owner)).ToList().FirstOrDefault();

                // Connector does not belong to any group
                if ((startGroup == null) && (endGroup == null))
                {
                    graph.AddEdge(x.Start.Owner.GUID, x.End.Owner.GUID, x.Start.Center.Y, x.End.Center.Y);
                }

                // Connector starts from a node within a group
                else if ((startGroup != null) && (endGroup == null))
                {
                    graph.AddEdge(startGroup.GUID, x.End.Owner.GUID, x.Start.Center.Y, x.End.Center.Y);
                }

                // Connector ends at a node within a group
                else if ((startGroup == null) && (endGroup != null))
                {
                    graph.AddEdge(x.Start.Owner.GUID, endGroup.GUID, x.Start.Center.Y, x.End.Center.Y);
                }

                models.Add(x, UndoRedoRecorder.UserAction.Modification);
            }

            // Support undo for graph layout command
            WorkspaceModel.RecordModelsForModification(new List <ModelBase>(Model.Nodes), Model.UndoRecorder);

            // Sugiyama algorithm steps
            graph.RemoveCycles();
            graph.AssignLayers();
            graph.OrderNodes();

            graph.NormalizeGraphPosition();

            // Assign coordinates to nodes inside groups
            foreach (var x in Model.Annotations)
            {
                var    id     = x.GUID;
                double deltaX = graph.FindNode(id).X - x.X;
                double deltaY = graph.FindNode(id).Y - x.Y;
                foreach (var n in x.SelectedModels)
                {
                    n.X += deltaX;
                    n.Y += deltaY;
                    n.ReportPosition();
                }
            }

            // Assign coordinates to nodes outside groups
            foreach (var x in Model.Nodes)
            {
                var n = graph.FindNode(x.GUID);
                if (n != null)
                {
                    x.X = n.X;
                    x.Y = n.Y;
                    x.ReportPosition();
                }
            }

            // Fit view to the new graph layout
            DynamoSelection.Instance.ClearSelection();
            ResetFitViewToggle(null);
            FitViewInternal();
        }
Ejemplo n.º 4
0
        private void DoGraphAutoLayout(object o)
        {
            if (Model.Nodes.Count == 0)
                return;

            var graph = new GraphLayout.Graph();
            var models = new Dictionary<ModelBase, UndoRedoRecorder.UserAction>();
            
            foreach (NodeModel x in Model.Nodes)
            {
                graph.AddNode(x.GUID, x.Width, x.Height, x.Y);
                models.Add(x, UndoRedoRecorder.UserAction.Modification);
            }

            foreach (ConnectorModel x in Model.Connectors)
            {
                graph.AddEdge(x.Start.Owner.GUID, x.End.Owner.GUID, x.Start.Center.Y, x.End.Center.Y);
                models.Add(x, UndoRedoRecorder.UserAction.Modification);
            }

            Model.RecordModelsForModification(new List<ModelBase>(Model.Nodes));
            
            // Sugiyama algorithm steps
            graph.RemoveCycles();
            graph.AssignLayers();
            graph.OrderNodes();
            
            // Assign coordinates to node models
            graph.NormalizeGraphPosition();
            foreach (var x in Model.Nodes)
            {
                var id = x.GUID;
                x.X = graph.FindNode(id).X;
                x.Y = graph.FindNode(id).Y;
                x.ReportPosition();
            }

            // Fit view to the new graph layout
            DynamoSelection.Instance.ClearSelection();
            ResetFitViewToggle(null);
            FitViewInternal();
        }
Ejemplo n.º 5
0
        private void DoGraphAutoLayout(object o)
        {
            if (Model.Nodes.Count() == 0)
                return;

            var graph = new GraphLayout.Graph();
            var models = new Dictionary<ModelBase, UndoRedoRecorder.UserAction>();

            foreach (AnnotationModel x in Model.Annotations)
            {
                // Treat a group as a graph layout node/vertex
                graph.AddNode(x.GUID, x.Width, x.Height, x.Y);
                models.Add(x, UndoRedoRecorder.UserAction.Modification);
            }

            foreach (NodeModel x in Model.Nodes)
            {
                AnnotationModel group = Model.Annotations.Where(
                    s => s.SelectedModels.Contains(x)).ToList().FirstOrDefault();

                // Do not process nodes within groups
                if (group == null)
                {
                    graph.AddNode(x.GUID, x.Width, x.Height, x.Y);
                    models.Add(x, UndoRedoRecorder.UserAction.Modification);
                }
            }

            foreach (ConnectorModel x in Model.Connectors)
            {
                AnnotationModel startGroup = null, endGroup = null;
                startGroup = Model.Annotations.Where(
                    s => s.SelectedModels.Contains(x.Start.Owner)).ToList().FirstOrDefault();
                endGroup = Model.Annotations.Where(
                    s => s.SelectedModels.Contains(x.End.Owner)).ToList().FirstOrDefault();

                // Connector does not belong to any group
                if ((startGroup == null) && (endGroup == null))
                    graph.AddEdge(x.Start.Owner.GUID, x.End.Owner.GUID, x.Start.Center.Y, x.End.Center.Y);

                // Connector starts from a node within a group
                else if ((startGroup != null) && (endGroup == null))
                    graph.AddEdge(startGroup.GUID, x.End.Owner.GUID, x.Start.Center.Y, x.End.Center.Y);

                // Connector ends at a node within a group
                else if ((startGroup == null) && (endGroup != null))
                    graph.AddEdge(x.Start.Owner.GUID, endGroup.GUID, x.Start.Center.Y, x.End.Center.Y);

                models.Add(x, UndoRedoRecorder.UserAction.Modification);
            }

            // Support undo for graph layout command
            WorkspaceModel.RecordModelsForModification(new List<ModelBase>(Model.Nodes), Model.UndoRecorder);

            // Sugiyama algorithm steps
            graph.RemoveCycles();
            graph.AssignLayers();
            graph.OrderNodes();

            graph.NormalizeGraphPosition();

            // Assign coordinates to nodes inside groups
            foreach (var x in Model.Annotations)
            {
                var id = x.GUID;
                double deltaX = graph.FindNode(id).X - x.X;
                double deltaY = graph.FindNode(id).Y - x.Y;
                foreach (var n in x.SelectedModels)
                {
                    n.X += deltaX;
                    n.Y += deltaY;
                    n.ReportPosition();
                }
            }

            // Assign coordinates to nodes outside groups
            foreach (var x in Model.Nodes)
            {
                var n = graph.FindNode(x.GUID);
                if (n != null)
                {
                    x.X = n.X;
                    x.Y = n.Y;
                    x.ReportPosition();
                }
            }

            // Fit view to the new graph layout
            DynamoSelection.Instance.ClearSelection();
            ResetFitViewToggle(null);
            FitViewInternal();
        }