private void analyzeEdges(UniversalGraph<Node, Edge> graph, int colCount) { for (Node node : graph.getNodes()) { node.conLeft = false; node.conRight = false; node.conTop = false; node.conBottom = false; node.conLeftTop = 0; node.conLeftBottom = 0; node.conRightTop = 0; node.conRightBottom = 0; } int rowCount = coordinates.size(); ArrayList<Edge> edgesList = new ArrayList<Edge>(graph.getEdges()); for (int row = 0; row < rowCount; row++) { for (int jump = 0; jump < colCount - 1; jump++) { Iterator<Edge> edges = edgesList.iterator(); while (edges.hasNext()) { Edge edge = edges.next(); if (edge.forward() && edge.sameRow(row) && edge.jump() == jump) { analyzeEdge(row, jump, edge); edges.remove(); } } edges = edgesList.iterator(); while (edges.hasNext()) { Edge edge = edges.next(); if (edge.backward() && edge.sameRow(row) && edge.jump() == jump) { analyzeEdge(row, jump, edge); edges.remove(); } } } } }
@Override protected void performGraphLayout(UniversalGraph<Node, Edge> graph) { RuleScene scene = (RuleScene) graph.getScene(); if (scene.getRule() == null) return; coordinates = scene.getRule().node.coordinates(); List<Integer> columns = new ArrayList<Integer>(); columns.add(originX); for (List<Node> nodes : coordinates) { for (int col = 1; col < nodes.size(); col++) { while (columns.size() <= col) columns.add(horizontalGap); Node minNode = nodes.get(col - 1); Node maxNode = nodes.get(col); int width = horizontalGap; if (maxNode != null && minNode != null) { int middleWidth = 0; for (Edge edge : minNode.outgoing) { if (edge.target == maxNode) { LabelWidget label = (LabelWidget) scene.findWidget(edge).getChildren().get(0); if (label.getLabel() != null) middleWidth = Math.max(middleWidth, 30 + label.getPreferredBounds().width); } } for (Edge edge : maxNode.outgoing) { if (edge.target == minNode) { LabelWidget label = (LabelWidget) scene.findWidget(edge).getChildren().get(0); if (label.getLabel() != null) middleWidth = Math.max(middleWidth, 30 + label.getPreferredBounds().width); } } middleWidth = Math.max(horizontalGap, middleWidth); int minWidth = scene.findWidget(minNode).getPreferredBounds().width / 2; int minLoopWidth = 0; for (Edge edge : minNode.outgoing) { if (edge.loop()) { LabelWidget label = (LabelWidget) scene.findWidget(edge).getChildren().get(0); if (label.getLabel() != null) minLoopWidth = Math.max(minLoopWidth, label.getPreferredBounds().width / 2); } } int maxWidth = scene.findWidget(maxNode).getPreferredBounds().width / 2; int maxLoopWidth = 0; for (Edge edge : maxNode.outgoing) { if (edge.loop()) { LabelWidget label = (LabelWidget) scene.findWidget(edge).getChildren().get(0); if (label.getLabel() != null) maxLoopWidth = Math.max(maxLoopWidth, label.getPreferredBounds().width / 2); } } width = Math.max( horizontalGap, Math.max(minWidth, minLoopWidth) + middleWidth + Math.max(maxWidth, maxLoopWidth)); } columns.set(col, Math.max(columns.get(col), width)); } } for (int i = 1; i < columns.size(); i++) columns.set(i, columns.get(i - 1) + columns.get(i)); analyzeEdges(graph, columns.size()); int rowCount = coordinates.size(); int rows[] = new int[rowCount]; for (int row = 0; row < rowCount; row++) { int top = 0; for (Node node : coordinates.get(row)) { if (node != null) { top = Math.max(top, node.conLeftTop); top = Math.max(top, node.conRightTop); int loop = 0; for (Edge edge : node.outgoing) { if (edge.loop()) loop++; } top = Math.max(top, loop); } } int bottom = 0; if (row > 0) { for (Node node : coordinates.get(row - 1)) { if (node != null) { bottom = Math.max(bottom, node.conLeftBottom); bottom = Math.max(bottom, node.conRightBottom); } } } int height = top + bottom; rows[row] = 50 * height; if (row > 0) rows[row] += rows[row - 1]; if (height == 0) rows[row] += originY; else rows[row] += verticalGap; } for (Node node : graph.getNodes()) { Widget widget = scene.findWidget(node); Point location = new Point(columns.get(node.col), rows[node.row] /*originY + node.row * verticalGap*/); if (animated) scene.getSceneAnimator().animatePreferredLocation(widget, location); else widget.setPreferredLocation(location); } }