import { Graph, CylinderShape, CellRenderer, GraphView, ImageBox, Client, EdgeStyle, KeyHandler, CompactTreeLayout, LayoutManager, Rectangle, Point, } from '@maxgraph/core'; import { globalTypes } from '../.storybook/preview'; export default { title: 'Layouts/Tree', argTypes: { ...globalTypes, }, }; const Template = ({ label, ...args }) => { const container = document.createElement('div'); container.style.position = 'relative'; container.style.overflow = 'hidden'; container.style.width = `${args.width}px`; container.style.height = `${args.height}px`; container.style.background = 'url(/images/grid.gif)'; container.style.cursor = 'default'; Client.setImageBasePath('/images'); /* Defines a custom shape for the tree node that includes the upper half of the outgoing edge(s). */ class TreeNodeShape extends CylinderShape { // Defines the length of the upper edge segment. static segment = 20; constructor(bounds, fill, stroke, strokewidth) { super(bounds, fill, stroke, strokewidth); } // Needs access to the cell state for rendering apply(state) { super.apply(state); this.state = state; } redrawPath(path, x, y, w, h, isForeground) { const { graph } = this.state.view; const hasChildren = graph.getOutgoingEdges(this.state.cell).length > 0; if (isForeground) { if (hasChildren) { // Painting outside of vertex bounds is used here path.moveTo(w / 2, h + this.segment); path.lineTo(w / 2, h); path.end(); } } else { path.moveTo(0, 0); path.lineTo(w, 0); path.lineTo(w, h); path.lineTo(0, h); path.close(); } } } CellRenderer.registerShape('treenode', TreeNodeShape); class MyCustomGraphView extends GraphView { updateFloatingTerminalPoint(edge, start, end, source) { // Defines a custom perimeter for the nodes in the tree let pt = null; if (source) { pt = new Point( start.x + start.width / 2, start.y + start.height + TreeNodeShape.segment ); } else { pt = new Point(start.x + start.width / 2, start.y); } edge.setAbsoluteTerminalPoint(pt, source); } } class MyCustomCellRenderer extends CellRenderer { getControlBounds(state) { // Defines the position of the folding icon if (state.control != null) { const oldScale = state.control.scale; const w = state.control.bounds.width / oldScale; const h = state.control.bounds.height / oldScale; const s = state.view.scale; return new Rectangle( state.x + state.width / 2 - (w / 2) * s, state.y + state.height + TreeNodeShape.segment * s - (h / 2) * s, w * s, h * s ); } return null; } } // Make the layout instance accessible by MyCustomGraph let layout; class MyCustomGraph extends Graph { // Sets the collapse and expand icons. The values below are the default // values, but this is how to replace them if you need to. collapsedImage = new ImageBox(`${Client.imageBasePath}/collapsed.gif`, 9, 9); expandedImage = new ImageBox(`${Client.imageBasePath}/expanded.gif`, 9, 9); isCellFoldable(cell) { // Defines the condition for showing the folding icon return this.getOutgoingEdges(cell).length > 0; } createCellRenderer() { return new MyCustomCellRenderer(); } createGraphView() { return new MyCustomGraphView(this); } foldCells(collapse, recurse, cells) { // Implements the click on a folding icon this.model.beginUpdate(); try { this.toggleSubtree(this, cells[0], !collapse); this.model.setCollapsed(cells[0], collapse); // Executes the layout for the new graph since // changes to visiblity and collapsed state do // not trigger a layout in the current manager. layout.execute(this.getDefaultParent()); } finally { this.model.endUpdate(); } } toggleSubtree(cell, show) { // Updates the visible state of a given subtree taking into // account the collapsed state of the traversed branches show = show != null ? show : true; const cells = []; this.traverse(cell, true, function (vertex) { if (vertex !== cell) { cells.push(vertex); } // Stops recursion if a collapsed cell is seen return vertex === cell || !this.isCellCollapsed(vertex); }); this.toggleCells(show, cells, true); } } // Creates the graph inside the given container const graph = new MyCustomGraph(container); // Disallow any selections graph.setCellsSelectable(false); // Avoids overlap of edges and collapse icons graph.keepEdgesInBackground = true; // Set some stylesheet options for the visual appearance let style = graph.getStylesheet().getDefaultVertexStyle(); style.shape = 'treenode'; style.gradientColor = 'white'; style.shadow = true; style = graph.getStylesheet().getDefaultEdgeStyle(); style.edge = EdgeStyle.TopToBottom; style.rounded = true; // Enables automatic sizing for vertices after editing and // panning by using the left mouse button. graph.setAutoSizeCells(true); graph.setPanning(true); const panningHandler = graph.getPlugin('PanningHandler'); panningHandler.useLeftButtonForPanning = true; // Stops editing on enter or escape keypress const keyHandler = new KeyHandler(graph); // Enables automatic layout on the graph and installs // a tree layout for all groups who's children are // being changed, added or removed. layout = new CompactTreeLayout(graph, false); layout.useBoundingBox = false; layout.edgeRouting = false; layout.levelDistance = 30; layout.nodeDistance = 10; const layoutMgr = new LayoutManager(graph); layoutMgr.getLayout = function (cell) { if (cell.getChildCount() > 0) { return layout; } }; // Gets the default parent for inserting new cells. This // is normally the first child of the root (ie. layer 0). const parent = graph.getDefaultParent(); // Adds the root vertex of the tree graph.batchUpdate(() => { const w = graph.container.offsetWidth; const root = graph.insertVertex(parent, 'treeRoot', 'Root', w / 2 - 30, 20, 60, 40); const v1 = graph.insertVertex(parent, 'v1', 'Child 1', 0, 0, 60, 40); graph.insertEdge(parent, null, '', root, v1); const v2 = graph.insertVertex(parent, 'v2', 'Child 2', 0, 0, 60, 40); graph.insertEdge(parent, null, '', root, v2); const v3 = graph.insertVertex(parent, 'v3', 'Child 3', 0, 0, 60, 40); graph.insertEdge(parent, null, '', root, v3); const v11 = graph.insertVertex(parent, 'v11', 'Child 1.1', 0, 0, 60, 40); graph.insertEdge(parent, null, '', v1, v11); const v12 = graph.insertVertex(parent, 'v12', 'Child 1.2', 0, 0, 60, 40); graph.insertEdge(parent, null, '', v1, v12); const v21 = graph.insertVertex(parent, 'v21', 'Child 2.1', 0, 0, 60, 40); graph.insertEdge(parent, null, '', v2, v21); const v22 = graph.insertVertex(parent, 'v22', 'Child 2.2', 0, 0, 60, 40); graph.insertEdge(parent, null, '', v2, v22); const v221 = graph.insertVertex(parent, 'v221', 'Child 2.2.1', 0, 0, 60, 40); graph.insertEdge(parent, null, '', v22, v221); const v222 = graph.insertVertex(parent, 'v222', 'Child 2.2.2', 0, 0, 60, 40); graph.insertEdge(parent, null, '', v22, v222); const v31 = graph.insertVertex(parent, 'v31', 'Child 3.1', 0, 0, 60, 40); graph.insertEdge(parent, null, '', v3, v31); }); return container; }; export const Default = Template.bind({});