var mermaid; if (typeof mermaid === 'undefined') { mermaid = {} } mermaid.addVertices = function (vert, g) { var keys = Object.keys(vert); keys.forEach(function (id) { var vertice = vert[id]; var verticeText; console.log(vertice.styles.length); var i; var style = ''; for (i = 0; i < vertice.styles.length; i++) { if (typeof vertice.styles[i] !== 'undefined') { style = style + vertice.styles[i] + ';'; } } if (vertice.text === undefined) { verticeText = vertice.id; } else { verticeText = vertice.text; } if (style === '') { //style = graph.defaultStyle(); } console.log('g.setNode("' + vertice.id + '", { label: "' + verticeText + '" });'); if (vertice.type === 'round') { g.setNode(vertice.id, {label: verticeText, rx: 5, ry: 5, style: style}); } else { if (vertice.type === 'diamond') { g.setNode(vertice.id, {shape: "question", label: verticeText, rx: 0, ry: 0, style: style}); } else { g.setNode(vertice.id, {label: verticeText, rx: 0, ry: 0, style: style}); } } }); }; mermaid.addEdges = function (edges, g) { edges.forEach(function (edge) { var type, style; if(typeof edge.type === 'undefined'){ type = 'arrow'; }else{ type = edge.type; } if(typeof edge.style === 'undefined'){ style = 'arrow'; }else{ type = edge.type; } var edgeText; //console.log(vertice); if (edge.text === 'undefined') { if(typeof edge.style === 'undefined'){ g.setEdge(edge.start, edge.end,{ arrowheadStyle: "fill: #333"}); }else{ g.setEdge(edge.start, edge.end, { style: edge.style, arrowheadStyle: "fill: #333" }); } } else { if(typeof edge.style === 'undefined'){ g.setEdge(edge.start, edge.end,{label: edge.text, arrowheadStyle: "fill: #333"}); }else{ g.setEdge(edge.start, edge.end, { style: edge.style, arrowheadStyle: "fill: #333", label: edge.text }); } } console.log('g.setEdge("' + edge.start + '","' + edge.end + '") ---'); }); }; mermaid.drawChart = function (text, id) { console.log('drawing char with id:' + id); console.log(text); mermaid.graph.clear(); parser.yy = mermaid.graph; var err = function () { console.log('Syntax error!!!'); }; parser.parse(text); var vert = mermaid.graph.getVertices(); var edges = mermaid.graph.getEdges(); console.log(edges); var keys = Object.keys(vert); // Create the input mermaid.graph var g = new dagreD3.graphlib.Graph() .setGraph({ //rankdir: "LR", marginx: 20, marginy: 20 }) .setDefaultEdgeLabel(function () { return {}; }); console.log(g); this.addVertices(vert, g); this.addEdges(edges, g); // Create the renderer var render = new dagreD3.render(); // Add our custom shape render.shapes().question = function (parent, bbox, node) { var w = bbox.width, h = bbox.height * 3, points = [ {x: w / 2, y: 0}, {x: w, y: -h / 2}, {x: w / 2, y: -h}, {x: 0, y: -h / 2} ]; shapeSvg = parent.insert("polygon", ":first-child") .attr("points", points.map(function (d) { return d.x + "," + d.y; }).join(" ")) .style("fill", "#fff") .style("stroke", "#333") .attr("rx", 5) .attr("ry", 5) .attr("transform", "translate(" + (-w / 2) + "," + (h * 2 / 4) + ")"); node.intersect = function (point) { return dagreD3.intersect.polygon(node, points, point); }; return shapeSvg; }; // Set up an SVG group so that we can translate the final graph. var svg = d3.select("#" + id); svgGroup = d3.select("#" + id + " g"); // Run the renderer. This is what draws the final graph. render(d3.select("#" + id + " g"), g); // Center the graph var xCenterOffset = (svg.attr("width") - g.graph().width) / 2; //svgGroup.attr("transform", "translate(" + xCenterOffset + ", 20)"); svg.attr("height", g.graph().height + 40); }; mermaid.init = function () { var arr = document.querySelectorAll('.mermaid'); var cnt = 0; for (i = 0; i < arr.length; i++) { var element = arr[i]; var id; //if(element.id.length === 0){ id = 'mermaidChart' + cnt; //arr[i].id = id; cnt++; //} //else{ // id=element.id; //} var chartText = element.textContent.trim(); console.log(element); element.innerHTML = '' + '' + ''; this.drawChart(chartText, id); } ; }; mermaid.init();