This is a tree diagram that used data from a 'flat' format. It has been written with d3.js v4 and is based on the simple horizontal version here
This is designed to be used as part of documenting an update to the book D3 Tips and Tricks to version 4 of d3.js.
forked from d3noob's block: Tree diagram using flat data with v4
xxxxxxxxxx<meta charset="utf-8"><style> /* set the CSS */ .node circle { fill: #fff; stroke: steelblue; stroke-width: 3px;}.node text { font: 12px sans-serif; }.node--internal text { text-shadow: 0 1px 0 #fff, 0 -1px 0 #fff, 1px 0 0 #fff, -1px 0 0 #fff;}.link { fill: none; stroke: #ccc; stroke-width: 2px;}</style><body> <input type="text" id="myId" placeholder="Add mouseId…"> <input name="button" type="submit" value="View Hierarchy" onclick="search()"><!-- load the d3.js library --> <script src="//d3js.org/d3.v4.min.js"></script><script> function f1(data, id) { var data1 = []; var list = []; list.push(id); while(list.length > 0) { Object.keys(data).forEach(function(key){ if(data[key]["parent"] == list[0]) { list.push(data[key]["name"]) console.log("adding data: " + data[key]["name"]) data1.push(data[key]) } }); list.shift(); } data1.push( {"name": id, "parent": null}) return data1; } function search() { id = document.getElementById("myId").value;console.log("id: " + id) d3.json("result2_parent_child.json", function(data) { var result = f1(data, id); Object.keys(result).forEach(function(key){ console.log("name: " + result[key]["name"]) console.log("parent: " + result[key]["parent"]) }); // convert the flat data into a hierarchy var treeData = d3.stratify() .id(function(d) { console.log("name: " + d.name); return d.name; }) .parentId(function(d) { console.log("parent: " + d.parent); return d.parent; }) (result); console.log("len: " + treeData.length)// assign the name to each nodetreeData.each(function(d) { d.name = d.id; console.log("id: " + d.name); });// console.log("treeData: " + treeData)console.log("here")// set the dimensions and margins of the diagramvar margin = {top: 120, right: 240, bottom: 250, left: 90}, width = 330, height = 230;// declares a tree layout and assigns the sizevar treemap = d3.tree() .size([height, width]);// assigns the data to a hierarchy using parent-child relationshipsvar nodes = d3.hierarchy(treeData, function(d) { return d.children; });// maps the node data to the tree layoutnodes = treemap(nodes);// append the svg object to the body of the page// appends a 'group' element to 'svg'// moves the 'group' element to the top left marginvar svg = d3.select("body").append("svg") .attr("width", width + margin.left + margin.right) .attr("height", height + margin.top + margin.bottom), g = svg.append("g") .attr("transform", "translate(" + margin.left + "," + margin.top + ")");// adds the links between the nodesvar link = g.selectAll(".link") .data( nodes.descendants().slice(1)) .enter().append("path") .attr("class", "link") .attr("d", function(d) { return "M" + d.x + "," + (300-d.y) + "C" + d.x + "," + (300-(d.y + d.parent.y) / 2) + " " + d.parent.x + "," + (300-(d.y + d.parent.y) / 2) + " " + d.parent.x + "," + (300-d.parent.y); });// adds each node as a groupvar node = g.selectAll(".node") .data(nodes.descendants()) .enter().append("g") .attr("class", function(d) { return "node" + (d.children ? " node--internal" : " node--leaf"); }) .attr("transform", function(d) { console.log("x: " + d.x) console.log("y: " + d.y) return "translate(" + d.x + "," + (300 - d.y) + ")"; });// adds the circle to the nodenode.append("circle") .attr("r", 10);// adds the text to the nodenode.append("text") .attr("dy", ".35em") .attr("x", function(d) { return d.children ? -13 : 13; }) .style("text-anchor", function(d) { return d.children ? "end" : "start"; }) .text(function(d) { return d.data.name; }); }); }</script></body> https://d3js.org/d3.v4.min.js