/** * Created by Utente on 17/07/2015. */ function build(root, place_holder, select_listener) { var plwidth = $("#" + place_holder).width(), plheight = $("#" + place_holder).height(); var margin = {top: 20, right: 0, bottom: 0, left: 0}, width = plwidth, height = plheight - margin.top - margin.bottom, formatNumber = d3.format(",d"), transitioning; var x = d3.scale.linear() .domain([0, width]) .domain([0, width]) .range([0, width]); var y = d3.scale.linear() .domain([0, height]) .range([0, height]); var treemap = d3.layout.treemap() .children(function(d, depth) { return depth ? null : d._children; }) .sort(function(a, b) { return a.value - b.value; }) .ratio(height / width * 0.5 * (1 + Math.sqrt(5))) .round(false); var svg = d3.select("#" + place_holder) .append("svg") .attr("width", width + margin.left + margin.right) .attr("height", height + margin.bottom + margin.top) .style("margin-left", -margin.left + "px") .style("margin.right", -margin.right + "px") .append("g") .attr("transform", "translate(" + margin.left + "," + margin.top + ")") .style("shape-rendering", "crispEdges"); var grandparent = svg.append("g") .attr("class", "grandparent"); var dataletContainer = null; grandparent.append("rect") .attr("y", -margin.top) .attr("width", width) .attr("height", margin.top); grandparent.append("text") .attr("x", 6) .attr("y", 6 - margin.top) .attr("dy", ".75em"); //d3.json initialize(root); accumulate(root); layout(root); display(root); function initialize(root) { root.x = root.y = 0; root.dx = width; root.dy = height; root.depth = 0; } // Aggregate the values for internal nodes. This is normally done by the // treemap layout, but not here because of our custom implementation. // We also take a snapshot of the original children (_children) to avoid // the children being overwritten when when layout is computed. function accumulate(d) { return (d._children = d.children) ? d.value = d.children.reduce(function(p, v) { return p + accumulate(v); }, 5) : d.value; } // Compute the treemap layout recursively such that each group of siblings // uses the same size (1×1) rather than the dimensions of the parent cell. // This optimizes the layout for the current zoom state. Note that a wrapper // object is created for the parent node for each group of siblings so that // the parent’s dimensions are not discarded as we recurse. Since each group // of sibling was laid out in 1×1, we must rescale to fit using absolute // coordinates. This lets us use a viewport to zoom. function layout(d) { if (d._children) { treemap.nodes({_children: d._children}); var i = 0; d._children.forEach(function(c) { c.x = d.x + c.x * d.dx; c.y = d.y + c.y * d.dy; c.dx *= d.dx; c.dy *= d.dy; c.parent = d; c.depth = d.depth + 1; c.color = c.depth < 2 ? d3.scale.ordinal().domain(d3.range(d._children.length)).range(["#8dd3c7","#ffffb3","#bebada","#fb8072","#80b1d3","#fdb462","#b3de69","#fccde5","#d9d9d9","#bc80bd","#ccebc5","#ffed6f"])(i++) : d.color; layout(c); }); } } function display(d) { grandparent .datum(d.parent) .on("click", transition) .select("text") .text(name(d)); var g1 = svg.insert("g", ".grandparent") .datum(d) .attr("class", "depth"); var g = g1.selectAll("g") .data(d._children) .enter().append("g"); g.filter(function(d) { return d._children; }) .classed("children", true) .on("click", transition); g.selectAll(".child") .data(function(d) { return d._children || [d]; }) .enter().append("rect") .attr("class", "child") .call(rect); g.append("rect") .attr("class", "parent") .call(rect) .append("title") .text(function(d) { return d.name; /*formatNumber(d.value);*/ }); g.append("text") .attr("dy", ".75em") .call(text); function transition(d) { if (transitioning || !d) return; transitioning = true; if (dataletContainer) { dataletContainer.remove(); dataletContainer = null; } var g2 = display(d), t1 = g1.transition().duration(750), t2 = g2.transition().duration(750); // Update the domain only after entering new elements. x.domain([d.x, d.x + d.dx]); y.domain([d.y, d.y + d.dy]); // Enable anti-aliasing during the transition. svg.style("shape-rendering", null); // Draw child nodes on top of parent nodes. svg.selectAll(".depth").sort(function(a, b) { return b.depth - a.depth; }); // Fade-in entering text. g2.selectAll("text").style("fill-opacity", 0); // Transition to the new view. t1.selectAll("text").call(text).style("fill-opacity", 0); t2.selectAll("text").call(text).style("fill-opacity", 1); t1.selectAll("rect").call(rect); t2.selectAll("rect").call(rect); // Remove the old node when the transition is finished. t1.remove().each("end", function() { svg.style("shape-rendering", "crispEdges"); transitioning = false; }); } if (!d._children[0]._children) { if (select_listener) { var url = d._children[0].name; // Check if CKAN var strDatasetPos = url.indexOf('/dataset/'); var strResourcePos = (strDatasetPos >= 0) ? url.indexOf('/resource/') : -1; if (strDatasetPos >= 0 && strResourcePos > strDatasetPos) { var urlSegment1 = url.substring(0, strDatasetPos); var urlResourceEnd = url.indexOf('/', strResourcePos + 10); var resourceId = url.substring(strResourcePos + 10, urlResourceEnd); url = urlSegment1 + "/api/action/datastore_search?resourceid=" + resourceId; } // Check if OPENDATASOFT var strExploreDatasetPos = url.indexOf('/explore/dataset/'); if (strExploreDatasetPos >= 0) { var urlSegment1 = url.substring(0, strExploreDatasetPos); var datasetEnd = url.indexOf(strExploreDatasetPos + 17, '/'); var datasetId = url.substring(strExploreDatasetPos + 17, datasetEnd >= 0 ? datasetEnd : url.length); url = urlSegment1 + '/api/records/1.0/search?dataset=' + datasetId; } select_listener(url); } var dataurl = d._children[0].name; var pageurl = dataurl.replace(/\/download\/.*/, ''); dataletContainer = svg .append("foreignObject") .attr("width", root.dx) .attr("height", root.dy - root.y) .append("xhtml:body") .html(''); } return g; } function text(text) { text .attr("x", function(d) { return x(d.x) + 6; }) .attr("y", function(d) { return y(d.y) + 6; }); text.call(wrap); } function wrap(d) { var wwidth = width; var hheight = height; d.each(function(){ var text = d3.select(this), d = text[0][0].__data__, name = d.name.trim(), words = name.search(/\s+/) >= 0 ? name.split(/\s+/).reverse() : [name], word = words.pop(), line = [word], lineNumber = 0, lineHeight = 1.1, // ems x = parseFloat(text.attr("x")), y = parseFloat(text.attr("y")), dy = parseFloat(text.attr("dy")); text.selectAll("tspan").remove(); var fx = d3.scale.linear() .domain([d.parent.x, d.parent.x + d.parent.dx]) .range([0, wwidth]); var fy = d3.scale.linear() .domain([d.parent.y, d.parent.y + d.parent.dy]) .range([0, hheight]); var tspan = text .text(null) .append("tspan") .attr("x", fx(d.x) + 6) .attr("y", fy(d.y) + 6) .attr("dy", lineNumber++ * lineHeight + dy + "em") .text(word); var width = fx(d.x + d.dx) - fx(d.x) - 12; var height = fy(d.y + d.dy) - fy(d.y) - 6; while (word = words.pop()) { line.push(word); tspan.text(line.join(" ")); if (tspan.node().getComputedTextLength() > width) { line.pop(); tspan.text(line.join(" ")); line = [word]; tspan = text .append("tspan") .attr("x", fx(d.x) + 6) .attr("y", fy(d.y) + 6) .attr("dy", lineNumber++ * lineHeight + dy + "em") .text(word); if (text.node().offsetHeight > height) { tspan.remove(); break; } } } }); } function rect(rect) { rect.attr("x", function(d) { return x(d.x); }) .attr("y", function(d) { return y(d.y); }) .attr("width", function(d) { return x(d.x + d.dx) - x(d.x); }) .attr("height", function(d) { return y(d.y + d.dy) - y(d.y); }) .style("fill", function(d, i) { return d.color; }) ; } function name(d) { return d.parent ? name(d.parent) + "." + d.name : d.name; } };