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<!DOCTYPE html> |
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<meta charset="utf-8"> |
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<style> |
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body{ |
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width:1060px; |
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margin:50px auto; |
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} |
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path { stroke: #fff; } |
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path:hover { opacity:0.9; } |
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rect:hover { fill:blue; } |
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.axis { font: 10px sans-serif; } |
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.legend tr{ border-bottom:1px solid grey; } |
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.legend tr:first-child{ border-top:1px solid grey; } |
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.axis path, |
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.axis line { |
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fill: none; |
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stroke: #000; |
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shape-rendering: crispEdges; |
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} |
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.x.axis path { display: none; } |
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.legend{ |
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margin-bottom:76px; |
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display:inline-block; |
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border-collapse: collapse; |
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border-spacing: 0px; |
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} |
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.legend td{ |
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padding:4px 5px; |
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vertical-align:bottom; |
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} |
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.legendFreq, .legendPerc{ |
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align:right; |
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width:50px; |
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} |
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</style> |
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<body> |
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<div id='dashboard'> |
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</div> |
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<script src="http://d3js.org/d3.v3.min.js"></script> |
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<script> |
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function dashboard(id, fData){ |
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var barColor = 'steelblue'; |
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function segColor(c){ return {low:"#807dba", mid:"#e08214",high:"#41ab5d"}[c]; } |
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// compute total for each state. |
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fData.forEach(function(d){d.total=d.freq.low+d.freq.mid+d.freq.high;}); |
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// function to handle histogram. |
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function histoGram(fD){ |
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var hG={}, hGDim = {t: 60, r: 0, b: 30, l: 0}; |
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hGDim.w = 500 - hGDim.l - hGDim.r, |
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hGDim.h = 300 - hGDim.t - hGDim.b; |
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//create svg for histogram. |
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var hGsvg = d3.select(id).append("svg") |
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.attr("width", hGDim.w + hGDim.l + hGDim.r) |
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.attr("height", hGDim.h + hGDim.t + hGDim.b).append("g") |
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.attr("transform", "translate(" + hGDim.l + "," + hGDim.t + ")"); |
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// create function for x-axis mapping. |
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var x = d3.scale.ordinal().rangeRoundBands([0, hGDim.w], 0.1) |
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.domain(fD.map(function(d) { return d[0]; })); |
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// Add x-axis to the histogram svg. |
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hGsvg.append("g").attr("class", "x axis") |
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.attr("transform", "translate(0," + hGDim.h + ")") |
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.call(d3.svg.axis().scale(x).orient("bottom")); |
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// Create function for y-axis map. |
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var y = d3.scale.linear().range([hGDim.h, 0]) |
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.domain([0, d3.max(fD, function(d) { return d[1]; })]); |
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// Create bars for histogram to contain rectangles and freq labels. |
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var bars = hGsvg.selectAll(".bar").data(fD).enter() |
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.append("g").attr("class", "bar"); |
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//create the rectangles. |
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bars.append("rect") |
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.attr("x", function(d) { return x(d[0]); }) |
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.attr("y", function(d) { return y(d[1]); }) |
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.attr("width", x.rangeBand()) |
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.attr("height", function(d) { return hGDim.h - y(d[1]); }) |
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.attr('fill',barColor) |
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.on("mouseover",mouseover)// mouseover is defined below. |
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.on("mouseout",mouseout);// mouseout is defined below. |
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//Create the frequency labels above the rectangles. |
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bars.append("text").text(function(d){ return d3.format(",")(d[1])}) |
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.attr("x", function(d) { return x(d[0])+x.rangeBand()/2; }) |
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.attr("y", function(d) { return y(d[1])-5; }) |
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.attr("text-anchor", "middle"); |
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function mouseover(d){ // utility function to be called on mouseover. |
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// filter for selected state. |
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var st = fData.filter(function(s){ return s.State == d[0];})[0], |
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nD = d3.keys(st.freq).map(function(s){ return {type:s, freq:st.freq[s]};}); |
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// call update functions of pie-chart and legend. |
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pC.update(nD); |
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leg.update(nD); |
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} |
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function mouseout(d){ // utility function to be called on mouseout. |
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// reset the pie-chart and legend. |
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pC.update(tF); |
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leg.update(tF); |
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} |
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// create function to update the bars. This will be used by pie-chart. |
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hG.update = function(nD, color){ |
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// update the domain of the y-axis map to reflect change in frequencies. |
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y.domain([0, d3.max(nD, function(d) { return d[1]; })]); |
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// Attach the new data to the bars. |
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var bars = hGsvg.selectAll(".bar").data(nD); |
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// transition the height and color of rectangles. |
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bars.select("rect").transition().duration(500) |
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.attr("y", function(d) {return y(d[1]); }) |
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.attr("height", function(d) { return hGDim.h - y(d[1]); }) |
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.attr("fill", color); |
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// transition the frequency labels location and change value. |
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bars.select("text").transition().duration(500) |
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.text(function(d){ return d3.format(",")(d[1])}) |
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.attr("y", function(d) {return y(d[1])-5; }); |
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} |
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return hG; |
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} |
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// function to handle pieChart. |
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function pieChart(pD){ |
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var pC ={}, pieDim ={w:250, h: 250}; |
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pieDim.r = Math.min(pieDim.w, pieDim.h) / 2; |
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// create svg for pie chart. |
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var piesvg = d3.select(id).append("svg") |
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.attr("width", pieDim.w).attr("height", pieDim.h).append("g") |
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.attr("transform", "translate("+pieDim.w/2+","+pieDim.h/2+")"); |
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// create function to draw the arcs of the pie slices. |
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var arc = d3.svg.arc().outerRadius(pieDim.r - 10).innerRadius(0); |
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// create a function to compute the pie slice angles. |
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var pie = d3.layout.pie().sort(null).value(function(d) { return d.freq; }); |
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// Draw the pie slices. |
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piesvg.selectAll("path").data(pie(pD)).enter().append("path").attr("d", arc) |
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.each(function(d) { this._current = d; }) |
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.style("fill", function(d) { return segColor(d.data.type); }) |
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.on("mouseover",mouseover).on("mouseout",mouseout); |
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// create function to update pie-chart. This will be used by histogram. |
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pC.update = function(nD){ |
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piesvg.selectAll("path").data(pie(nD)).transition().duration(500) |
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.attrTween("d", arcTween); |
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} |
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// Utility function to be called on mouseover a pie slice. |
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function mouseover(d){ |
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// call the update function of histogram with new data. |
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hG.update(fData.map(function(v){ |
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return [v.State,v.freq[d.data.type]];}),segColor(d.data.type)); |
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} |
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//Utility function to be called on mouseout a pie slice. |
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function mouseout(d){ |
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// call the update function of histogram with all data. |
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hG.update(fData.map(function(v){ |
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return [v.State,v.total];}), barColor); |
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} |
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// Animating the pie-slice requiring a custom function which specifies |
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// how the intermediate paths should be drawn. |
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function arcTween(a) { |
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var i = d3.interpolate(this._current, a); |
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this._current = i(0); |
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return function(t) { return arc(i(t)); }; |
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} |
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return pC; |
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} |
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// function to handle legend. |
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function legend(lD){ |
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var leg = {}; |
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// create table for legend. |
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var legend = d3.select(id).append("table").attr('class','legend'); |
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// create one row per segment. |
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var tr = legend.append("tbody").selectAll("tr").data(lD).enter().append("tr"); |
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// create the first column for each segment. |
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tr.append("td").append("svg").attr("width", '16').attr("height", '16').append("rect") |
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.attr("width", '16').attr("height", '16') |
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.attr("fill",function(d){ return segColor(d.type); }); |
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// create the second column for each segment. |
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tr.append("td").text(function(d){ return d.type;}); |
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// create the third column for each segment. |
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tr.append("td").attr("class",'legendFreq') |
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.text(function(d){ return d3.format(",")(d.freq);}); |
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// create the fourth column for each segment. |
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tr.append("td").attr("class",'legendPerc') |
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.text(function(d){ return getLegend(d,lD);}); |
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// Utility function to be used to update the legend. |
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leg.update = function(nD){ |
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// update the data attached to the row elements. |
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var l = legend.select("tbody").selectAll("tr").data(nD); |
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// update the frequencies. |
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l.select(".legendFreq").text(function(d){ return d3.format(",")(d.freq);}); |
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// update the percentage column. |
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l.select(".legendPerc").text(function(d){ return getLegend(d,nD);}); |
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} |
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function getLegend(d,aD){ // Utility function to compute percentage. |
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return d3.format("%")(d.freq/d3.sum(aD.map(function(v){ return v.freq; }))); |
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} |
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return leg; |
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} |
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// calculate total frequency by segment for all state. |
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var tF = ['low','mid','high'].map(function(d){ |
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return {type:d, freq: d3.sum(fData.map(function(t){ return t.freq[d];}))}; |
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}); |
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// calculate total frequency by state for all segment. |
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var sF = fData.map(function(d){return [d.State,d.total];}); |
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var hG = histoGram(sF), // create the histogram. |
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pC = pieChart(tF), // create the pie-chart. |
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leg= legend(tF); // create the legend. |
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} |
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</script> |
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<script> |
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var freqData=[ |
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{State:'AL',freq:{low:4786, mid:1319, high:249}} |
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,{State:'AZ',freq:{low:1101, mid:412, high:674}} |
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,{State:'CT',freq:{low:932, mid:2149, high:418}} |
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,{State:'DE',freq:{low:832, mid:1152, high:1862}} |
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,{State:'FL',freq:{low:4481, mid:3304, high:948}} |
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,{State:'GA',freq:{low:1619, mid:167, high:1063}} |
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,{State:'IA',freq:{low:1819, mid:247, high:1203}} |
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,{State:'IL',freq:{low:4498, mid:3852, high:942}} |
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,{State:'IN',freq:{low:797, mid:1849, high:1534}} |
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,{State:'KS',freq:{low:162, mid:379, high:471}} |
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]; |
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dashboard('#dashboard',freqData); |
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</script> |
I'm a beginner at d3 and currently experimenting with the technology. I'm trying to get your great visualization to work with an external data source (CSV) with 'State' on the rows and 'high', 'mid' and 'low' as column headers. I just can't get the parsed data in the right format. The problem is with the freq object, I suspect it to be generated by a d3.nest function; however, instead of one object per row it returns an array of one object per row. Can you help me out?
var nested_data = d3.nest()
.key(function (d) { return d.State; })
.entries(csv_data);
nested_data.forEach(function (d) {
d.State = d.key;
d.freq = d.values;
console.log(nested_data)
});