Radial bar chart inspired by Peter Cook's work.
forked from bricedev's block: Radial Bar Chart
xxxxxxxxxx
<meta charset="utf-8">
<style>
body {
font: 10px sans-serif;
}
.axis path,
.axis line {
fill: none;
stroke: #000;
shape-rendering: crispEdges;
}
.x.axis path {
display: none;
}
</style>
<body>
<script src="https://d3js.org/d3.v3.min.js"></script>
<script>
var width = 960,
height = 500,
barHeight = height / 2 - 40;
var formatNumber = d3.format("s");
var color = d3.scale.ordinal()
.range(["#8dd3c7","#ffffb3","#bebada","#fb8072","#80b1d3","#fdb462","#b3de69","#fccde5","#d9d9d9","#bc80bd","#ccebc5","#ffed6f"]);
var svg = d3.select('body').append("svg")
.attr("width", width)
.attr("height", height)
.append("g")
.attr("transform", "translate(" + width/2 + "," + height/2 + ")");
d3.csv("data.csv", function(error, data) {
data.sort(function(a,b) { return b.value - a.value; });
var extent = d3.extent(data, function(d) { return d.value; });
var barScale = d3.scale.linear()
.domain(extent)
.range([0, barHeight]);
var keys = data.map(function(d,i) { return d.name; });
var numBars = keys.length;
var x = d3.scale.linear()
.domain(extent)
.range([0, -barHeight]);
var xAxis = d3.svg.axis()
.scale(x).orient("left")
.ticks(3)
.tickFormat(formatNumber);
var circles = svg.selectAll("circle")
.data(x.ticks(3))
.enter().append("circle")
.attr("r", function(d) {return barScale(d);})
.style("fill", "none")
.style("stroke", "black")
.style("stroke-dasharray", "2,2")
.style("stroke-width",".5px");
var arc = d3.svg.arc()
.startAngle(function(d,i) { return (i * 2 * Math.PI) / numBars; })
.endAngle(function(d,i) { return ((i + 1) * 2 * Math.PI) / numBars; })
.innerRadius(0);
var segments = svg.selectAll("path")
.data(data)
.enter().append("path")
.each(function(d) { d.outerRadius = 0; })
.style("fill", function (d) { return color(d.name); })
.attr("d", arc);
segments.transition().ease("elastic").duration(2000).delay(function(d,i) {return (20-i)*100;})
.attrTween("d", function(d,index) {
var i = d3.interpolate(d.outerRadius, barScale(+d.value));
return function(t) { d.outerRadius = i(t); return arc(d,index); };
});
svg.append("circle")
.attr("r", barHeight)
.classed("outer", true)
.style("fill", "none")
.style("stroke", "black")
.style("stroke-width","1.5px");
var lines = svg.selectAll("line")
.data(keys)
.enter().append("line")
.attr("y2", -barHeight - 20)
.style("stroke", "black")
.style("stroke-width",".5px")
.attr("transform", function(d, i) { return "rotate(" + (i * 360 / numBars) + ")"; });
svg.append("g")
.attr("class", "x axis")
.call(xAxis);
// Labels
var labelRadius = barHeight * 1.025;
var labels = svg.append("g")
.classed("labels", true);
labels.append("def")
.append("path")
.attr("id", "label-path")
.attr("d", "m0 " + -labelRadius + " a" + labelRadius + " " + labelRadius + " 0 1,1 -0.01 0");
labels.selectAll("text")
.data(keys)
.enter().append("text")
.style("text-anchor", "middle")
.style("font-weight","bold")
.style("fill", function(d, i) {return "#3e3e3e";})
.append("textPath")
.attr("xlink:href", "#label-path")
.attr("startOffset", function(d, i) {return i * 100 / numBars + 50 / numBars + '%';})
.text(function(d) {return d.toUpperCase(); });
});
</script>
https://d3js.org/d3.v3.min.js