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<!DOCTYPE html> |
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<meta charset="utf-8"> |
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<style> |
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.links { |
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stroke: #000; |
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stroke-opacity: 0; |
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} |
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.polygons { |
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stroke: #fff; |
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} |
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.polygons :first-child { |
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fill: #ff3d5a; |
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} |
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.sites { |
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fill: none; |
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stroke: none; |
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} |
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.sites :first-child { |
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fill: #fff; |
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} |
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.convex-hull { |
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fill: none; |
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stroke: #feccd5; |
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stroke-width: 5px; |
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} |
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</style> |
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<svg width="960" height="500"></svg> |
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<script src="https://d3js.org/d3.v4.min.js"></script> |
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<script src="https://d3js.org/d3-scale-chromatic.v1.min.js"></script> |
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<script> |
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var svg = d3.select("svg").on("touchmove mousemove", moved), |
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width = +svg.attr("width"), |
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height = +svg.attr("height"), |
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margin = 0.2; // 0 ≤ m < 0.5 |
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var color = d3.scaleOrdinal(d3.schemePastel1), |
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line = d3.line().curve(d3.curveCatmullRomClosed); |
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var sites = d3.range(100) |
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.map(function(d) { |
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var len = Math.min(width, height) / 2 * (1 - margin) * Math.sqrt(Math.random()), |
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angle = Math.random() * 2 * Math.PI; |
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return [ |
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width / 2 + len * Math.cos(angle), |
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height / 2 + len * Math.sin(angle) |
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]; }); |
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var voronoi = d3.voronoi() |
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.extent([[-1, -1], [width + 1, height + 1]]); |
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var convexhull = svg.append('path') |
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.attr('class', 'convex-hull'); |
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var polygon = svg.append("g") |
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.attr("class", "polygons"); |
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var link = svg.append("g") |
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.attr("class", "links"); |
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var site = svg.append("g") |
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.attr("class", "sites"); |
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redraw(); |
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function moved() { |
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sites[0] = d3.mouse(this); |
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redraw(); |
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} |
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function redraw() { |
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var links = voronoi.links(sites), |
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ext = Math.sqrt(d3.median(links, function(l) { |
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var dx = l.source[0] - l.target[0], |
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dy = l.source[1] - l.target[1]; |
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return dx*dx + dy*dy; |
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})); |
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var convex = d3.polygonHull(sites); |
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convex.centroid = d3.polygonCentroid(convex); |
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convex = convex.map(function(p){ |
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var dx = p[0] - convex.centroid[0], |
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dy = p[1] - convex.centroid[1], |
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angle = Math.atan2(dy, dx); |
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return [p[0] + Math.cos(angle) * ext, p[1] + Math.sin(angle) * ext]; |
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}); |
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var sites2 = sites.slice(); // clone |
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for (var i = 0; i < convex.length; i++) { |
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var n = convex[i], m = convex[i+1]||convex[0]; |
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var dx = n[0] - m[0], |
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dy = n[1] - m[1], |
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dist = Math.sqrt(dx * dx + dy * dy); |
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var pts = 10 * Math.ceil(dist / 2 / ext); |
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for(var j=0; j <= pts; j++) { |
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var p = [m[0] + dx *j / pts, m[1] + dy * j / pts]; |
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p.artificial = 1; |
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sites2.push(p); |
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} |
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} |
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var diagram = voronoi(sites2); |
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var p = polygon.selectAll("path") |
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.data(diagram.polygons()); |
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p.enter().append("path").merge(p).call(redrawPolygon) |
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p.exit().remove(); |
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var l = link |
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.selectAll("line") |
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.data(diagram.links().filter(function(l){ |
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return !l.source.artificial && !l.target.artificial; |
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})); |
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l.enter() |
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.append("line") |
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.merge(l) |
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.call(redrawLink) |
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.exit() |
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.remove(); |
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var s = site |
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.selectAll("circle") |
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.data(sites); |
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s.enter() |
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.append("circle") |
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.attr("r", 2.5) |
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.merge(s) |
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.call(redrawSite); |
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convexhull.attr('d', line(convex)); |
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} |
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function redrawPolygon(polygon) { |
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polygon |
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.attr("fill", function(d, i) { |
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return i < sites.length ? color(i) : 'none'; |
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}) |
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.attr("stroke-width", function(d, i) { |
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return i < sites.length ? 2 : 0; |
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}) |
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.attr("d", function(d) { return d ? "M" + d.join("L") + "Z" : null; }); |
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} |
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function redrawLink(link) { |
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link |
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.attr("x1", function(d) { return d.source[0]; }) |
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.attr("y1", function(d) { return d.source[1]; }) |
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.attr("x2", function(d) { return d.target[0]; }) |
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.attr("y2", function(d) { return d.target[1]; }); |
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} |
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function redrawSite(site) { |
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site |
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.attr("cx", function(d) { return d[0]; }) |
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.attr("cy", function(d) { return d[1]; }); |
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} |
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</script> |