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<!DOCTYPE html> |
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<meta charset="utf-8"> |
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<style> |
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.spanning { |
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stroke: #000; |
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stroke-opacity: 1; |
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stroke-width: 1; |
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} |
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.polygons { |
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fill: none; |
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stroke: #c9c9c9; |
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stroke-width: 0.5; |
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} |
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.polygons.found { |
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fill: #f00; |
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} |
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.sites { |
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fill: #000; |
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stroke: #fff; |
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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> |
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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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var sites = d3.range(1500) |
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.map(function(d) { return [Math.random() * width, Math.random() * height]; }); |
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var voronoi = d3.voronoi() |
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.extent([[1, 1], [width-1, height-1]]); |
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var polygon = svg.append("g") |
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.attr("class", "polygons") |
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.selectAll("path") |
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.data(voronoi.polygons(sites)) |
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.enter().append("path") |
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.call(redrawPolygon); |
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var spanning = svg.append('g') |
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.attr('class', 'spanning') |
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.selectAll('line') |
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.data(sites); |
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var diagram = voronoi(sites); |
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diagram.next = function(cell, x,y) { |
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var dx = x - cell.site[0], |
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dy = y - cell.site[1], |
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dist = dx*dx + dy*dy; |
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var next = null; |
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cell.halfedges |
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.forEach(function(e){ |
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var edge = diagram.edges[e]; |
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var ea = edge.left; |
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if (ea === cell.site || !ea) { |
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ea = edge.right; |
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} |
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if (ea){ |
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var dx = x - ea[0], |
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dy = y - ea[1], |
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ndist = dx*dx + dy*dy; |
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if (ndist < dist){ |
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dist = ndist; |
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next = ea.index; |
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} |
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} |
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}); |
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return next; |
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} |
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diagram.find = function(x, y, radius){ |
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// optimization: start from most recent result |
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var next = diagram.find.found || Math.floor(Math.random() * diagram.cells.length), |
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found; |
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do { |
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cell = diagram.cells[found = next]; |
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} while (next = diagram.next(cell, x, y)); |
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diagram.find.found = found; |
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//if (!radius || dist < radius * radius) |
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return cell.site; |
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} |
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diagram.spanning = function(x,y){ |
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return diagram.cells.map(function(e){ |
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if (f = diagram.next(e, x,y)) return { source: e.site, target: sites[f] }; |
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}) |
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.filter(function(e) { return !!e; }); |
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} |
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findcell([width/2, height/2]); |
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function moved() { |
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findcell(d3.mouse(this)); |
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} |
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function findcell(m) { |
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var found = diagram.find(m[0],m[1], 50); |
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spanning = spanning |
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.data(diagram.spanning(m[0],m[1]), function(d,i){return i;}) |
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.enter().append('line') |
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.merge(spanning); |
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spanning |
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.attr('x1', function(l){ return l.source[0];}) |
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.attr('y1', function(l){ return l.source[1];}) |
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.attr('x2', function(l){ return l.target[0];}) |
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.attr('y2', function(l){ return l.target[1];}) |
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} |
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function redraw() { |
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polygon = polygon.data(diagram.polygons()).call(redrawPolygon); |
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site = polygon.data(diagram.polygons()).call(redrawPolygon); |
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} |
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function redrawPolygon(polygon) { |
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polygon |
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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 redrawSite(site) { |
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site |
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.attr("transform", function(d) { return 'translate(' + d + ')'; }); |
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} |
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</script> |