define(["d3"], function (d3) { var margin = 200 var NODE_RADIUS = 15 var LINE_RADIUS = 12 return function (config, linkScale, sidebar, router) { var self = this var canvas, ctx, screenRect var nodesDict, linksDict var zoomBehavior var force var el var doAnimation = false var intNodes = [] var intLinks = [] var highlight var highlightedNodes = [] var highlightedLinks = [] var nodes = [] var unknownNodes = [] var draggedNode var LINK_DISTANCE = 70 function graphDiameter(nodes) { return Math.sqrt(nodes.length / Math.PI) * LINK_DISTANCE * 1.41 } function savePositions() { if (!localStorageTest()) return var save = intNodes.map( function (d) { return { id: d.o.id, x: d.x, y: d.y } }) localStorage.setItem("graph/nodeposition", JSON.stringify(save)) } function nodeName(d) { if (d.o.node && d.o.node.nodeinfo) return d.o.node.nodeinfo.hostname else return d.o.id } function dragstart() { var e = translateXY(d3.mouse(el)) var nodes = intNodes.filter(function (d) { return distancePoint(e, d) < NODE_RADIUS }) if (nodes.length === 0) return draggedNode = nodes[0] d3.event.sourceEvent.stopPropagation() d3.event.sourceEvent.preventDefault() draggedNode.fixed |= 2 } function dragmove() { if (draggedNode) { var e = translateXY(d3.mouse(el)) draggedNode.px = e.x draggedNode.py = e.y force.resume() } } function dragend() { if (draggedNode) { d3.event.sourceEvent.stopPropagation() d3.event.sourceEvent.preventDefault() draggedNode.fixed &= 1 draggedNode = undefined } } var draggableNode = d3.behavior.drag() .on("dragstart", dragstart) .on("drag", dragmove) .on("dragend", dragend) function animatePanzoom(translate, scale) { var translateP = zoomBehavior.translate() var scaleP = zoomBehavior.scale() if (!doAnimation) { zoomBehavior.translate(translate) zoomBehavior.scale(scale) panzoom() } else { var start = {x: translateP[0], y: translateP[1], scale: scaleP} var end = {x: translate[0], y: translate[1], scale: scale} var interpolate = d3.interpolateObject(start, end) var duration = 500 var ease = d3.ease("cubic-in-out") d3.timer(function (t) { if (t >= duration) return true var v = interpolate(ease(t / duration)) zoomBehavior.translate([v.x, v.y]) zoomBehavior.scale(v.scale) panzoom() return false }) } } var translateP, scaleP function panzoom() { var translate = zoomBehavior.translate() var scale = zoomBehavior.scale() panzoomReal(translate, scale) } function panzoomReal(translate, scale) { screenRect = {left: -translate[0] / scale, top: -translate[1] / scale, right: (canvas.width - translate[0]) / scale, bottom: (canvas.height - translate[1]) / scale} requestAnimationFrame(redraw) } function getSize() { var sidebarWidth = sidebar.getWidth() var width = el.offsetWidth - sidebarWidth var height = el.offsetHeight return [width, height] } function panzoomTo(a, b) { var sidebarWidth = sidebar.getWidth() var size = getSize() var targetWidth = Math.max(1, b[0] - a[0]) var targetHeight = Math.max(1, b[1] - a[1]) var scaleX = size[0] / targetWidth var scaleY = size[1] / targetHeight var scaleMax = zoomBehavior.scaleExtent()[1] var scale = 0.5 * Math.min(scaleMax, Math.min(scaleX, scaleY)) var centroid = [(a[0] + b[0]) / 2, (a[1] + b[1]) / 2] var x = -centroid[0] * scale + size[0] / 2 var y = -centroid[1] * scale + size[1] / 2 var translate = [x + sidebarWidth, y] animatePanzoom(translate, scale) } function updateHighlight(nopanzoom) { highlightedNodes = [] highlightedLinks = [] if (highlight !== undefined) if (highlight.type === "node") { var n = nodesDict[highlight.o.nodeinfo.node_id] if (n) { highlightedNodes = [n] if (!nopanzoom) panzoomTo([n.x, n.y], [n.x, n.y]) } return } else if (highlight.type === "link") { var l = linksDict[highlight.o.id] if (l) { highlightedLinks = [l] highlightedNodes = [l.source, l.target] if (!nopanzoom) { var x = d3.extent([l.source, l.target], function (d) { return d.x }) var y = d3.extent([l.source, l.target], function (d) { return d.y }) panzoomTo([x[0], y[0]], [x[1], y[1]]) } } return } if (!nopanzoom) panzoomTo([0, 0], force.size()) } function drawLabel(d) { var sum = d.neighbours.reduce(function (a, b) { return [a[0] + b.x, a[1] + b.y] }, [0, 0]) var sumCos = sum[0] - d.x * d.neighbours.length var sumSin = sum[1] - d.y * d.neighbours.length var angle = Math.PI / 2 if (d.neighbours.length > 0) angle = Math.PI + Math.atan2(sumSin, sumCos) var cos = Math.cos(angle) var sin = Math.sin(angle) var width = d.labelWidth var height = d.labelHeight var x = d.x + d.labelA * Math.pow(Math.abs(cos), 2 / 5) * Math.sign(cos) - width / 2 var y = d.y + d.labelB * Math.pow(Math.abs(sin), 2 / 5) * Math.sign(sin) - height / 2 ctx.drawImage(d.label, x, y, width, height) } function visibleLinks(d) { return (d.source.x > screenRect.left && d.source.x < screenRect.right && d.source.y > screenRect.top && d.source.y < screenRect.bottom) || (d.target.x > screenRect.left && d.target.x < screenRect.right && d.target.y > screenRect.top && d.target.y < screenRect.bottom) } function visibleNodes(d) { return d.x + margin > screenRect.left && d.x - margin < screenRect.right && d.y + margin > screenRect.top && d.y - margin < screenRect.bottom } function redraw() { var translate = zoomBehavior.translate() var scale = zoomBehavior.scale() var links = intLinks.filter(visibleLinks) var xExtent = d3.extent(intNodes, function (d) { return d.px }) var yExtent = d3.extent(intNodes, function (d) { return d.py }) if (translateP) { ctx.save() ctx.translate(translateP[0], translateP[1]) ctx.scale(scaleP, scaleP) ctx.clearRect(xExtent[0] - margin, yExtent[0] - margin, xExtent[1] - xExtent[0] + 2 * margin, yExtent[1] - yExtent[0] + 2 * margin) ctx.restore() } ctx.save() ctx.translate(translate[0], translate[1]) ctx.scale(scale, scale) if (!translateP) ctx.clearRect(xExtent[0] - margin, yExtent[0] - margin, xExtent[1] - xExtent[0] + 2 * margin, yExtent[1] - yExtent[0] + 2 * margin) // Remeber last translate/scale state translateP = translate scaleP = scale ctx.beginPath() nodes.filter(visibleNodes).forEach(function (d) { var clients = d.o.node.statistics.clients if (d.clients === 0) return var distance = 16 var radius = 3 var a = 1.2 var startAngle = Math.PI var angle = startAngle for (var i = 0; i < clients; i++) { if ((angle - startAngle) > 2 * Math.PI) { angle = startAngle distance += 2 * radius * a } var x = d.x + distance * Math.cos(angle) var y = d.y + distance * Math.sin(angle) ctx.moveTo(x, y) ctx.arc(x, y, radius, 0, 2 * Math.PI) var n = Math.floor((Math.PI * distance) / (a * radius)) var angleDelta = 2 * Math.PI / n angle += angleDelta } }) ctx.fillStyle = "#73A7CC" ctx.fill() if (highlightedLinks.length) { ctx.save() ctx.lineWidth = 10 ctx.strokeStyle = "#FFD486" highlightedLinks.forEach(function (d) { ctx.beginPath() ctx.moveTo(d.source.x, d.source.y) ctx.lineTo(d.target.x, d.target.y) ctx.stroke() }) ctx.restore() } ctx.lineWidth = 2.5 links.forEach(function (d) { ctx.beginPath() ctx.moveTo(d.source.x, d.source.y) ctx.lineTo(d.target.x, d.target.y) ctx.strokeStyle = d.color ctx.stroke() }) if (scale > 0.9) intNodes.filter(visibleNodes).forEach(drawLabel, scale) ctx.beginPath() unknownNodes.filter(visibleNodes).forEach(function (d) { ctx.moveTo(d.x + 8, d.y) ctx.arc(d.x, d.y, 8, 0, 2 * Math.PI) }) ctx.strokeStyle = "#d00000" ctx.fillStyle = "#ffffff" ctx.fill() ctx.stroke() ctx.beginPath() nodes.filter(visibleNodes).forEach(function (d) { ctx.moveTo(d.x + 8, d.y) ctx.arc(d.x, d.y, 8, 0, 2 * Math.PI) }) ctx.strokeStyle = "#AEC7E8" ctx.fillStyle = "#ffffff" ctx.fill() ctx.stroke() if (highlightedNodes.length) { ctx.save() ctx.strokeStyle = "#FFD486" ctx.fillStyle = "orange" ctx.lineWidth = 6 highlightedNodes.forEach(function (d) { ctx.beginPath() ctx.moveTo(d.x + 8, d.y) ctx.arc(d.x, d.y, 8, 0, 2 * Math.PI) ctx.fill() ctx.stroke() }) ctx.restore() } ctx.restore() } function tickEvent() { redraw() } function resizeCanvas() { var r = window.devicePixelRatio canvas.width = el.offsetWidth * r canvas.height = el.offsetHeight * r canvas.style.width = el.offsetWidth + "px" canvas.style.height = el.offsetHeight + "px" ctx.resetTransform() ctx.scale(r, r) requestAnimationFrame(redraw) } function distance(a, b) { return Math.pow(a.x - b.x, 2) + Math.pow(a.y - b.y, 2) } function distancePoint(a, b) { return Math.sqrt(distance(a, b)) } function distanceLink(p, a, b) { /* http://stackoverflow.com/questions/849211 */ var l2 = distance(a, b) if (l2 === 0) return distance(p, a) var t = ((p.x - a.x) * (b.x - a.x) + (p.y - a.y) * (b.y - a.y)) / l2 if (t < 0) return distance(p, a) if (t > 1) return distance(p, b) return Math.sqrt(distance(p, { x: a.x + t * (b.x - a.x), y: a.y + t * (b.y - a.y) })) } function translateXY(d) { var translate = zoomBehavior.translate() var scale = zoomBehavior.scale() return {x: (d[0] - translate[0]) / scale, y: (d[1] - translate[1]) / scale } } function onClick() { if (d3.event.defaultPrevented) return var e = translateXY(d3.mouse(el)) var nodes = intNodes.filter(function (d) { return distancePoint(e, d) < NODE_RADIUS }) if (nodes.length > 0) { router.node(nodes[0].o.node)() return } var links = intLinks.filter(function (d) { return distanceLink(e, d.source, d.target) < LINE_RADIUS }) if (links.length > 0) { router.link(links[0].o)() return } } el = document.createElement("div") el.classList.add("graph") self.div = el zoomBehavior = d3.behavior.zoom() .scaleExtent([1 / 3, 3]) .on("zoom", panzoom) .translate([sidebar.getWidth(), 0]) canvas = d3.select(el) .call(zoomBehavior) .append("canvas") .attr("pointer-events", "all") .on("click", onClick) .call(draggableNode) .node() ctx = canvas.getContext("2d") force = d3.layout.force() .charge(-80) .gravity(0.01) .chargeDistance(8 * LINK_DISTANCE) .linkDistance(LINK_DISTANCE) .linkStrength(function (d) { return Math.max(0.5, 1 / d.o.tq) }) .on("tick", tickEvent) .on("end", savePositions) window.addEventListener("resize", resizeCanvas) panzoom() self.setData = function (data) { var oldNodes = {} intNodes.forEach( function (d) { oldNodes[d.o.id] = d }) intNodes = data.graph.nodes.map( function (d) { var e if (d.id in oldNodes) e = oldNodes[d.id] else e = {} e.o = d return e }) var newNodesDict = {} intNodes.forEach( function (d) { newNodesDict[d.o.id] = d }) var oldLinks = {} intLinks.forEach( function (d) { oldLinks[d.o.id] = d }) intLinks = data.graph.links.filter( function (d) { return !d.vpn }).map( function (d) { var e if (d.id in oldLinks) e = oldLinks[d.id] else e = {} e.o = d e.source = newNodesDict[d.source.id] e.target = newNodesDict[d.target.id] e.color = linkScale(d.tq).hex() return e }) linksDict = {} nodesDict = {} intNodes.forEach(function (d) { d.neighbours = {} if (d.o.node) nodesDict[d.o.node.nodeinfo.node_id] = d var name = nodeName(d) ctx.font = "11px Roboto" var offset = 8 var lineWidth = 3 var width = ctx.measureText(name).width var buffer = document.createElement("canvas") var r = window.devicePixelRatio var bctx = buffer.getContext("2d") var scale = zoomBehavior.scaleExtent()[1] * r buffer.width = (width + 2 * lineWidth) * scale buffer.height = (16 + 2 * lineWidth) * scale bctx.scale(scale, scale) bctx.textBaseline = "middle" bctx.textAlign = "center" bctx.font = ctx.font bctx.lineWidth = lineWidth bctx.lineCap = "round" bctx.strokeStyle = "rgba(255, 255, 255, 0.8)" bctx.fillStyle = "rgba(0, 0, 0, 0.6)" bctx.strokeText(name, buffer.width / (2 * scale), buffer.height / (2 * scale)) bctx.fillText(name, buffer.width / (2 * scale), buffer.height / (2 * scale)) d.label = buffer d.labelWidth = buffer.width / scale d.labelHeight = buffer.height / scale d.labelA = offset + buffer.width / (2 * scale) d.labelB = offset + buffer.height / (2 * scale) }) intLinks.forEach(function (d) { d.source.neighbours[d.target.o.id] = d.target d.target.neighbours[d.source.o.id] = d.source if (d.o.source.node && d.o.target.node) linksDict[d.o.id] = d }) intNodes.forEach(function (d) { d.neighbours = Object.keys(d.neighbours).map(function (k) { return d.neighbours[k] }) }) nodes = intNodes.filter(function (d) { return d.o.node }) unknownNodes = intNodes.filter(function (d) { return !d.o.node }) if (localStorageTest()) { var save = JSON.parse(localStorage.getItem("graph/nodeposition")) if (save) { var nodePositions = {} save.forEach( function (d) { nodePositions[d.id] = d }) intNodes.forEach( function (d) { if (nodePositions[d.o.id] && (d.x === undefined || d.y === undefined)) { d.x = nodePositions[d.o.id].x d.y = nodePositions[d.o.id].y } }) } } var diameter = graphDiameter(intNodes) force.nodes(intNodes) .links(intLinks) .size([diameter, diameter]) updateHighlight(true) force.start() resizeCanvas() } self.resetView = function () { highlight = undefined updateHighlight() doAnimation = true } self.gotoNode = function (d) { highlight = {type: "node", o: d} updateHighlight() doAnimation = true } self.gotoLink = function (d) { highlight = {type: "link", o: d} updateHighlight() doAnimation = true } self.destroy = function () { force.stop() canvas.remove() force = null } return self } })