Testing out aframe.io with d3.js. use WASD keys to "walk" around the space.
Since AFrame works with DOM elements, you can use d3's selection API to generate and modify 3D elements, as well as handle "mouse" events (including the VR friendly "fuse cursor") as if it was SVG.
Built with blockbuilder.org
forked from enjalot's block: aframe + d3 test
forked from enjalot's block: aframe + d3 test: text labels
xxxxxxxxxx<head> <meta charset="utf-8"> <script src="https://cdnjs.cloudflare.com/ajax/libs/d3/3.5.5/d3.min.js"></script> <script src="https://aframe.io/releases/latest/aframe.min.js"></script> <script src="aframe-text-component.min.js"></script> <style> body { margin:0;position:fixed;top:0;right:0;bottom:0;left:0; background-color: white; } .a-canvas { height: calc(100% - 120px) !important; } .a-enter-vr { bottom: 140px; } #hud { position: absolute; bottom: 0; height: 120px; width: 100%; } svg#path2d { position:absolute; left:0; bottom: 0; height: 120px; width: 300px; } </style></head><body> <div id="scene"> <a-scene> <!-- Camera with customized cursor --> <a-light color="#da47da" position="0 5 0" type="ambient"></a-light> <a-entity id="vehicle"> <a-entity id="camera" camera look-controls wasd-controls></a-entity> </a-entity> <a-entity light="type: point; color: #EEE; intensity: 0.5" position="0 3 0"></a-entity> <!-- Sky --> <a-sky color="#ecfcf4"></a-sky> </a-scene> </div> <div id="hud"> <svg id="path2d"><svg> </div> <script> // fake data var data = [ 10, 20, 30, 15, 25, 35, 40, 45, 50, 70, 100, 120, 130, 12, 18, 22, 29, 33, 44, 59, 200, 10] // we scale the height of our bars using d3's linear scale var height3d = 3; var hscale = d3.scale.linear() .domain([0, d3.max(data)]) .range([0, height3d]) function xz(i) { // lets place the bars all around our camera var radius = 5; var theta = i/data.length * 2 * Math.PI - 3/4*Math.PI var x = radius * Math.cos(theta) var z = radius * Math.sin(theta) return {x:x, z:z} } var toDomain = d3.scale.linear() .domain([0, 1]).range(hscale.domain()) var camera = d3.select("#vehicle") .attr("position", "0 1 0") .attr("rotation", "0 45 0") // 2d line var height2d = 100; var width2d = 300; var yscale = d3.scale.linear() .domain([0, d3.max(data)]) .range([height2d,0]) var line = d3.svg.line() .x(function(d,i) { return width2d * i/data.length; }) .y(function(d,i) { return yscale(d); }) //.interpolate("basis") .interpolate("cardinal") var svg = d3.select("svg#path2d") svg.selectAll("rect.bar2d").data(data) .enter().append("rect").classed("bar2d", true) .attr({ x: function(d,i) { return i/data.length * width2d - width2d/data.length/4}, y: function(d,i) { return yscale(d) }, width: width2d/data.length/2, height: function(d,i) { return height2d - yscale(d) }, "fill-opacity": 0.1 }) var path2d = svg.append("path").attr({ d: line(data), fill: "none", stroke: "#111", "stroke-width": 3 }) var playHead = svg.append("line") .classed("play-head", true) .attr({ stroke: "#f11", y1: 0, y2: height2d, }) var path = path2d.node() var totalLength = path.getTotalLength(); var trackn2d = 200; var track2ddata = d3.range(trackn2d).map(function(d,i) { var t = i/trackn2d; var p = path.getPointAtLength(t*totalLength) var x = p.x //t * width2d - width2d/trackn2d/4 var y = 1 + height2d - p.y/height2d * height2d; return {x: x, y: y} }) svg.selectAll("rect.track2d").data(track2ddata) .enter().append("rect").classed("track2d", true) .attr({ x: function(d,i) { return d.x}, y: function(d,i) { return height2d - d.y }, width: width2d/trackn2d/2, height: function(d,i) { return d.y }, "fill-opacity": 0.3, fill: "blue" }) // we select the scene object just like an svg var scene = d3.select("a-scene") // visualize the camera tracks var track = function(t) { //var y = 1.5 + hscale(data[Math.round(t * data.length)]) var p2d = path.getPointAtLength(t*totalLength) var y = 1.3 + height3d - p2d.y/height2d * height3d; //console.log(t, t*totalLength, y) var tx = p2d.x/width2d var p = xz(tx*data.length); return {x: p.x, y: y, z: p.z} } var tracknum = 200; var trackdata = d3.range(tracknum).map(function(i) { var p = track(i/tracknum) return p }) var tracks = scene.selectAll("a-cube.track").data(trackdata) tracks.enter().append("a-cube").classed("track", true) tracks.attr({ position: function(d,i) { return d.x + " " + d.y + " " + d.z}, rotation: function(d,i) { var x = 0; var z = 0; var y = -(i/tracknum)*360; return x + " " + y + " " + z }, width: 0.05, height: 0.05, depth: 0.5, opacity: 0.1 }) //// d3.timer(function(elapsed) { dt = (elapsed * 0.0005 % 10) / 10; var p = track(dt); //var p = xz(dt*data.length) //var y = 1.5 + hscale(data[Math.floor(dt * data.length)]) //var y = 1.5 + path.getPointAtLength(dt*totalLength).y/100; p.y += 0.5; var r = { x: 0, y: -dt*360 - 45, z: 0 } camera.attr({ position: p.x + " " + p.y + " " + p.z, rotation: r.x + " " + r.y + " " + r.z }) playHead.attr({ x1: dt*100, x2: dt*100, y1: 0, y2: 100 }) }) // we use d3's enter/update/exit pattern to draw and bind our dom elements var bars = scene.selectAll("a-cube.bar").data(data) bars.enter().append("a-cube").classed("bar", true) // we set attributes on our cubes to determine how they are rendered bars.attr({ position: function(d,i) { var y = 1 + hscale(d)/2; var p = xz(i); return p.x + " " + y + " " + p.z }, rotation: function(d,i) { var x = 0; var z = 0; var y = -(i/data.length)*360 - 45; return x + " " + y + " " + z }, width: function(d) { return 0.5}, depth: function(d) { return 0.9}, height: function(d) { return hscale(d)}, opacity: function(d,i) { return 0.6 + (i/data.length) * 0.4}, //metalness: function(d,i) { return i/data.length} }) .on("click", function(d,i) { console.log("click", i,d) }) .on("mouseenter", function(d,i) { // this event gets fired continuously as long as the cursor // is over the element. we only want trigger our animation the first time if(this.hovering) return; console.log("hover", i,d) this.hovering = true; d3.select(this).transition().duration(1000) .attr({ metalness: 0.5, width: 2 }) }) .on("mouseleave", function(d,i) { console.log("leave",i,d) this.hovering = false; d3.select(this).transition() .attr({ metalness: 0, width: 0.5 }) }) var labels = scene.selectAll("a-entity.label").data(data) labels.enter().append("a-entity").classed("label", true) .attr({ text: function(d,i){ return "text: " + i }, material: "color: #000", size: 3 }) labels.attr({ position: function(d,i) { // cubes are positioned by their center so we // offset for their height var y = 0.3; // lets place the bars all around our camera var radius = 5; var theta = i/data.length * 2 * Math.PI - 3/4*Math.PI - 0.07 var x = radius * Math.cos(theta) var z = radius * Math.sin(theta) return x + " " + y + " " + z }, rotation: function(d,i) { var x = 0; var z = 0; var y = +45 -(i/data.length)*360; return x + " " + y + " " + z }, }) </script></body> https://cdnjs.cloudflare.com/ajax/libs/d3/3.5.5/d3.min.js
https://aframe.io/releases/latest/aframe.min.js