Example 3D scatter plot implemented using d3 and x3dom.
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March 12, 2023 07:55
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3D scatter plot using d3, x3dom
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<!DOCTYPE html > | |
<html > | |
<head> | |
<meta http-equiv="X-UA-Compatible" content="chrome=1" /> | |
<meta http-equiv="Content-Type" content="text/html;charset=utf-8" /> | |
<title>3D Scatter Plot</title> | |
<script type="text/javascript" src="http://d3js.org/d3.v3.min.js"></script> | |
<script type="text/javascript" src="http://x3dom.org/x3dom/dist/x3dom-full.js"></script> | |
<script type="text/javascript" src="scatter_plot_3d_demo.js"></script> | |
<link rel="stylesheet" type="text/css" href="http://www.x3dom.org/download/dev/x3dom.css"/> | |
</head> | |
<body> | |
<div id="divPlot"></div> | |
<script> | |
d3.select('html').style('height','100%').style('width','100%') | |
d3.select('body').style('height','100%').style('width','100%') | |
d3.select('#divPlot').style('width', "500px").style('height', "500px") | |
scatterPlot3d( d3.select('#divPlot')); | |
</script> | |
</body> | |
</html> |
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// Create a 3d scatter plot within d3 selection parent. | |
function scatterPlot3d( parent ) | |
{ | |
var x3d = parent | |
.append("x3d") | |
.style( "width", parseInt(parent.style("width"))+"px" ) | |
.style( "height", parseInt(parent.style("height"))+"px" ) | |
.style( "border", "none" ) | |
var scene = x3d.append("scene") | |
scene.append("orthoviewpoint") | |
.attr( "centerOfRotation", [5, 5, 5]) | |
.attr( "fieldOfView", [-5, -5, 15, 15]) | |
.attr( "orientation", [-0.5, 1, 0.2, 1.12*Math.PI/4]) | |
.attr( "position", [8, 4, 15]) | |
var rows = initializeDataGrid(); | |
var axisRange = [0, 10]; | |
var scales = []; | |
var initialDuration = 0; | |
var defaultDuration = 800; | |
var ease = 'linear'; | |
var time = 0; | |
var axisKeys = ["x", "y", "z"] | |
// Helper functions for initializeAxis() and drawAxis() | |
function axisName( name, axisIndex ) { | |
return ['x','y','z'][axisIndex] + name; | |
} | |
function constVecWithAxisValue( otherValue, axisValue, axisIndex ) { | |
var result = [otherValue, otherValue, otherValue]; | |
result[axisIndex] = axisValue; | |
return result; | |
} | |
// Used to make 2d elements visible | |
function makeSolid(selection, color) { | |
selection.append("appearance") | |
.append("material") | |
.attr("diffuseColor", color||"black") | |
return selection; | |
} | |
// Initialize the axes lines and labels. | |
function initializePlot() { | |
initializeAxis(0); | |
initializeAxis(1); | |
initializeAxis(2); | |
} | |
function initializeAxis( axisIndex ) | |
{ | |
var key = axisKeys[axisIndex]; | |
drawAxis( axisIndex, key, initialDuration ); | |
var scaleMin = axisRange[0]; | |
var scaleMax = axisRange[1]; | |
// the axis line | |
var newAxisLine = scene.append("transform") | |
.attr("class", axisName("Axis", axisIndex)) | |
.attr("rotation", ([[0,0,0,0],[0,0,1,Math.PI/2],[0,1,0,-Math.PI/2]][axisIndex])) | |
.append("shape") | |
newAxisLine | |
.append("appearance") | |
.append("material") | |
.attr("emissiveColor", "lightgray") | |
newAxisLine | |
.append("polyline2d") | |
// Line drawn along y axis does not render in Firefox, so draw one | |
// along the x axis instead and rotate it (above). | |
.attr("lineSegments", "0 0," + scaleMax + " 0") | |
// axis labels | |
var newAxisLabel = scene.append("transform") | |
.attr("class", axisName("AxisLabel", axisIndex)) | |
.attr("translation", constVecWithAxisValue( 0, scaleMin + 1.1 * (scaleMax-scaleMin), axisIndex )) | |
var newAxisLabelShape = newAxisLabel | |
.append("billboard") | |
.attr("axisOfRotation", "0 0 0") // face viewer | |
.append("shape") | |
.call(makeSolid) | |
var labelFontSize = 0.6; | |
newAxisLabelShape | |
.append("text") | |
.attr("class", axisName("AxisLabelText", axisIndex)) | |
.attr("solid", "true") | |
.attr("string", key) | |
.append("fontstyle") | |
.attr("size", labelFontSize) | |
.attr("family", "SANS") | |
.attr("justify", "END MIDDLE" ) | |
} | |
// Assign key to axis, creating or updating its ticks, grid lines, and labels. | |
function drawAxis( axisIndex, key, duration ) { | |
var scale = d3.scale.linear() | |
.domain( [-5,5] ) // demo data range | |
.range( axisRange ) | |
scales[axisIndex] = scale; | |
var numTicks = 8; | |
var tickSize = 0.1; | |
var tickFontSize = 0.5; | |
// ticks along each axis | |
var ticks = scene.selectAll( "."+axisName("Tick", axisIndex) ) | |
.data( scale.ticks( numTicks )); | |
var newTicks = ticks.enter() | |
.append("transform") | |
.attr("class", axisName("Tick", axisIndex)); | |
newTicks.append("shape").call(makeSolid) | |
.append("box") | |
.attr("size", tickSize + " " + tickSize + " " + tickSize); | |
// enter + update | |
ticks.transition().duration(duration) | |
.attr("translation", function(tick) { | |
return constVecWithAxisValue( 0, scale(tick), axisIndex ); }) | |
ticks.exit().remove(); | |
// tick labels | |
var tickLabels = ticks.selectAll("billboard shape text") | |
.data(function(d) { return [d]; }); | |
var newTickLabels = tickLabels.enter() | |
.append("billboard") | |
.attr("axisOfRotation", "0 0 0") | |
.append("shape") | |
.call(makeSolid) | |
newTickLabels.append("text") | |
.attr("string", scale.tickFormat(10)) | |
.attr("solid", "true") | |
.append("fontstyle") | |
.attr("size", tickFontSize) | |
.attr("family", "SANS") | |
.attr("justify", "END MIDDLE" ); | |
tickLabels // enter + update | |
.attr("string", scale.tickFormat(10)) | |
tickLabels.exit().remove(); | |
// base grid lines | |
if (axisIndex==0 || axisIndex==2) { | |
var gridLines = scene.selectAll( "."+axisName("GridLine", axisIndex)) | |
.data(scale.ticks( numTicks )); | |
gridLines.exit().remove(); | |
var newGridLines = gridLines.enter() | |
.append("transform") | |
.attr("class", axisName("GridLine", axisIndex)) | |
.attr("rotation", axisIndex==0 ? [0,1,0, -Math.PI/2] : [0,0,0,0]) | |
.append("shape") | |
newGridLines.append("appearance") | |
.append("material") | |
.attr("emissiveColor", "gray") | |
newGridLines.append("polyline2d"); | |
gridLines.selectAll("shape polyline2d").transition().duration(duration) | |
.attr("lineSegments", "0 0, " + axisRange[1] + " 0") | |
gridLines.transition().duration(duration) | |
.attr("translation", axisIndex==0 | |
? function(d) { return scale(d) + " 0 0"; } | |
: function(d) { return "0 0 " + scale(d); } | |
) | |
} | |
} | |
// Update the data points (spheres) and stems. | |
function plotData( duration ) { | |
if (!rows) { | |
console.log("no rows to plot.") | |
return; | |
} | |
var x = scales[0], y = scales[1], z = scales[2]; | |
var sphereRadius = 0.2; | |
// Draw a sphere at each x,y,z coordinate. | |
var datapoints = scene.selectAll(".datapoint").data( rows ); | |
datapoints.exit().remove() | |
var newDatapoints = datapoints.enter() | |
.append("transform") | |
.attr("class", "datapoint") | |
.attr("scale", [sphereRadius, sphereRadius, sphereRadius]) | |
.append("shape"); | |
newDatapoints | |
.append("appearance") | |
.append("material"); | |
newDatapoints | |
.append("sphere") | |
// Does not work on Chrome; use transform instead | |
//.attr("radius", sphereRadius) | |
datapoints.selectAll("shape appearance material") | |
.attr("diffuseColor", 'steelblue' ) | |
datapoints.transition().ease(ease).duration(duration) | |
.attr("translation", function(row) { | |
return x(row[axisKeys[0]]) + " " + y(row[axisKeys[1]]) + " " + z(row[axisKeys[2]])}) | |
// Draw a stem from the x-z plane to each sphere at elevation y. | |
// This convention was chosen to be consistent with x3d primitive ElevationGrid. | |
var stems = scene.selectAll(".stem").data( rows ); | |
stems.exit().remove(); | |
var newStems = stems.enter() | |
.append("transform") | |
.attr("class", "stem") | |
.append("shape"); | |
newStems | |
.append("appearance") | |
.append("material") | |
.attr("emissiveColor", "gray") | |
newStems | |
.append("polyline2d") | |
.attr("lineSegments", function(row) { return "0 1, 0 0"; }) | |
stems.transition().ease(ease).duration(duration) | |
.attr("translation", | |
function(row) { return x(row[axisKeys[0]]) + " 0 " + z(row[axisKeys[2]]); }) | |
.attr("scale", | |
function(row) { return [1, y(row[axisKeys[1]])]; }) | |
} | |
function initializeDataGrid() { | |
var rows = []; | |
// Follow the convention where y(x,z) is elevation. | |
for (var x=-5; x<=5; x+=1) { | |
for (var z=-5; z<=5; z+=1) { | |
rows.push({x: x, y: 0, z: z}); | |
} | |
} | |
return rows; | |
} | |
function updateData() { | |
time += Math.PI/8; | |
if ( x3d.node() && x3d.node().runtime ) { | |
for (var r=0; r<rows.length; ++r) { | |
var x = rows[r].x; | |
var z = rows[r].z; | |
rows[r].y = 5*( Math.sin(0.5*x + time) * Math.cos(0.25*z + time)); | |
} | |
plotData( defaultDuration ); | |
} else { | |
console.log('x3d not ready.'); | |
} | |
} | |
initializeDataGrid(); | |
initializePlot(); | |
setInterval( updateData, defaultDuration ); | |
} | |
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Really freaking awesome thanks for posting.