bee_ecuador.csv
Type Table, then Shift-Enter. Ctrl-space for more options.
chart_ecuador = BeeswarmChart(datos_ecuador, {
x: (d) => d.renta_rel * 1,
label: "Weight (lbs.) →",
type: d3.scaleLinear, // try d3.scaleLog
width
})
chart = BeeswarmChart(cars, {
x: (d) => d.Weight_in_lbs,
label: "Weight (lbs.) →",
type: d3.scaleLinear, // try d3.scaleLog
width
})
// Copyright 2021 Observable, Inc.
// Released under the ISC license.
// https://observablehq.com/@d3/beeswarm
function BeeswarmChart(
data,
{
value = (d) => d, // convenience alias for x
label, // convenience alias for xLabel
type = d3.scaleLinear, // convenience alias for xType
domain, // convenience alias for xDomain
x = value, // given d in data, returns the quantitative x value
title = null, // given d in data, returns the title
group, // given d in data, returns an (ordinal) value for color
groups, // an array of ordinal values representing the data groups
colors = d3.schemeTableau10, // an array of color strings, for the dots
radius = 3, // (fixed) radius of the circles
padding = 1.5, // (fixed) padding between the circles
marginTop = 10, // top margin, in pixels
marginRight = 20, // right margin, in pixels
marginBottom = 30, // bottom margin, in pixels
marginLeft = 20, // left margin, in pixels
width = 640, // outer width, in pixels
height, // outer height, in pixels
xType = type, // type of x-scale, e.g. d3.scaleLinear
xLabel = label, // a label for the x-axis
xDomain = domain, // [xmin, xmax]
xRange = [marginLeft, width - marginRight] // [left, right]
} = {}
) {
// Compute values.
const X = d3.map(data, x).map((x) => (x == null ? NaN : +x));
const T = title == null ? null : d3.map(data, title);
const G = group == null ? null : d3.map(data, group);
console.log(data);
// Compute which data points are considered defined.
const I = d3.range(X.length).filter((i) => !isNaN(X[i]));
// Compute default domains.
if (xDomain === undefined) xDomain = d3.extent(X);
if (G && groups === undefined) groups = d3.sort(G);
// Construct scales and axes.
const xScale = xType(xDomain, xRange);
const xAxis = d3.axisBottom(xScale).tickSizeOuter(0);
const color = group == null ? null : d3.scaleOrdinal(groups, colors);
// Compute the y-positions.
const Y = dodge(
I.map((i) => xScale(X[i])),
radius * 2 + padding
);
// Compute the default height;
if (height === undefined)
height = d3.max(Y) + (radius + padding) * 2 + marginTop + marginBottom;
// Given an array of x-values and a separation radius, returns an array of y-values.
function dodge(X, radius) {
const Y = new Float64Array(X.length);
const radius2 = radius ** 2;
const epsilon = 1e-3;
let head = null,
tail = null;
// Returns true if circle ⟨x,y⟩ intersects with any circle in the queue.
function intersects(x, y) {
let a = head;
while (a) {
const ai = a.index;
if (radius2 - epsilon > (X[ai] - x) ** 2 + (Y[ai] - y) ** 2)
return true;
a = a.next;
}
return false;
}
// Place each circle sequentially.
for (const bi of d3.range(X.length).sort((i, j) => X[i] - X[j])) {
// Remove circles from the queue that can’t intersect the new circle b.
while (head && X[head.index] < X[bi] - radius2) head = head.next;
// Choose the minimum non-intersecting tangent.
if (intersects(X[bi], (Y[bi] = 0))) {
let a = head;
Y[bi] = Infinity;
do {
const ai = a.index;
let y = Y[ai] + Math.sqrt(radius2 - (X[ai] - X[bi]) ** 2);
if (y < Y[bi] && !intersects(X[bi], y)) Y[bi] = y;
a = a.next;
} while (a);
}
// Add b to the queue.
const b = { index: bi, next: null };
if (head === null) head = tail = b;
else tail = tail.next = b;
}
return Y;
}
const svg = d3
.create("svg")
.attr("width", width)
.attr("height", height)
.attr("viewBox", [0, 0, width, height])
.attr("style", "max-width: 100%; height: auto; height: intrinsic;");
svg
.append("g")
.attr("transform", `translate(0,${height - marginBottom})`)
.call(xAxis)
.call((g) =>
g
.append("text")
.attr("x", width)
.attr("y", marginBottom - 4)
.attr("fill", "currentColor")
.attr("text-anchor", "end")
.text(xLabel)
);
const dot = svg
.append("g")
.selectAll("circle")
.data(I)
.join("circle")
.attr("cx", (i) => xScale(X[i]))
.attr("cy", (i) => height - marginBottom - radius - padding - Y[i])
.attr("r", radius);
if (G) dot.attr("fill", (i) => color(G[i]));
if (T) dot.append("title").text((i) => T[i]);
return svg.node();
}
import {howto, altplot} from "@d3/example-components"
Purpose-built for displays of data
Observable is your go-to platform for exploring data and creating expressive data visualizations. Use reactive JavaScript notebooks for prototyping and a collaborative canvas for visual data exploration and dashboard creation.
