Public
Edited
Jan 2, 2023
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chart = ForceGraph(graph, {
nodeId: d => d.id,
nodeGroup: d => d.group,
nodeTitle: d => `${d.title}`,
nodeRadius: (v) => Math.min(Math.max(v.value / 10, 5), 30),
// linkStrength: (l) => l.value * 2,
linkStrength: (l) => l.value ,
linkDistance: l => 100,
// nodeStrength: 0.1,
linkStrokeWidth: l => l.value * 5,
width: 1600,
height: 1600,
invalidation // a promise to stop the simulation when the cell is re-run
})
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// Copyright 2021 Observable, Inc.
// Released under the ISC license.
// https://observablehq.com/@d3/force-directed-graph
function ForceGraph({
nodes, // an iterable of node objects (typically [{id}, …])
links // an iterable of link objects (typically [{source, target}, …])
}, {
nodeId = d => d.id, // given d in nodes, returns a unique identifier (string)
nodeGroup, // given d in nodes, returns an (ordinal) value for color
nodeGroups, // an array of ordinal values representing the node groups
nodeTitle, // given d in nodes, a title string
nodeFill = "currentColor", // node stroke fill (if not using a group color encoding)
nodeStroke = "#fff", // node stroke color
nodeStrokeWidth = 1.5, // node stroke width, in pixels
nodeStrokeOpacity = 1, // node stroke opacity
nodeRadius = () => 5, // node radius, in pixels
linkDistance = () => 1,
nodeStrength,
linkSource = ({source}) => source, // given d in links, returns a node identifier string
linkTarget = ({target}) => target, // given d in links, returns a node identifier string
linkStroke = "#999", // link stroke color
linkStrokeOpacity = 0.6, // link stroke opacity
linkStrokeWidth = 1.5, // given d in links, returns a stroke width in pixels
linkStrokeLinecap = "round", // link stroke linecap
linkStrength,
colors = d3.schemeTableau10, // an array of color strings, for the node groups
width = 640, // outer width, in pixels
height = 400, // outer height, in pixels
invalidation // when this promise resolves, stop the simulation
} = {}) {
// Compute values.
const N = d3.map(nodes, nodeId).map(intern);
const LS = d3.map(links, linkSource).map(intern);
const LT = d3.map(links, linkTarget).map(intern);
if (nodeTitle === undefined) nodeTitle = (_, i) => N[i];
const T = nodeTitle == null ? null : d3.map(nodes, nodeTitle);
const R = nodeRadius == null ? null : d3.map(nodes, nodeRadius);
const G = nodeGroup == null ? null : d3.map(nodes, nodeGroup).map(intern);
const W = typeof linkStrokeWidth !== "function" ? null : d3.map(links, linkStrokeWidth);
const L = typeof linkStroke !== "function" ? null : d3.map(links, linkStroke);

// Replace the input nodes and links with mutable objects for the simulation.
nodes = d3.map(nodes, (v, i) => ({ ...v, id: N[i] }))
links = d3.map(links, (e, i) => ({ ...e, source: LS[i], target: LT[i] }))

// Compute default domains.
if (G && nodeGroups === undefined) nodeGroups = d3.sort(G);

// Construct the scales.
const color = nodeGroup == null ? null : d3.scaleOrdinal(nodeGroups, colors);

// Construct the forces.
const forceNode = d3.forceManyBody();
const forceLink = d3.forceLink(links).id(({index: i}) => N[i]);
if (nodeStrength !== undefined) forceNode.strength(nodeStrength);
if (linkStrength !== undefined) forceLink.distance(linkDistance).strength(linkStrength);

const simulation = d3.forceSimulation(nodes)
.force("link", forceLink)
.force("charge", forceNode)
.force("center", d3.forceCenter())
.force("collision", d3.forceCollide(d => d.degree * 4))
.on("tick", ticked);

const svg = d3.create("svg")
.attr("width", width)
.attr("height", height)
.attr("viewBox", [-width / 2, -height / 2, width, height])
.attr("style", "max-width: 100%; height: auto; height: intrinsic;");

const link = svg.append("g")
.attr("stroke", typeof linkStroke !== "function" ? linkStroke : null)
.attr("stroke-opacity", linkStrokeOpacity)
.attr("stroke-width", typeof linkStrokeWidth !== "function" ? linkStrokeWidth : null)
.attr("stroke-linecap", linkStrokeLinecap)
.selectAll("line")
.data(links)
.join("line");

const node = svg.append("g")
.attr("fill", nodeFill)
.attr("stroke", nodeStroke)
.attr("stroke-opacity", nodeStrokeOpacity)
.attr("stroke-width", nodeStrokeWidth)
.selectAll("circle")
.data(nodes)
.join("circle")
.attr("r", nodeRadius)
.call(drag(simulation));
if (W) link.attr("stroke-width", ({index: i}) => W[i]);
if (L) link.attr("stroke", ({index: i}) => L[i]);
if (G) node.attr("fill", ({index: i}) => color(G[i]));
if (T) node.append("text").text(({index: i}) => T[i]);
if (invalidation != null) invalidation.then(() => simulation.stop());

function intern(value) {
return value !== null && typeof value === "object" ? value.valueOf() : value;
}
const textElems = svg
.append('g')
.selectAll('text')
.data(nodes)
.join('text')
.text(d => d.id)
.attr('font-size', 12)
.call(drag(simulation));


function ticked() {
link
.attr("x1", d => d.source.x)
.attr("y1", d => d.source.y)
.attr("x2", d => d.target.x)
.attr("y2", d => d.target.y);

node
.attr("cx", d => d.x)
.attr("cy", d => d.y);

textElems
.attr("x", d => d.x + 10)
.attr("y", d => d.y)
// .attr("visibility", function(d) {
// if (d.degree >= 0) {
// return "visible";
// } else {
// return "hidden";
// }
// });
}

function drag(simulation) {
function dragstarted(event) {
if (!event.active) simulation.alphaTarget(0.3).restart();
event.subject.fx = event.subject.x;
event.subject.fy = event.subject.y;
}
function dragged(event) {
event.subject.fx = event.x;
event.subject.fy = event.y;
}
function dragended(event) {
if (!event.active) simulation.alphaTarget(0);
event.subject.fx = null;
event.subject.fy = null;
}
return d3.drag()
.on("start", dragstarted)
.on("drag", dragged)
.on("end", dragended);
}
// ZOOM
const zoomRect = svg
.append("rect")
.attr("width", width)
.attr("height", height)
.style("fill", "none")
.style("pointer-events", "all");

const zoom = d3
.zoom()
.scaleExtent([1 / 2, 64])
.on("zoom", zoomed);

zoomRect.call(zoom).call(zoom.translateTo, width / 2, height / 2);
function zoomed(e) {
// const transform = d3.event.transform;

// node.attr("transform", e.transform);
// link.attr("transform", e.transform);
// textElems.attr("transform", e.transform);
}


return Object.assign(svg.node(), {scales: {color}});
}
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graph = {
return {
links: votesJaccard1.filter(v => v.value > 0.03),
nodes: animeNodes1.map(({ id, value }) => ({
group: animeNodesSource[id].season,
id,
value,
title: animeNodesSource[id].title,
}))
}
}
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animeNodesSource = FileAttachment("anime-nodes-source.json").json()
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animeNodes1 = FileAttachment("anime-nodes@1.json").json()
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import {Swatches} from "@d3/color-legend"
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votes-jaccard.json
Type SQL, then Shift-Enter. Ctrl-space for more options.

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votesJaccard1 = FileAttachment("votes-jaccard@1.json").json()
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