166 lines
5.0 KiB
TypeScript
166 lines
5.0 KiB
TypeScript
import Graph from "graphology";
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import Sigma from "sigma";
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import forceAtlas2 from "graphology-layout-forceatlas2";
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const p_pref = 0.45; // 0.45
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const p_triadic = 0.45; // 0.40
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const p_similitude = 1 - p_pref - p_triadic;
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let individus: any[] = [];
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let graph: Graph;
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let sigma: Sigma;
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let running = false;
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document.getElementById("fileInput")!.addEventListener("change", async (e) => {
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const file = (e.target as HTMLInputElement).files?.[0];
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if (!file) return;
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const text = await file.text();
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individus = JSON.parse(text);
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});
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document.getElementById("generateGraph")!.addEventListener("click", () => {
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if (!individus.length) {
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alert("Veuillez charger un fichier JSON d’individus d’abord !");
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return;
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}
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graph = new Graph();
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running = true;
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document.getElementById("stopSim")!.removeAttribute("disabled");
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const container = document.getElementById("sigma-container")!;
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const width = container.clientWidth || 800;
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const height = container.clientHeight || 600;
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const cx = 0; //width / 2;
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const cy = 0; //height / 2;
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// rayon maximum (on garde une marge)
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const maxRadius = Math.min(width, height) * 0.45;
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// la spirale progresse doucement de l'intérieur vers l'extérieur
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const turns = 5; // nombre de tours de spirale
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const angleStep = (2 * Math.PI * turns) / individus.length;
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// ajouter les nœuds avec positions initiales sur un cercle
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individus.forEach((ind, i) => {
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const t = i / individus.length; // 0 → 1
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const angle = i * angleStep;
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const radius = t * maxRadius;
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// petite variation aléatoire pour éviter une grille parfaite (optionnel)
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const jitter = 0.02 * radius;
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// coordonnees
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const x = cx + Math.cos(angle) * (radius + (Math.random() - 0.5) * jitter);
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const y = cy + Math.sin(angle) * (radius + (Math.random() - 0.5) * jitter);
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ind.edges = 0;
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graph.addNode(String(i), {
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label: `${ind.prenom} (${ind.age} ans)`,
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x, // position initiale X
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y, // position initiale Y
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size: 1,
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color: ind.sexe === "F" ? "#ff99aa" : "#6699ff",
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});
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});
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// maintenant on peut créer Sigma en lui passant le conteneur
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sigma = new Sigma(graph, container, { renderLabels: false });
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// rafraîchir pour que Sigma prenne en compte les positions initiales
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sigma.refresh();
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// Lancer l’animation
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animateLinks();
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});
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document.getElementById("stopSim")!.addEventListener("click", () => {
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running = false;
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(document.getElementById("stopSim") as HTMLButtonElement).disabled = true;
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});
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function updateSizes() {
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graph.forEachNode((node, attrs) => {
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const degree = graph.degree(node);
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//const size = 2 + Math.sqrt(degree) * 2;
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const size = 5 * (1 - Math.exp(-degree / 8));
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graph.setNodeAttribute(node, "size", size);
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});
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sigma.refresh();
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}
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async function animateLinks() {
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const N = individus.length;
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for (let k = 0 ; k < N * 15 ; k++) {
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if (!running) break;
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const i = Math.floor(Math.random() * N);
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const j = Math.floor(Math.random() * N);
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console.log(`${i} ? ${j}`);
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if (i === j) {
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continue;
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}
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if (graph.hasEdge(String(i), String(j))) {
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continue;
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}
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const a = individus[i];
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const b = individus[j];
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// Homophilie
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const diffSexe = +(a.sexe == b.sexe);
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const diffAge = Math.abs(a.age - b.age) / 60;
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const diffLecture = Math.abs(a.lecture - b.lecture);
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const diffMusique = Math.abs(a.musique - b.musique);
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const diffSport = (1 - Math.abs(a.sport - b.sport)) * Math.pow((a.sport + b.sport) / 2, 2);
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const diffEtudes = Math.abs(a.etudes - b.etudes) / 3;
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const diffRichesse = Math.abs(a.richesse - b.richesse) / 3;
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const similitude = 1 - (diffSexe * 2 + diffAge * 2 + diffLecture + diffMusique + diffSport * 4 + diffEtudes + diffRichesse) / 12;
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// Attachement préférentiel
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const degreeA = graph.degree(String(i)) + 1;
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const degreeB = graph.degree(String(j)) + 1;
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const pref = (degreeA + degreeB) / (2 * individus.length);
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// Fermeture triadique
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const neighborsA = new Set(graph.neighbors(String(i)));
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const neighborsB = new Set(graph.neighbors(String(j)));
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const common = [...neighborsA].filter((n) => neighborsB.has(n)).length;
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const triadic = Math.min(common / 3, 0.5);
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// Probabilité globale
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const p = p_similitude * similitude + p_pref * pref + p_triadic * triadic;
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const r = Math.random();
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//console.log(`${similitude} ${pref} ${triadic} ${p} (>${r})`);
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if (r < p) {
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individus[i].edges++;
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individus[j].edges++;
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graph.addEdge(String(i), String(j));
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updateSizes();
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}
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// ForceAtlas2 s’exécute par étapes
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if (graph.order % 10 === 0) {
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forceAtlas2.assign(graph, { iterations: 20, settings: { gravity: 0.1 } });
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sigma.refresh();
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await delay(40); // petit délai entre lots
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}
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}
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// Dernière stabilisation
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forceAtlas2.assign(graph, { iterations: 150, settings: { gravity: 0.1 } });
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sigma.refresh();
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}
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function delay(ms: number) {
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return new Promise((res) => setTimeout(res, ms));
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}
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