import * as React from "react" import { useState, useEffect, useRef, useMemo, useCallback } from "react" import { StyleProp, TextStyle, View, ViewStyle } from "react-native" import { observer } from "mobx-react-lite" import { color, typography } from "../../theme" import { Text } from "../" import { flatten } from "ramda" //import data from "../../data/miserables.json" //import genRandomTree from "../../data/randomdata"; //import rando from "../../data/rando.json" import { ForceGraph2D, ForceGraph3D, ForceGraphVR, ForceGraphAR } from "react-force-graph" import * as d3 from "d3-force" const CONTAINER: ViewStyle = { justifyContent: "center", } const TEXT: TextStyle = { fontFamily: typography.primary, fontSize: 14, color: color.primary, } export interface GraphProps { /** * An optional style override useful for padding & margin. */ style?: StyleProp physics gData } /** * Describe your component here */ export const Graph = observer(function Graph(props: GraphProps): JSX.Element { const { style, physics, gData } = props const styles = flatten([CONTAINER, style]) const fgRef = useRef() const GROUPS: number = 12 const NODE_R: number = 8 //const gData = genRandomTree(200); //const [charge, setCharge] = useState(-30); //const [link, setLink] = useState(-30); useEffect(() => { const fg = fgRef.current //fg.d3Force('center').strength(0.05); fg.d3Force("link").strength(physics.linkStrength) fg.d3Force("link").iterations(physics.linkIts) physics.collision ? fg.d3Force("collide", d3.forceCollide().radius(20)) : fg.d3Force("collide", null) fg.d3Force("charge").strength(physics.charge) }) // For the expandable version of the graph /* const rootId = 0 * const nodesById = useMemo(() => { * const nodesById = Object.fromEntries(gData.nodes.map((node) => [node.id, node])) */ // link parent/children /* gData.nodes.forEach((node) => { * node.collapsed = node.id !== rootId * node.childLinks = [] * node.parentLink = [] * }) * gData.links.forEach((link) => nodesById[link.source].childLinks.push(link)) * return nodesById }, [gData]) */ /* const getPrunedTree = useCallback(() => { * const visibleNodes = []; * const visibleLinks = []; * (function traverseTree(node = nodesById[rootId]) { * visibleNodes.push(node); * if (node.collapsed) return * visibleLinks.push(...node.childLinks) * node.childLinks * .map((link) => (typeof link.target === "object" ? link.target : nodesById[link.target])) // get child node * .forEach(traverseTree) * })() * return { nodes: visibleNodes, links: visibleLinks } * }, [nodesById]) * const [prunedTree, setPrunedTree] = useState(getPrunedTree()) * const handleNodeClick = useCallback((node) => { * node.collapsed = !node.collapsed // toggle collapse state * setPrunedTree(getPrunedTree()) * }, []); */ // Highlight Graph /** /* const data = useMemo(() => { * // cross-link node objects * rando.links.forEach(link => { * const a = rando.nodes[link.source]; * const b = rando.nodes[link.target]; * !a.neighbors && (a.neighbors = []); * !b.neighbors && (b.neighbors = []); * a.neighbors.push(b); * b.neighbors.push(a); * * !a.links && (a.links = []); * !b.links && (b.links = []); * a.links.push(link); * b.links.push(link); * }); * * return rando; * }, []); * const [highlightNodes, setHighlightNodes] = useState(new Set()); * const [highlightLinks, setHighlightLinks] = useState(new Set()); * const [hoverNode, setHoverNode] = useState(null); * * const updateHighlight = () => { * setHighlightNodes(highlightNodes); * setHighlightLinks(highlightLinks); * }; * * const handleNodeHover = node => { * highlightNodes.clear(); * highlightLinks.clear(); * if (node) { * highlightNodes.add(node); * node.neighbors.forEach(neighbor => highlightNodes.add(neighbor)); * node.links.forEach(link => highlightLinks.add(link)); * } * * setHoverNode(node || null); * updateHighlight(); * }; * * const handleLinkHover = link => { * highlightNodes.clear(); * highlightLinks.clear(); * * if (link) { * highlightLinks.add(link); * highlightNodes.add(link.source); * highlightNodes.add(link.target); * } * * updateHighlight(); * }; * * const paintRing = useCallback((node, ctx) => { * // add ring just for highlighted nodes * ctx.beginPath(); * ctx.arc(node.x, node.y, NODE_R * 1.4, 0, 2 * Math.PI, false); * ctx.fillStyle = node === hoverNode ? 'red' : 'orange'; * ctx.fill(); * }, [hoverNode]); */ /* autoPauseRedraw={false} linkWidth={link => highlightLinks.has(link) ? 5 : 1} linkDirectionalParticles={4} linkDirectionalParticleWidth={link => highlightLinks.has(link) ? 4 : 0} nodeCanvasObjectMode={node => highlightNodes.has(node) ? 'before' : undefined} nodeCanvasObject={paintRing} onNodeHover={handleNodeHover} onLinkHover={handleLinkHover} nodeRelSize={NODE_R} */ return ( {!physics.threedim ? ( d.id%GROUPS} //linkAutoColorBy={(d) => gData.nodes[d.source].id % GROUPS} linkColor="#ffffff" linkDirectionalParticles={physics.particles} //nodeColor={(node) => // !node.childLinks.length ? "green" : node.collapsed ? "red" : "yellow" //} //onNodeClick={!physics.collapse ? null : handleNodeClick} nodeLabel={(node) => node.title} //nodeVal ={(node)=> node.childLinks.length * 0.5 + 1} //d3VelocityDecay={visco} linkWidth={physics.linkWidth} linkOpacity={physics.linkOpacity} nodeRelSize={physics.nodeRel} linkDirectionalParticleWidth={physics.particleWidth} backgroundColor={"#ffffff"} /> ) : ( d.id%GROUPS} //linkAutoColorBy={(d) => gData.nodes[d.source].id % GROUPS} linkColor="#ffffff" linkWidth={2} linkDirectionalParticles={physics.particles} //nodeColor={(node) => // !node.childLinks.length ? "green" : node.collapsed ? "red" : "yellow" //} //onNodeClick={!physics.collapse ? null : handleNodeClick} //nodeVal={(node) => node.childLinks.length + 1} //d3VelocityDecay={visco} linkWidth={physics.linkWidth} linkOpacity={physics.linkOpacity} nodeRelSize={physics.nodeRel} linkDirectionalParticleWidth={physics.particleWidth} backgroundColor="#1d1d1d" /> )} ) })