import React, { ComponentPropsWithoutRef, useEffect, useRef, useState, useMemo } from 'react'
import { usePersistantState } from '../util/persistant-state'
const d3promise = import('d3-force-3d')
import type {
ForceGraph2D as TForceGraph2D,
ForceGraph3D as TForceGraph3D,
} from 'react-force-graph'
import { OrgRoamGraphReponse, OrgRoamLink, OrgRoamNode } from '../api'
import { GraphData, NodeObject } from 'force-graph'
import { useWindowSize } from '@react-hook/window-size'
import { useAnimation } from '@lilib/hooks'
import { Button, Box, IconButton, useTheme } from '@chakra-ui/react'
import { SettingsIcon } from '@chakra-ui/icons'
import { initialPhysics, initialFilter } from '../components/config'
import { Tweaks } from '../components/tweaks'
// react-force-graph fails on import when server-rendered
// https://github.com/vasturiano/react-force-graph/issues/155
const ForceGraph2D = (
!!global.window ? require('react-force-graph').ForceGraph2D : null
) as typeof TForceGraph2D
const ForceGraph3D = (
!!global.window ? require('react-force-graph').ForceGraph3D : null
) as typeof TForceGraph3D
export type NodeById = { [nodeId: string]: OrgRoamNode | undefined }
export type LinksByNodeId = { [nodeId: string]: OrgRoamLink[] | undefined }
export type NodesByFile = { [file: string]: OrgRoamNode[] | undefined }
export type Scope = {
nodeIds: string[]
}
export default function Home() {
// only render on the client
const [showPage, setShowPage] = useState(false)
useEffect(() => {
setShowPage(true)
}, [])
if (!showPage) {
return null
}
return
}
export function GraphPage() {
const [physics, setPhysics] = usePersistantState('physics', initialPhysics)
const [filter, setFilter] = usePersistantState('filter', initialFilter)
const [graphData, setGraphData] = useState(null)
const [emacsNodeId, setEmacsNodeId] = useState(null)
const nodeByIdRef = useRef({})
const linksByNodeIdRef = useRef({})
const fetchGraphData = () => {
return fetch('http://localhost:35901/graph')
.then((res) => res.json())
.then((orgRoamGraphData: OrgRoamGraphReponse) => {
const nodesByFile = orgRoamGraphData.nodes.reduce((acc, node) => {
return {
...acc,
[node.file]: [...(acc[node.file] ?? []), node],
}
}, {})
const fileLinks: OrgRoamLink[] = Object.keys(nodesByFile).flatMap((file) => {
const nodesInFile = nodesByFile[file] ?? []
// "file node" as opposed to "heading node"
const fileNode = nodesInFile.find((node) => node.level === 0)
const headingNodes = nodesInFile.filter((node) => node.level !== 0)
if (!fileNode) {
return []
}
return headingNodes.map((headingNode) => ({
source: headingNode.id,
target: fileNode.id,
type: 'id',
}))
})
nodeByIdRef.current = Object.fromEntries(
orgRoamGraphData.nodes.map((node) => [node.id, node]),
)
const links = [...orgRoamGraphData.links, ...fileLinks]
linksByNodeIdRef.current = links.reduce((acc, link) => {
return {
...acc,
[link.source]: [...(acc[link.source] ?? []), link],
[link.target]: [...(acc[link.target] ?? []), link],
}
}, {})
const orgRoamGraphDataWithFileLinks = {
...orgRoamGraphData,
links,
}
// react-force-graph modifies the graph data implicitly,
// so we make sure there's no overlap between the objects we pass it and
// nodeByIdRef, linksByNodeIdRef
const orgRoamGraphDataClone = JSON.parse(JSON.stringify(orgRoamGraphDataWithFileLinks))
setGraphData(orgRoamGraphDataClone)
})
}
useEffect(() => {
const trackEmacs = new EventSource('http://127.0.0.1:35901/current-node-id')
trackEmacs.addEventListener('message', (e) => {
const emacsNodeId = e.data
setEmacsNodeId(emacsNodeId)
})
fetchGraphData()
}, [])
useEffect(() => {
if (!emacsNodeId) {
return
}
fetchGraphData()
}, [emacsNodeId])
const [threeDim, setThreeDim] = useState(false)
if (!graphData) {
return null
}
return (
)
}
export interface GraphProps {
nodeById: NodeById
linksByNodeId: LinksByNodeId
graphData: GraphData
physics: typeof initialPhysics
threeDim: boolean
filter: typeof initialFilter
emacsNodeId: string | null
}
export const Graph = function (props: GraphProps) {
const { physics, graphData, threeDim, linksByNodeId, filter, emacsNodeId, nodeById } = props
const graph2dRef = useRef(null)
const graph3dRef = useRef(null)
// react-force-graph does not track window size
// https://github.com/vasturiano/react-force-graph/issues/233
// does not work below a certain width
const [windowWidth, windowHeight] = useWindowSize()
const [hoverNode, setHoverNode] = useState(null)
const [scope, setScope] = useState({ nodeIds: [] })
useEffect(() => {
if (!emacsNodeId) {
return
}
switch (physics.follow) {
case 'Local':
setScope({ nodeIds: [emacsNodeId] })
break
case 'Zoom':
default:
}
}, [emacsNodeId])
const centralHighlightedNode = hoverNode
const highlightedNodes = useMemo(() => {
if (!centralHighlightedNode) {
return {}
}
const links = linksByNodeId[centralHighlightedNode.id!]
if (!links) {
return {}
}
return Object.fromEntries(
[
centralHighlightedNode.id! as string,
...links.flatMap((link) => [link.source, link.target]),
].map((nodeId) => [nodeId, {}]),
)
}, [centralHighlightedNode, linksByNodeId])
const filteredNodes = useMemo(() => {
return graphData.nodes.filter((node) => {
const links = linksByNodeId[node.id as string] ?? []
let showNode = true
if (filter.orphans) {
if (filter.parents) {
showNode = links.length !== 0
} else {
if (links.length === 0) {
showNode = false
} else {
if (
links.length -
links.filter((link) => link.type === 'parent' || link.type === 'cite').length ===
0
) {
showNode = false
}
}
}
}
return showNode
})
}, [filter, graphData.nodes, linksByNodeId])
const filteredLinks = useMemo(() => {
return graphData.links.filter((link) => {
// we need to cover both because force-graph modifies the original data
// but if we supply the original data on each render, the graph will re-render sporadically
//const sourceId = typeof link.source === 'object' ? link.source.id! : (link.source as string)
//const targetId = typeof link.target === 'object' ? link.target.id! : (link.target as string)
let showNode = true
if (!filter.parents && link.type === 'parent') {
showNode = false
}
return link.type !== 'cite' && showNode
})
}, [filter, JSON.stringify(graphData.links)])
const scopedNodes = useMemo(() => {
return filteredNodes.filter((node) => {
const links = linksByNodeId[node.id as string] ?? []
/* if (physics.orphans && links.length === 0) {
* return false
* } */
return (
scope.nodeIds.includes(node.id as string) ||
links.some((link) => {
return scope.nodeIds.includes(link.source) || scope.nodeIds.includes(link.target)
})
)
})
}, [filteredNodes, linksByNodeId, scope.nodeIds])
const scopedNodeIds = scopedNodes.map((node) => node.id as string)
const scopedLinks = useMemo(() => {
return filteredLinks.filter((link) => {
// we need to cover both because force-graph modifies the original data
// but if we supply the original data on each render, the graph will re-render sporadically
const sourceId = typeof link.source === 'object' ? link.source.id! : (link.source as string)
const targetId = typeof link.target === 'object' ? link.target.id! : (link.target as string)
return (
scopedNodeIds.includes(sourceId as string) && scopedNodeIds.includes(targetId as string)
)
})
}, [filteredLinks, scopedNodes])
const scopedGraphData = useMemo(
() =>
scope.nodeIds.length === 0
? { nodes: filteredNodes, links: filteredLinks }
: {
nodes: scopedNodes,
links: scopedLinks,
},
[filter, scope, JSON.stringify(Object.keys(nodeById))],
)
// make sure the camera position and zoom are fine when the list of nodes to render is changed
useEffect(() => {
// this setTimeout was added holistically because the behavior is better when we put
// zoomToFit off a little bit
setTimeout(() => {
const fg = threeDim ? graph3dRef.current : graph2dRef.current
fg?.zoomToFit(0, numbereWithinRange(20, 200, windowWidth / 8))
}, 1)
}, [JSON.stringify(scopedNodeIds)])
useEffect(() => {
;(async () => {
const fg = threeDim ? graph3dRef.current : graph2dRef.current
const d3 = await d3promise
if (physics.gravityOn) {
fg.d3Force('x', d3.forceX().strength(physics.gravity))
fg.d3Force('y', d3.forceY().strength(physics.gravity))
if (threeDim) {
if (physics.galaxy) {
fg.d3Force('x', d3.forceX().strength(physics.gravity / 5))
fg.d3Force('z', d3.forceZ().strength(physics.gravity / 5))
} else {
fg.d3Force('x', d3.forceX().strength(physics.gravity))
fg.d3Force('z', d3.forceZ().strength(physics.gravity))
}
} else {
fg.d3Force('z', null)
}
} else {
fg.d3Force('x', null)
fg.d3Force('y', null)
threeDim ? fg.d3Force('z', null) : null
}
physics.linkStrength && fg.d3Force('link').strength(physics.linkStrength)
physics.linkIts && fg.d3Force('link').iterations(physics.linkIts)
physics.charge && fg.d3Force('charge').strength(physics.charge)
fg.d3Force('collide', physics.collision ? d3.forceCollide().radius(20) : null)
})()
})
// Normally the graph doesn't update when you just change the physics parameters
// This forces the graph to make a small update when you do
useEffect(() => {
graph2dRef.current?.d3ReheatSimulation()
}, [physics])
//shitty handler to check for doubleClicks
const lastNodeClickRef = useRef(0)
const onNodeClick = (node: NodeObject, event: any) => {
const isDoubleClick = event.timeStamp - lastNodeClickRef.current < 400
lastNodeClickRef.current = event.timeStamp
if (isDoubleClick) {
window.open('org-protocol://roam-node?node=' + node.id, '_self')
return
}
setScope((currentScope) => ({
...currentScope,
nodeIds: [...currentScope.nodeIds, node.id as string],
}))
return
}
const [opacity, setOpacity] = useState(1)
const [fadeIn, cancel] = useAnimation((x) => setOpacity(x), {
duration: physics.animationSpeed,
algorithm: physics.algorithms[physics.algorithmName],
})
const [fadeOut] = useAnimation((x) => setOpacity(Math.min(opacity, -1 * (x - 1))), {
duration: physics.animationSpeed,
algorithm: physics.algorithms[physics.algorithmName],
})
const lastHoverNode = useRef()
useEffect(() => {
if (hoverNode) {
lastHoverNode.current = hoverNode
}
if (!physics.highlightAnim) {
return
}
if (hoverNode) {
fadeIn()
} else {
cancel()
opacity > 0.5 ? fadeOut() : setOpacity(0)
}
}, [hoverNode])
const theme = useTheme()
const graphCommonProps: ComponentPropsWithoutRef = {
graphData: scopedGraphData,
width: windowWidth,
height: windowHeight,
backgroundColor: theme.white,
nodeLabel: (node) => (node as OrgRoamNode).title,
nodeColor: (node) => {
if (!physics.colorful) {
if (!physics.highlightAnim) {
return Object.keys(highlightedNodes).length === 0
? highlightedNodes[node.id!]
? theme.colors.purple[500]
: theme.colors.gray[400]
: theme.colors.gray[500]
}
return Object.keys(highlightedNodes).length === 0
? lastHoverNode.current?.id! === node.id!
? theme.colors.purple['inter'](opacity)
: theme.colors.gray['inter'](opacity)
: highlightedNodes[node.id!]
? theme.colors.purple['inter'](opacity)
: theme.colors.gray['inter'](opacity)
}
if (node.id === emacsNodeId) {
return theme.colors['red'][500]
}
const palette = [
'pink',
'purple',
'blue',
'cyan',
'teal',
'green',
'yellow',
'orange',
'red',
].filter((color) => !['red'].includes(color))
// otherwise links with parents get shown as having one note
const linklen = linksByNodeId[node.id!]?.length ?? 0
const parentCiteNeighbors = linklen
? linksByNodeId[node.id]?.filter((link) => link.type === 'parent' || link.type === 'cite')
.length
: 0
const neighbors = filter.parents ? linklen : linklen - parentCiteNeighbors
return theme.colors[palette[numbereWithinRange(neighbors, 0, palette.length - 1)]][500]
},
nodeRelSize: physics.nodeRel,
nodeVal: (node) => {
const links = linksByNodeId[node.id!] ?? []
const parentNeighbors = links.length
? links.filter((link) => link.type === 'parent' || link.type === 'cite').length
: 0
const basicSize = 3 + links.length - (!filter.parents ? parentNeighbors : 0)
if (physics.highlightAnim) {
const wasNeighbor = (link) =>
link.source === lastHoverNode.current?.id! || link.target === lastHoverNode.current?.id!
const wasHighlightedNode = links.some(wasNeighbor)
const highlightSize = highlightedNodes[node.id!]
? 1 + opacity * (physics.highlightNodeSize - 1)
: lastHoverNode.current?.id! === node.id!
? 1 + opacity * (physics.highlightNodeSize - 1)
: wasHighlightedNode
? 1 + opacity * (physics.highlightNodeSize - 1)
: 1
return basicSize * highlightSize
} else {
const highlightSize = highlightedNodes[node.id!] ? physics.highlightNodeSize : 1
return basicSize * highlightSize
}
},
nodeCanvasObject: (node, ctx, globalScale) => {
if (!node) {
return
}
if (!physics.labels) {
return
}
const links = linksByNodeId[node.id!] ?? []
const wasHighlightedNode =
physics.highlightAnim &&
links.some(
(link) =>
link.source === lastHoverNode.current?.id! ||
link.target === lastHoverNode.current?.id!,
)
if (globalScale <= physics.labelScale && !highlightedNodes[node.id!] && !wasHighlightedNode) {
return
}
const nodeTitle = (node as OrgRoamNode).title!
const label = nodeTitle.substring(0, Math.min(nodeTitle.length, 30))
// const label = 'label'
const fontSize = 12 / globalScale
const textWidth = ctx.measureText(label).width
const bckgDimensions = [textWidth * 1.1, fontSize].map((n) => n + fontSize * 0.5) as [
number,
number,
] // some padding
const fadeFactor = Math.min((3 * (globalScale - physics.labelScale)) / physics.labelScale, 1)
// draw label background
const getLabelOpacity = () => {
if (physics.highlightAnim) {
if (globalScale <= physics.labelScale) {
return opacity
}
return Object.keys(highlightedNodes).length === 0
? lastHoverNode.current?.id! === node.id
? 1
: 1 * fadeFactor * (-1 * (0.5 * opacity - 1))
: highlightedNodes[node.id!] || wasHighlightedNode
? 1
: 1 * fadeFactor * (-1 * (0.5 * opacity - 1))
} else {
return Object.keys(highlightedNodes).length === 0
? 1 * fadeFactor
: highlightedNodes[node.id!]
? 1
: 1 * fadeFactor
}
}
const backgroundOpacity = 0.5 * getLabelOpacity()
ctx.fillStyle = `rgba(20, 20, 20, ${backgroundOpacity})`
ctx.fillRect(
node.x! - bckgDimensions[0] / 2,
node.y! - bckgDimensions[1] / 2,
...bckgDimensions,
)
// draw label text
const textOpacity = 2 * backgroundOpacity
ctx.textAlign = 'center'
ctx.textBaseline = 'middle'
ctx.fillStyle = `rgb(255, 255, 255, ${textOpacity})`
ctx.font = `${fontSize}px Sans-Serif`
ctx.fillText(label, node.x!, node.y!)
},
nodeCanvasObjectMode: () => 'after',
linkDirectionalParticles: physics.particles ? physics.particlesNumber : undefined,
linkColor: (link) => {
const linkIsHighlighted =
(link.source as NodeObject).id! === centralHighlightedNode?.id! ||
(link.target as NodeObject).id! === centralHighlightedNode?.id!
if (physics.highlightAnim) {
const linkWasHighlighted =
(link.source as NodeObject).id! === lastHoverNode.current?.id! ||
(link.target as NodeObject).id! === lastHoverNode.current?.id!
return linkIsHighlighted
? theme.colors.purple['inter'](opacity) /*the.colors.purple[500]*/
: linkWasHighlighted
? theme.colors.purple['inter'](opacity) /*the.colors.purple[500]*/
: theme.colors.gray[500]
} else {
return linkIsHighlighted ? theme.colors.purple[500] : theme.colors.gray[500]
}
},
linkWidth: (link) => {
const linkIsHighlighted =
(link.source as NodeObject).id! === centralHighlightedNode?.id! ||
(link.target as NodeObject).id! === centralHighlightedNode?.id!
if (!physics.highlightAnim) {
return linkIsHighlighted ? physics.linkWidth * physics.highlightLinkSize : physics.linkWidth
}
const linkWasHighlighted =
(link.source as NodeObject).id! === lastHoverNode.current?.id! ||
(link.target as NodeObject).id! === lastHoverNode.current?.id!
return linkIsHighlighted
? physics.linkWidth * (1 + opacity * (physics.highlightLinkSize - 1))
: linkWasHighlighted
? physics.linkWidth * (1 + opacity * (physics.highlightLinkSize - 1))
: physics.linkWidth
},
linkDirectionalParticleWidth: physics.particlesWidth,
d3AlphaDecay: physics.alphaDecay,
d3AlphaMin: physics.alphaMin,
d3VelocityDecay: physics.velocityDecay,
onNodeClick,
onBackgroundClick: () => {
setScope((currentScope) => ({
...currentScope,
nodeIds: [],
}))
},
onNodeHover: (node) => {
if (!physics.hover) {
return
}
setHoverNode(node)
},
}
return (
{threeDim ? (
) : (
)}
)
}
function numbereWithinRange(num: number, min: number, max: number) {
return Math.min(Math.max(num, min), max)
}