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manifold/web/components/contract/contract-prob-graph.tsx
Marshall Polaris 5d8f5d41fc
Fix some efficiency problems with ContractProbGraph (#806) 
* Memoize bets input to ContractOverview

* Optimize a bunch of nonsense in `ContractProbGraph`
2022-08-27 01:09:17 -07:00

204 lines
5.9 KiB
TypeScript
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import { DatumValue } from '@nivo/core'
import { ResponsiveLine, SliceTooltipProps } from '@nivo/line'
import { BasicTooltip } from '@nivo/tooltip'
import dayjs from 'dayjs'
import { memo } from 'react'
import { Bet } from 'common/bet'
import { getInitialProbability } from 'common/calculate'
import { BinaryContract, PseudoNumericContract } from 'common/contract'
import { useWindowSize } from 'web/hooks/use-window-size'
import { formatLargeNumber } from 'common/util/format'
export const ContractProbGraph = memo(function ContractProbGraph(props: {
contract: BinaryContract | PseudoNumericContract
bets: Bet[]
height?: number
}) {
const { contract, height } = props
const { resolutionTime, closeTime, outcomeType } = contract
const now = Date.now()
const isBinary = outcomeType === 'BINARY'
const isLogScale = outcomeType === 'PSEUDO_NUMERIC' && contract.isLogScale
const bets = props.bets.filter((bet) => !bet.isAnte && !bet.isRedemption)
const startProb = getInitialProbability(contract)
const times = [contract.createdTime, ...bets.map((bet) => bet.createdTime)]
const f: (p: number) => number = isBinary
? (p) => p
: isLogScale
? (p) => p * Math.log10(contract.max - contract.min + 1)
: (p) => p * (contract.max - contract.min) + contract.min
const probs = [startProb, ...bets.map((bet) => bet.probAfter)].map(f)
const isClosed = !!closeTime && now > closeTime
const latestTime = dayjs(
resolutionTime && isClosed
? Math.min(resolutionTime, closeTime)
: isClosed
? closeTime
: resolutionTime ?? now
)
// Add a fake datapoint so the line continues to the right
times.push(latestTime.valueOf())
probs.push(probs[probs.length - 1])
const quartiles = [0, 25, 50, 75, 100]
const yTickValues = isBinary
? quartiles
: quartiles.map((x) => x / 100).map(f)
const { width } = useWindowSize()
const numXTickValues = !width || width < 800 ? 2 : 5
const startDate = dayjs(times[0])
const endDate = startDate.add(1, 'hour').isAfter(latestTime)
? latestTime.add(1, 'hours')
: latestTime
const includeMinute = endDate.diff(startDate, 'hours') < 2
// Minimum number of points for the graph to have. For smooth tooltip movement
// If we aren't actually loading any data yet, skip adding extra points to let page load faster
// This fn runs again once DOM is finished loading
const totalPoints = width && bets.length ? (width > 800 ? 300 : 50) : 1
const timeStep: number = latestTime.diff(startDate, 'ms') / totalPoints
const points: { x: Date; y: number }[] = []
const s = isBinary ? 100 : 1
for (let i = 0; i < times.length - 1; i++) {
const p = probs[i]
const d0 = times[i]
const d1 = times[i + 1]
const msDiff = d1 - d0
const numPoints = Math.floor(msDiff / timeStep)
points.push({ x: new Date(times[i]), y: s * p })
if (numPoints > 1) {
const thisTimeStep: number = msDiff / numPoints
for (let n = 1; n < numPoints; n++) {
points.push({ x: new Date(d0 + thisTimeStep * n), y: s * p })
}
}
}
const data = [
{ id: 'Yes', data: points, color: isBinary ? '#11b981' : '#5fa5f9' },
]
const multiYear = !startDate.isSame(latestTime, 'year')
const lessThanAWeek = startDate.add(8, 'day').isAfter(latestTime)
const formatter = isBinary
? formatPercent
: isLogScale
? (x: DatumValue) =>
formatLargeNumber(10 ** +x.valueOf() + contract.min - 1)
: (x: DatumValue) => formatLargeNumber(+x.valueOf())
return (
<div
className="w-full overflow-visible"
style={{ height: height ?? (!width || width >= 800 ? 350 : 250) }}
>
<ResponsiveLine
data={data}
yScale={
isBinary
? { min: 0, max: 100, type: 'linear' }
: isLogScale
? {
min: 0,
max: Math.log10(contract.max - contract.min + 1),
type: 'linear',
}
: { min: contract.min, max: contract.max, type: 'linear' }
}
yFormat={formatter}
gridYValues={yTickValues}
axisLeft={{
tickValues: yTickValues,
format: formatter,
}}
xScale={{
type: 'time',
min: startDate.toDate(),
max: endDate.toDate(),
}}
xFormat={(d) =>
formatTime(now, +d.valueOf(), multiYear, lessThanAWeek, lessThanAWeek)
}
axisBottom={{
tickValues: numXTickValues,
format: (time) =>
formatTime(now, +time, multiYear, lessThanAWeek, includeMinute),
}}
colors={{ datum: 'color' }}
curve="stepAfter"
enablePoints={false}
pointBorderWidth={1}
pointBorderColor="#fff"
enableSlices="x"
enableGridX={!!width && width >= 800}
enableArea
areaBaselineValue={isBinary || isLogScale ? 0 : contract.min}
margin={{ top: 20, right: 20, bottom: 25, left: 40 }}
animate={false}
sliceTooltip={SliceTooltip}
/>
</div>
)
})
const SliceTooltip = ({ slice }: SliceTooltipProps) => {
return (
<BasicTooltip
id={slice.points.map((point) => [
<span key="date">
<strong>{point.data[`yFormatted`]}</strong> {point.data['xFormatted']}
</span>,
])}
/>
)
}
function formatPercent(y: DatumValue) {
return `${Math.round(+y.toString())}%`
}
function formatTime(
now: number,
time: number,
includeYear: boolean,
includeHour: boolean,
includeMinute: boolean
) {
const d = dayjs(time)
if (d.add(1, 'minute').isAfter(now) && d.subtract(1, 'minute').isBefore(now))
return 'Now'
let format: string
if (d.isSame(now, 'day')) {
format = '[Today]'
} else if (d.add(1, 'day').isSame(now, 'day')) {
format = '[Yesterday]'
} else {
format = 'MMM D'
}
if (includeMinute) {
format += ', h:mma'
} else if (includeHour) {
format += ', ha'
} else if (includeYear) {
format += ', YYYY'
}
return d.format(format)
}
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