import { useCallback, useMemo, useState } from 'react' import { bisector } from 'd3-array' import { axisBottom, axisLeft } from 'd3-axis' import { D3BrushEvent } from 'd3-brush' import { ScaleTime, ScaleContinuousNumeric } from 'd3-scale' import { curveLinear, curveStepAfter, stack, stackOrderReverse, SeriesPoint, } from 'd3-shape' import { range } from 'lodash' import { SVGChart, AreaPath, AreaWithTopStroke, Point, TooltipComponent, formatPct, } from './helpers' import { useEvent } from 'web/hooks/use-event' export type MultiPoint = Point export type HistoryPoint = Point export type DistributionPoint = Point const getTickValues = (min: number, max: number, n: number) => { const step = (max - min) / (n - 1) return [min, ...range(1, n - 1).map((i) => min + step * i), max] } export const DistributionChart =

(props: { data: P[] w: number h: number color: string xScale: ScaleContinuousNumeric yScale: ScaleContinuousNumeric onMouseOver?: (p: P | undefined) => void Tooltip?: TooltipComponent

}) => { const { color, data, yScale, w, h, Tooltip } = props const [viewXScale, setViewXScale] = useState>() const xScale = viewXScale ?? props.xScale const px = useCallback((p: P) => xScale(p.x), [xScale]) const py0 = yScale(yScale.domain()[0]) const py1 = useCallback((p: P) => yScale(p.y), [yScale]) const xBisector = bisector((p: P) => p.x) const { xAxis, yAxis } = useMemo(() => { const xAxis = axisBottom(xScale).ticks(w / 100) const yAxis = axisLeft(yScale).tickFormat((n) => formatPct(n, 2)) return { xAxis, yAxis } }, [w, xScale, yScale]) const onSelect = useEvent((ev: D3BrushEvent

) => { if (ev.selection) { const [mouseX0, mouseX1] = ev.selection as [number, number] setViewXScale(() => xScale.copy().domain([xScale.invert(mouseX0), xScale.invert(mouseX1)]) ) } else { setViewXScale(undefined) } }) const onMouseOver = useEvent((mouseX: number) => { const queryX = xScale.invert(mouseX) const item = data[xBisector.left(data, queryX) - 1] const result = item ? { ...item, x: queryX } : undefined props.onMouseOver?.(result) return result }) return ( ) } export const MultiValueHistoryChart =

(props: { data: P[] w: number h: number colors: readonly string[] xScale: ScaleTime yScale: ScaleContinuousNumeric onMouseOver?: (p: P | undefined) => void Tooltip?: TooltipComponent

pct?: boolean }) => { const { colors, data, yScale, w, h, Tooltip, pct } = props const [viewXScale, setViewXScale] = useState>() const xScale = viewXScale ?? props.xScale type SP = SeriesPoint

const px = useCallback((p: SP) => xScale(p.data.x), [xScale]) const py0 = useCallback((p: SP) => yScale(p[0]), [yScale]) const py1 = useCallback((p: SP) => yScale(p[1]), [yScale]) const xBisector = bisector((p: P) => p.x) const { xAxis, yAxis } = useMemo(() => { const [min, max] = yScale.domain() const pctTickValues = getTickValues(min, max, h < 200 ? 3 : 5) const xAxis = axisBottom(xScale).ticks(w / 100) const yAxis = pct ? axisLeft(yScale) .tickValues(pctTickValues) .tickFormat((n) => formatPct(n)) : axisLeft(yScale) return { xAxis, yAxis } }, [w, h, pct, xScale, yScale]) const series = useMemo(() => { const d3Stack = stack() .keys(range(0, Math.max(...data.map(({ y }) => y.length)))) .value(({ y }, o) => y[o]) .order(stackOrderReverse) return d3Stack(data) }, [data]) const onSelect = useEvent((ev: D3BrushEvent

) => { if (ev.selection) { const [mouseX0, mouseX1] = ev.selection as [number, number] setViewXScale(() => xScale.copy().domain([xScale.invert(mouseX0), xScale.invert(mouseX1)]) ) } else { setViewXScale(undefined) } }) const onMouseOver = useEvent((mouseX: number) => { const queryX = xScale.invert(mouseX) const item = data[xBisector.left(data, queryX) - 1] const result = item ? { ...item, x: queryX } : undefined props.onMouseOver?.(result) return result }) return ( {series.map((s, i) => ( ))} ) } export const SingleValueHistoryChart =

(props: { data: P[] w: number h: number color: string xScale: ScaleTime yScale: ScaleContinuousNumeric onMouseOver?: (p: P | undefined) => void Tooltip?: TooltipComponent

pct?: boolean }) => { const { color, data, yScale, w, h, Tooltip, pct } = props const [viewXScale, setViewXScale] = useState>() const xScale = viewXScale ?? props.xScale const px = useCallback((p: P) => xScale(p.x), [xScale]) const py0 = yScale(yScale.domain()[0]) const py1 = useCallback((p: P) => yScale(p.y), [yScale]) const xBisector = bisector((p: P) => p.x) const { xAxis, yAxis } = useMemo(() => { const [min, max] = yScale.domain() const pctTickValues = getTickValues(min, max, h < 200 ? 3 : 5) const xAxis = axisBottom(xScale).ticks(w / 100) const yAxis = pct ? axisLeft(yScale) .tickValues(pctTickValues) .tickFormat((n) => formatPct(n)) : axisLeft(yScale) return { xAxis, yAxis } }, [w, h, pct, xScale, yScale]) const onSelect = useEvent((ev: D3BrushEvent

) => { if (ev.selection) { const [mouseX0, mouseX1] = ev.selection as [number, number] setViewXScale(() => xScale.copy().domain([xScale.invert(mouseX0), xScale.invert(mouseX1)]) ) } else { setViewXScale(undefined) } }) const onMouseOver = useEvent((mouseX: number) => { const queryX = xScale.invert(mouseX) const item = data[xBisector.left(data, queryX) - 1] const result = item ? { ...item, x: queryX } : undefined props.onMouseOver?.(result) return result }) return ( ) }